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= 024785
(262 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>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 = 298 bits (762), Expect = 3e-81, Method: Compositional matrix adjust.
Identities = 145/206 (70%), Positives = 160/206 (77%)
Query: 51 ASKNANNSPLTGVIFAPFEEVKKELDLVPTVPQLSLARHKFTDDCEAAINEQINVEYNVS 110
A + N+ LTGVIF PFEEVKKELDLVPTVPQ SLAR K+ D+ E+A+NEQINVEYNVS
Sbjct: 1 AKGSTNHRALTGVIFEPFEEVKKELDLVPTVPQASLARQKYVDESESAVNEQINVEYNVS 60
Query: 111 YVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXKLMEYQNKRGGKVKLQSILMPLSE 170
YVYHAMFAYFDRDNVAL+GL KLMEYQNKRGGKVKLQSI+MPLS+
Sbjct: 61 YVYHAMFAYFDRDNVALRGLAKFFKESSEEEREHAEKLMEYQNKRGGKVKLQSIVMPLSD 120
Query: 171 FDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKNHDVQLADFVESKYLHEQVEAIKK 230
FDHA+KGDAL+AME H VA KN DVQLADFVE++YL EQVEAIK+
Sbjct: 121 FDHADKGDALHAMELALSLEKLTNEKLLNLHSVATKNGDVQLADFVETEYLGEQVEAIKR 180
Query: 231 ISEYVAQLRRVGQGHGVWHFDQMLLH 256
ISEYVAQLRRVG+GHGVWHFDQMLLH
Sbjct: 181 ISEYVAQLRRVGKGHGVWHFDQMLLH 206
>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 = 295 bits (756), Expect = 1e-80, Method: Compositional matrix adjust.
Identities = 144/206 (69%), Positives = 159/206 (77%)
Query: 51 ASKNANNSPLTGVIFAPFEEVKKELDLVPTVPQLSLARHKFTDDCEAAINEQINVEYNVS 110
A + N+ LTGVIF PFEEVKKELDLVPTVPQ SLAR K+ D+ E+A+NEQINVEYNVS
Sbjct: 1 AKGSTNHRALTGVIFEPFEEVKKELDLVPTVPQASLARQKYVDESESAVNEQINVEYNVS 60
Query: 111 YVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXKLMEYQNKRGGKVKLQSILMPLSE 170
YVYHAMFAYFDRDNVAL+GL KLMEYQNKRGGKVKLQSI+MPLS+
Sbjct: 61 YVYHAMFAYFDRDNVALRGLAKFFKESSEEEREHAEKLMEYQNKRGGKVKLQSIVMPLSD 120
Query: 171 FDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKNHDVQLADFVESKYLHEQVEAIKK 230
FDHA+KGDAL+AME H VA KN DVQLADFVE++YL QVEAIK+
Sbjct: 121 FDHADKGDALHAMELALSLEKLTNEKLLNLHSVATKNGDVQLADFVETEYLGAQVEAIKR 180
Query: 231 ISEYVAQLRRVGQGHGVWHFDQMLLH 256
ISEYVAQLRRVG+GHGVWHFDQMLLH
Sbjct: 181 ISEYVAQLRRVGKGHGVWHFDQMLLH 206
>pdb|3VNX|A Chain A, Crystal Structure Of Ferritin From Multicellular Green
Algae, Ulva Pertusa
Length = 204
Score = 168 bits (426), Expect = 2e-42, Method: Compositional matrix adjust.
Identities = 92/201 (45%), Positives = 121/201 (60%), Gaps = 3/201 (1%)
Query: 60 LTGVIFAPFEEVKKELDLVPTVPQL-SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFA 118
+TG++F PF EV+ EL V P S AR ++ +CEAAINEQIN+EY +SYVYHA+ +
Sbjct: 4 VTGMVFQPFSEVQGELSTVTQAPVTDSYARVEYHIECEAAINEQINIEYTISYVYHALHS 63
Query: 119 YFDRDNVALKGLXXXXXXXXXXXXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGD 178
YF RDNV L G LM+YQ KRGG+V+L+ + P EF + +KG+
Sbjct: 64 YFARDNVGLPGFAKFFKEASDEEREHAHMLMDYQTKRGGRVELKPLAAPEMEFANDDKGE 123
Query: 179 ALYAMEXXXXXXXXXXXXXXXXHKVANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQL 238
ALYAME +A+K+ D L DFVE L EQV+A+K+ + YV+QL
Sbjct: 124 ALYAMELALSLEKLNFQKLQALQAIADKHKDAALCDFVEGGLLSEQVDAVKEHAVYVSQL 183
Query: 239 RRVGQGHGVWHFDQMLLHGEE 259
RRVG+G GV+ DQ L GEE
Sbjct: 184 RRVGKGVGVYLLDQEL--GEE 202
>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 = 117 bits (293), Expect = 7e-27, Method: Compositional matrix adjust.
Identities = 65/172 (37%), Positives = 92/172 (53%), Gaps = 7/172 (4%)
Query: 84 LSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXX 143
+S R + DCEAA+N +N+E SY Y +M+A+FDRD+VAL +
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 144 XXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKV 203
K M+YQNKRGG+V LQ I P + E G+ L AM+ HK+
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKP----ERDEWGNTLEAMQAALQLEKTVNQALLDLHKL 117
Query: 204 ANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQ 252
A D L DF+ES+YL EQV+ IK+I +++ L+R+G G G + FD+
Sbjct: 118 ATDKVDPHLCDFLESEYLEEQVKDIKRIGDFITNLKRLGLPENGMGEYLFDK 169
>pdb|3KA8|A Chain A, Frog M-Ferritin, Eqh Mutant, With Cobalt
Length = 176
Score = 117 bits (292), Expect = 8e-27, Method: Compositional matrix adjust.
