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= psy13446
(121 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|3Q41|A Chain A, Crystal Structure Of The Glun1 N-Terminal Domain (Ntd)
pdb|3Q41|B Chain B, Crystal Structure Of The Glun1 N-Terminal Domain (Ntd)
pdb|3Q41|C Chain C, Crystal Structure Of The Glun1 N-Terminal Domain (Ntd)
Length = 384
Score = 33.1 bits (74), Expect = 0.038, Method: Compositional matrix adjust.
Identities = 30/84 (35%), Positives = 41/84 (48%), Gaps = 8/84 (9%)
Query: 25 ISTAIKVYAYGVEDYMSDSSNANLSLNTQLSCDGVGESRWKTGDRFYRYLRNVS-VEGDT 83
IS A+ V A V + + N++ + C G + WKTG F R L + +G T
Sbjct: 261 ISDAVGVVAQAVHELLEKE---NIT-DPPRGCVG-NTNIWKTGPLFKRVLMSSKYADGVT 315
Query: 84 GKPNVEFTADGVLKAAELKIMNLR 107
G+ VEF DG K A IMNL+
Sbjct: 316 GR--VEFNEDGDRKFANYSIMNLQ 337
>pdb|3QEL|A Chain A, Crystal Structure Of Amino Terminal Domains Of The Nmda
Receptor Subunit Glun1 And Glun2b In Complex With
Ifenprodil
pdb|3QEL|C Chain C, Crystal Structure Of Amino Terminal Domains Of The Nmda
Receptor Subunit Glun1 And Glun2b In Complex With
Ifenprodil
pdb|3QEM|A Chain A, Crystal Structure Of Amino Terminal Domains Of The Nmda
Receptor Subunit Glun1 And Glun2b In Complex With Ro
25-6981
pdb|3QEM|C Chain C, Crystal Structure Of Amino Terminal Domains Of The Nmda
Receptor Subunit Glun1 And Glun2b In Complex With Ro
25-6981
Length = 383
Score = 32.7 bits (73), Expect = 0.054, Method: Compositional matrix adjust.
Identities = 20/45 (44%), Positives = 26/45 (57%), Gaps = 3/45 (6%)
Query: 64 WKTGDRFYRYLRNVSV-EGDTGKPNVEFTADGVLKAAELKIMNLR 107
WKTG F R L + +G TG+ +EF DG K A+ IMNL+
Sbjct: 314 WKTGPLFKRVLMSSKYPDGVTGR--IEFNEDGDRKFAQYSIMNLQ 356
>pdb|3QEK|A Chain A, Crystal Structure Of Amino Terminal Domain Of The Nmda
Receptor Subunit Glun1
pdb|3QEK|B Chain B, Crystal Structure Of Amino Terminal Domain Of The Nmda
Receptor Subunit Glun1
Length = 384
Score = 30.0 bits (66), Expect = 0.34, Method: Composition-based stats.
Identities = 19/45 (42%), Positives = 25/45 (55%), Gaps = 3/45 (6%)
Query: 64 WKTGDRFYRYLRNVSV-EGDTGKPNVEFTADGVLKAAELKIMNLR 107
WKTG F R L + +G TG+ +EF DG K A+ I NL+
Sbjct: 315 WKTGPLFKRVLXSSKYPDGVTGR--IEFNEDGDRKFAQYSIXNLQ 357
>pdb|3U44|B Chain B, Crystal Structure Of Addab-Dna Complex
pdb|3U4Q|B Chain B, Structure Of Addab-Dna Complex At 2.8 Angstroms
Length = 1166
Score = 29.3 bits (64), Expect = 0.58, Method: Compositional matrix adjust.
Identities = 14/39 (35%), Positives = 22/39 (56%), Gaps = 1/39 (2%)
Query: 58 GVGESRWKTGDRFYRYLRNVSVEGDTGKPNVEFTADGVL 96
G+ RW GDRF +Y R VS++ D + + E + +L
Sbjct: 437 GIKGDRWTKGDRF-QYRRFVSLDDDFAQTDQEIEMENML 474
>pdb|1WE3|A Chain A, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|B Chain B, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|C Chain C, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|D Chain D, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|E Chain E, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|F Chain F, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|G Chain G, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|H Chain H, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|I Chain I, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|J Chain J, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|K Chain K, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|L Chain L, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|M Chain M, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WE3|N Chain N, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|AA Chain a, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|BB Chain b, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|CC Chain c, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|DD Chain d, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|EE Chain e, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|FF Chain f, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|GG Chain g, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|HH Chain h, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|II Chain i, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|JJ Chain j, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|KK Chain k, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|LL Chain l, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|MM Chain m, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
pdb|1WF4|NN Chain n, Crystal Structure Of The Chaperonin Complex
Cpn60CPN10(ADP)7 FROM THERMUS THERMOPHILUS
Length = 543
Score = 28.1 bits (61), Expect = 1.2, Method: Composition-based stats.
Identities = 16/40 (40%), Positives = 24/40 (60%), Gaps = 2/40 (5%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQL 114
RNV +E G P + T DGV A E+++ + N+G+QL
Sbjct: 35 RNVVLEKKFGSPTI--TKDGVTVAKEVELEDHLENIGAQL 72
>pdb|1X3D|A Chain A, Solution Structure Of The Fibronectin Type-Iii Domain Of
Human Fibronectin Type-Iii Domain Containing Protein 3a
Length = 118
Score = 28.1 bits (61), Expect = 1.2, Method: Compositional matrix adjust.
Identities = 15/53 (28%), Positives = 24/53 (45%)
Query: 63 RWKTGDRFYRYLRNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLK 115
+WK ++N +E D GK N EF + + KI L P +G + +
Sbjct: 37 QWKAPSDNGSKIQNFVLEWDEGKGNGEFCQCYMGSQKQFKITKLSPAMGCKFR 89
>pdb|3QEL|B Chain B, Crystal Structure Of Amino Terminal Domains Of The Nmda
Receptor Subunit Glun1 And Glun2b In Complex With
Ifenprodil
pdb|3QEL|D Chain D, Crystal Structure Of Amino Terminal Domains Of The Nmda
Receptor Subunit Glun1 And Glun2b In Complex With
Ifenprodil
pdb|3QEM|B Chain B, Crystal Structure Of Amino Terminal Domains Of The Nmda
Receptor Subunit Glun1 And Glun2b In Complex With Ro
25-6981
pdb|3QEM|D Chain D, Crystal Structure Of Amino Terminal Domains Of The Nmda
Receptor Subunit Glun1 And Glun2b In Complex With Ro
25-6981
Length = 364
Score = 27.3 bits (59), Expect = 2.1, Method: Composition-based stats.
