BLASTP 2.2.26 [Sep-21-2011]
Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer,
Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997),
"Gapped BLAST and PSI-BLAST: a new generation of protein database search
programs", Nucleic Acids Res. 25:3389-3402.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= psy12315
(120 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|1BG7|A Chain A, Localized Unfolding At The Junction Of Three Ferritin
Subunits. A Mechanism For Iron Release?
Length = 176
Score = 136 bits (342), Expect = 4e-33, Method: Compositional matrix adjust.
Identities = 65/110 (59%), Positives = 80/110 (72%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQVRQNFH + E IN+ +N+ELYASY YLSM+ +FDRD +AL ++K+FK S EE EH
Sbjct: 3 SQVRQNFHRDCEAAINRMVNMELYASYTYLSMAFYFDRDDIALHNVAKFFKEQSHEEREH 62
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A KL+K NKRGG + L DV+ P R EWG T EA ALQLEK VNQ ++
Sbjct: 63 AEKLMKDQNKRGGRIVLQDVQKPERDEWGNTLEAMQAALQLEKTVNQALL 112
>pdb|3SH6|A Chain A, Frog M-Ferritin, D122r Mutant, With Magnesium
Length = 176
Score = 135 bits (340), Expect = 5e-33, Method: Compositional matrix adjust.
Identities = 65/111 (58%), Positives = 80/111 (72%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
VSQVRQN+H++ E +N+ +NLELYASY Y SM A FDRD VAL ++++FK S EE E
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 63 HAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HA K +KY NKRGG + L D+K P R EWG T EA ALQLEK VNQ ++
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKPERDEWGNTLEAMQAALQLEKTVNQALL 112
>pdb|3KA6|A Chain A, Frog M-Ferritin, Eed Mutant, With Cobalt
Length = 176
Score = 135 bits (340), Expect = 5e-33, Method: Compositional matrix adjust.
Identities = 65/111 (58%), Positives = 80/111 (72%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
VSQVRQN+H++ E +N+ +NLELYASY Y SM A FDRD VAL ++++FK S EE E
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 63 HAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HA K +KY NKRGG + L D+K P R EWG T EA ALQLEK VNQ ++
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKPERDEWGNTLEAMQAALQLEKTVNQALL 112
>pdb|1MFR|A Chain A, Crystal Structure Of M Ferritin
pdb|1MFR|B Chain B, Crystal Structure Of M Ferritin
pdb|1MFR|C Chain C, Crystal Structure Of M Ferritin
pdb|1MFR|D Chain D, Crystal Structure Of M Ferritin
pdb|1MFR|E Chain E, Crystal Structure Of M Ferritin
pdb|1MFR|F Chain F, Crystal Structure Of M Ferritin
pdb|1MFR|G Chain G, Crystal Structure Of M Ferritin
pdb|1MFR|H Chain H, Crystal Structure Of M Ferritin
pdb|1MFR|I Chain I, Crystal Structure Of M Ferritin
pdb|1MFR|J Chain J, Crystal Structure Of M Ferritin
pdb|1MFR|K Chain K, Crystal Structure Of M Ferritin
pdb|1MFR|L Chain L, Crystal Structure Of M Ferritin
pdb|1MFR|M Chain M, Crystal Structure Of M Ferritin
pdb|1MFR|N Chain N, Crystal Structure Of M Ferritin
pdb|1MFR|O Chain O, Crystal Structure Of M Ferritin
pdb|1MFR|P Chain P, Crystal Structure Of M Ferritin
pdb|1MFR|Q Chain Q, Crystal Structure Of M Ferritin
pdb|1MFR|R Chain R, Crystal Structure Of M Ferritin
pdb|1MFR|S Chain S, Crystal Structure Of M Ferritin
pdb|1MFR|T Chain T, Crystal Structure Of M Ferritin
pdb|1MFR|U Chain U, Crystal Structure Of M Ferritin
pdb|1MFR|V Chain V, Crystal Structure Of M Ferritin
pdb|1MFR|W Chain W, Crystal Structure Of M Ferritin
pdb|1MFR|X Chain X, Crystal Structure Of M Ferritin
pdb|3KA3|A Chain A, Frog M-Ferritin With Magnesium
pdb|3KA4|A Chain A, Frog M-Ferritin With Cobalt
pdb|3RBC|A Chain A, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|B Chain B, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|C Chain C, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|D Chain D, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|E Chain E, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|F Chain F, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|G Chain G, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|H Chain H, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|I Chain I, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|J Chain J, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|K Chain K, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|L Chain L, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|M Chain M, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|N Chain N, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|O Chain O, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|P Chain P, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|Q Chain Q, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|R Chain R, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|S Chain S, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|T Chain T, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|U Chain U, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|V Chain V, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|W Chain W, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RBC|X Chain X, Bullfrog M Ferritin With Iron(Iii) Bound To The
Ferroxidase Site
pdb|3RE7|A Chain A, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|B Chain B, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|C Chain C, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|D Chain D, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|E Chain E, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|F Chain F, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|G Chain G, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|H Chain H, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|I Chain I, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|J Chain J, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|K Chain K, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|L Chain L, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|M Chain M, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|N Chain N, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|O Chain O, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|P Chain P, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|Q Chain Q, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|R Chain R, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|S Chain S, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|T Chain T, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|U Chain U, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|V Chain V, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|W Chain W, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RE7|X Chain X, Copper (Ii) Loaded Bullfrog Ferritin M Chain
pdb|3RGD|A Chain A, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|B Chain B, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|C Chain C, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|D Chain D, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|E Chain E, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|F Chain F, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|G Chain G, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|H Chain H, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|I Chain I, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|J Chain J, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|K Chain K, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|L Chain L, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|M Chain M, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|N Chain N, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|O Chain O, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|P Chain P, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|Q Chain Q, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|R Chain R, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|S Chain S, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|T Chain T, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|U Chain U, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|V Chain V, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|W Chain W, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|3RGD|X Chain X, Iron Loaded Frog M Ferritin. Short Soaking Time
pdb|4DAS|A Chain A, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|B Chain B, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|C Chain C, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|D Chain D, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|E Chain E, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|F Chain F, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|G Chain G, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|H Chain H, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|I Chain I, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|J Chain J, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|K Chain K, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|L Chain L, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|M Chain M, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|N Chain N, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|O Chain O, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|P Chain P, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|Q Chain Q, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|R Chain R, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|S Chain S, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|T Chain T, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|U Chain U, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|V Chain V, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|X Chain X, Crystal Structure Of Bullfrog M Ferritin
pdb|4DAS|W Chain W, Crystal Structure Of Bullfrog M Ferritin
Length = 176
Score = 135 bits (340), Expect = 6e-33, Method: Compositional matrix adjust.
Identities = 65/111 (58%), Positives = 80/111 (72%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
VSQVRQN+H++ E +N+ +NLELYASY Y SM A FDRD VAL ++++FK S EE E
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 63 HAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HA K +KY NKRGG + L D+K P R EWG T EA ALQLEK VNQ ++
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKPERDEWGNTLEAMQAALQLEKTVNQALL 112
>pdb|3KA8|A Chain A, Frog M-Ferritin, Eqh Mutant, With Cobalt
Length = 176
Score = 135 bits (340), Expect = 6e-33, Method: Compositional matrix adjust.
Identities = 65/111 (58%), Positives = 80/111 (72%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
VSQVRQN+H++ E +N+ +NLELYASY Y SM A FDRD VAL ++++FK S EE E
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 63 HAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HA K +KY NKRGG + L D+K P R EWG T EA ALQLEK VNQ ++
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKPERDEWGNTLEAMQAALQLEKTVNQALL 112
>pdb|3SHX|A Chain A, Frog M-Ferritin With Magnesium, L134p Mutant
Length = 176
Score = 135 bits (340), Expect = 6e-33, Method: Compositional matrix adjust.
Identities = 65/111 (58%), Positives = 80/111 (72%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
VSQVRQN+H++ E +N+ +NLELYASY Y SM A FDRD VAL ++++FK S EE E
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 63 HAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HA K +KY NKRGG + L D+K P R EWG T EA ALQLEK VNQ ++
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKPERDEWGNTLEAMQAALQLEKTVNQALL 112
>pdb|3KA9|A Chain A, Frog M-Ferritin, Eeh Mutant, With Cobalt
Length = 176
Score = 135 bits (340), Expect = 6e-33, Method: Compositional matrix adjust.
Identities = 65/111 (58%), Positives = 80/111 (72%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
VSQVRQN+H++ E +N+ +NLELYASY Y SM A FDRD VAL ++++FK S EE E
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 63 HAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HA K +KY NKRGG + L D+K P R EWG T EA ALQLEK VNQ ++
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKPERDEWGNTLEAMQAALQLEKTVNQALL 112
>pdb|3SE1|A Chain A, Frog M-Ferritin With Magnesium, R72d Mutant
Length = 176
Score = 132 bits (332), Expect = 4e-32, Method: Compositional matrix adjust.
Identities = 64/111 (57%), Positives = 79/111 (71%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
VSQVRQN+H++ E +N+ +NLELYASY Y SM A FDRD VAL ++++FK S EE E
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 63 HAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HA K +KY NK GG + L D+K P R EWG T EA ALQLEK VNQ ++
Sbjct: 62 HAEKFMKYQNKDGGRVVLQDIKKPERDEWGNTLEAMQAALQLEKTVNQALL 112
>pdb|3AJP|A Chain A, Crystal Structure Of Human H Ferritin E140a Mutant
Length = 182
Score = 130 bits (326), Expect = 2e-31, Method: Compositional matrix adjust.
