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= psy15579
(368 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|1EFV|A Chain A, Three-Dimensional Structure Of Human Electron Transfer
Flavoprotein To 2.1 A Resolution
Length = 315
Score = 132 bits (333), Expect = 2e-31, Method: Compositional matrix adjust.
Identities = 78/157 (49%), Positives = 99/157 (63%), Gaps = 29/157 (18%)
Query: 51 NAILTLKSKDPVKVVTVRGTSFPPAA-KGGSASVEALANAS-VEANKLSEWVGQELSKSD 108
NA+ T+K + VKV +VRGTSF AA GGSAS E ++ S VE +SEW+ Q+L+KSD
Sbjct: 134 NALCTVKCDEKVKVFSVRGTSFDAAATSGGSASSEKASSTSPVE---ISEWLDQKLTKSD 190
Query: 109 RPDLGSAKIVVSGGRGLKSADNFKLLYTLADKLGAAVGRGLKSADNFKLLYTLADKLXXX 168
RP+L AK+VVSGGRGLKS +NFKLLY LAD+L AAVG + D
Sbjct: 191 RPELTGAKVVVSGGRGLKSGENFKLLYDLADQLHAAVGASRAAVD--------------- 235
Query: 169 XXXXXXXXXXXFVPNDMQIGQTGKIIAPQVSKISGVT 205
FVPNDMQ+GQTGKI+AP++ G++
Sbjct: 236 ---------AGFVPNDMQVGQTGKIVAPELYIAVGIS 263
Score = 85.5 bits (210), Expect = 4e-17, Method: Compositional matrix adjust.
Identities = 42/83 (50%), Positives = 52/83 (62%)
Query: 277 VSKISGVTKVLTVENDALKGLLPENLAPLIVSAQNAGKYTHILAGASSMGKSLLPRVAAL 336
+ K++G+ KVL ++D KGLLPE L PLI++ Q YTHI AGAS+ GK+LLPRVAA
Sbjct: 49 LCKVAGIAKVLVAQHDVYKGLLPEELTPLILATQKQFNYTHICAGASAFGKNLLPRVAAK 108
Query: 337 LXXXXXXXXXXXXXXXTFVRTIY 359
L TFVRTIY
Sbjct: 109 LEVAPISDIIAIKSPDTFVRTIY 131
Score = 78.2 bits (191), Expect = 8e-15, Method: Compositional matrix adjust.
Identities = 36/65 (55%), Positives = 47/65 (72%)
Query: 194 IAPQVSKISGVTKVLTVENDALKGLLPENLAPLIVSAQNAGKYTHILAGASSMGKSLLPR 253
+A + K++G+ KVL ++D KGLLPE L PLI++ Q YTHI AGAS+ GK+LLPR
Sbjct: 45 VAQDLCKVAGIAKVLVAQHDVYKGLLPEELTPLILATQKQFNYTHICAGASAFGKNLLPR 104
Query: 254 VAALL 258
VAA L
Sbjct: 105 VAAKL 109
Score = 33.5 bits (75), Expect = 0.20, Method: Compositional matrix adjust.
Identities = 15/47 (31%), Positives = 25/47 (53%)
Query: 5 FESTIIIGEHADGKXXXXXXXXXXXXQKIGGDISVLVAGSKVADVSN 51
+ST++I EHA+ ++GG++S LVAG+K V+
Sbjct: 1 MQSTLVIAEHANDSLAPITLNTITAATRLGGEVSCLVAGTKCDKVAQ 47
>pdb|1T9G|R Chain R, Structure Of The Human Mcad:etf Complex
pdb|2A1T|R Chain R, Structure Of The Human Mcad:etf E165betaa Complex
pdb|2A1U|A Chain A, Crystal Structure Of The Human Etf E165betaa Mutant
Length = 333
Score = 132 bits (333), Expect = 2e-31, Method: Compositional matrix adjust.
Identities = 78/157 (49%), Positives = 99/157 (63%), Gaps = 29/157 (18%)
Query: 51 NAILTLKSKDPVKVVTVRGTSFPPAA-KGGSASVEALANAS-VEANKLSEWVGQELSKSD 108
NA+ T+K + VKV +VRGTSF AA GGSAS E ++ S VE +SEW+ Q+L+KSD
Sbjct: 152 NALCTVKCDEKVKVFSVRGTSFDAAATSGGSASSEKASSTSPVE---ISEWLDQKLTKSD 208
Query: 109 RPDLGSAKIVVSGGRGLKSADNFKLLYTLADKLGAAVGRGLKSADNFKLLYTLADKLXXX 168
RP+L AK+VVSGGRGLKS +NFKLLY LAD+L AAVG + D
Sbjct: 209 RPELTGAKVVVSGGRGLKSGENFKLLYDLADQLHAAVGASRAAVD--------------- 253
Query: 169 XXXXXXXXXXXFVPNDMQIGQTGKIIAPQVSKISGVT 205
FVPNDMQ+GQTGKI+AP++ G++
Sbjct: 254 ---------AGFVPNDMQVGQTGKIVAPELYIAVGIS 281
Score = 85.5 bits (210), Expect = 5e-17, Method: Compositional matrix adjust.