Identities = 27/106 (25%), Positives = 41/106 (38%), Gaps = 11/106 (10%)
Query: 12 VHFDTSSASLVQGISTAIKVYAYGVEDYMSDSSNANLSLNTQLSCDGVGESRWKTGDRFY 71
V +D L + I + D +S+ S + SC E R +
Sbjct: 250 VSYDEWDYGLPARVRDGIAIITTAASDMLSEHS---FIPEPKSSCYNTHEKRIYQSNMLN 306
Query: 72 RYLRNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RYL NV+ EG ++ F+ DG +L I+ L + KWE
Sbjct: 307 RYLINVTFEGR----DLSFSEDGYQMHPKLVII----LLNKERKWE 344
>pdb|2JKK|A Chain A, Focal Adhesion Kinase Catalytic Domain In Complex With
Bis- Anilino Pyrimidine Inhibitor
pdb|2JKO|A Chain A, Focal Adhesion Kinase Catalytic Domain In Complex With
Bis- Anilino Pyrimidine Inhibitor
Length = 276
Score = 27.3 bits (59), Expect = 2.3, Method: Compositional matrix adjust.
Identities = 11/38 (28%), Positives = 23/38 (60%)
Query: 7 EKKKGVHFDTSSASLVQGISTAIKVYAYGVEDYMSDSS 44
E K+ VH D ++ +++ + +K+ +G+ YM DS+
Sbjct: 128 ESKRFVHRDIAARNVLVSATDCVKLGDFGLSRYMEDST 165
>pdb|3JPW|A Chain A, Crystal Structure Of Amino Terminal Domain Of The Nmda
Receptor Subunit Nr2b
pdb|3JPY|A Chain A, Crystal Structure Of The Zinc-Bound Amino Terminal Domain
Of The Nmda Receptor Subunit Nr2b
Length = 363
Score = 27.3 bits (59), Expect = 2.4, Method: Compositional matrix adjust.
Identities = 20/63 (31%), Positives = 28/63 (44%), Gaps = 8/63 (12%)
Query: 55 SCDGVGESRWKTGDRFYRYLRNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQL 114
SC E R + RYL NV+ EG ++ F+ DG +L I+ L +
Sbjct: 289 SCYNTHEKRIYQSNMLNRYLINVTFEGR----DLSFSEDGYQMHPKLVII----LLNKER 340
Query: 115 KWE 117
KWE
Sbjct: 341 KWE 343
>pdb|2J0K|A Chain A, Crystal Structure Of A Fragment Of Focal Adhesion Kinase
Containing The Ferm And Kinase Domains.
pdb|2J0K|B Chain B, Crystal Structure Of A Fragment Of Focal Adhesion Kinase
Containing The Ferm And Kinase Domains
Length = 656
Score = 26.9 bits (58), Expect = 2.6, Method: Compositional matrix adjust.
Identities = 11/38 (28%), Positives = 23/38 (60%)
Query: 7 EKKKGVHFDTSSASLVQGISTAIKVYAYGVEDYMSDSS 44
E K+ VH D ++ +++ + +K+ +G+ YM DS+
Sbjct: 508 ESKRFVHRDIAARNVLVSATDCVKLGDFGLSRYMEDST 545
>pdb|1IOK|A Chain A, Crystal Structure Of Chaperonin-60 From Paracoccus
Denitrificans
pdb|1IOK|B Chain B, Crystal Structure Of Chaperonin-60 From Paracoccus
Denitrificans
pdb|1IOK|C Chain C, Crystal Structure Of Chaperonin-60 From Paracoccus
Denitrificans
pdb|1IOK|D Chain D, Crystal Structure Of Chaperonin-60 From Paracoccus
Denitrificans
pdb|1IOK|E Chain E, Crystal Structure Of Chaperonin-60 From Paracoccus
Denitrificans
pdb|1IOK|F Chain F, Crystal Structure Of Chaperonin-60 From Paracoccus
Denitrificans
pdb|1IOK|G Chain G, Crystal Structure Of Chaperonin-60 From Paracoccus
Denitrificans
Length = 545
Score = 26.9 bits (58), Expect = 3.0, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 36 RNVVIDKSFGAPRI--TKDGVSVAKEIELSDKFENMGAQMVRE 76
>pdb|3OM0|A Chain A, Crystal Structure Of The Gluk5 (Ka2) Atd Crystallographic
Dimer At 1.4 Angstrom Resolution
pdb|3OM1|A Chain A, Crystal Structure Of The Gluk5 (Ka2) Atd Dimer At 1.7
Angstrom Resolution
pdb|3OM1|B Chain B, Crystal Structure Of The Gluk5 (Ka2) Atd Dimer At 1.7
Angstrom Resolution
pdb|3QLU|A Chain A, Crystal Structure Of The Gluk2GLUK5 (GLUR6KA2) ATD DIMER
ASSEMBLY
pdb|3QLU|B Chain B, Crystal Structure Of The Gluk2GLUK5 (GLUR6KA2) ATD DIMER
ASSEMBLY
pdb|3QLV|A Chain A, Crystal Structure Of The Gluk2GLUK5 (GLUR6KA2) ATD
TETRAMER ASSEMBLY
pdb|3QLV|B Chain B, Crystal Structure Of The Gluk2GLUK5 (GLUR6KA2) ATD
TETRAMER ASSEMBLY
pdb|3QLV|E Chain E, Crystal Structure Of The Gluk2GLUK5 (GLUR6KA2) ATD
TETRAMER ASSEMBLY
pdb|3QLV|G Chain G, Crystal Structure Of The Gluk2GLUK5 (GLUR6KA2) ATD
TETRAMER ASSEMBLY
pdb|3QLV|I Chain I, Crystal Structure Of The Gluk2GLUK5 (GLUR6KA2) ATD
TETRAMER ASSEMBLY
Length = 393
Score = 26.9 bits (58), Expect = 3.0, Method: Compositional matrix adjust.