Identities = 64/112 (57%), Positives = 80/112 (71%)
Query: 2 AVSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEES 61
+ SQVRQN+H ++E IN+QINLELYASYVYLSMS +FDRD VAL +KYF H S EE
Sbjct: 4 STSQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEER 63
Query: 62 EHAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
EHA KL+K N+RGG + L D+K P +W + A AL LEK+VNQ ++
Sbjct: 64 EHAEKLMKLQNQRGGRIFLQDIKKPDCDDWESGLNAMECALHLEKNVNQSLL 115
>pdb|3AJQ|A Chain A, Crystal Structure Of Human H Ferritin E140q Mutant
Length = 182
Score = 130 bits (326), Expect = 2e-31, Method: Compositional matrix adjust.
Identities = 64/112 (57%), Positives = 80/112 (71%)
Query: 2 AVSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEES 61
+ SQVRQN+H ++E IN+QINLELYASYVYLSMS +FDRD VAL +KYF H S EE
Sbjct: 4 STSQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEER 63
Query: 62 EHAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
EHA KL+K N+RGG + L D+K P +W + A AL LEK+VNQ ++
Sbjct: 64 EHAEKLMKLQNQRGGRIFLQDIKKPDCDDWESGLNAMECALHLEKNVNQSLL 115
>pdb|3AJO|A Chain A, Crystal Structure Of Wild-Type Human Ferritin H Chain
Length = 182
Score = 130 bits (326), Expect = 3e-31, Method: Compositional matrix adjust.
Identities = 64/112 (57%), Positives = 80/112 (71%)
Query: 2 AVSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEES 61
+ SQVRQN+H ++E IN+QINLELYASYVYLSMS +FDRD VAL +KYF H S EE
Sbjct: 4 STSQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEER 63
Query: 62 EHAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
EHA KL+K N+RGG + L D+K P +W + A AL LEK+VNQ ++
Sbjct: 64 EHAEKLMKLQNQRGGRIFLQDIKKPDCDDWESGLNAMECALHLEKNVNQSLL 115
>pdb|3ERZ|A Chain A, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
pdb|3ERZ|B Chain B, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
pdb|3ERZ|C Chain C, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
pdb|3ERZ|D Chain D, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
pdb|3ERZ|E Chain E, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
pdb|3ERZ|F Chain F, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
pdb|3ERZ|G Chain G, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
pdb|3ERZ|H Chain H, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
pdb|3ERZ|I Chain I, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
pdb|3ERZ|J Chain J, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
pdb|3ERZ|K Chain K, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
pdb|3ERZ|L Chain L, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. Mercury Ions On The Three-Fold Channel
Length = 183
Score = 129 bits (325), Expect = 3e-31, Method: Compositional matrix adjust.
Identities = 64/112 (57%), Positives = 80/112 (71%)
Query: 2 AVSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEES 61
+ SQVRQN+ ++E IN+QINLELYASYVYLSMS +FDRD VAL +KYF H S EE
Sbjct: 5 STSQVRQNYDQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEER 64
Query: 62 EHAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HA KL+K N+RGG + L D+K P R +W + A ALQLEK+VNQ ++
Sbjct: 65 CHAEKLMKLQNQRGGRIFLQDIKKPDRDDWESGLNAMEAALQLEKNVNQSLL 116
>pdb|2Z6M|A Chain A, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
pdb|2Z6M|B Chain B, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
pdb|2Z6M|C Chain C, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
pdb|2Z6M|D Chain D, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
pdb|2Z6M|E Chain E, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
pdb|2Z6M|F Chain F, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
pdb|2Z6M|G Chain G, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
pdb|2Z6M|H Chain H, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
pdb|2Z6M|I Chain I, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
pdb|2Z6M|J Chain J, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
pdb|2Z6M|K Chain K, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
pdb|2Z6M|L Chain L, Crystal Structure Of Human Ferritin H8 As Biotemplate For
Noble Metal Nanoparticle Synthesis
Length = 176
Score = 129 bits (325), Expect = 3e-31, Method: Compositional matrix adjust.
Identities = 64/112 (57%), Positives = 80/112 (71%)
Query: 2 AVSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEES 61
+ SQVRQN+ ++E IN+QINLELYASYVYLSMS +FDRD VAL +KYF H S EE
Sbjct: 4 STSQVRQNYDQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEER 63
Query: 62 EHAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HA KL+K N+RGG + L D+K P R +W + A ALQLEK+VNQ ++
Sbjct: 64 CHAEKLMKLQNQRGGRIFLQDIKKPDRDDWESGLNAMEAALQLEKNVNQSLL 115
>pdb|2CEI|A Chain A, Recombinant Human H Ferritin, K86q Mutant, Soaked With Zn
pdb|1FHA|A Chain A, Solving The Structure Of Human H Ferritin By Genetically
Engineering Intermolecular Crystal Contacts
pdb|2FHA|A Chain A, Human H Chain Ferritin
Length = 183
Score = 129 bits (323), Expect = 5e-31, Method: Compositional matrix adjust.
Identities = 63/112 (56%), Positives = 80/112 (71%)
Query: 2 AVSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEES 61
+ SQVRQN+H ++E IN+QINLELYASYVYLSMS +FDRD VAL +KYF H S EE
Sbjct: 5 STSQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEER 64
Query: 62 EHAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
EHA KL+K N+RGG + L D++ P +W + A AL LEK+VNQ ++
Sbjct: 65 EHAEKLMKLQNQRGGRIFLQDIQKPDCDDWESGLNAMECALHLEKNVNQSLL 116
>pdb|3ES3|A Chain A, Directing Noble Metal Ion Chemistry Within A Designed
Ferritin Protein. The Complex With Gold Ions. Ferritin
H8-H9x Mutant
Length = 183
Score = 128 bits (321), Expect = 8e-31, Method: Compositional matrix adjust.
Identities = 63/112 (56%), Positives = 80/112 (71%)
Query: 2 AVSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEES 61
+ SQVRQN+ ++E IN+QINLELYASYVYLSMS +FDRD VAL +KYF H S EE
Sbjct: 5 STSQVRQNYDQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEER 64
Query: 62 EHAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HA KL+K N+RGG + L D++ P R +W + A ALQLEK+VNQ ++
Sbjct: 65 CHAEKLMKLQNQRGGRIFLQDIQKPDRDDWESGLNAMEAALQLEKNVNQSLL 116
>pdb|1R03|A Chain A, Crystal Structure Of A Human Mitochondrial Ferritin
Length = 182
Score = 127 bits (320), Expect = 1e-30, Method: Compositional matrix adjust.
Identities = 61/110 (55%), Positives = 81/110 (73%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
S+VRQNFH ++E IN+QINLELYASYVYLSM+ +F RD VAL S+YF H S EE+EH
Sbjct: 6 SRVRQNFHPDSEAAINRQINLELYASYVYLSMAYYFSRDDVALNNFSRYFLHQSREETEH 65
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A KL++ N+RGG ++L D+K P + +W + A AL LEK+VNQ ++
Sbjct: 66 AEKLMRLQNQRGGRIRLQDIKKPEQDDWESGLHAMECALLLEKNVNQSLL 115
>pdb|2CHI|A Chain A, Recombinant Human H Ferritin, K86q And E27d Mutant
pdb|2CIH|A Chain A, Recombinant Human H Ferritin, K86q And E27d Mutant, Soaked
With Zn
Length = 183
Score = 127 bits (320), Expect = 1e-30, Method: Compositional matrix adjust.
Identities = 62/112 (55%), Positives = 80/112 (71%)
Query: 2 AVSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEES 61
+ SQVRQN+H ++E IN+QINL+LYASYVYLSMS +FDRD VAL +KYF H S EE
Sbjct: 5 STSQVRQNYHQDSEAAINRQINLDLYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEER 64
Query: 62 EHAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
EHA KL+K N+RGG + L D++ P +W + A AL LEK+VNQ ++
Sbjct: 65 EHAEKLMKLQNQRGGRIFLQDIQKPDCDDWESGLNAMECALHLEKNVNQSLL 116
>pdb|2CLU|A Chain A, Recombinant Human H Ferritin, K86q And E107d Mutant
pdb|2CN6|A Chain A, Recombinant Human H Ferritin, K86q And E107d Mutant,
Soaked With Zn Ions
Length = 183
Score = 127 bits (320), Expect = 1e-30, Method: Compositional matrix adjust.
Identities = 62/112 (55%), Positives = 80/112 (71%)
Query: 2 AVSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEES 61
+ SQVRQN+H ++E IN+QINLELYASYVYLSMS +FDRD VAL +KYF H S EE
Sbjct: 5 STSQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEER 64
Query: 62 EHAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
EHA KL+K N+RGG + L D++ P +W + A AL L+K+VNQ ++
Sbjct: 65 EHAEKLMKLQNQRGGRIFLQDIQKPDCDDWESGLNAMECALHLDKNVNQSLL 116
>pdb|2CN7|A Chain A, Recombinant Human H Ferritin, K86q, E27d And E107d Mutant
pdb|2IU2|A Chain A, Recombinant Human H Ferritin, K86q, E27d And E107d Mutant,
Soaked With Zn Ions
Length = 183
Score = 126 bits (317), Expect = 3e-30, Method: Compositional matrix adjust.
Identities = 61/112 (54%), Positives = 80/112 (71%)
Query: 2 AVSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEES 61
+ SQVRQN+H ++E IN+QINL+LYASYVYLSMS +FDRD VAL +KYF H S EE
Sbjct: 5 STSQVRQNYHQDSEAAINRQINLDLYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEER 64
Query: 62 EHAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
EHA KL+K N+RGG + L D++ P +W + A AL L+K+VNQ ++
Sbjct: 65 EHAEKLMKLQNQRGGRIFLQDIQKPDCDDWESGLNAMECALHLDKNVNQSLL 116
>pdb|1RCI|A Chain A, Bullfrog Red Cell L Ferritin TartrateMGPH 5.5
Length = 173
Score = 122 bits (306), Expect = 5e-29, Method: Compositional matrix adjust.