Identities = 65/172 (37%), Positives = 92/172 (53%), Gaps = 7/172 (4%)
Query: 84 LSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXX 143
+S R + DCEAA+N +N+E SY Y +M+A+FDRD+VAL +
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 144 XXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKV 203
K M+YQNKRGG+V LQ I P + E G+ L AM+ HK+
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKP----ERDEWGNTLEAMQAALQLEKTVNQALLDLHKL 117
Query: 204 ANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQ 252
A D L DF+ES+YL EQV+ IK+I +++ L+R+G G G + FD+
Sbjct: 118 ATDKVDPHLCDFLESEYLEEQVKHIKRIGDFITNLKRLGLPENGMGEYLFDK 169
>pdb|3KA6|A Chain A, Frog M-Ferritin, Eed Mutant, With Cobalt
Length = 176
Score = 115 bits (289), Expect = 2e-26, Method: Compositional matrix adjust.
Identities = 64/172 (37%), Positives = 92/172 (53%), Gaps = 7/172 (4%)
Query: 84 LSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXX 143
+S R + DCEAA+N +N+E SY Y +M+A+FDRD+VAL +
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 144 XXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKV 203
K M+YQNKRGG+V LQ I P + E G+ L AM+ HK+
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKP----ERDEWGNTLEAMQAALQLEKTVNQALLDLHKL 117
Query: 204 ANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQ 252
A D L DF+ES+YL E+V+ IK+I +++ L+R+G G G + FD+
Sbjct: 118 ATDKVDPHLCDFLESEYLEEEVKDIKRIGDFITNLKRLGLPENGMGEYLFDK 169
>pdb|3KA9|A Chain A, Frog M-Ferritin, Eeh Mutant, With Cobalt
Length = 176
Score = 115 bits (288), Expect = 2e-26, Method: Compositional matrix adjust.
Identities = 64/172 (37%), Positives = 92/172 (53%), Gaps = 7/172 (4%)
Query: 84 LSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXX 143
+S R + DCEAA+N +N+E SY Y +M+A+FDRD+VAL +
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 144 XXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKV 203
K M+YQNKRGG+V LQ I P + E G+ L AM+ HK+
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKP----ERDEWGNTLEAMQAALQLEKTVNQALLDLHKL 117
Query: 204 ANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQ 252
A D L DF+ES+YL E+V+ IK+I +++ L+R+G G G + FD+
Sbjct: 118 ATDKVDPHLCDFLESEYLEEEVKHIKRIGDFITNLKRLGLPENGMGEYLFDK 169
>pdb|3SHX|A Chain A, Frog M-Ferritin With Magnesium, L134p Mutant
Length = 176
Score = 114 bits (285), Expect = 6e-26, Method: Compositional matrix adjust.
Identities = 64/172 (37%), Positives = 91/172 (52%), Gaps = 7/172 (4%)
Query: 84 LSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXX 143
+S R + DCEAA+N +N+E SY Y +M+A+FDRD+VAL +
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 144 XXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKV 203
K M+YQNKRGG+V LQ I P + E G+ L AM+ HK+
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKP----ERDEWGNTLEAMQAALQLEKTVNQALLDLHKL 117
Query: 204 ANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQ 252
A D L DF+ES+Y EQV+ IK+I +++ L+R+G G G + FD+
Sbjct: 118 ATDKVDPHLCDFLESEYPEEQVKDIKRIGDFITNLKRLGLPENGMGEYLFDK 169
>pdb|3SE1|A Chain A, Frog M-Ferritin With Magnesium, R72d Mutant
Length = 176
Score = 114 bits (285), Expect = 6e-26, Method: Compositional matrix adjust.
Identities = 64/172 (37%), Positives = 91/172 (52%), Gaps = 7/172 (4%)
Query: 84 LSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXX 143
+S R + DCEAA+N +N+E SY Y +M+A+FDRD+VAL +
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 144 XXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKV 203
K M+YQNK GG+V LQ I P + E G+ L AM+ HK+
Sbjct: 62 HAEKFMKYQNKDGGRVVLQDIKKP----ERDEWGNTLEAMQAALQLEKTVNQALLDLHKL 117
Query: 204 ANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQ 252
A D L DF+ES+YL EQV+ IK+I +++ L+R+G G G + FD+
Sbjct: 118 ATDKVDPHLCDFLESEYLEEQVKDIKRIGDFITNLKRLGLPENGMGEYLFDK 169
>pdb|3SH6|A Chain A, Frog M-Ferritin, D122r Mutant, With Magnesium
Length = 176
Score = 114 bits (285), Expect = 6e-26, Method: Compositional matrix adjust.
Identities = 64/172 (37%), Positives = 91/172 (52%), Gaps = 7/172 (4%)
Query: 84 LSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXX 143
+S R + DCEAA+N +N+E SY Y +M+A+FDRD+VAL +
Sbjct: 2 VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHEERE 61
Query: 144 XXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKV 203
K M+YQNKRGG+V LQ I P + E G+ L AM+ HK+
Sbjct: 62 HAEKFMKYQNKRGGRVVLQDIKKP----ERDEWGNTLEAMQAALQLEKTVNQALLDLHKL 117
Query: 204 ANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQ 252
A L DF+ES+YL EQV+ IK+I +++ L+R+G G G + FD+
Sbjct: 118 ATDKVRPHLCDFLESEYLEEQVKDIKRIGDFITNLKRLGLPENGMGEYLFDK 169
>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 = 111 bits (278), Expect = 3e-25, Method: Compositional matrix adjust.
Identities = 70/179 (39%), Positives = 93/179 (51%), Gaps = 7/179 (3%)
Query: 80 TVPQLSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXX 139
T S R + D EAAIN QIN+E SYVY +M YFDRD+VALK
Sbjct: 2 TTASTSQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSH 61
Query: 140 XXXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXX 199
KLM+ QN+RGG++ LQ I P + D E G L AME
Sbjct: 62 EEREHAEKLMKLQNQRGGRIFLQDIQKP--DCDDWESG--LNAMECALHLEKNVNQSLLE 117
Query: 200 XHKVANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
HK+A +D L DF+E+ YL+EQV+AIK++ ++V LR++G G + FD+ L
Sbjct: 118 LHKLATDKNDPHLCDFIETHYLNEQVKAIKELGDHVTNLRKMGAPESGLAEYLFDKHTL 176
>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 = 111 bits (278), Expect = 3e-25, Method: Compositional matrix adjust.