Identities = 15/41 (36%), Positives = 20/41 (48%), Gaps = 2/41 (4%)
Query: 64 WKTGDRFYRYLRNVSVEGDTGKPNVEFTADGVLKAAELKIM 104
W G YLR V +G TG+ VEF + G L+I+
Sbjct: 321 WPHGTSLMNYLRMVEYDGLTGR--VEFNSKGQRTNYTLRIL 359
>pdb|3TNY|A Chain A, Structure Of Yfiy From Bacillus Cereus Bound To The
Siderophore Iron (Iii) Schizokinen
Length = 303
Score = 26.6 bits (57), Expect = 3.7, Method: Compositional matrix adjust.
Identities = 21/72 (29%), Positives = 37/72 (51%), Gaps = 18/72 (25%)
Query: 53 QLSCDGVGESRWKTGDRFYRY----LRNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRP 108
+L VG + TGD +Y + +++V V GD G+ NVE I +L+P
Sbjct: 50 ELGVKPVGAVKSWTGDPWYPHIKDKMKDVKVVGDEGQVNVE------------TIASLKP 97
Query: 109 NL--GSQLKWEE 118
+L G++++ E+
Sbjct: 98 DLIIGNKMRHEK 109
>pdb|2J0L|A Chain A, Crystal Structure Of A The Active Conformation Of The
Kinase Domain Of Focal Adhesion Kinase With A
Phosphorylated Activation Loop
Length = 276
Score = 26.6 bits (57), Expect = 3.8, Method: Compositional matrix adjust.
Identities = 12/43 (27%), Positives = 24/43 (55%)
Query: 7 EKKKGVHFDTSSASLVQGISTAIKVYAYGVEDYMSDSSNANLS 49
E K+ VH D ++ +++ + +K+ +G+ YM DS+ S
Sbjct: 128 ESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDSTXXKAS 170
>pdb|2J0M|B Chain B, Crystal Structure A Two-Chain Complex Between The Ferm And
Kinase Domains Of Focal Adhesion Kinase.
pdb|2JKQ|A Chain A, Focal Adhesion Kinase Catalytic Domain In Complex With
Bis- Anilino Pyrimidine Inhibitor
Length = 276
Score = 26.2 bits (56), Expect = 4.9, Method: Compositional matrix adjust.
Identities = 11/38 (28%), Positives = 23/38 (60%)
Query: 7 EKKKGVHFDTSSASLVQGISTAIKVYAYGVEDYMSDSS 44
E K+ VH D ++ +++ + +K+ +G+ YM DS+
Sbjct: 128 ESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDST 165
>pdb|2JKM|A Chain A, Focal Adhesion Kinase Catalytic Domain In Complex With
Bis- Anilino Pyrimidine Inhibitor
Length = 276
Score = 26.2 bits (56), Expect = 5.0, Method: Compositional matrix adjust.
Identities = 11/38 (28%), Positives = 23/38 (60%)
Query: 7 EKKKGVHFDTSSASLVQGISTAIKVYAYGVEDYMSDSS 44
E K+ VH D ++ +++ + +K+ +G+ YM DS+
Sbjct: 128 ESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDST 165
>pdb|3BZ3|A Chain A, Crystal Structure Analysis Of Focal Adhesion Kinase With A
Methanesulfonamide Diaminopyrimidine Inhibitor
Length = 276
Score = 26.2 bits (56), Expect = 5.0, Method: Compositional matrix adjust.
Identities = 11/38 (28%), Positives = 23/38 (60%)
Query: 7 EKKKGVHFDTSSASLVQGISTAIKVYAYGVEDYMSDSS 44
E K+ VH D ++ +++ + +K+ +G+ YM DS+
Sbjct: 125 ESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDST 162
>pdb|2ETM|A Chain A, Crystal Structure Of Focal Adhesion Kinase Domain
Complexed With 7h-Pyrrolo [2,3-D] Pyrimidine Derivative
pdb|2ETM|B Chain B, Crystal Structure Of Focal Adhesion Kinase Domain
Complexed With 7h-Pyrrolo [2,3-D] Pyrimidine Derivative
pdb|2IJM|A Chain A, Crystal Structure Of Focal Adhesion Kinase Domain With 2
Molecules In The Asymmetric Unit Complexed With Adp And
Atp
pdb|2IJM|B Chain B, Crystal Structure Of Focal Adhesion Kinase Domain With 2
Molecules In The Asymmetric Unit Complexed With Adp And
Atp
Length = 281
Score = 26.2 bits (56), Expect = 5.0, Method: Compositional matrix adjust.
Identities = 11/38 (28%), Positives = 23/38 (60%)
Query: 7 EKKKGVHFDTSSASLVQGISTAIKVYAYGVEDYMSDSS 44
E K+ VH D ++ +++ + +K+ +G+ YM DS+
Sbjct: 130 ESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDST 167
>pdb|1MP8|A Chain A, Crystal Structure Of Focal Adhesion Kinase (Fak)
pdb|4I4F|A Chain A, Structure Of Focal Adhesion Kinase Catalytic Domain In
Complex With An Allosteric Binding Pyrazolobenzothiazine
Compound
Length = 281
Score = 26.2 bits (56), Expect = 5.1, Method: Compositional matrix adjust.
Identities = 11/38 (28%), Positives = 23/38 (60%)
Query: 7 EKKKGVHFDTSSASLVQGISTAIKVYAYGVEDYMSDSS 44
E K+ VH D ++ +++ + +K+ +G+ YM DS+
Sbjct: 133 ESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDST 170
>pdb|2J0J|A Chain A, Crystal Structure Of A Fragment Of Focal Adhesion Kinase
Containing The Ferm And Kinase Domains
Length = 656
Score = 26.2 bits (56), Expect = 5.1, Method: Compositional matrix adjust.