Identities = 56/110 (50%), Positives = 79/110 (71%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQVRQNFH + E +N+ +NL+ Y+SYVYLSM+++F+RD VAL +K+F+ S+EE EH
Sbjct: 3 SQVRQNFHQDCEAGLNRTVNLKFYSSYVYLSMASYFNRDDVALSNFAKFFRERSEEEKEH 62
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A KLI+Y N+RGG + L V+ P R +W EA AL+L+K VNQ ++
Sbjct: 63 AEKLIEYQNQRGGRVFLQSVEKPERDDWANGLEALQTALKLQKSVNQALL 112
>pdb|1RCD|A Chain A, Bullfrog Red Cell L Ferritin TartrateMGPH 5.5
pdb|1RCG|A Chain A, Bullfrog Red Cell L Ferritin SulfateMNPH 6.3
Length = 173
Score = 120 bits (300), Expect = 3e-28, Method: Compositional matrix adjust.
Identities = 55/110 (50%), Positives = 79/110 (71%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQVRQNFH + E +N+ +NL+ ++SYVYLSM+++F+RD VAL +K+F+ S+EE EH
Sbjct: 3 SQVRQNFHQDCEAGLNRTVNLKFHSSYVYLSMASYFNRDDVALSNFAKFFRERSEEEKEH 62
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A KLI+Y N+RGG + L V+ P R +W EA AL+L+K VNQ ++
Sbjct: 63 AEKLIEYQNQRGGRVFLQSVEKPERDDWANGLEALQTALKLQKSVNQALL 112
>pdb|4DYX|A Chain A, Crystal Structure Of The Cu-adduct Of Human H-ferritin
Variant 4his- Delta C-star
Length = 172
Score = 112 bits (281), Expect = 4e-26, Method: Compositional matrix adjust.
Identities = 64/111 (57%), Positives = 80/111 (72%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
SQVRQN+H ++E IN+QINLELYASYVYLSMS +FDRD VAL +KYF H S EE E
Sbjct: 1 TSQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFHHQSHEEHE 60
Query: 63 HAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HAHKL+K N+RGG + L D++ P +W + A AL LEK+VNQ ++
Sbjct: 61 HAHKLMKLQNQRGGRIFLQDIQKPDEDDWESGLNAMEAALHLEKNVNQSLL 111
>pdb|1RCC|A Chain A, Bullfrog Red Cell L Ferritin TartrateMGPH 5.5
pdb|1RCE|A Chain A, Bullfrog Red Cell L Ferritin SulfateMNPH 6.3
Length = 173
Score = 112 bits (279), Expect = 7e-26, Method: Compositional matrix adjust.
Identities = 52/110 (47%), Positives = 75/110 (68%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQVRQNFH + E +N+ +NL+ ++SYVYLSM+++F+RD VAL +K+F+ S H
Sbjct: 3 SQVRQNFHQDCEAGLNRTVNLKFHSSYVYLSMASYFNRDDVALSNFAKFFRERSAAAKAH 62
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A KLI+Y N+RGG + L V+ P R +W EA AL+L+K VNQ ++
Sbjct: 63 AEKLIEYQNQRGGRVFLQSVEKPERDDWANGLEALQTALKLQKSVNQALL 112
>pdb|1H96|A Chain A, Recombinant Mouse L-Chain Ferritin
pdb|1LB3|A Chain A, Structure Of Recombinant Mouse L Chain Ferritin At 1.2 A
Resolution
Length = 182
Score = 110 bits (276), Expect = 2e-25, Method: Compositional matrix adjust.
Identities = 49/111 (44%), Positives = 74/111 (66%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
SQ+RQN+ E E +N+ +NL L ASY YLS+ FDRD VAL G+ +F+ ++E+ E
Sbjct: 1 TSQIRQNYSTEVEAAVNRLVNLHLRASYTYLSLGFFFDRDDVALEGVGHFFRELAEEKRE 60
Query: 63 HAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+++ N RGG DV+ P++ EWG T+EA AL +EK++NQ ++
Sbjct: 61 GAERLLEFQNDRGGRALFQDVQKPSQDEWGKTQEAMEAALAMEKNLNQALL 111
>pdb|2ZG8|X Chain X, Crystal Structure Of Pd(Allyl)APO-H49afr
pdb|3FI6|A Chain A, Apo-H49afr With High Content Of Pd Ions
pdb|3O7R|A Chain A, Crystal Structure Of Ru(P-Cymene)APO-H49afr
Length = 174
Score = 110 bits (274), Expect = 3e-25, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 74/110 (67%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ ++E+ E
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCAFFRELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTPDAMKAAIVLEKSLNQALL 111
>pdb|2ZG9|X Chain X, Crystal Structure Of Pd(Allyl)APO-H114afr
Length = 174
Score = 109 bits (273), Expect = 3e-25, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 74/110 (67%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ ++E+ E
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTPDAMKAAIVLEKSLNQALL 111
>pdb|2G4H|A Chain A, Anomalous Substructure Of Apoferritin
pdb|1AEW|A Chain A, L-Chain Horse Apoferritin
pdb|1DAT|A Chain A, Cubic Crystal Structure Recombinant Horse L Apoferritin
pdb|2Z5P|A Chain A, Apo-fr With Low Content Of Pd Ions
pdb|3H7G|A Chain A, Apo-Fr With Au Ions
Length = 174
Score = 109 bits (272), Expect = 4e-25, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 74/110 (67%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ ++E+ E
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTPDAMKAAIVLEKSLNQALL 111
>pdb|2ZA6|A Chain A, Recombinant Horse L-Chain Apoferritin
pdb|2V2I|A Chain A, Wild Type Recombinant Horse Spleen Apoferritin
Cocrystallized With Haemin In Acidic Conditions
pdb|2V2J|A Chain A, Wild Type Recombinant Horse Spleen Apoferritin
Cocrystallized With Haemin In Basic Conditions
Length = 175
Score = 109 bits (272), Expect = 4e-25, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 74/110 (67%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ ++E+ E
Sbjct: 3 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREG 62
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 63 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTPDAMKAAIVLEKSLNQALL 112
>pdb|2V2N|A Chain A, Mutant R59m Recombinant Horse Spleen Apoferritin
Cocrystallized With Haemin In Acidic Conditions
pdb|2V2O|A Chain A, Mutant R59m Recombinant Horse Spleen Apoferritin
Cocrystallized With Haemin In Basic Conditions
pdb|2V2S|A Chain A, Mutant R59m Recombinant Horse Spleen Apoferritin
Crystallized In Acidic Conditions
Length = 174
Score = 109 bits (272), Expect = 5e-25, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 74/110 (67%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ ++E+ E
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKMEG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTPDAMKAAIVLEKSLNQALL 111
>pdb|2GYD|A Chain A, Complex Of Equine Apoferritin With The H-Diaziflurane
Photolabeling Reagent
Length = 170
Score = 109 bits (272), Expect = 5e-25, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 74/110 (67%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ ++E+ E
Sbjct: 1 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREG 60
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 61 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTLDAMKAAIVLEKSLNQALL 110
>pdb|3NP2|X Chain X, Crystal Structure Of Pd(Allyl)APO-E45cC48A-Rhlfr
Length = 174
Score = 108 bits (271), Expect = 5e-25, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 75/110 (68%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G++ +F+ ++E+ E
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALCGVAHFFRELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTLDAMKAAIVLEKSLNQALL 111
>pdb|3AF9|X Chain X, Crystal Structure Of Pd(Allyl)APO-C48afr
Length = 174
Score = 108 bits (271), Expect = 6e-25, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 75/110 (68%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G++ +F+ ++E+ E
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVAHFFRELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTLDAMKAAIVLEKSLNQALL 111
>pdb|1IES|A Chain A, Tetragonal Crystal Structure Of Native Horse Spleen
Ferritin
pdb|1IES|B Chain B, Tetragonal Crystal Structure Of Native Horse Spleen
Ferritin
pdb|1IES|C Chain C, Tetragonal Crystal Structure Of Native Horse Spleen
Ferritin
pdb|1IES|D Chain D, Tetragonal Crystal Structure Of Native Horse Spleen
Ferritin
pdb|1IES|E Chain E, Tetragonal Crystal Structure Of Native Horse Spleen
Ferritin
pdb|1IES|F Chain F, Tetragonal Crystal Structure Of Native Horse Spleen
Ferritin
pdb|1GWG|A Chain A, Tri-Iodide Derivative Of Apoferritin
pdb|1XZ1|A Chain A, Complex Of Halothane With Apoferritin
pdb|1XZ3|A Chain A, Complex Of Apoferritin With Isoflurane
pdb|1HRS|A Chain A, A Crystallographic Study Of Haem Binding To Ferritin
pdb|1IER|A Chain A, Cubic Crystal Structure Of Native Horse Spleen Ferritin
pdb|2Z5Q|A Chain A, Apo-Fr With Intermediate Content Of Pd Ion
pdb|2Z5R|A Chain A, Apo-Fr With High Content Of Pd Ions
pdb|2W0O|A Chain A, Horse Spleen Apoferritin
pdb|2ZG7|X Chain X, Crystal Structure Of Pd(Allyl)APO-Fr
pdb|3F32|A Chain A, Horse Spleen Apoferritin
pdb|3F33|A Chain A, Apoferritin: Complex With Propofol
pdb|3F34|A Chain A, Apoferritin: Complex With 2,6-Diethylphenol
pdb|3F35|A Chain A, Apoferritin: Complex With 2,6-Diethylphenol
pdb|3F36|A Chain A, Apoferritin: Complex With 2-Isopropylphenol
pdb|3F37|A Chain A, Apoferritin: Complex With 2,6-Dimethylphenol
pdb|3F38|A Chain A, Apoferritin: Complex With 2,6-Dimethylphenol
pdb|3F39|A Chain A, Apoferritin: Complex With Phenol
pdb|3AF7|X Chain X, Crystal Structure Of 25pd(Allyl)APO-Fr
pdb|3O7S|A Chain A, Crystal Structure Of Ru(P-Cymene)APO-Fr
pdb|3RAV|A Chain A, Horse Spleen Apo-Ferritin With Bound Pentobarbital
pdb|3RD0|A Chain A, Horse Spleen Apo-Ferritin With Bound Thiopental
pdb|4DE6|A Chain A, Horse Spleen Apo-Ferritin Complex With Arachidonic Acid
pdb|3U90|A Chain A, Apoferritin: Complex With Sds
Length = 174
Score = 108 bits (271), Expect = 6e-25, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 74/110 (67%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ ++E+ E
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTLDAMKAAIVLEKSLNQALL 111
>pdb|3AF8|X Chain X, Crystal Structure Of Pd(Ally)APO-C126afr
Length = 174
Score = 108 bits (270), Expect = 7e-25, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 74/110 (67%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ ++E+ E
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTLDAMKAAIVLEKSLNQALL 111
>pdb|2ZUR|X Chain X, Crystal Structure Of Rh(Nbd)APO-Fr
Length = 174
Score = 108 bits (269), Expect = 1e-24, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 74/110 (67%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ ++E+ E
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVXHFFRELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTLDAMKAAIVLEKSLNQALL 111
>pdb|3NP0|X Chain X, Crystal Structure Of Pd(Allyl)APO-E45cH49AR52H-Rhlfr
Length = 174
Score = 107 bits (268), Expect = 1e-24, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 73/110 (66%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F ++E+ E
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALCGVCAFFHELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTLDAMKAAIVLEKSLNQALL 111
>pdb|3HX2|A Chain A, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|AA Chain a, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|B Chain B, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|BB Chain b, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|C Chain C, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|CC Chain c, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|D Chain D, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|DD Chain d, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|E Chain E, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|EE Chain e, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|F Chain F, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|FF Chain f, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|G Chain G, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|GG Chain g, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|H Chain H, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|HH Chain h, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|I Chain I, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|II Chain i, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|J Chain J, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|JJ Chain j, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|K Chain K, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|KK Chain k, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|L Chain L, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|LL Chain l, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|M Chain M, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|MM Chain m, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|N Chain N, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|NN Chain n, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|O Chain O, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|OO Chain o, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|P Chain P, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|PP Chain p, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|Q Chain