Identities = 70/179 (39%), Positives = 93/179 (51%), Gaps = 7/179 (3%)
Query: 80 TVPQLSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXX 139
T S R + D EAAIN QIN+E SYVY +M YFDRD+VALK
Sbjct: 2 TTASTSQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSH 61
Query: 140 XXXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXX 199
KLM+ QN+RGG++ LQ I P + D E G L AME
Sbjct: 62 EEREHAEKLMKLQNQRGGRIFLQDIQKP--DCDDWESG--LNAMECALHLDKNVNQSLLE 117
Query: 200 XHKVANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
HK+A +D L DF+E+ YL+EQV+AIK++ ++V LR++G G + FD+ L
Sbjct: 118 LHKLATDKNDPHLCDFIETHYLNEQVKAIKELGDHVTNLRKMGAPESGLAEYLFDKHTL 176
>pdb|3AJO|A Chain A, Crystal Structure Of Wild-Type Human Ferritin H Chain
Length = 182
Score = 111 bits (278), Expect = 3e-25, Method: Compositional matrix adjust.
Identities = 70/179 (39%), Positives = 93/179 (51%), Gaps = 7/179 (3%)
Query: 80 TVPQLSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXX 139
T S R + D EAAIN QIN+E SYVY +M YFDRD+VALK
Sbjct: 1 TTASTSQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSH 60
Query: 140 XXXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXX 199
KLM+ QN+RGG++ LQ I P + D E G L AME
Sbjct: 61 EEREHAEKLMKLQNQRGGRIFLQDIKKP--DCDDWESG--LNAMECALHLEKNVNQSLLE 116
Query: 200 XHKVANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
HK+A +D L DF+E+ YL+EQV+AIK++ ++V LR++G G + FD+ L
Sbjct: 117 LHKLATDKNDPHLCDFIETHYLNEQVKAIKELGDHVTNLRKMGAPESGLAEYLFDKHTL 175
>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 = 110 bits (275), Expect = 8e-25, Method: Compositional matrix adjust.
Identities = 69/179 (38%), Positives = 93/179 (51%), Gaps = 7/179 (3%)
Query: 80 TVPQLSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXX 139
T S R + D EAAIN QIN++ SYVY +M YFDRD+VALK
Sbjct: 2 TTASTSQVRQNYHQDSEAAINRQINLDLYASYVYLSMSYYFDRDDVALKNFAKYFLHQSH 61
Query: 140 XXXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXX 199
KLM+ QN+RGG++ LQ I P + D E G L AME
Sbjct: 62 EEREHAEKLMKLQNQRGGRIFLQDIQKP--DCDDWESG--LNAMECALHLEKNVNQSLLE 117
Query: 200 XHKVANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
HK+A +D L DF+E+ YL+EQV+AIK++ ++V LR++G G + FD+ L
Sbjct: 118 LHKLATDKNDPHLCDFIETHYLNEQVKAIKELGDHVTNLRKMGAPESGLAEYLFDKHTL 176
>pdb|3AJQ|A Chain A, Crystal Structure Of Human H Ferritin E140q Mutant
Length = 182
Score = 110 bits (275), Expect = 8e-25, Method: Compositional matrix adjust.
Identities = 69/179 (38%), Positives = 93/179 (51%), Gaps = 7/179 (3%)
Query: 80 TVPQLSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXX 139
T S R + D EAAIN QIN+E SYVY +M YFDRD+VALK
Sbjct: 1 TTASTSQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSH 60
Query: 140 XXXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXX 199
KLM+ QN+RGG++ LQ I P + D E G L AME
Sbjct: 61 EEREHAEKLMKLQNQRGGRIFLQDIKKP--DCDDWESG--LNAMECALHLEKNVNQSLLE 116
Query: 200 XHKVANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
HK+A +D L DF+E+ YL++QV+AIK++ ++V LR++G G + FD+ L
Sbjct: 117 LHKLATDKNDPHLCDFIETHYLNQQVKAIKELGDHVTNLRKMGAPESGLAEYLFDKHTL 175
>pdb|4DYX|A Chain A, Crystal Structure Of The Cu-adduct Of Human H-ferritin
Variant 4his- Delta C-star
Length = 172
Score = 110 bits (275), Expect = 9e-25, Method: Compositional matrix adjust.
Identities = 66/158 (41%), Positives = 87/158 (55%), Gaps = 4/158 (2%)
Query: 85 SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXX 144
S R + D EAAIN QIN+E SYVY +M YFDRD+VALK
Sbjct: 2 SQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFHHQSHEEHEH 61
Query: 145 XXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVA 204
KLM+ QN+RGG++ LQ I P + D E G L AME HK+A
Sbjct: 62 AHKLMKLQNQRGGRIFLQDIQKP--DEDDWESG--LNAMEAALHLEKNVNQSLLELHKLA 117
Query: 205 NKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG 242
+D LADF+E+ YL+EQV+AIK++ ++V LR++G
Sbjct: 118 TDKNDPHLADFIETHYLNEQVKAIKELGDHVTNLRKMG 155
>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 = 110 bits (275), Expect = 9e-25, Method: Compositional matrix adjust.
Identities = 69/179 (38%), Positives = 93/179 (51%), Gaps = 7/179 (3%)
Query: 80 TVPQLSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXX 139
T S R + D EAAIN QIN++ SYVY +M YFDRD+VALK
Sbjct: 2 TTASTSQVRQNYHQDSEAAINRQINLDLYASYVYLSMSYYFDRDDVALKNFAKYFLHQSH 61
Query: 140 XXXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXX 199
KLM+ QN+RGG++ LQ I P + D E G L AME
Sbjct: 62 EEREHAEKLMKLQNQRGGRIFLQDIQKP--DCDDWESG--LNAMECALHLDKNVNQSLLE 117
Query: 200 XHKVANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
HK+A +D L DF+E+ YL+EQV+AIK++ ++V LR++G G + FD+ L
Sbjct: 118 LHKLATDKNDPHLCDFIETHYLNEQVKAIKELGDHVTNLRKMGAPESGLAEYLFDKHTL 176
>pdb|3AJP|A Chain A, Crystal Structure Of Human H Ferritin E140a Mutant
Length = 182
Score = 109 bits (272), Expect = 2e-24, Method: Compositional matrix adjust.