Identities = 11/38 (28%), Positives = 23/38 (60%)
Query: 7 EKKKGVHFDTSSASLVQGISTAIKVYAYGVEDYMSDSS 44
E K+ VH D ++ +++ + +K+ +G+ YM DS+
Sbjct: 508 ESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDST 545
>pdb|3PXK|A Chain A, Focal Adhesion Kinase Catalytic Domain In Complex With
Pyrrolo[2,3- D]thiazole
pdb|3PXK|B Chain B, Focal Adhesion Kinase Catalytic Domain In Complex With
Pyrrolo[2,3- D]thiazole
Length = 282
Score = 26.2 bits (56), Expect = 5.1, Method: Compositional matrix adjust.
Identities = 11/38 (28%), Positives = 23/38 (60%)
Query: 7 EKKKGVHFDTSSASLVQGISTAIKVYAYGVEDYMSDSS 44
E K+ VH D ++ +++ + +K+ +G+ YM DS+
Sbjct: 131 ESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDST 168
>pdb|3ORM|A Chain A, Mycobacterium Tuberculosis Pknb Kinase Domain D76a Mutant
Length = 311
Score = 26.2 bits (56), Expect = 5.2, Method: Compositional matrix adjust.
Identities = 10/35 (28%), Positives = 21/35 (60%)
Query: 12 VHFDTSSASLVQGISTAIKVYAYGVEDYMSDSSNA 46
+H D A+++ + A+KV +G+ ++DS N+
Sbjct: 138 IHRDVKPANIMISATNAVKVMDFGIARAIADSGNS 172
>pdb|4EBW|A Chain A, Structure Of Focal Adhesion Kinase Catalytic Domain In
Complex With Novel Allosteric Inhibitor
pdb|4EBV|A Chain A, Structure Of Focal Adhesion Kinase Catalytic Domain In
Complex With Novel Allosteric Inhibitor
Length = 304
Score = 26.2 bits (56), Expect = 5.3, Method: Compositional matrix adjust.
Identities = 11/38 (28%), Positives = 23/38 (60%)
Query: 7 EKKKGVHFDTSSASLVQGISTAIKVYAYGVEDYMSDSS 44
E K+ VH D ++ +++ + +K+ +G+ YM DS+
Sbjct: 156 ESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDST 193
>pdb|3ORI|A Chain A, Mycobacterium Tuberculosis Pknb Kinase Domain L33d Mutant
(Crystal Form 1)
pdb|3ORI|B Chain B, Mycobacterium Tuberculosis Pknb Kinase Domain L33d Mutant
(Crystal Form 1)
pdb|3ORI|C Chain C, Mycobacterium Tuberculosis Pknb Kinase Domain L33d Mutant
(Crystal Form 1)
pdb|3ORI|D Chain D, Mycobacterium Tuberculosis Pknb Kinase Domain L33d Mutant
(Crystal Form 1)
pdb|3ORK|A Chain A, Mycobacterium Tuberculosis Pknb Kinase Domain L33d Mutant
(Crystal Form 2)
pdb|3ORL|A Chain A, Mycobacterium Tuberculosis Pknb Kinase Domain L33d Mutant
(Crystal Form 3)
pdb|3ORO|A Chain A, Mycobacterium Tuberculosis Pknb Kinase Domain L33d Mutant
(Crystal Form 4)
pdb|3ORP|A Chain A, Mycobacterium Tuberculosis Pknb Kinase Domain L33d Mutant
(Crystal Form 5)
pdb|3ORT|A Chain A, Mycobacterium Tuberculosis Pknb Kinase Domain L33d Mutant
(Crystal Form 6)
Length = 311
Score = 26.2 bits (56), Expect = 5.4, Method: Compositional matrix adjust.
Identities = 10/35 (28%), Positives = 21/35 (60%)
Query: 12 VHFDTSSASLVQGISTAIKVYAYGVEDYMSDSSNA 46
+H D A+++ + A+KV +G+ ++DS N+
Sbjct: 138 IHRDVKPANIMISATNAVKVMDFGIARAIADSGNS 172
>pdb|3F61|A Chain A, Crystal Structure Of M. Tuberculosis Pknb
Leu33aspVAL222ASP DOUBLE MUTANT IN COMPLEX WITH ADP
Length = 311
Score = 26.2 bits (56), Expect = 5.4, Method: Compositional matrix adjust.
Identities = 10/35 (28%), Positives = 21/35 (60%)
Query: 12 VHFDTSSASLVQGISTAIKVYAYGVEDYMSDSSNA 46
+H D A+++ + A+KV +G+ ++DS N+
Sbjct: 138 IHRDVKPANIMISATNAVKVMDFGIARAIADSGNS 172
>pdb|1MRU|A Chain A, Intracellular SerTHR PROTEIN KINASE DOMAIN OF
Mycobacterium Tuberculosis Pknb.
pdb|1MRU|B Chain B, Intracellular SerTHR PROTEIN KINASE DOMAIN OF
Mycobacterium Tuberculosis Pknb
Length = 311
Score = 26.2 bits (56), Expect = 5.4, Method: Compositional matrix adjust.
Identities = 10/35 (28%), Positives = 21/35 (60%)
Query: 12 VHFDTSSASLVQGISTAIKVYAYGVEDYMSDSSNA 46
+H D A+++ + A+KV +G+ ++DS N+
Sbjct: 138 IHRDVKPANIMISATNAVKVMDFGIARAIADSGNS 172
>pdb|3F69|A Chain A, Crystal Structure Of The Mycobacterium Tuberculosis Pknb
Mutant Kinase Domain In Complex With Kt5720
pdb|3F69|B Chain B, Crystal Structure Of The Mycobacterium Tuberculosis Pknb
Mutant Kinase Domain In Complex With Kt5720
Length = 311
Score = 26.2 bits (56), Expect = 5.5, Method: Compositional matrix adjust.