Q, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|QQ Chain q, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|R Chain R, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|RR Chain r, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|S Chain S, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|SS Chain s, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|T Chain T, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|TT Chain t, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|U Chain U, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|UU Chain u, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|V Chain V, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|VV Chain v, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|W Chain W, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|WW Chain w, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|X Chain X, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX2|XX Chain x, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 13 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 1 And 2 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|A Chain A, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|AA Chain a, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|B Chain B, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|BB Chain b, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|C Chain C, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|CC Chain c, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|D Chain D, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|DD Chain d, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|E Chain E, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|EE Chain e, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|F Chain F, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|FF Chain f, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|G Chain G, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|GG Chain g, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|H Chain H, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|HH Chain h, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|I Chain I, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|II Chain i, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|J Chain J, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|JJ Chain j, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|K Chain K, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|KK Chain k, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|L Chain L, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|LL Chain l, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|M Chain M, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|MM Chain m, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|N Chain N, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|NN Chain n, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|O Chain O, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|OO Chain o, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|P Chain P, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|PP Chain p, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|Q Chain Q, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|QQ Chain q, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|R Chain R, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|RR Chain r, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|S Chain S, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|SS Chain s, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|T Chain T, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|TT Chain t, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|U Chain U, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|UU Chain u, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|V Chain V, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|VV Chain v, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|W Chain W, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|WW Chain w, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|X Chain X, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX5|XX Chain x, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 23 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 3 And 4 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|A Chain A, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|AA Chain a, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|B Chain B, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|BB Chain b, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|C Chain C, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|CC Chain c, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|D Chain D, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|DD Chain d, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|E Chain E, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|EE Chain e, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|F Chain F, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|FF Chain f, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|G Chain G, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|GG Chain g, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|H Chain H, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|HH Chain h, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|I Chain I, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|II Chain i, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|J Chain J, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|JJ Chain j, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|K Chain K, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|KK Chain k, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|L Chain L, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|LL Chain l, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|M Chain M, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|MM Chain m, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|N Chain N, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|NN Chain n, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|O Chain O, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|OO Chain o, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|P Chain P, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|PP Chain p, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|Q Chain Q, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|QQ Chain q, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|R Chain R, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|RR Chain r, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|S Chain S, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|SS Chain s, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|T Chain T, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|TT Chain t, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|U Chain U, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|UU Chain u, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|V Chain V, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|VV Chain v, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|W Chain W, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|WW Chain w, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|X Chain X, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
pdb|3HX7|XX Chain x, Crystal Structure Of Human Ferritin Phe167serfsx26 Mutant.
This File Is A Part 33 OF THE SPLIT ENTRY AND CONTAINS
THE Copies 5 And 6 Of The Total Six Copies Of The
Biological Unit That Are Present In The Crystallographic
Asymmetric Unit. The Entire Structure Contains Six
Copies Of The Biological Unit In The Crystallographic
Asymmetric Unit And Is Described In Remark 400
Length = 192
Score = 107 bits (266), Expect = 2e-24, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 71/110 (64%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ + E +N +NL L ASY YLS+ +FDRD VAL G+S +F+ ++E+ E
Sbjct: 4 SQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREG 63
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
+L+K N+RGG D+K PA EWG T +A A+ LEK +NQ ++
Sbjct: 64 YERLLKMQNQRGGRALFQDIKKPAEDEWGKTPDAMKAAMALEKKLNQALL 113
>pdb|3NOZ|X Chain X, Crystal Structure Of Pd(Allyl)APO-E45cR52H-Rhlfr
Length = 174
Score = 107 bits (266), Expect = 2e-24, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 73/110 (66%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F ++E+ E
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALCGVCHFFHELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTLDAMKAAIVLEKSLNQALL 111
>pdb|4DYY|A Chain A, Crystal Structure Of The Cu-adduct Of Human H-ferritin
Variant Mic1
pdb|4DYZ|A Chain A, Crystal Structure Of The Apo Form Of Human H-ferritin
Variant Mic1
Length = 172
Score = 107 bits (266), Expect = 2e-24, Method: Compositional matrix adjust.
Identities = 62/111 (55%), Positives = 78/111 (70%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
SQVRQN+H ++E IN+QINLELYASYVYLSMS +FDRD VAL +KYF H S EE E
Sbjct: 1 TSQVRQNYHQDSEAAINRQINLELYASYVYLSMSEYFDRDDVALKNFAKYFHHQSHEEHE 60
Query: 63 HAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HAHKL+K +RGG + L D++ +W + A AL LEK+VNQ ++
Sbjct: 61 HAHKLMKLQEQRGGRIFLQDIQKADEDDWESGLNAMEAALHLEKNVNQSLL 111
>pdb|3KXU|A Chain A, Crystal Structure Of Human Ferritin Ftl498instc Pathogenic
M
Length = 191
Score = 107 bits (266), Expect = 2e-24, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 71/110 (64%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ + E +N +NL L ASY YLS+ +FDRD VAL G+S +F+ ++E+ E
Sbjct: 3 SQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREG 62
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
+L+K N+RGG D+K PA EWG T +A A+ LEK +NQ ++
Sbjct: 63 YERLLKMQNQRGGRALFQDIKKPAEDEWGKTPDAMKAAMALEKKLNQALL 112
>pdb|2V2L|A Chain A, Mutant (E53,56,57,60q) Recombinant Horse Spleen
Apoferritin Cocrystallized With Haemin In Acidic
Conditions
pdb|2V2M|A Chain A, Mutant (E53,56,57,60q) Recombinant Horse Spleen
Apoferritin Cocrystallized With Haemin In Basic
Conditions
Length = 174
Score = 106 bits (265), Expect = 3e-24, Method: Compositional matrix adjust.
Identities = 47/110 (42%), Positives = 73/110 (66%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ + ++ +
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRQLAQQKRQG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTPDAMKAAIVLEKSLNQALL 111
>pdb|2V2P|A Chain A, Mutant (E53,56,57,60q And R59m) Recombinant Horse Spleen
Apoferritin Cocrystallized With Haemin In Acidic
Conditions
pdb|2V2R|A Chain A, Mutant (E53,56,57,60q And R59m) Recombinant Horse Spleen
Apoferritin Cocrystallized With Haemin In Basic
Conditions
Length = 174
Score = 106 bits (265), Expect = 3e-24, Method: Compositional matrix adjust.
Identities = 47/110 (42%), Positives = 73/110 (66%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ + ++ +
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRQLAQQKMQG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
A +L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 62 AERLLKMQNQRGGRALFQDLQKPSQDEWGTTPDAMKAAIVLEKSLNQALL 111
>pdb|2FG4|A Chain A, Structure Of Human Ferritin L Chain
pdb|2FG8|A Chain A, Structure Of Human Ferritin L Chain
pdb|2FG8|B Chain B, Structure Of Human Ferritin L Chain
pdb|2FG8|C Chain C, Structure Of Human Ferritin L Chain
pdb|2FG8|D Chain D, Structure Of Human Ferritin L Chain
pdb|2FG8|E Chain E, Structure Of Human Ferritin L Chain
pdb|2FG8|F Chain F, Structure Of Human Ferritin L Chain
pdb|2FG8|G Chain G, Structure Of Human Ferritin L Chain
pdb|2FG8|H Chain H, Structure Of Human Ferritin L Chain
Length = 174
Score = 106 bits (265), Expect = 3e-24, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 71/110 (64%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ + E +N +NL L ASY YLS+ +FDRD VAL G+S +F+ ++E+ E
Sbjct: 2 SQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
+L+K N+RGG D+K PA EWG T +A A+ LEK +NQ ++
Sbjct: 62 YERLLKMQNQRGGRALFQDIKKPAEDEWGKTPDAMKAAMALEKKLNQALL 111
>pdb|2FFX|J Chain J, Structure Of Human Ferritin L. Chain
Length = 173
Score = 106 bits (265), Expect = 3e-24, Method: Compositional matrix adjust.