Identities = 42/83 (50%), Positives = 52/83 (62%)
Query: 277 VSKISGVTKVLTVENDALKGLLPENLAPLIVSAQNAGKYTHILAGASSMGKSLLPRVAAL 336
+ K++G+ KVL ++D KGLLPE L PLI++ Q YTHI AGAS+ GK+LLPRVAA
Sbjct: 67 LCKVAGIAKVLVAQHDVYKGLLPEELTPLILATQKQFNYTHICAGASAFGKNLLPRVAAK 126
Query: 337 LXXXXXXXXXXXXXXXTFVRTIY 359
L TFVRTIY
Sbjct: 127 LEVAPISDIIAIKSPDTFVRTIY 149
Score = 77.8 bits (190), Expect = 8e-15, Method: Compositional matrix adjust.
Identities = 36/65 (55%), Positives = 47/65 (72%)
Query: 194 IAPQVSKISGVTKVLTVENDALKGLLPENLAPLIVSAQNAGKYTHILAGASSMGKSLLPR 253
+A + K++G+ KVL ++D KGLLPE L PLI++ Q YTHI AGAS+ GK+LLPR
Sbjct: 63 VAQDLCKVAGIAKVLVAQHDVYKGLLPEELTPLILATQKQFNYTHICAGASAFGKNLLPR 122
Query: 254 VAALL 258
VAA L
Sbjct: 123 VAAKL 127
Score = 39.3 bits (90), Expect = 0.004, Method: Compositional matrix adjust.
Identities = 17/48 (35%), Positives = 27/48 (56%)
Query: 4 RFESTIIIGEHADGKXXXXXXXXXXXXQKIGGDISVLVAGSKVADVSN 51
RF+ST++I EHA+ ++GG++S LVAG+K V+
Sbjct: 18 RFQSTLVIAEHANDSLAPITLNTITAATRLGGEVSCLVAGTKCDKVAQ 65
>pdb|1EFP|A Chain A, Electron Transfer Flavoprotein (Etf) From Paracoccus
Denitrificans
pdb|1EFP|C Chain C, Electron Transfer Flavoprotein (Etf) From Paracoccus
Denitrificans
Length = 307
Score = 110 bits (275), Expect = 1e-24, Method: Compositional matrix adjust.
Identities = 65/155 (41%), Positives = 89/155 (57%), Gaps = 26/155 (16%)
Query: 51 NAILTLKSKDPVKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRP 110
NAI +KSKD KV T+R SF A +GG+A V A A+ LS WV E+++SDRP
Sbjct: 130 NAIQVVKSKDAKKVFTIRTASFDAAGEGGTAPVTETAAAADPG--LSSWVADEVAESDRP 187
Query: 111 DLGSAKIVVSGGRGLKSADNFKLLYTLADKLGAAVGRGLKSADNFKLLYTLADKLXXXXX 170
+L SA+ VVSGGRGL S ++F ++ LADKLGAAVG + D+
Sbjct: 188 ELTSARRVVSGGRGLGSKESFAIIEELADKLGAAVGASRAAVDS---------------- 231
Query: 171 XXXXXXXXXFVPNDMQIGQTGKIIAPQVSKISGVT 205
+ PND Q+GQTGK++AP++ G++
Sbjct: 232 --------GYAPNDWQVGQTGKVVAPELYVAVGIS 258
Score = 45.8 bits (107), Expect = 4e-05, Method: Compositional matrix adjust.
Identities = 35/78 (44%), Positives = 41/78 (52%), Gaps = 4/78 (5%)
Query: 283 VTKVLTVENDALKG-LLPENLAPLIVSAQNAGKYTHILAGASSMGKSLLPRVAALLXXXX 341
V KVL E DAL G L E A LIV AG Y+HI A A++ K+++PRVAALL
Sbjct: 53 VAKVLVAE-DALYGHRLAEPTAALIVGL--AGDYSHIAAPATTDAKNVMPRVAALLDVMV 109
Query: 342 XXXXXXXXXXXTFVRTIY 359
TF R IY
Sbjct: 110 LSDVSAILDADTFERPIY 127
Score = 41.2 bits (95), Expect = 0.001, Method: Compositional matrix adjust.