Identities = 10/35 (28%), Positives = 21/35 (60%)
Query: 12 VHFDTSSASLVQGISTAIKVYAYGVEDYMSDSSNA 46
+H D A+++ + A+KV +G+ ++DS N+
Sbjct: 138 IHRDVKPANILISATNAVKVVDFGIARAIADSGNS 172
>pdb|1O6Y|A Chain A, Catalytic Domain Of Pknb Kinase From Mycobacterium
Tuberculosis
pdb|2FUM|A Chain A, Catalytic Domain Of Protein Kinase Pknb From Mycobacterium
Tuberculosis In Complex With Mitoxantrone
pdb|2FUM|B Chain B, Catalytic Domain Of Protein Kinase Pknb From Mycobacterium
Tuberculosis In Complex With Mitoxantrone
pdb|2FUM|C Chain C, Catalytic Domain Of Protein Kinase Pknb From Mycobacterium
Tuberculosis In Complex With Mitoxantrone
pdb|2FUM|D Chain D, Catalytic Domain Of Protein Kinase Pknb From Mycobacterium
Tuberculosis In Complex With Mitoxantrone
Length = 299
Score = 26.2 bits (56), Expect = 5.5, Method: Compositional matrix adjust.
Identities = 10/35 (28%), Positives = 21/35 (60%)
Query: 12 VHFDTSSASLVQGISTAIKVYAYGVEDYMSDSSNA 46
+H D A+++ + A+KV +G+ ++DS N+
Sbjct: 155 IHRDVKPANIMISATNAVKVMDFGIARAIADSGNS 189
>pdb|1J4Z|A Chain A, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|B Chain B, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|C Chain C, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|D Chain D, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|E Chain E, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|F Chain F, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|G Chain G, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|H Chain H, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|I Chain I, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|J Chain J, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|K Chain K, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|L Chain L, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|M Chain M, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1J4Z|N Chain N, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|O Chain O, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|P Chain P, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|Q Chain Q, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|R Chain R, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|S Chain S, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|T Chain T, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|U Chain U, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|V Chain V, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|W Chain W, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|X Chain X, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|Y Chain Y, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|Z Chain Z, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|1 Chain 1, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
pdb|1KPO|2 Chain 2, Structural And Mechanistic Basis For Allostery In The
Bacterial Chaperonin Groel; See Remark 400
Length = 547
Score = 25.8 bits (55), Expect = 5.7, Method: Composition-based stats.
Identities = 14/40 (35%), Positives = 24/40 (60%), Gaps = 2/40 (5%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQL 114
RNV ++ G P + T DGV A E+++ + N+G+Q+
Sbjct: 35 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQM 72
>pdb|1OEL|A Chain A, Conformational Variability In The Refined Structure Of The
Chaperonin Groel At 2.8 Angstrom Resolution
pdb|1OEL|B Chain B, Conformational Variability In The Refined Structure Of The
Chaperonin Groel At 2.8 Angstrom Resolution
pdb|1OEL|C Chain C, Conformational Variability In The Refined Structure Of The
Chaperonin Groel At 2.8 Angstrom Resolution
pdb|1OEL|D Chain D, Conformational Variability In The Refined Structure Of The
Chaperonin Groel At 2.8 Angstrom Resolution
pdb|1OEL|E Chain E, Conformational Variability In The Refined Structure Of The
Chaperonin Groel At 2.8 Angstrom Resolution
pdb|1OEL|F Chain F, Conformational Variability In The Refined Structure Of The
Chaperonin Groel At 2.8 Angstrom Resolution
pdb|1OEL|G Chain G, Conformational Variability In The Refined Structure Of The
Chaperonin Groel At 2.8 Angstrom Resolution
Length = 547
Score = 25.8 bits (55), Expect = 6.0, Method: Composition-based stats.
Identities = 14/40 (35%), Positives = 24/40 (60%), Gaps = 2/40 (5%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQL 114
RNV ++ G P + T DGV A E+++ + N+G+Q+
Sbjct: 35 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQM 72
>pdb|2QLY|A Chain A, Crystral Structure Of The N-Terminal Subunit Of Human
Maltase- Glucoamylase
pdb|2QMJ|A Chain A, Crystral Structure Of The N-Terminal Subunit Of Human
Maltase- Glucoamylase In Complex With Acarbose
pdb|3CTT|A Chain A, Crystal Complex Of N-Terminal Human Maltase-Glucoamylase
With Casuarine
Length = 870
Score = 25.4 bits (54), Expect = 7.5, Method: Compositional matrix adjust.
Identities = 13/45 (28%), Positives = 21/45 (46%)
Query: 63 RWKTGDRFYRYLRNVSVEGDTGKPNVEFTADGVLKAAELKIMNLR 107
RW FY + RN + +G + F AD +L + +N+R
Sbjct: 586 RWMQLGAFYPFSRNHNGQGYKDQDPASFGADSLLLNSSRHYLNIR 630
>pdb|3L4T|A Chain A, Crystal Complex Of N-Terminal Human Maltase-Glucoamylase
With Bj2661
pdb|3L4U|A Chain A, Crystal Complex Of N-Terminal Human Maltase-Glucoamylase
With De-O-Sulfonated Kotalanol
pdb|3L4V|A Chain A, Crystal Complex Of N-Terminal Human Maltase-Glucoamylase
With Kotalanol
pdb|3L4W|A Chain A, Crystal Complex Of N-Terminal Human Maltase-Glucoamylase
With Miglitol
pdb|3L4X|A Chain A, Crystal Complex Of N-Terminal Human Maltase-Glucoamylase
With Nr4-8
pdb|3L4Y|A Chain A, Crystal Complex Of N-Terminal Human Maltase-Glucoamylase
With Nr4-8ii
pdb|3L4Z|A Chain A, Crystal Complex Of N-Terminal Human Maltase-Glucoamylase
With Salacinol
Length = 875
Score = 25.4 bits (54), Expect = 7.7, Method: Compositional matrix adjust.