Identities = 49/110 (44%), Positives = 71/110 (64%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
SQ+RQN+ + E +N +NL L ASY YLS+ +FDRD VAL G+S +F+ ++E+ E
Sbjct: 2 SQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREG 61
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
+L+K N+RGG D+K PA EWG T +A A+ LEK +NQ ++
Sbjct: 62 YERLLKMQNQRGGRALFQDIKKPAEDEWGKTPDAMKAAMALEKKLNQALL 111
>pdb|2ZA7|A Chain A, Recombinant Horse L-Chain Apoferritin N-Terminal Deletion
Mutant (Residues 1-4)
Length = 171
Score = 105 bits (263), Expect = 5e-24, Method: Compositional matrix adjust.
Identities = 47/108 (43%), Positives = 72/108 (66%)
Query: 6 VRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAH 65
+RQN+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ ++E+ E A
Sbjct: 1 IRQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREGAE 60
Query: 66 KLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
+L+K N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 61 RLLKMQNQRGGRALFQDLQKPSQDEWGTTPDAMKAAIVLEKSLNQALL 108
>pdb|4DZ0|A Chain A, Crystal Structure Of The Cu-adduct Of Human H-ferritin
Variant Mic1 Labeled With A Dansyl Fluorophore
Length = 172
Score = 104 bits (260), Expect = 1e-23, Method: Compositional matrix adjust.
Identities = 61/111 (54%), Positives = 77/111 (69%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
SQVRQN+H ++E IN+QINLELYASYVYLSMS +FDRD VAL + YF H S EE E
Sbjct: 1 TSQVRQNYHQDSEAAINRQINLELYASYVYLSMSEYFDRDDVALKNFACYFHHQSHEEHE 60
Query: 63 HAHKLIKYLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
HAHKL+K +RGG + L D++ +W + A AL LEK+VNQ ++
Sbjct: 61 HAHKLMKLQEQRGGRIFLQDIQKADEDDWESGLNAMEAALHLEKNVNQSLL 111
>pdb|2ZA8|A Chain A, Recombinant Horse L-Chain Apoferritin N-Terminal Deletion
Mutant (Residues 1-8)
Length = 167
Score = 97.8 bits (242), Expect = 1e-21, Method: Compositional matrix adjust.
Identities = 44/104 (42%), Positives = 68/104 (65%)
Query: 10 FHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIK 69
+ E E +N+ +NL L ASY YLS+ +FDRD VAL G+ +F+ ++E+ E A +L+K
Sbjct: 1 YSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREGAERLLK 60
Query: 70 YLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVII 113
N+RGG D++ P++ EWGTT +A A+ LEK +NQ ++
Sbjct: 61 MQNQRGGRALFQDLQKPSQDEWGTTPDAMKAAIVLEKSLNQALL 104
>pdb|3A9Q|A Chain A, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|B Chain B, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|C Chain C, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|D Chain D, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|E Chain E, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|F Chain F, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|G Chain G, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|H Chain H, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|I Chain I, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|J Chain J, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|K Chain K, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|L Chain L, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|M Chain M, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|N Chain N, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|O Chain O, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|P Chain P, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|Q Chain Q, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|R Chain R, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|S Chain S, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|T Chain T, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|U Chain U, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|V Chain V, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|W Chain W, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
pdb|3A9Q|X Chain X, Crystal Structure Analysis Of E173a Variant Of The Soybean
Ferritin Sfer4
Length = 212
Score = 94.0 bits (232), Expect = 2e-20, Method: Compositional matrix adjust.
Identities = 52/114 (45%), Positives = 72/114 (63%), Gaps = 4/114 (3%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
S RQ + E+E +N+QIN+E SYVY +M A+FDRD VAL G++K+FK +S+EE EH
Sbjct: 35 SLARQKYVDESESAVNEQINVEYNVSYVYHAMFAYFDRDNVALRGLAKFFKESSEEEREH 94
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQ----EWGTTEEAFSHALQLEKDVNQVII 113
A KL++Y NKRGG +KL + P + G A AL LEK N+ ++
Sbjct: 95 AEKLMEYQNKRGGKVKLQSIVMPLSDFDHADKGDALHAMELALSLEKLTNEKLL 148
>pdb|3A68|A Chain A, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|B Chain B, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|C Chain C, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|D Chain D, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|E Chain E, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|F Chain F, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|G Chain G, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|H Chain H, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|I Chain I, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|J Chain J, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|K Chain K, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|L Chain L, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|M Chain M, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|N Chain N, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|O Chain O, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|P Chain P, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|Q Chain Q, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|R Chain R, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|S Chain S, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|T Chain T, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|U Chain U, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|V Chain V, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|W Chain W, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
pdb|3A68|X Chain X, Crystal Structure Of Plant Ferritin Reveals A Novel Metal
Binding Site That Functions As A Transit Site For Metal
Transfer In Ferritin
Length = 212
Score = 94.0 bits (232), Expect = 2e-20, Method: Compositional matrix adjust.
Identities = 52/114 (45%), Positives = 72/114 (63%), Gaps = 4/114 (3%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
S RQ + E+E +N+QIN+E SYVY +M A+FDRD VAL G++K+FK +S+EE EH
Sbjct: 35 SLARQKYVDESESAVNEQINVEYNVSYVYHAMFAYFDRDNVALRGLAKFFKESSEEEREH 94
Query: 64 AHKLIKYLNKRGGTLKLVDVKAPARQ----EWGTTEEAFSHALQLEKDVNQVII 113
A KL++Y NKRGG +KL + P + G A AL LEK N+ ++
Sbjct: 95 AEKLMEYQNKRGGKVKLQSIVMPLSDFDHADKGDALHAMELALSLEKLTNEKLL 148
>pdb|3VNX|A Chain A, Crystal Structure Of Ferritin From Multicellular Green
Algae, Ulva Pertusa
Length = 204
Score = 93.2 bits (230), Expect = 3e-20, Method: Compositional matrix adjust.
Identities = 51/107 (47%), Positives = 65/107 (60%), Gaps = 4/107 (3%)
Query: 4 SQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEH 63
S R +H E E IN+QIN+E SYVY ++ ++F RD V LPG +K+FK ASDEE EH
Sbjct: 30 SYARVEYHIECEAAINEQINIEYTISYVYHALHSYFARDNVGLPGFAKFFKEASDEEREH 89
Query: 64 AHKLIKYLNKRGGTLKLVDVKAP----ARQEWGTTEEAFSHALQLEK 106
AH L+ Y KRGG ++L + AP A + G A AL LEK
Sbjct: 90 AHMLMDYQTKRGGRVELKPLAAPEMEFANDDKGEALYAMELALSLEK 136
>pdb|1Z6O|M Chain M, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|N Chain N, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|O Chain O, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|P Chain P, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|Q Chain Q, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|R Chain R, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|S Chain S, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|T Chain T, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|U Chain U, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|V Chain V, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|W Chain W, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|X Chain X, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
Length = 191
Score = 85.5 bits (210), Expect = 6e-18, Method: Compositional matrix adjust.
Identities = 45/107 (42%), Positives = 59/107 (55%), Gaps = 4/107 (3%)
Query: 10 FHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIK 69
H + +QI +E+ AS YL+M AHF +DVV PG ++ F A+ EE EHA KLI+
Sbjct: 17 MHRSCRNSMRQQIQMEVGASLQYLAMGAHFSKDVVNRPGFAQLFFDAASEEREHAMKLIE 76
Query: 70 YLNKRG----GTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVI 112
YL RG L+ V+ P R W EA HAL +E DV + I
Sbjct: 77 YLLMRGELTNDVSSLLQVRPPTRSSWKGGVEALEHALSMESDVTKSI 123
>pdb|3KX9|A Chain A, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|B Chain B, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|C Chain C, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|D Chain D, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|E Chain E, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|F Chain F, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|G Chain G, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|H Chain H, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|I Chain I, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|J Chain J, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|K Chain K, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|L Chain L, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|M Chain M, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|N Chain N, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|O Chain O, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|P Chain P, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|Q Chain Q, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|R Chain R, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|S Chain S, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|T Chain T, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|U Chain U, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|V Chain V, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|W Chain W, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
pdb|3KX9|X Chain X, Engineering A Closed Form Of The Archaeoglobus Fulgidus
Ferritin By Site Directed Mutagenesis
Length = 173
Score = 72.0 bits (175), Expect = 7e-14, Method: Compositional matrix adjust.
Identities = 37/97 (38%), Positives = 60/97 (61%), Gaps = 3/97 (3%)
Query: 16 EKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKYLNKRG 75
E +N+QIN E+Y++Y+YLSM+++FD + L G S + + EE HA K+ ++++RG
Sbjct: 10 EALNRQINAEIYSAYLYLSMASYFDS--IGLKGFSNWMRVQWQEELMHAMKMFDFVSERG 67
Query: 76 GTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVI 112
G +KL V+ P EW + AF H + E +V + I
Sbjct: 68 GRVKLYAVEEPP-SEWDSPLAAFEHVYEHEVNVTKRI 103
>pdb|1S3Q|A Chain A, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1S3Q|B Chain B, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1S3Q|C Chain C, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1S3Q|D Chain D, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1S3Q|E Chain E, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1S3Q|F Chain F, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1S3Q|G Chain G, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1S3Q|H Chain H, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1S3Q|I Chain I, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1S3Q|J Chain J, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1S3Q|K Chain K, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1S3Q|L Chain L, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
pdb|1SQ3|A Chain A, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus.
pdb|1SQ3|B Chain B, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus.
pdb|1SQ3|C Chain C, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus.
pdb|1SQ3|D Chain D, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus.
pdb|1SQ3|E Chain E, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus.
pdb|1SQ3|F Chain F, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus.
pdb|1SQ3|G Chain G, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus.
pdb|1SQ3|H Chain H, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus.
pdb|1SQ3|I Chain I, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus.
pdb|1SQ3|J Chain J, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus.
pdb|1SQ3|K Chain K, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus.
pdb|1SQ3|L Chain L, Crystal Structures Of A Novel Open Pore Ferritin From The
Hyperthermophilic Archaeon Archaeoglobus Fulgidus
Length = 173
Score = 67.8 bits (164), Expect = 1e-12, Method: Compositional matrix adjust.