Identities = 69/179 (38%), Positives = 92/179 (51%), Gaps = 7/179 (3%)
Query: 80 TVPQLSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXX 139
T S R + D EAAIN QIN+E SYVY +M YFDRD+VALK
Sbjct: 1 TTASTSQVRQNYHQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSH 60
Query: 140 XXXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXX 199
KLM+ QN+RGG++ LQ I P + D E G L AME
Sbjct: 61 EEREHAEKLMKLQNQRGGRIFLQDIKKP--DCDDWESG--LNAMECALHLEKNVNQSLLE 116
Query: 200 XHKVANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
HK+A +D L DF+E+ YL+ QV+AIK++ ++V LR++G G + FD+ L
Sbjct: 117 LHKLATDKNDPHLCDFIETHYLNAQVKAIKELGDHVTNLRKMGAPESGLAEYLFDKHTL 175
>pdb|1BG7|A Chain A, Localized Unfolding At The Junction Of Three Ferritin
Subunits. A Mechanism For Iron Release?
Length = 176
Score = 108 bits (269), Expect = 3e-24, Method: Compositional matrix adjust.
Identities = 62/171 (36%), Positives = 89/171 (52%), Gaps = 7/171 (4%)
Query: 85 SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXX 144
S R F DCEAAIN +N+E SY Y +M YFDRD++AL +
Sbjct: 3 SQVRQNFHRDCEAAINRMVNMELYASYTYLSMAFYFDRDDIALHNVAKFFKEQSHEEREH 62
Query: 145 XXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVA 204
KLM+ QNKRGG++ LQ + P + E G+ L AM+ HKV
Sbjct: 63 AEKLMKDQNKRGGRIVLQDVQKP----ERDEWGNTLEAMQAALQLEKTVNQALLDLHKVG 118
Query: 205 NKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQ 252
+ D L DF+E++Y EQV++IK++ +Y+ L+R+G G G + FD+
Sbjct: 119 SDKVDPHLCDFLETEYPEEQVKSIKQLGDYITNLKRLGLPQNGMGEYLFDK 169
>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 = 107 bits (266), Expect = 9e-24, Method: Compositional matrix adjust.
Identities = 69/179 (38%), Positives = 91/179 (50%), Gaps = 7/179 (3%)
Query: 80 TVPQLSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXX 139
T S R + D EAAIN QIN+E SYVY +M YFDRD+VALK
Sbjct: 2 TTASTSQVRQNYDQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSH 61
Query: 140 XXXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXX 199
KLM+ QN+RGG++ LQ I P + D E G L AME
Sbjct: 62 EERCHAEKLMKLQNQRGGRIFLQDIQKP--DRDDWESG--LNAMEAALQLEKNVNQSLLE 117
Query: 200 XHKVANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
HK+A +D L+DF+E+ YL+ QV AIK + ++V LR++G G + FD+ L
Sbjct: 118 LHKLATDKNDPHLSDFIETHYLNCQVCAIKCLGDHVTNLRKMGAPESGLAEYLFDKHTL 176
>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 = 107 bits (266), Expect = 1e-23, Method: Compositional matrix adjust.
Identities = 69/179 (38%), Positives = 90/179 (50%), Gaps = 7/179 (3%)
Query: 80 TVPQLSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXX 139
T S R + D EAAIN QIN+E SYVY +M YFDRD+VALK
Sbjct: 2 TTASTSQVRQNYDQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSH 61
Query: 140 XXXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXX 199
KLM+ QN+RGG++ LQ I P + D E G L AME
Sbjct: 62 EERCHAEKLMKLQNQRGGRIFLQDIKKP--DRDDWESG--LNAMEAALQLEKNVNQSLLE 117
Query: 200 XHKVANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
HK+A +D L DF+E+ YL+ QV AIK + ++V LR++G G + FD+ L
Sbjct: 118 LHKLATDKNDPHLCDFIETHYLNCQVCAIKCLGDHVTNLRKMGAPESGLAEYLFDKHTL 176
>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 = 106 bits (265), Expect = 1e-23, Method: Compositional matrix adjust.
Identities = 69/179 (38%), Positives = 90/179 (50%), Gaps = 7/179 (3%)
Query: 80 TVPQLSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXX 139
T S R + D EAAIN QIN+E SYVY +M YFDRD+VALK
Sbjct: 1 TTASTSQVRQNYDQDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSH 60
Query: 140 XXXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXX 199
KLM+ QN+RGG++ LQ I P + D E G L AME
Sbjct: 61 EERCHAEKLMKLQNQRGGRIFLQDIKKP--DRDDWESG--LNAMEAALQLEKNVNQSLLE 116
Query: 200 XHKVANKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
HK+A +D L DF+E+ YL+ QV AIK + ++V LR++G G + FD+ L
Sbjct: 117 LHKLATDKNDPHLCDFIETHYLNCQVCAIKCLGDHVTNLRKMGAPESGLAEYLFDKHTL 175
>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 = 105 bits (262), Expect = 3e-23, Method: Compositional matrix adjust.
Identities = 64/158 (40%), Positives = 86/158 (54%), Gaps = 4/158 (2%)
Query: 85 SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXX 144
S R + D EAAIN QIN+E SYVY +M YFDRD+VALK
Sbjct: 2 SQVRQNYHQDSEAAINRQINLELYASYVYLSMSEYFDRDDVALKNFAKYFHHQSHEEHEH 61
Query: 145 XXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVA 204
KLM+ Q +RGG++ LQ I ++ D E G L AME HK+A
Sbjct: 62 AHKLMKLQEQRGGRIFLQDI--QKADEDDWESG--LNAMEAALHLEKNVNQSLLELHKLA 117
Query: 205 NKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG 242
+D LADF+E+ YL+EQV+AIK++ ++V LR++G
Sbjct: 118 TDKNDPHLADFIETHYLNEQVKAIKELGDHVTNLRKMG 155
>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 = 105 bits (262), Expect = 3e-23, Method: Compositional matrix adjust.