Identities = 13/45 (28%), Positives = 21/45 (46%)
Query: 63 RWKTGDRFYRYLRNVSVEGDTGKPNVEFTADGVLKAAELKIMNLR 107
RW FY + RN + +G + F AD +L + +N+R
Sbjct: 586 RWMQLGAFYPFSRNHNGQGYKDQDPASFGADSLLLNSSRHYLNIR 630
>pdb|1SS8|A Chain A, Groel
pdb|1SS8|B Chain B, Groel
pdb|1SS8|C Chain C, Groel
pdb|1SS8|D Chain D, Groel
pdb|1SS8|E Chain E, Groel
pdb|1SS8|F Chain F, Groel
pdb|1SS8|G Chain G, Groel
Length = 524
Score = 25.4 bits (54), Expect = 8.5, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 35 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 75
>pdb|1PCQ|A Chain A, Crystal Structure Of Groel-Groes
pdb|1PCQ|B Chain B, Crystal Structure Of Groel-Groes
pdb|1PCQ|C Chain C, Crystal Structure Of Groel-Groes
pdb|1PCQ|D Chain D, Crystal Structure Of Groel-Groes
pdb|1PCQ|E Chain E, Crystal Structure Of Groel-Groes
pdb|1PCQ|F Chain F, Crystal Structure Of Groel-Groes
pdb|1PCQ|G Chain G, Crystal Structure Of Groel-Groes
pdb|1PCQ|H Chain H, Crystal Structure Of Groel-Groes
pdb|1PCQ|I Chain I, Crystal Structure Of Groel-Groes
pdb|1PCQ|J Chain J, Crystal Structure Of Groel-Groes
pdb|1PCQ|K Chain K, Crystal Structure Of Groel-Groes
pdb|1PCQ|L Chain L, Crystal Structure Of Groel-Groes
pdb|1PCQ|M Chain M, Crystal Structure Of Groel-Groes
pdb|1PCQ|N Chain N, Crystal Structure Of Groel-Groes
pdb|1PF9|A Chain A, Groel-Groes-Adp
pdb|1PF9|B Chain B, Groel-Groes-Adp
pdb|1PF9|C Chain C, Groel-Groes-Adp
pdb|1PF9|D Chain D, Groel-Groes-Adp
pdb|1PF9|E Chain E, Groel-Groes-Adp
pdb|1PF9|F Chain F, Groel-Groes-Adp
pdb|1PF9|G Chain G, Groel-Groes-Adp
pdb|1PF9|H Chain H, Groel-Groes-Adp
pdb|1PF9|I Chain I, Groel-Groes-Adp
pdb|1PF9|J Chain J, Groel-Groes-Adp
pdb|1PF9|K Chain K, Groel-Groes-Adp
pdb|1PF9|L Chain L, Groel-Groes-Adp
pdb|1PF9|M Chain M, Groel-Groes-Adp
pdb|1PF9|N Chain N, Groel-Groes-Adp
pdb|1SVT|A Chain A, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|B Chain B, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|C Chain C, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|D Chain D, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|E Chain E, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|F Chain F, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|G Chain G, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|H Chain H, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|I Chain I, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|J Chain J, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|K Chain K, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|L Chain L, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|M Chain M, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SVT|N Chain N, Crystal Structure Of Groel14-Groes7-(Adp-Alfx)7
pdb|1SX4|A Chain A, Groel-Groes-Adp7
pdb|1SX4|B Chain B, Groel-Groes-Adp7
pdb|1SX4|C Chain C, Groel-Groes-Adp7
pdb|1SX4|D Chain D, Groel-Groes-Adp7
pdb|1SX4|E Chain E, Groel-Groes-Adp7
pdb|1SX4|F Chain F, Groel-Groes-Adp7
pdb|1SX4|G Chain G, Groel-Groes-Adp7
pdb|1SX4|H Chain H, Groel-Groes-Adp7
pdb|1SX4|I Chain I, Groel-Groes-Adp7
pdb|1SX4|J Chain J, Groel-Groes-Adp7
pdb|1SX4|K Chain K, Groel-Groes-Adp7
pdb|1SX4|L Chain L, Groel-Groes-Adp7
pdb|1SX4|M Chain M, Groel-Groes-Adp7
pdb|1SX4|N Chain N, Groel-Groes-Adp7
pdb|2YNJ|A Chain A, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|B Chain B, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|C Chain C, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|D Chain D, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|E Chain E, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|F Chain F, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|G Chain G, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|H Chain H, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|I Chain I, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|J Chain J, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|K Chain K, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|L Chain L, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|M Chain M, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
pdb|2YNJ|N Chain N, Groel At Sub-Nanometer Resolution By Constrained Single
Particle Tomography
Length = 524
Score = 25.4 bits (54), Expect = 8.5, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 35 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 75
>pdb|1GRL|A Chain A, The Crystal Structure Of The Bacterial Chaperonin Groel At
2.8 Angstroms
pdb|1GRL|B Chain B, The Crystal Structure Of The Bacterial Chaperonin Groel At
2.8 Angstroms
pdb|1GRL|C Chain C, The Crystal Structure Of The Bacterial Chaperonin Groel At
2.8 Angstroms
pdb|1GRL|D Chain D, The Crystal Structure Of The Bacterial Chaperonin Groel At
2.8 Angstroms
pdb|1GRL|E Chain E, The Crystal Structure Of The Bacterial Chaperonin Groel At
2.8 Angstroms
pdb|1GRL|F Chain F, The Crystal Structure Of The Bacterial Chaperonin Groel At
2.8 Angstroms
pdb|1GRL|G Chain G, The Crystal Structure Of The Bacterial Chaperonin Groel At
2.8 Angstroms
Length = 548
Score = 25.4 bits (54), Expect = 8.5, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 36 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 76
>pdb|1SX3|A Chain A, Groel14-(Atpgammas)14
pdb|1SX3|B Chain B, Groel14-(Atpgammas)14
pdb|1SX3|C Chain C, Groel14-(Atpgammas)14
pdb|1SX3|D Chain D, Groel14-(Atpgammas)14
pdb|1SX3|E Chain E, Groel14-(Atpgammas)14
pdb|1SX3|F Chain F, Groel14-(Atpgammas)14
pdb|1SX3|G Chain G, Groel14-(Atpgammas)14
pdb|1SX3|H Chain H, Groel14-(Atpgammas)14
pdb|1SX3|I Chain I, Groel14-(Atpgammas)14
pdb|1SX3|J Chain J, Groel14-(Atpgammas)14
pdb|1SX3|K Chain K, Groel14-(Atpgammas)14
pdb|1SX3|L Chain L, Groel14-(Atpgammas)14
pdb|1SX3|M Chain M, Groel14-(Atpgammas)14
pdb|1SX3|N Chain N, Groel14-(Atpgammas)14
Length = 525
Score = 25.4 bits (54), Expect = 8.6, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 35 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 75
>pdb|1AON|A Chain A, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|B Chain B, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|C Chain C, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|D Chain D, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|E Chain E, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|F Chain F, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|G Chain G, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|H Chain H, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|I Chain I, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|J Chain J, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|K Chain K, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|L Chain L, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|M Chain M, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1AON|N Chain N, Crystal Structure Of The Asymmetric Chaperonin Complex
GroelGROES(ADP)7
pdb|1GRU|A Chain A, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|B Chain B, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|C Chain C, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|D Chain D, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|E Chain E, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|F Chain F, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|G Chain G, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|H Chain H, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|I Chain I, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|J Chain J, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|K Chain K, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|L Chain L, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|M Chain M, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1GRU|N Chain N, Solution Structure Of Groes-Adp7-Groel-Atp7 Complex By
Cryo-Em
pdb|1MNF|A Chain A, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|B Chain B, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|C Chain C, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|D Chain D, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|E Chain E, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|F Chain F, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|G Chain G, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|H Chain H, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|I Chain I, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|J Chain J, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|K Chain K, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|L Chain L, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|M Chain M, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1MNF|N Chain N, Domain Motions In Groel Upon Binding Of An Oligopeptide
pdb|1XCK|A Chain A, Crystal Structure Of Apo Groel
pdb|1XCK|B Chain B, Crystal Structure Of Apo Groel
pdb|1XCK|C Chain C, Crystal Structure Of Apo Groel
pdb|1XCK|D Chain D, Crystal Structure Of Apo Groel
pdb|1XCK|E Chain E, Crystal Structure Of Apo Groel
pdb|1XCK|F Chain F, Crystal Structure Of Apo Groel
pdb|1XCK|G Chain G, Crystal Structure Of Apo Groel
pdb|1XCK|H Chain H, Crystal Structure Of Apo Groel
pdb|1XCK|I Chain I, Crystal Structure Of Apo Groel
pdb|1XCK|J Chain J, Crystal Structure Of Apo Groel
pdb|1XCK|K Chain K, Crystal Structure Of Apo Groel
pdb|1XCK|L Chain L, Crystal Structure Of Apo Groel
pdb|1XCK|M Chain M, Crystal Structure Of Apo Groel