Identities = 36/97 (37%), Positives = 58/97 (59%), Gaps = 3/97 (3%)
Query: 16 EKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKYLNKRG 75
E +N+QIN E+Y++Y+YLS +++FD + L G S + + EE HA K ++++RG
Sbjct: 10 EALNRQINAEIYSAYLYLSXASYFDS--IGLKGFSNWXRVQWQEELXHAXKXFDFVSERG 67
Query: 76 GTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVI 112
G +KL V+ P EW + AF H + E +V + I
Sbjct: 68 GRVKLYAVEEPP-SEWDSPLAAFEHVYEHEVNVTKRI 103
>pdb|1Z4A|A Chain A, Ferritin From T. Maritima
pdb|1Z4A|B Chain B, Ferritin From T. Maritima
pdb|1Z4A|C Chain C, Ferritin From T. Maritima
pdb|1Z4A|D Chain D, Ferritin From T. Maritima
pdb|1Z4A|E Chain E, Ferritin From T. Maritima
pdb|1Z4A|F Chain F, Ferritin From T. Maritima
pdb|1Z4A|G Chain G, Ferritin From T. Maritima
pdb|1Z4A|H Chain H, Ferritin From T. Maritima
Length = 164
Score = 67.0 bits (162), Expect = 2e-12, Method: Compositional matrix adjust.
Identities = 35/95 (36%), Positives = 58/95 (61%), Gaps = 3/95 (3%)
Query: 18 INKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKYLNKRGGT 77
+N+Q+N E+Y+SY+YLSM+ +FD + G + + K + EE HA K +Y+ +RGG
Sbjct: 12 LNEQLNREIYSSYLYLSMATYFDAE--GFKGFAHWMKKQAQEELTHAMKFYEYIYERGGR 69
Query: 78 LKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVI 112
++L ++ P W ++AF AL+ E+ V Q I
Sbjct: 70 VELEAIEKPPSN-WNGIKDAFEAALKHEEFVTQSI 103
>pdb|1VLG|A Chain A, Crystal Structure Of Ferritin (Tm1128) From Thermotoga
Maritima At 2.00 A Resolution
pdb|1VLG|B Chain B, Crystal Structure Of Ferritin (Tm1128) From Thermotoga
Maritima At 2.00 A Resolution
pdb|1VLG|C Chain C, Crystal Structure Of Ferritin (Tm1128) From Thermotoga
Maritima At 2.00 A Resolution
pdb|1VLG|D Chain D, Crystal Structure Of Ferritin (Tm1128) From Thermotoga
Maritima At 2.00 A Resolution
pdb|1VLG|E Chain E, Crystal Structure Of Ferritin (Tm1128) From Thermotoga
Maritima At 2.00 A Resolution
pdb|1VLG|F Chain F, Crystal Structure Of Ferritin (Tm1128) From Thermotoga
Maritima At 2.00 A Resolution
pdb|1VLG|G Chain G, Crystal Structure Of Ferritin (Tm1128) From Thermotoga
Maritima At 2.00 A Resolution
pdb|1VLG|H Chain H, Crystal Structure Of Ferritin (Tm1128) From Thermotoga
Maritima At 2.00 A Resolution
Length = 176
Score = 66.2 bits (160), Expect = 4e-12, Method: Compositional matrix adjust.
Identities = 35/95 (36%), Positives = 57/95 (60%), Gaps = 3/95 (3%)
Query: 18 INKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKYLNKRGGT 77
+N Q+N E+Y+SY+YLSM+ +FD + G + + K + EE HA K +Y+ +RGG
Sbjct: 24 LNDQLNREIYSSYLYLSMATYFDAE--GFKGFAHWMKKQAQEELTHAMKFYEYIYERGGR 81
Query: 78 LKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVI 112
++L ++ P W ++AF AL+ E+ V Q I
Sbjct: 82 VELEAIEKPPSN-WNGIKDAFEAALKHEEFVTQSI 115
>pdb|2JD6|0 Chain 0, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|1 Chain 1, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|2 Chain 2, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|3 Chain 3, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|4 Chain 4, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|5 Chain 5, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|6 Chain 6, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|7 Chain 7, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|8 Chain 8, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|9 Chain 9, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|A Chain A, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|B Chain B, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|C Chain C, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|D Chain D, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|E Chain E, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|F Chain F, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|G Chain G, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|H Chain H, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|I Chain I, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|J Chain J, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|K Chain K, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|L Chain L, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|M Chain M, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|N Chain N, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|O Chain O, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|P Chain P, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|Q Chain Q, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|R Chain R, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|S Chain S, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|T Chain T, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|U Chain U, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|V Chain V, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|W Chain W, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|X Chain X, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|Y Chain Y, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD6|Z Chain Z, Crystal Structure Of The As Isolated Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|0 Chain 0, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|1 Chain 1, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|2 Chain 2, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|3 Chain 3, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|4 Chain 4, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|5 Chain 5, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|6 Chain 6, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|7 Chain 7, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|8 Chain 8, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|9 Chain 9, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|A Chain A, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|B Chain B, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|C Chain C, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|D Chain D, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|E Chain E, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|F Chain F, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|G Chain G, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|H Chain H, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|I Chain I, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|J Chain J, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|K Chain K, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|L Chain L, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|M Chain M, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|N Chain N, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|O Chain O, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|P Chain P, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|Q Chain Q, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|R Chain R, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|S Chain S, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|T Chain T, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|U Chain U, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|V Chain V, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|W Chain W, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|X Chain X, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|Y Chain Y, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD7|Z Chain Z, Crystal Structure Of The Fe-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|0 Chain 0, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|1 Chain 1, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|2 Chain 2, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|3 Chain 3, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|4 Chain 4, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|5 Chain 5, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|6 Chain 6, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|7 Chain 7, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|8 Chain 8, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|9 Chain 9, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|A Chain A, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|B Chain B, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|C Chain C, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|D Chain D, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|E Chain E, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|F Chain F, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|G Chain G, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|H Chain H, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|I Chain I, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|J Chain J, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|K Chain K, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|L Chain L, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|M Chain M, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|N Chain N, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|O Chain O, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|P Chain P, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|Q Chain Q, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|R Chain R, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|S Chain S, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|T Chain T, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|U Chain U, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|V Chain V, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|W Chain W, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|X Chain X, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|Y Chain Y, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
pdb|2JD8|Z Chain Z, Crystal Structure Of The Zn-Soaked Ferritin From The
Hyperthermophilic Archaeal Anaerobe Pyrococcus Furiosus
Length = 174
Score = 60.5 bits (145), Expect = 3e-10, Method: Compositional matrix adjust.
Identities = 34/103 (33%), Positives = 62/103 (60%), Gaps = 4/103 (3%)
Query: 18 INKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKYLNKRGGT 77
+N Q+N ELY++Y+Y +M+A+F+ + L G + + K ++EE HA + Y+ R G
Sbjct: 10 LNDQLNRELYSAYLYFAMAAYFED--LGLEGFANWMKAQAEEEIGHALRFYNYIYDRNGR 67
Query: 78 LKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVIIYFFTSLA 120
++L ++ P + EW + +AF A + EK +++ IY +LA
Sbjct: 68 VELDEIPKPPK-EWESPLKAFEAAYEHEKFISKS-IYELAALA 108
>pdb|2X17|0 Chain 0, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|1 Chain 1, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|2 Chain 2, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|3 Chain 3, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|4 Chain 4, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|5 Chain 5, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|6 Chain 6, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|7 Chain 7, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|8 Chain 8, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|9 Chain 9, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|G Chain G, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|H Chain H, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|I Chain I, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|J Chain J, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|K Chain K, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|L Chain L, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|M Chain M, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|N Chain N, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|O Chain O, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|P Chain P, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|Q Chain Q, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|R Chain R, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|Y Chain Y, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
pdb|2X17|Z Chain Z, The X-Ray Structure Of Ferritin From Pyrococcus Furiosus
Loaded With Ag(I)
Length = 173
Score = 60.1 bits (144), Expect = 3e-10, Method: Compositional matrix adjust.
Identities = 34/103 (33%), Positives = 62/103 (60%), Gaps = 4/103 (3%)
Query: 18 INKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKYLNKRGGT 77
+N Q+N ELY++Y+Y +M+A+F+ + L G + + K ++EE HA + Y+ R G
Sbjct: 10 LNDQLNRELYSAYLYFAMAAYFED--LGLEGFANWMKAQAEEEIGHALRFYNYIYDRNGR 67
Query: 78 LKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVIIYFFTSLA 120
++L ++ P + EW + +AF A + EK +++ IY +LA
Sbjct: 68 VELDEIPKPPK-EWESPLKAFEAAYEHEKFISKS-IYELAALA 108
>pdb|1KRQ|A Chain A, Crystal Structure Analysis Of Campylobacter Jejuni
Ferritin
Length = 167
Score = 54.7 bits (130), Expect = 1e-08, Method: Compositional matrix adjust.