Identities = 42/120 (35%), Positives = 52/120 (43%), Gaps = 14/120 (11%)
Query: 204 VTKVLTVENDALKG-LLPENLAPLIVSAQNAGKYTHILAGASSMGKSLLPRVAALLXXXX 262
V KVL E DAL G L E A LIV AG Y+HI A A++ K+++PRVAALL
Sbjct: 53 VAKVLVAE-DALYGHRLAEPTAALIVGL--AGDYSHIAAPATTDAKNVMPRVAALLDVMV 109
Query: 263 XXXXXXXXXXXTF----------QVSKISGVTKVLTVENDALKGLLPENLAPLIVSAQNA 312
TF QV K KV T+ + AP+ +A A
Sbjct: 110 LSDVSAILDADTFERPIYAGNAIQVVKSKDAKKVFTIRTASFDAAGEGGTAPVTETAAAA 169
>pdb|3CLS|D Chain D, Crystal Structure Of The R236c Mutant Of Etf From
Methylophilus Methylotrophus
Length = 321
Score = 35.4 bits (80), Expect = 0.045, Method: Compositional matrix adjust.
Identities = 31/132 (23%), Positives = 56/132 (42%), Gaps = 27/132 (20%)
Query: 64 VVTVRGTSFPPAAKGGSASVEALANASVEANKLS-EWVGQELSKSDRPDLGSAKIVVSGG 122
V+T+R + F P GS V + SV++ + ++V E+ + D+ + ++S G
Sbjct: 153 VLTIRPSVFKPLEGAGSPVVSNVDAPSVQSRSQNKDYV--EVGGGNDIDITTVDFIMSIG 210
Query: 123 RGLKSADNFKLLYTLADKLGAAVGRGLKSADNFKLLYTLADKLXXXXXXXXXXXXXXFVP 182
RG+ N + LAD+ GA + AD ++P
Sbjct: 211 RGIGEETNVEQFRELADEAGATLCCSCPIAD------------------------AGWLP 246
Query: 183 NDMQIGQTGKII 194
Q+GQ+GK++
Sbjct: 247 KSRQVGQSGKVV 258
>pdb|3CLR|D Chain D, Crystal Structure Of The R236a Etf Mutant From M.
Methylotrophus
Length = 321
Score = 34.7 bits (78), Expect = 0.086, Method: Compositional matrix adjust.
Identities = 31/132 (23%), Positives = 56/132 (42%), Gaps = 27/132 (20%)
Query: 64 VVTVRGTSFPPAAKGGSASVEALANASVEANKLS-EWVGQELSKSDRPDLGSAKIVVSGG 122
V+T+R + F P GS V + SV++ + ++V E+ + D+ + ++S G
Sbjct: 153 VLTIRPSVFKPLEGAGSPVVSNVDAPSVQSRSQNKDYV--EVGGGNDIDITTVDFIMSIG 210
Query: 123 RGLKSADNFKLLYTLADKLGAAVGRGLKSADNFKLLYTLADKLXXXXXXXXXXXXXXFVP 182
RG+ N + LAD+ GA + AD ++P
Sbjct: 211 RGIGEETNVEQFRELADEAGATLCCSAPIAD------------------------AGWLP 246
Query: 183 NDMQIGQTGKII 194
Q+GQ+GK++
Sbjct: 247 KSRQVGQSGKVV 258
>pdb|1O94|D Chain D, Ternary Complex Between Trimethylamine Dehydrogenase And
Electron Transferring Flavoprotein
pdb|1O94|F Chain F, Ternary Complex Between Trimethylamine Dehydrogenase And
Electron Transferring Flavoprotein
pdb|1O95|D Chain D, Ternary Complex Between Trimethylamine Dehydrogenase And
Electron Transferring Flavoprotein
pdb|1O95|F Chain F, Ternary Complex Between Trimethylamine Dehydrogenase And
Electron Transferring Flavoprotein
pdb|1O96|B Chain B, Structure Of Electron Transferring Flavoprotein For
Methylophilus Methylotrophus.
pdb|1O96|D Chain D, Structure Of Electron Transferring Flavoprotein For
Methylophilus Methylotrophus.
pdb|1O96|F Chain F, Structure Of Electron Transferring Flavoprotein For
Methylophilus Methylotrophus.
pdb|1O96|Z Chain Z, Structure Of Electron Transferring Flavoprotein For
Methylophilus Methylotrophus.
pdb|1O97|D Chain D, Structure Of Electron Transferring Flavoprotein From
Methylophilus Methylotrophus, Recognition Loop Removed
By Limited Proteolysis
Length = 320
Score = 34.7 bits (78), Expect = 0.091, Method: Compositional matrix adjust.