pdb|1XCK|N Chain N, Crystal Structure Of Apo Groel
pdb|2C7C|A Chain A, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|B Chain B, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|C Chain C, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|D Chain D, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|E Chain E, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|F Chain F, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|G Chain G, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|H Chain H, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|I Chain I, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|J Chain J, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|K Chain K, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|L Chain L, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|M Chain M, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7C|N Chain N, Fitted Coordinates For Groel-Atp7-Groes Cryo-Em Complex
(Emd-1180)
pdb|2C7D|A Chain A, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|B Chain B, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|C Chain C, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|D Chain D, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|E Chain E, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|F Chain F, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|G Chain G, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|H Chain H, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|I Chain I, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|J Chain J, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|K Chain K, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|L Chain L, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|M Chain M, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2C7D|N Chain N, Fitted Coordinates For Groel-Adp7-Groes Cryo-Em Complex
(Emd-1181)
pdb|2CGT|A Chain A, Groel-Adp-Gp31 Complex
pdb|2CGT|B Chain B, Groel-Adp-Gp31 Complex
pdb|2CGT|C Chain C, Groel-Adp-Gp31 Complex
pdb|2CGT|D Chain D, Groel-Adp-Gp31 Complex
pdb|2CGT|E Chain E, Groel-Adp-Gp31 Complex
pdb|2CGT|F Chain F, Groel-Adp-Gp31 Complex
pdb|2CGT|G Chain G, Groel-Adp-Gp31 Complex
pdb|2CGT|H Chain H, Groel-Adp-Gp31 Complex
pdb|2CGT|I Chain I, Groel-Adp-Gp31 Complex
pdb|2CGT|J Chain J, Groel-Adp-Gp31 Complex
pdb|2CGT|K Chain K, Groel-Adp-Gp31 Complex
pdb|2CGT|L Chain L, Groel-Adp-Gp31 Complex
pdb|2CGT|M Chain M, Groel-Adp-Gp31 Complex
pdb|2CGT|N Chain N, Groel-Adp-Gp31 Complex
pdb|2NWC|A Chain A, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|B Chain B, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|C Chain C, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|D Chain D, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|E Chain E, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|F Chain F, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|G Chain G, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|H Chain H, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|I Chain I, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|J Chain J, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|K Chain K, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|L Chain L, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|M Chain M, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|2NWC|N Chain N, A 3.02 Angstrom Crystal Structure Of Wild-Type Apo Groel
In A Monoclinic Space Group
pdb|3E76|A Chain A, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|B Chain B, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|C Chain C, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|D Chain D, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|E Chain E, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|F Chain F, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|G Chain G, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|H Chain H, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|I Chain I, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|J Chain J, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|K Chain K, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|L Chain L, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|M Chain M, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
pdb|3E76|N Chain N, Crystal Structure Of Wild-Type Groel With Bound Thallium
Ions
Length = 547
Score = 25.4 bits (54), Expect = 8.6, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 35 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 75
>pdb|2YEY|A Chain A, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|B Chain B, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|C Chain C, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|D Chain D, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|E Chain E, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|F Chain F, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|G Chain G, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|H Chain H, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|I Chain I, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|J Chain J, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|K Chain K, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|L Chain L, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|M Chain M, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
pdb|2YEY|N Chain N, Crystal Structure Of The Allosteric-Defective Chaperonin
Groel E434k Mutant
Length = 524
Score = 25.4 bits (54), Expect = 8.6, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 35 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 75
>pdb|3C9V|A Chain A, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|B Chain B, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|C Chain C, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|D Chain D, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|E Chain E, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|F Chain F, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|G Chain G, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|H Chain H, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|I Chain I, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|J Chain J, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|K Chain K, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|L Chain L, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|M Chain M, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
pdb|3C9V|N Chain N, C7 Symmetrized Structure Of Unliganded Groel At 4.7
Angstrom Resolution From Cryoem
Length = 526
Score = 25.4 bits (54), Expect = 8.6, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 35 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 75
>pdb|1GR5|A Chain A, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|B Chain B, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|C Chain C, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|D Chain D, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|E Chain E, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|F Chain F, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|G Chain G, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|H Chain H, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|I Chain I, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|J Chain J, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|K Chain K, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|L Chain L, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|M Chain M, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|1GR5|N Chain N, Solution Structure Of Apo Groel By Cryo-Electron
Microscopy
pdb|2C7E|A Chain A, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|B Chain B, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|C Chain C, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|D Chain D, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|E Chain E, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|F Chain F, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|G Chain G, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|H Chain H, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|I Chain I, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|J Chain J, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|K Chain K, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|L Chain L, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|M Chain M, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
pdb|2C7E|N Chain N, Revised Atomic Structure Fitting Into A Groel(D398a)-Atp7
Cryo-Em Map (Emd 1047)
Length = 547
Score = 25.4 bits (54), Expect = 8.6, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 35 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 75
>pdb|1KP8|A Chain A, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|B Chain B, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|C Chain C, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|D Chain D, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|E Chain E, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|F Chain F, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|G Chain G, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|H Chain H, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|I Chain I, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|J Chain J, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|K Chain K, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|L Chain L, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|M Chain M, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