Identities = 64/158 (40%), Positives = 86/158 (54%), Gaps = 4/158 (2%)
Query: 85 SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXX 144
S R + D EAAIN QIN+E SYVY +M YFDRD+VALK
Sbjct: 2 SQVRQNYHQDSEAAINRQINLELYASYVYLSMSEYFDRDDVALKNFACYFHHQSHEEHEH 61
Query: 145 XXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVA 204
KLM+ Q +RGG++ LQ I ++ D E G L AME HK+A
Sbjct: 62 AHKLMKLQEQRGGRIFLQDI--QKADEDDWESG--LNAMEAALHLEKNVNQSLLELHKLA 117
Query: 205 NKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG 242
+D LADF+E+ YL+EQV+AIK++ ++V LR++G
Sbjct: 118 TDKNDPHLADFIETHYLNEQVKAIKELGDHVTNLRKMG 155
>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 = 104 bits (259), Expect = 6e-23, Method: Compositional matrix adjust.
Identities = 55/161 (34%), Positives = 83/161 (51%), Gaps = 4/161 (2%)
Query: 85 SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXX 144
S R F DCEA +N +N++++ SYVY +M +YF+RD+VAL
Sbjct: 3 SQVRQNFHQDCEAGLNRTVNLKFHSSYVYLSMASYFNRDDVALSNFAKFFRERSAAAKAH 62
Query: 145 XXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVA 204
KL+EYQN+RGG+V LQS+ P + + + L A++ H VA
Sbjct: 63 AEKLIEYQNQRGGRVFLQSVEKP----ERDDWANGLEALQTALKLQKSVNQALLDLHAVA 118
Query: 205 NKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVGQGH 245
D + DF+ES YL E VE IKK+ +++ L+++ H
Sbjct: 119 ADKSDPHMTDFLESPYLSESVETIKKLGDHITSLKKLWSSH 159
>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 = 103 bits (257), Expect = 9e-23, Method: Compositional matrix adjust.
Identities = 55/161 (34%), Positives = 83/161 (51%), Gaps = 4/161 (2%)
Query: 85 SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXX 144
S R F DCEA +N +N++++ SYVY +M +YF+RD+VAL
Sbjct: 3 SQVRQNFHQDCEAGLNRTVNLKFHSSYVYLSMASYFNRDDVALSNFAKFFRERSEEEKEH 62
Query: 145 XXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVA 204
KL+EYQN+RGG+V LQS+ P + + + L A++ H VA
Sbjct: 63 AEKLIEYQNQRGGRVFLQSVEKP----ERDDWANGLEALQTALKLQKSVNQALLDLHAVA 118
Query: 205 NKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVGQGH 245
D + DF+ES YL E VE IKK+ +++ L+++ H
Sbjct: 119 ADKSDPHMTDFLESPYLSESVETIKKLGDHITSLKKLWSSH 159
>pdb|1RCI|A Chain A, Bullfrog Red Cell L Ferritin TartrateMGPH 5.5
Length = 173
Score = 102 bits (254), Expect = 2e-22, Method: Compositional matrix adjust.
Identities = 55/161 (34%), Positives = 82/161 (50%), Gaps = 4/161 (2%)
Query: 85 SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXX 144
S R F DCEA +N +N+++ SYVY +M +YF+RD+VAL
Sbjct: 3 SQVRQNFHQDCEAGLNRTVNLKFYSSYVYLSMASYFNRDDVALSNFAKFFRERSEEEKEH 62
Query: 145 XXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVA 204
KL+EYQN+RGG+V LQS+ P + + + L A++ H VA
Sbjct: 63 AEKLIEYQNQRGGRVFLQSVEKP----ERDDWANGLEALQTALKLQKSVNQALLDLHAVA 118
Query: 205 NKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVGQGH 245
D + DF+ES YL E VE IKK+ +++ L+++ H
Sbjct: 119 ADKSDPHMTDFLESPYLSESVETIKKLGDHITSLKKLWSSH 159
>pdb|1R03|A Chain A, Crystal Structure Of A Human Mitochondrial Ferritin
Length = 182
Score = 101 bits (251), Expect = 4e-22, Method: Compositional matrix adjust.
Identities = 62/158 (39%), Positives = 83/158 (52%), Gaps = 4/158 (2%)
Query: 85 SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXX 144
S R F D EAAIN QIN+E SYVY +M YF RD+VAL
Sbjct: 6 SRVRQNFHPDSEAAINRQINLELYASYVYLSMAYYFSRDDVALNNFSRYFLHQSREETEH 65
Query: 145 XXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVA 204
KLM QN+RGG+++LQ I P E D E G L+AME H +A
Sbjct: 66 AEKLMRLQNQRGGRIRLQDIKKP--EQDDWESG--LHAMECALLLEKNVNQSLLELHALA 121
Query: 205 NKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG 242
+ D L DF+E+ YL+EQV++IK++ ++V L ++G
Sbjct: 122 SDKGDPHLCDFLETYYLNEQVKSIKELGDHVHNLVKMG 159
>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 = 87.0 bits (214), Expect = 1e-17, Method: Compositional matrix adjust.
Identities = 49/157 (31%), Positives = 76/157 (48%), Gaps = 4/157 (2%)
Query: 85 SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXX 144
S R ++ + EAA+N +N+ SY Y ++ +FDRD+VAL+G+
Sbjct: 2 SQIRQNYSTEVEAAVNRLVNLHLRASYTYLSLGFFFDRDDVALEGVGHFFRELAEEKREG 61
Query: 145 XXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVA 204
+L+E+QN RGG+ Q + P + E G AME H +
Sbjct: 62 AERLLEFQNDRGGRALFQDVQKPSQD----EWGKTQEAMEAALAMEKNLNQALLDLHALG 117
Query: 205 NKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRV 241
+ D L DF+ES YL ++V+ IKK+ ++ LRRV
Sbjct: 118 SARADPHLCDFLESHYLDKEVKLIKKMGNHLTNLRRV 154
>pdb|2FFX|J Chain J, Structure Of Human Ferritin L. Chain
Length = 173
Score = 85.5 bits (210), Expect = 2e-17, Method: Compositional matrix adjust.