Identities = 31/132 (23%), Positives = 56/132 (42%), Gaps = 27/132 (20%)
Query: 64 VVTVRGTSFPPAAKGGSASVEALANASVEANKLS-EWVGQELSKSDRPDLGSAKIVVSGG 122
V+T+R + F P GS V + SV++ + ++V E+ + D+ + ++S G
Sbjct: 152 VLTIRPSVFKPLEGAGSPVVSNVDAPSVQSRSQNKDYV--EVGGGNDIDITTVDFIMSIG 209
Query: 123 RGLKSADNFKLLYTLADKLGAAVGRGLKSADNFKLLYTLADKLXXXXXXXXXXXXXXFVP 182
RG+ N + LAD+ GA + AD ++P
Sbjct: 210 RGIGEETNVEQFRELADEAGATLCCSRPIAD------------------------AGWLP 245
Query: 183 NDMQIGQTGKII 194
Q+GQ+GK++
Sbjct: 246 KSRQVGQSGKVV 257
>pdb|3CLT|D Chain D, Crystal Structure Of The R236e Mutant Of Methylophilus
Methylotrophus Etf
Length = 321
Score = 34.3 bits (77), Expect = 0.11, Method: Compositional matrix adjust.
Identities = 31/132 (23%), Positives = 56/132 (42%), Gaps = 27/132 (20%)
Query: 64 VVTVRGTSFPPAAKGGSASVEALANASVEANKLS-EWVGQELSKSDRPDLGSAKIVVSGG 122
V+T+R + F P GS V + SV++ + ++V E+ + D+ + ++S G
Sbjct: 153 VLTIRPSVFKPLEGAGSPVVSNVDAPSVQSRSQNKDYV--EVGGGNDIDITTVDFIMSIG 210
Query: 123 RGLKSADNFKLLYTLADKLGAAVGRGLKSADNFKLLYTLADKLXXXXXXXXXXXXXXFVP 182
RG+ N + LAD+ GA + AD ++P
Sbjct: 211 RGIGEETNVEQFRELADEAGATLCCSEPIAD------------------------AGWLP 246
Query: 183 NDMQIGQTGKII 194
Q+GQ+GK++
Sbjct: 247 KSRQVGQSGKVV 258
>pdb|3CLU|D Chain D, Crystal Structure Of The R236k Mutant From Methylophilus
Methylotrophus Etf
Length = 321
Score = 34.3 bits (77), Expect = 0.11, Method: Compositional matrix adjust.
Identities = 31/132 (23%), Positives = 56/132 (42%), Gaps = 27/132 (20%)
Query: 64 VVTVRGTSFPPAAKGGSASVEALANASVEANKLS-EWVGQELSKSDRPDLGSAKIVVSGG 122
V+T+R + F P GS V + SV++ + ++V E+ + D+ + ++S G
Sbjct: 153 VLTIRPSVFKPLEGAGSPVVSNVDAPSVQSRSQNKDYV--EVGGGNDIDITTVDFIMSIG 210
Query: 123 RGLKSADNFKLLYTLADKLGAAVGRGLKSADNFKLLYTLADKLXXXXXXXXXXXXXXFVP 182
RG+ N + LAD+ GA + AD ++P
Sbjct: 211 RGIGEETNVEQFRELADEAGATLCCSKPIAD------------------------AGWLP 246
Query: 183 NDMQIGQTGKII 194
Q+GQ+GK++
Sbjct: 247 KSRQVGQSGKVV 258
>pdb|3OSX|A Chain A, Crystal Structure Of Apical Domain Of Insecticidal Groel
From Xenorhapdus Nematophila
Length = 201
Score = 32.0 bits (71), Expect = 0.54, Method: Compositional matrix adjust.