pdb|1KP8|N Chain N, Structural Basis For Groel-Assisted Protein Folding From
The Crystal Structure Of (Groel-Kmgatp)14 At 2.0 A
Resolution
Length = 547
Score = 25.4 bits (54), Expect = 8.7, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 35 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 75
>pdb|2EU1|A Chain A, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|B Chain B, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|C Chain C, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|D Chain D, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|E Chain E, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|F Chain F, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|G Chain G, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|H Chain H, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|I Chain I, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|J Chain J, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|K Chain K, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|L Chain L, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|M Chain M, Crystal Structure Of The Chaperonin Groel-E461k
pdb|2EU1|N Chain N, Crystal Structure Of The Chaperonin Groel-E461k
Length = 548
Score = 25.4 bits (54), Expect = 8.8, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 36 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 76
>pdb|3CAU|A Chain A, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|B Chain B, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|C Chain C, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|D Chain D, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|E Chain E, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|F Chain F, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|G Chain G, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|H Chain H, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|I Chain I, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|J Chain J, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|K Chain K, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|L Chain L, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|M Chain M, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
pdb|3CAU|N Chain N, D7 Symmetrized Structure Of Unliganded Groel At 4.2
Angstrom Resolution By Cryoem
Length = 526
Score = 25.4 bits (54), Expect = 8.8, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 35 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 75
>pdb|4AAQ|A Chain A, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|B Chain B, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|C Chain C, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|D Chain D, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|E Chain E, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|F Chain F, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|G Chain G, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|H Chain H, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|I Chain I, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|J Chain J, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|K Chain K, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|L Chain L, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|M Chain M, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAQ|N Chain N, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|A Chain A, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|B Chain B, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|C Chain C, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|D Chain D, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|E Chain E, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|F Chain F, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|G Chain G, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|H Chain H, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|I Chain I, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|J Chain J, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|K Chain K, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|L Chain L, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|M Chain M, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAR|N Chain N, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|A Chain A, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|B Chain B, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|C Chain C, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|D Chain D, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|E Chain E, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|F Chain F, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|G Chain G, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|H Chain H, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|I Chain I, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|J Chain J, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|K Chain K, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|L Chain L, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|M Chain M, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAS|N Chain N, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|A Chain A, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|B Chain B, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|C Chain C, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|D Chain D, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|E Chain E, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|F Chain F, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|G Chain G, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|H Chain H, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|I Chain I, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|J Chain J, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|K Chain K, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|L Chain L, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|M Chain M, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AAU|N Chain N, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|A Chain A, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|B Chain B, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|C Chain C, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|D Chain D, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|E Chain E, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|F Chain F, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|G Chain G, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|H Chain H, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|I Chain I, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|J Chain J, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|K Chain K, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|L Chain L, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|M Chain M, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB2|N Chain N, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|A Chain A, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|B Chain B, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|C Chain C, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|D Chain D, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|E Chain E, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|F Chain F, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|G Chain G, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|H Chain H, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|I Chain I, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|J Chain J, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|K Chain K, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|L Chain L, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|M Chain M, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
pdb|4AB3|N Chain N, Atp-Triggered Molecular Mechanics Of The Chaperonin Groel
Length = 548
Score = 25.4 bits (54), Expect = 9.0, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 25/43 (58%), Gaps = 2/43 (4%)
Query: 75 RNVSVEGDTGKPNVEFTADGVLKAAELKIMNLRPNLGSQLKWE 117
RNV ++ G P + T DGV A E+++ + N+G+Q+ E
Sbjct: 36 RNVVLDKSFGAPTI--TKDGVSVAREIELEDKFENMGAQMVKE 76
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
0.311 0.129 0.363
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 3,583,369
Number of Sequences: 62578
Number of extensions: 133970
Number of successful extensions: 310
Number of sequences better than 100.0: 46
Number of HSP's better than 100.0 without gapping: 22
Number of HSP's successfully gapped in prelim test: 24
Number of HSP's that attempted gapping in prelim test: 288
Number of HSP's gapped (non-prelim): 46
length of query: 121
length of database: 14,973,337
effective HSP length: 83
effective length of query: 38
effective length of database: 9,779,363
effective search space: 371615794
effective search space used: 371615794
T: 11
A: 40
X1: 16 ( 7.2 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 42 (21.8 bits)
S2: 45 (21.9 bits)