Identities = 52/174 (29%), Positives = 85/174 (48%), Gaps = 7/174 (4%)
Query: 85 SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXX 144
S R ++ D EAA+N +N+ SY Y ++ YFDRD+VAL+G+
Sbjct: 2 SQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREG 61
Query: 145 XXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVA 204
+L++ QN+RGG+ Q I P + E G AM+ H +
Sbjct: 62 YERLLKMQNQRGGRALFQDIKKPAED----EWGKTPDAMKAAMALEKKLNQALLDLHALG 117
Query: 205 NKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
+ D L DF+E+ +L E+V+ IKK+ +++ L R+G G G + F+++ L
Sbjct: 118 SARTDPHLCDFLETHFLDEEVKLIKKMGDHLTNLHRLGGPEAGLGEYLFERLTL 171
>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 = 85.5 bits (210), Expect = 3e-17, Method: Compositional matrix adjust.
Identities = 52/174 (29%), Positives = 85/174 (48%), Gaps = 7/174 (4%)
Query: 85 SLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXX 144
S R ++ D EAA+N +N+ SY Y ++ YFDRD+VAL+G+
Sbjct: 2 SQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREG 61
Query: 145 XXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVA 204
+L++ QN+RGG+ Q I P + E G AM+ H +
Sbjct: 62 YERLLKMQNQRGGRALFQDIKKPAED----EWGKTPDAMKAAMALEKKLNQALLDLHALG 117
Query: 205 NKNHDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG---QGHGVWHFDQMLL 255
+ D L DF+E+ +L E+V+ IKK+ +++ L R+G G G + F+++ L
Sbjct: 118 SARTDPHLCDFLETHFLDEEVKLIKKMGDHLTNLHRLGGPEAGLGEYLFERLTL 171
>pdb|3KXU|A Chain A, Crystal Structure Of Human Ferritin Ftl498instc Pathogenic
M
Length = 191
Score = 84.7 bits (208), Expect = 4e-17, Method: Compositional matrix adjust.
Identities = 47/155 (30%), Positives = 76/155 (49%), Gaps = 4/155 (2%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ D EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 6 RQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREGYER 65
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q I P + E G AM+ H + +
Sbjct: 66 LLKMQNQRGGRALFQDIKKPAED----EWGKTPDAMKAAMALEKKLNQALLDLHALGSAR 121
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG 242
D L DF+E+ +L E+V+ IKK+ +++ L R+G
Sbjct: 122 TDPHLCDFLETHFLDEEVKLIKKMGDHLTNLHRLG 156
>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 = 84.7 bits (208), Expect = 4e-17, Method: Compositional matrix adjust.
Identities = 47/155 (30%), Positives = 76/155 (49%), Gaps = 4/155 (2%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ D EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 7 RQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREGYER 66
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q I P + E G AM+ H + +
Sbjct: 67 LLKMQNQRGGRALFQDIKKPAED----EWGKTPDAMKAAMALEKKLNQALLDLHALGSAR 122
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVG 242
D L DF+E+ +L E+V+ IKK+ +++ L R+G
Sbjct: 123 TDPHLCDFLETHFLDEEVKLIKKMGDHLTNLHRLG 157
>pdb|3AF8|X Chain X, Crystal Structure Of Pd(Ally)APO-C126afr
Length = 174
Score = 84.3 bits (207), Expect = 6e-17, Method: Compositional matrix adjust.
Identities = 52/171 (30%), Positives = 87/171 (50%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G L AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTLDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D LADF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLADFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>pdb|3AF9|X Chain X, Crystal Structure Of Pd(Allyl)APO-C48afr
Length = 174
Score = 83.2 bits (204), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 51/171 (29%), Positives = 86/171 (50%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVAHFFRELAEEKREGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G L AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTLDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>pdb|2GYD|A Chain A, Complex Of Equine Apoferritin With The H-Diaziflurane
Photolabeling Reagent
Length = 170
Score = 83.2 bits (204), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 51/171 (29%), Positives = 86/171 (50%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 4 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREGAER 63
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G L AM+ H + +
Sbjct: 64 LLKMQNQRGGRALFQDLQKPSQD----EWGTTLDAMKAAIVLEKSLNQALLDLHALGSAQ 119
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 120 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 170
>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 = 82.8 bits (203), Expect = 2e-16, Method: Compositional matrix adjust.
Identities = 51/171 (29%), Positives = 86/171 (50%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G L AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTLDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>pdb|2ZUR|X Chain X, Crystal Structure Of Rh(Nbd)APO-Fr
Length = 174
Score = 82.8 bits (203), Expect = 2e-16, Method: Compositional matrix adjust.
Identities = 52/171 (30%), Positives = 87/171 (50%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVXHFFRELAEEKREGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G L AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTLDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>pdb|3NP0|X Chain X, Crystal Structure Of Pd(Allyl)APO-E45cH49AR52H-Rhlfr
Length = 174
Score = 82.0 bits (201), Expect = 3e-16, Method: Compositional matrix adjust.
Identities = 51/171 (29%), Positives = 85/171 (49%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALCGVCAFFHELAEEKREGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G L AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTLDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>pdb|3NP2|X Chain X, Crystal Structure Of Pd(Allyl)APO-E45cC48A-Rhlfr
Length = 174
Score = 82.0 bits (201), Expect = 3e-16, Method: Compositional matrix adjust.
Identities = 51/171 (29%), Positives = 85/171 (49%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALCGVAHFFRELAEEKREGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G L AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTLDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>pdb|3NOZ|X Chain X, Crystal Structure Of Pd(Allyl)APO-E45cR52H-Rhlfr
Length = 174
Score = 81.6 bits (200), Expect = 4e-16, Method: Compositional matrix adjust.