Identities = 38/104 (36%), Positives = 60/104 (57%), Gaps = 7/104 (6%)
Query: 18 INKQINLELYASYVYLSMSAHFDRDVVALPGISKY-FKHASDEESEHAHKLIKYLNKRGG 76
+N+QIN E+YA+ +YLSMS+ + +L G + F HAS EES+HA KLI YLN+
Sbjct: 10 LNEQINKEMYAANLYLSMSSWCYEN--SLDGAGAFLFAHAS-EESDHAKKLITYLNETDS 66
Query: 77 TLKLVDVKAPA---RQEWGTTEEAFSHALQLEKDVNQVIIYFFT 117
++L +VK P + E+ + H + K +N ++ + T
Sbjct: 67 HVELQEVKQPEQNFKSLLDVFEKTYEHEQFITKSINTLVEHMLT 110
>pdb|3E6R|A Chain A, Crystal Structure Of Apo-Ferritin From Pseudo-Nitzschia
Multiseries
pdb|3E6R|B Chain B, Crystal Structure Of Apo-Ferritin From Pseudo-Nitzschia
Multiseries
pdb|3E6R|C Chain C, Crystal Structure Of Apo-Ferritin From Pseudo-Nitzschia
Multiseries
pdb|3E6R|D Chain D, Crystal Structure Of Apo-Ferritin From Pseudo-Nitzschia
Multiseries
pdb|3E6R|E Chain E, Crystal Structure Of Apo-Ferritin From Pseudo-Nitzschia
Multiseries
pdb|3E6R|F Chain F, Crystal Structure Of Apo-Ferritin From Pseudo-Nitzschia
Multiseries
pdb|3E6S|A Chain A, Crystal Structure Of Ferritin Soaked With Iron From
Pseudo- Nitzschia Multiseries
pdb|3E6S|B Chain B, Crystal Structure Of Ferritin Soaked With Iron From
Pseudo- Nitzschia Multiseries
pdb|3E6S|C Chain C, Crystal Structure Of Ferritin Soaked With Iron From
Pseudo- Nitzschia Multiseries
pdb|3E6S|D Chain D, Crystal Structure Of Ferritin Soaked With Iron From
Pseudo- Nitzschia Multiseries
pdb|3E6S|E Chain E, Crystal Structure Of Ferritin Soaked With Iron From
Pseudo- Nitzschia Multiseries
pdb|3E6S|F Chain F, Crystal Structure Of Ferritin Soaked With Iron From
Pseudo- Nitzschia Multiseries
Length = 168
Score = 54.7 bits (130), Expect = 1e-08, Method: Compositional matrix adjust.
Identities = 32/89 (35%), Positives = 48/89 (53%), Gaps = 3/89 (3%)
Query: 19 NKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKYLNKRGGTL 78
N+Q+ E AS VYLS S FD++ G++ Y S EE EH + + NKR +
Sbjct: 10 NRQVTQEFTASQVYLSASIWFDQN--DWEGMAAYMLAESAEEREHGLGFVDFANKRNIPI 67
Query: 79 KLVDVKAP-ARQEWGTTEEAFSHALQLEK 106
+L V AP + EW + E+ + L+LE+
Sbjct: 68 ELQAVPAPVSCAEWSSPEDVWQSILELEQ 96
>pdb|1EUM|A Chain A, Crystal Structure Of The E.Coli Ferritin Ecftna
pdb|1EUM|B Chain B, Crystal Structure Of The E.Coli Ferritin Ecftna
pdb|1EUM|C Chain C, Crystal Structure Of The E.Coli Ferritin Ecftna
pdb|1EUM|D Chain D, Crystal Structure Of The E.Coli Ferritin Ecftna
pdb|1EUM|E Chain E, Crystal Structure Of The E.Coli Ferritin Ecftna
pdb|1EUM|F Chain F, Crystal Structure Of The E.Coli Ferritin Ecftna
Length = 165
Score = 48.9 bits (115), Expect = 7e-07, Method: Compositional matrix adjust.
Identities = 30/97 (30%), Positives = 50/97 (51%), Gaps = 3/97 (3%)
Query: 16 EKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKYLNKRG 75
EK+N+Q+NLELY+S +Y MSA G + + + + EE H +L YL G
Sbjct: 8 EKLNEQMNLELYSSLLYQQMSAWCSYHT--FEGAAAFLRRHAQEEMTHMQRLFDYLTDTG 65
Query: 76 GTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVI 112
++ V++P E+ + +E F + E+ + Q I
Sbjct: 66 NLPRINTVESPFA-EYSSLDELFQETYKHEQLITQKI 101
>pdb|3QZ3|A Chain A, The Crystal Structure Of Ferritin From Vibrio Cholerae O1
Biovar El Tor Str. N16961
pdb|3QZ3|B Chain B, The Crystal Structure Of Ferritin From Vibrio Cholerae O1
Biovar El Tor Str. N16961
pdb|3QZ3|C Chain C, The Crystal Structure Of Ferritin From Vibrio Cholerae O1
Biovar El Tor Str. N16961
Length = 184
Score = 48.5 bits (114), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 29/97 (29%), Positives = 51/97 (52%), Gaps = 3/97 (3%)
Query: 16 EKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKYLNKRG 75
E +N+QINLE ++S +YL SA + G +++ + + EE +H +L Y+++ G
Sbjct: 17 EHLNEQINLEFFSSNLYLQXSAWCEDK--GFDGAAEFLRAHAVEEXQHXQRLFTYVSETG 74
Query: 76 GTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVNQVI 112
L + AP R ++ + E F Q E+ + Q I
Sbjct: 75 ALPILGAIAAP-RHDFASLGEVFRETYQHEQKITQQI 110
>pdb|3BVE|A Chain A, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVE|B Chain B, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVE|C Chain C, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVE|D Chain D, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVE|E Chain E, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVE|F Chain F, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVF|A Chain A, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVF|B Chain B, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVF|C Chain C, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVF|D Chain D, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVF|E Chain E, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVF|F Chain F, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVI|A Chain A, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVI|B Chain B, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVI|C Chain C, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVI|D Chain D, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVI|E Chain E, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVI|F Chain F, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVK|A Chain A, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVK|B Chain B, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVK|C Chain C, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVK|D Chain D, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVK|E Chain E, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVK|F Chain F, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVL|A Chain A, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVL|B Chain B, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVL|C Chain C, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVL|D Chain D, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVL|E Chain E, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
pdb|3BVL|F Chain F, Structural Basis For The Iron Uptake Mechanism Of
Helicobacter Pylori Ferritin
Length = 181
Score = 48.1 bits (113), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 31/98 (31%), Positives = 56/98 (57%), Gaps = 5/98 (5%)
Query: 18 INKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKYLNKRGGT 77
+N+Q+N E+ +S +Y+SMS+ + G+ F HA+ EE EHA KLI +LN+
Sbjct: 24 LNEQVNKEMNSSNLYMSMSSWCYTHSLDGAGLF-LFDHAA-EEYEHAKKLIIFLNENNVP 81
Query: 78 LKLVDVKAPARQEWGTT---EEAFSHALQLEKDVNQVI 112
++L + AP + G T ++A+ H + + +N ++
Sbjct: 82 VQLTSISAPEHKFEGLTQIFQKAYEHEQHISESINNIV 119
>pdb|3EGM|A Chain A, Structural Basis Of Iron Transport Gating In Helicobacter
Pylori Ferritin
pdb|3EGM|B Chain B, Structural Basis Of Iron Transport Gating In Helicobacter
Pylori Ferritin
pdb|3EGM|C Chain C, Structural Basis Of Iron Transport Gating In Helicobacter
Pylori Ferritin
pdb|3EGM|D Chain D, Structural Basis Of Iron Transport Gating In Helicobacter
Pylori Ferritin
pdb|3EGM|E Chain E, Structural Basis Of Iron Transport Gating In Helicobacter
Pylori Ferritin
pdb|3EGM|F Chain F, Structural Basis Of Iron Transport Gating In Helicobacter
Pylori Ferritin
Length = 181
Score = 48.1 bits (113), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 31/98 (31%), Positives = 56/98 (57%), Gaps = 5/98 (5%)
Query: 18 INKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKYLNKRGGT 77
+N+Q+N E+ +S +Y+SMS+ + G+ F HA+ EE EHA KLI +LN+
Sbjct: 24 LNEQVNKEMNSSNLYMSMSSWCYTHSLDGAGLF-LFDHAA-EEYEHAKKLIIFLNENNVP 81
Query: 78 LKLVDVKAPARQEWGTT---EEAFSHALQLEKDVNQVI 112
++L + AP + G T ++A+ H + + +N ++
Sbjct: 82 VQLTSISAPEHKFEGLTQIFQKAYEHEQHISESINNIV 119
>pdb|3QD8|A Chain A, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|B Chain B, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|C Chain C, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|D Chain D, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|E Chain E, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|F Chain F, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|G Chain G, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|H Chain H, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|I Chain I, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|J Chain J, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|K Chain K, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|L Chain L, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|M Chain M, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|N Chain N, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|O Chain O, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|P Chain P, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|Q Chain Q, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|R Chain R, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|S Chain S, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|T Chain T, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|U Chain U, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|V Chain V, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|W Chain W, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
pdb|3QD8|X Chain X, Crystal Structure Of Mycobacterium Tuberculosis Bfrb
Length = 181
Score = 39.3 bits (90), Expect = 5e-04, Method: Compositional matrix adjust.