Identities = 51/171 (29%), Positives = 85/171 (49%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALCGVCHFFHELAEEKREGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G L AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTLDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>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 = 80.5 bits (197), Expect = 8e-16, Method: Compositional matrix adjust.
Identities = 50/171 (29%), Positives = 85/171 (49%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCAFFRELAEEKREGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTPDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>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 = 80.1 bits (196), Expect = 1e-15, Method: Compositional matrix adjust.
Identities = 50/171 (29%), Positives = 85/171 (49%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRQLAQQKMQGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTPDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>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 = 80.1 bits (196), Expect = 1e-15, Method: Compositional matrix adjust.
Identities = 50/171 (29%), Positives = 85/171 (49%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRQLAQQKRQGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTPDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>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 = 80.1 bits (196), Expect = 1e-15, Method: Compositional matrix adjust.
Identities = 50/171 (29%), Positives = 85/171 (49%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKMEGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTPDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>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 = 80.1 bits (196), Expect = 1e-15, Method: Compositional matrix adjust.
Identities = 50/171 (29%), Positives = 85/171 (49%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G AM+ H + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTPDAMKAAIVLEKSLNQALLDLHALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>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 = 79.7 bits (195), Expect = 1e-15, Method: Compositional matrix adjust.
Identities = 50/171 (29%), Positives = 85/171 (49%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 6 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREGAER 65
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G AM+ H + +
Sbjct: 66 LLKMQNQRGGRALFQDLQKPSQD----EWGTTPDAMKAAIVLEKSLNQALLDLHALGSAQ 121
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 122 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 172
>pdb|2ZA7|A Chain A, Recombinant Horse L-Chain Apoferritin N-Terminal Deletion
Mutant (Residues 1-4)
Length = 171
Score = 79.7 bits (195), Expect = 2e-15, Method: Compositional matrix adjust.
Identities = 50/171 (29%), Positives = 85/171 (49%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 2 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREGAER 61
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G AM+ H + +
Sbjct: 62 LLKMQNQRGGRALFQDLQKPSQD----EWGTTPDAMKAAIVLEKSLNQALLDLHALGSAQ 117
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 118 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 168
>pdb|2ZA8|A Chain A, Recombinant Horse L-Chain Apoferritin N-Terminal Deletion
Mutant (Residues 1-8)
Length = 167
Score = 77.8 bits (190), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 49/168 (29%), Positives = 84/168 (50%), Gaps = 7/168 (4%)
Query: 91 FTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXKLME 150
++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +L++
Sbjct: 1 YSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREGAERLLK 60
Query: 151 YQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKNHDV 210
QN+RGG+ Q + P + E G AM+ H + + D
Sbjct: 61 MQNQRGGRALFQDLQKPSQD----EWGTTPDAMKAAIVLEKSLNQALLDLHALGSAQADP 116
Query: 211 QLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 117 HLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 164
>pdb|2ZG9|X Chain X, Crystal Structure Of Pd(Allyl)APO-H114afr
Length = 174
Score = 76.6 bits (187), Expect = 1e-14, Method: Compositional matrix adjust.
Identities = 49/171 (28%), Positives = 84/171 (49%), Gaps = 7/171 (4%)
Query: 88 RHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXK 147
R ++ + EAA+N +N+ SY Y ++ YFDRD+VAL+G+ +
Sbjct: 5 RQNYSTEVEAAVNRLVNLYLRASYTYLSLGFYFDRDDVALEGVCHFFRELAEEKREGAER 64
Query: 148 LMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKN 207
L++ QN+RGG+ Q + P + E G AM+ + +
Sbjct: 65 LLKMQNQRGGRALFQDLQKPSQD----EWGTTPDAMKAAIVLEKSLNQALLDLAALGSAQ 120
Query: 208 HDVQLADFVESKYLHEQVEAIKKISEYVAQLRR-VGQ--GHGVWHFDQMLL 255
D L DF+ES +L E+V+ IKK+ +++ ++R VG G G + F+++ L
Sbjct: 121 ADPHLCDFLESHFLDEEVKLIKKMGDHLTNIQRLVGSQAGLGEYLFERLTL 171
>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 = 53.1 bits (126), Expect = 1e-07, Method: Compositional matrix adjust.
Identities = 41/146 (28%), Positives = 68/146 (46%), Gaps = 8/146 (5%)
Query: 98 AINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXKLMEYQNKRGG 157
A+N QIN E +Y+Y +M +YF D++ LKG K+ ++ ++RGG
Sbjct: 11 ALNRQINAEIYSAYLYLSMASYF--DSIGLKGFSNWMRVQWQEELMHAMKMFDFVSERGG 68
Query: 158 KVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKNHDVQLADFVE 217
+VKL ++ P SE+D L A E ++A + D +F++
Sbjct: 69 RVKLYAVEEPPSEWD-----SPLAAFEHVYEHEVNVTKRIHELVEMAMQEKDFATYNFLQ 123
Query: 218 SKYLHEQVEAIKKISEYVAQLRRVGQ 243
Y+ EQVE + V +LR +G+
Sbjct: 124 W-YVAEQVEEEASALDIVEKLRLIGE 148
>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 = 49.3 bits (116), Expect = 2e-06, Method: Compositional matrix adjust.
Identities = 43/146 (29%), Positives = 68/146 (46%), Gaps = 8/146 (5%)
Query: 98 AINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXKLMEYQNKRGG 157
A+N QIN E +Y+Y + +YFD ++ LKG K ++ ++RGG
Sbjct: 11 ALNRQINAEIYSAYLYLSXASYFD--SIGLKGFSNWXRVQWQEELXHAXKXFDFVSERGG 68
Query: 158 KVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKNHDVQLADFVE 217
+VKL ++ P SE+D L A E + A + D +F++
Sbjct: 69 RVKLYAVEEPPSEWD-----SPLAAFEHVYEHEVNVTKRIHELVEXAXQEKDFATYNFLQ 123
Query: 218 SKYLHEQVEAIKKISEYVAQLRRVGQ 243
Y+ EQVE + V +LR +G+
Sbjct: 124 W-YVAEQVEEEASALDIVEKLRLIGE 148
>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 = 45.1 bits (105), Expect = 4e-05, Method: Compositional matrix adjust.