Identities = 29/100 (29%), Positives = 53/100 (53%), Gaps = 7/100 (7%)
Query: 10 FHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIK 69
FHA +E+I+ E A+ Y++++ +FD + LP ++K+F + EE HA L++
Sbjct: 11 FHALMQEQIHN----EFTAAQQYVAIAVYFDSE--DLPQLAKHFYSQAVEERNHAMMLVQ 64
Query: 70 YLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVN 109
+L R +++ V R ++ EA + AL E+ V
Sbjct: 65 HLLDRDLRVEIPGVDT-VRNQFDRPREALALALDQERTVT 103
>pdb|3OJ5|A Chain A, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|B Chain B, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|C Chain C, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|D Chain D, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|E Chain E, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|F Chain F, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|G Chain G, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|H Chain H, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|I Chain I, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|J Chain J, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|K Chain K, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|L Chain L, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|M Chain M, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|N Chain N, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|O Chain O, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|P Chain P, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|Q Chain Q, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|R Chain R, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|S Chain S, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|T Chain T, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|U Chain U, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|V Chain V, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|W Chain W, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3OJ5|X Chain X, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|A Chain A, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|B Chain B, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|C Chain C, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|D Chain D, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|E Chain E, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|F Chain F, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|G Chain G, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|H Chain H, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|I Chain I, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|J Chain J, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|K Chain K, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|L Chain L, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|M Chain M, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|N Chain N, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|O Chain O, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|P Chain P, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|Q Chain Q, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|R Chain R, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|S Chain S, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|T Chain T, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|U Chain U, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|V Chain V, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|W Chain W, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
pdb|3UNO|X Chain X, Mycobacterium Tuberculosis Ferritin Homolog, Bfrb
Length = 189
Score = 39.3 bits (90), Expect = 6e-04, Method: Compositional matrix adjust.
Identities = 29/100 (29%), Positives = 53/100 (53%), Gaps = 7/100 (7%)
Query: 10 FHAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIK 69
FHA +E+I+ E A+ Y++++ +FD + LP ++K+F + EE HA L++
Sbjct: 11 FHALMQEQIHN----EFTAAQQYVAIAVYFDSE--DLPQLAKHFYSQAVEERNHAMMLVQ 64
Query: 70 YLNKRGGTLKLVDVKAPARQEWGTTEEAFSHALQLEKDVN 109
+L R +++ V R ++ EA + AL E+ V
Sbjct: 65 HLLDRDLRVEIPGVDT-VRNQFDRPREALALALDQERTVT 103
>pdb|1Z6O|A Chain A, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|B Chain B, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|C Chain C, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|D Chain D, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|E Chain E, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|F Chain F, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|G Chain G, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|H Chain H, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|I Chain I, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|J Chain J, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|K Chain K, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
pdb|1Z6O|L Chain L, Crystal Structure Of Trichoplusia Ni Secreted Ferritin
Length = 212
Score = 34.3 bits (77), Expect = 0.020, Method: Compositional matrix adjust.
Identities = 32/110 (29%), Positives = 48/110 (43%), Gaps = 7/110 (6%)
Query: 11 HAETEEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESEHAHKLIKY 70
H ++ L L SY YL +A+F+ G SK FK SDE +IK+
Sbjct: 34 HGNVATELQAYAKLHLERSYDYLLSAAYFNNYQTNRAGFSKLFKKLSDEAWSKTIDIIKH 93
Query: 71 LNKRGGTLKLVDVKAPARQEWG--TTE----EAFSHALQLEKDVNQVIIY 114
+ KRG + D + + E T E EA + AL +K++ + Y
Sbjct: 94 VTKRGDKMNF-DQHSTMKTERKNYTAENHELEALAKALDTQKELAERAFY 142
>pdb|1RYT|A Chain A, Rubrerythrin
Length = 190
Score = 30.4 bits (67), Expect = 0.26, Method: Compositional matrix adjust.
Identities = 15/33 (45%), Positives = 21/33 (63%), Gaps = 2/33 (6%)
Query: 49 ISKYFKHASDEESEHAHKLIKYLNKRGGTLKLV 81
IS F +D+E EHA +L K+L GG L++V
Sbjct: 41 ISDIFAETADQEREHAKRLFKFLE--GGDLEIV 71
>pdb|1B71|A Chain A, Rubrerythrin
pdb|1DVB|A Chain A, Rubrerythrin
pdb|1JYB|A Chain A, Crystal Structure Of Rubrerythrin
pdb|1LKM|A Chain A, Crystal Structure Of Desulfovibrio Vulgaris Rubrerythrin
All-Iron(Iii) Form
pdb|1LKO|A Chain A, Crystal Structure Of Desulfovibrio Vulgaris Rubrerythrin
All-iron(ii) Form
pdb|1LKP|A Chain A, Crystal Structure Of Desulfovibrio Vulgaris Rubrerythrin
All-iron(ii) Form, Azide Adduct
pdb|1QYB|A Chain A, X-Ray Crystal Structure Of Desulfovibrio Vulgaris
Rubrerythrin With Zinc Substituted Into The [fe(Scys)4]
Site And Alternative Diiron Site Structures
pdb|1S2Z|A Chain A, X-Ray Crystal Structure Of Desulfovibrio Vulgaris
Rubrerythrin With Displacement Of Iron By Zinc At The
Diiron Site
pdb|1S30|A Chain A, X-Ray Crystal Structure Of Desulfovibrio Vulgaris
Rubrerythrin With Displacement Of Iron By Zinc At The
Diiron Site
Length = 191
Score = 30.4 bits (67), Expect = 0.26, Method: Compositional matrix adjust.
Identities = 15/33 (45%), Positives = 21/33 (63%), Gaps = 2/33 (6%)
Query: 49 ISKYFKHASDEESEHAHKLIKYLNKRGGTLKLV 81
IS F +D+E EHA +L K+L GG L++V
Sbjct: 42 ISDIFAETADQEREHAKRLFKFLE--GGDLEIV 72
>pdb|2J0A|A Chain A, Structure Of The Catalytic Domain Of Mouse Manic Fringe
pdb|2J0B|A Chain A, Structure Of The Catalytic Domain Of Mouse Manic Fringe In
Complex With Udp And Manganese
Length = 280
Score = 30.4 bits (67), Expect = 0.27, Method: Compositional matrix adjust.
Identities = 21/75 (28%), Positives = 38/75 (50%), Gaps = 9/75 (12%)
Query: 3 VSQVRQNFHAETEEKINKQINLELYASYVYLSMSAHFDRDV-VALPGISKYFKHASDEES 61
VS +R H + + +N + L+L ++ DRDV V P +++ HAS+ +S
Sbjct: 91 VSGLRWFCHVDDDNYVNPKALLQLLKTFPQ-------DRDVYVGKPSLNRPI-HASELQS 142
Query: 62 EHAHKLIKYLNKRGG 76
+ KL+++ GG
Sbjct: 143 KQRTKLVRFWFATGG 157
>pdb|1VKW|A Chain A, Crystal Structure Of A Putative Nitroreductase (tm1586)
From Thermotoga Maritima Msb8 At 2.00 A Resolution
Length = 218
Score = 26.9 bits (58), Expect = 3.0, Method: Compositional matrix adjust.
Identities = 10/25 (40%), Positives = 16/25 (64%)
Query: 16 EKINKQINLELYASYVYLSMSAHFD 40
+K++ +INL + SY+Y HFD
Sbjct: 51 KKLDWKINLSSFPSYIYAKAEKHFD 75
>pdb|2J5C|A Chain A, Rational Conversion Of Substrate And Product Specificity
In A Monoterpene Synthase. Structural Insights Into The
Molecular Basis Of Rapid Evolution.
pdb|2J5C|B Chain B, Rational Conversion Of Substrate And Product Specificity
In A Monoterpene Synthase. Structural Insights Into The
Molecular Basis Of Rapid Evolution
Length = 569
Score = 25.4 bits (54), Expect = 8.8, Method: Compositional matrix adjust.
Identities = 14/48 (29%), Positives = 27/48 (56%), Gaps = 1/48 (2%)
Query: 15 EEKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFKHASDEESE 62
+E+++ LEL L +S HF+R++V + SKY+ + +E +
Sbjct: 78 QEEVDSIRRLELIDDLRRLGISCHFEREIVEILN-SKYYTNNEIDERD 124
>pdb|3M52|A Chain A, Crystal Structure Of The Btb Domain From The Miz-1ZBTB17
Transcription Regulator
pdb|3M52|B Chain B, Crystal Structure Of The Btb Domain From The Miz-1ZBTB17
Transcription Regulator
Length = 117
Score = 25.4 bits (54), Expect = 9.2, Method: Compositional matrix adjust.
Identities = 12/39 (30%), Positives = 18/39 (46%)
Query: 16 EKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFK 54
E++N+Q L L ++ HF L S+YFK
Sbjct: 14 EQLNQQRQLGLLCDCTFVVDGVHFKAHKAVLAACSEYFK 52
>pdb|2Q81|A Chain A, Crystal Structure Of The Miz-1 BtbPOZ DOMAIN
pdb|2Q81|B Chain B, Crystal Structure Of The Miz-1 BtbPOZ DOMAIN
pdb|2Q81|C Chain C, Crystal Structure Of The Miz-1 BtbPOZ DOMAIN
pdb|2Q81|D Chain D, Crystal Structure Of The Miz-1 BtbPOZ DOMAIN
Length = 119
Score = 25.0 bits (53), Expect = 9.8, Method: Compositional matrix adjust.
Identities = 12/39 (30%), Positives = 18/39 (46%)
Query: 16 EKINKQINLELYASYVYLSMSAHFDRDVVALPGISKYFK 54
E++N+Q L L ++ HF L S+YFK
Sbjct: 16 EQLNQQRQLGLLCDCTFVVDGVHFKAHKAVLAACSEYFK 54
Database: pdbaa
Posted date: Mar 3, 2013 10:34 PM
Number of letters in database: 14,973,337
Number of sequences in database: 62,578
Lambda K H
0.317 0.130 0.364
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 3,330,368
Number of Sequences: 62578
Number of extensions: 124845
Number of successful extensions: 363
Number of sequences better than 100.0: 78
Number of HSP's better than 100.0 without gapping: 71
Number of HSP's successfully gapped in prelim test: 7
Number of HSP's that attempted gapping in prelim test: 282
Number of HSP's gapped (non-prelim): 78
length of query: 120
length of database: 14,973,337
effective HSP length: 82
effective length of query: 38
effective length of database: 9,841,941
effective search space: 373993758
effective search space used: 373993758
T: 11
A: 40
X1: 16 ( 7.3 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 41 (21.7 bits)
S2: 45 (21.9 bits)