Identities = 26/81 (32%), Positives = 40/81 (49%), Gaps = 2/81 (2%)
Query: 92 TDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXKLMEY 151
++ A+NEQ+N E SY+Y +M YFD + KG K EY
Sbjct: 5 SEKVRKALNEQLNREIYSSYLYLSMATYFDAE--GFKGFAHWMKKQAQEELTHAMKFYEY 62
Query: 152 QNKRGGKVKLQSILMPLSEFD 172
+RGG+V+L++I P S ++
Sbjct: 63 IYERGGRVELEAIEKPPSNWN 83
>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 = 43.5 bits (101), Expect = 1e-04, Method: Compositional matrix adjust.
Identities = 25/81 (30%), Positives = 40/81 (49%), Gaps = 2/81 (2%)
Query: 92 TDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXKLMEY 151
++ A+N+Q+N E SY+Y +M YFD + KG K EY
Sbjct: 17 SEKVRKALNDQLNREIYSSYLYLSMATYFDAE--GFKGFAHWMKKQAQEELTHAMKFYEY 74
Query: 152 QNKRGGKVKLQSILMPLSEFD 172
+RGG+V+L++I P S ++
Sbjct: 75 IYERGGRVELEAIEKPPSNWN 95
>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 = 39.3 bits (90), Expect = 0.002, Method: Compositional matrix adjust.
Identities = 39/181 (21%), Positives = 70/181 (38%), Gaps = 9/181 (4%)
Query: 81 VPQLSLARHKFTDDCEAAINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXX 140
+P+ + H+ C ++ +QI +E S Y AM A+F +D V G
Sbjct: 10 IPKDWITMHR---SCRNSMRQQIQMEVGASLQYLAMGAHFSKDVVNRPGFAQLFFDAASE 66
Query: 141 XXXXXXKLMEYQNKRGGKVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXX 200
KL+EY RG S L+ + + + A+E
Sbjct: 67 EREHAMKLIEYLLMRGELTNDVSSLLQVRPPTRSSWKGGVEALEHALSMESDVTKSIRNV 126
Query: 201 HKVANKN---HDVQLADFVESKYLHEQVEAIKKISEYVAQLRRVGQGH---GVWHFDQML 254
K + +D L D++ +L EQ + + ++ + L+++ H G + FD+ L
Sbjct: 127 IKACEDDSEFNDYHLVDYLTGDFLEEQYKGQRDLAGKASTLKKLMDRHEALGEFIFDKKL 186
Query: 255 L 255
L
Sbjct: 187 L 187
>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 = 38.9 bits (89), Expect = 0.003, Method: Compositional matrix adjust.
Identities = 36/137 (26%), Positives = 58/137 (42%), Gaps = 11/137 (8%)
Query: 98 AINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXKLMEYQNKRGG 157
A+N+Q+N E +Y+Y AM AYF +++ L+G + Y R G
Sbjct: 9 ALNDQLNRELYSAYLYFAMAAYF--EDLGLEGFANWMKAQAEEEIGHALRFYNYIYDRNG 66
Query: 158 KVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKNHDVQLADFVE 217
+V+L I P E++ L A E +A + D F+E
Sbjct: 67 RVELDEIPKPPKEWE-----SPLKAFEAAYEHEKFISKSIYELAALAEEEKDYSTRAFLE 121
Query: 218 SKYLHEQVE---AIKKI 231
+++EQVE ++KKI
Sbjct: 122 W-FINEQVEEEASVKKI 137
>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 = 38.9 bits (89), Expect = 0.003, Method: Compositional matrix adjust.
Identities = 36/137 (26%), Positives = 58/137 (42%), Gaps = 11/137 (8%)
Query: 98 AINEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXKLMEYQNKRGG 157
A+N+Q+N E +Y+Y AM AYF +++ L+G + Y R G
Sbjct: 9 ALNDQLNRELYSAYLYFAMAAYF--EDLGLEGFANWMKAQAEEEIGHALRFYNYIYDRNG 66
Query: 158 KVKLQSILMPLSEFDHAEKGDALYAMEXXXXXXXXXXXXXXXXHKVANKNHDVQLADFVE 217
+V+L I P E++ L A E +A + D F+E
Sbjct: 67 RVELDEIPKPPKEWE-----SPLKAFEAAYEHEKFISKSIYELAALAEEEKDYSTRAFLE 121
Query: 218 SKYLHEQVE---AIKKI 231
+++EQVE ++KKI
Sbjct: 122 W-FINEQVEEEASVKKI 137
>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 = 31.2 bits (69), Expect = 0.63, Method: Compositional matrix adjust.
Identities = 16/71 (22%), Positives = 33/71 (46%), Gaps = 2/71 (2%)
Query: 99 INEQINVEYNVSYVYHAMFAYFDRDNVALKGLXXXXXXXXXXXXXXXXKLMEYQNKRGGK 158
N Q+ E+ S VY + +FD+++ +G+ +++ NKR
Sbjct: 9 FNRQVTQEFTASQVYLSASIWFDQND--WEGMAAYMLAESAEEREHGLGFVDFANKRNIP 66
Query: 159 VKLQSILMPLS 169
++LQ++ P+S
Sbjct: 67 IELQAVPAPVS 77
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 0.132 0.383
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 6,438,957
Number of Sequences: 62578
Number of extensions: 219967
Number of successful extensions: 612
Number of sequences better than 100.0: 61
Number of HSP's better than 100.0 without gapping: 56
Number of HSP's successfully gapped in prelim test: 5
Number of HSP's that attempted gapping in prelim test: 450
Number of HSP's gapped (non-prelim): 61
length of query: 262
length of database: 14,973,337
effective HSP length: 97
effective length of query: 165
effective length of database: 8,903,271
effective search space: 1469039715
effective search space used: 1469039715
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: 50 (23.9 bits)