Identities = 22/58 (37%), Positives = 29/58 (50%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV +V+ F K + L N +V +SE +G EL K+ DLG AK VV
Sbjct: 93 VKVASVKAPGFGDRRKAMLQDIATLTNGTV----ISEEIGLELEKATLEDLGQAKRVV 146
>pdb|1DK7|A Chain A, Crystal Structure Of An Isolated Apical Domain Of Groel
pdb|1DK7|B Chain B, Crystal Structure Of An Isolated Apical Domain Of Groel
pdb|1DKD|A Chain A, Crystal Structure Of A Groel (Apical Domain) And A
Dodecameric Peptide Complex
pdb|1DKD|B Chain B, Crystal Structure Of A Groel (Apical Domain) And A
Dodecameric Peptide Complex
pdb|1DKD|C Chain C, Crystal Structure Of A Groel (Apical Domain) And A
Dodecameric Peptide Complex
pdb|1DKD|D Chain D, Crystal Structure Of A Groel (Apical Domain) And A
Dodecameric Peptide Complex
Length = 146
Score = 29.6 bits (65), Expect = 3.0, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 81 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 134
>pdb|1JON|A Chain A, Groel (Hsp60 Class) Fragment Comprising Residues 191-345
Length = 155
Score = 29.6 bits (65), Expect = 3.0, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 81 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 134
>pdb|1LA1|A Chain A, Gro-El Fragment (Apical Domain) Comprising Residues
188-379
Length = 192
Score = 29.3 bits (64), Expect = 3.3, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 84 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 137
>pdb|1KID|A Chain A, Groel (Hsp60 Class) Fragment (Apical Domain) Comprising
Residues 191-376, Mutant With Ala 262 Replaced With Leu
And Ile 267 Replaced With Met
Length = 203
Score = 29.3 bits (64), Expect = 3.5, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 98 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 151
>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 = 29.3 bits (64), Expect = 3.8, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 270 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 323
>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 = 29.3 bits (64), Expect = 3.8, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 270 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 323
>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 = 29.3 bits (64), Expect = 3.8, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 270 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 323
>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 = 29.3 bits (64), Expect = 3.8, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 271 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 324
>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 = 29.3 bits (64), Expect = 3.8, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 270 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 323
>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 = 29.3 bits (64), Expect = 3.8, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 271 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 324
>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 = 29.3 bits (64), Expect = 3.8, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 270 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 323
>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 = 29.3 bits (64), Expect = 3.9, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 270 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 323
>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 = 29.3 bits (64), Expect = 4.0, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 270 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 323
>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 = 29.3 bits (64), Expect = 4.0, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 270 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 323
>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 = 29.3 bits (64), Expect = 4.0, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 270 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 323
>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 = 29.3 bits (64), Expect = 4.0, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 271 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 324
>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 = 29.3 bits (64), Expect = 4.0, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 270 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 323
>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 = 29.3 bits (64), Expect = 4.0, Method: Compositional matrix adjust.
Identities = 21/58 (36%), Positives = 27/58 (46%), Gaps = 4/58 (6%)
Query: 62 VKVVTVRGTSFPPAAKGGSASVEALANASVEANKLSEWVGQELSKSDRPDLGSAKIVV 119
VKV V+ F K + L +V +SE +G EL K+ DLG AK VV
Sbjct: 270 VKVAAVKAPGFGDRRKAMLQDIATLTGGTV----ISEEIGMELEKATLEDLGQAKRVV 323
>pdb|1PHP|A Chain A, Structure Of The Adp Complex Of The 3-Phosphoglycerate
Kinase From Bacillus Stearothermophilus At 1.65
Angstroms
Length = 394
Score = 28.1 bits (61), Expect = 7.8, Method: Compositional matrix adjust.
Identities = 33/105 (31%), Positives = 44/105 (41%), Gaps = 15/105 (14%)
Query: 75 AAKGGSASVEALAN-----ASVEANKLSEWVGQELSKSDRPD---LGSAKIVVSGG---R 123
AA AS E +A+ A K E +G+ LS DRP +G AK+ G
Sbjct: 148 AAHRAHASTEGIAHYLPAVAGFLMEKELEVLGKALSNPDRPFTAIIGGAKVKDKIGVIDN 207
Query: 124 GLKSADNF----KLLYTLADKLGAAVGRGLKSADNFKLLYTLADK 164
L+ DN L YT LG VG+ L D +L + +K
Sbjct: 208 LLEKVDNLIIGGGLAYTFVKALGHDVGKSLLEEDKIELAKSFMEK 252
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
0.314 0.131 0.355
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 7,913,039
Number of Sequences: 62578
Number of extensions: 263800
Number of successful extensions: 519
Number of sequences better than 100.0: 30
Number of HSP's better than 100.0 without gapping: 8
Number of HSP's successfully gapped in prelim test: 22
Number of HSP's that attempted gapping in prelim test: 490
Number of HSP's gapped (non-prelim): 38
length of query: 368
length of database: 14,973,337
effective HSP length: 100
effective length of query: 268
effective length of database: 8,715,537
effective search space: 2335763916
effective search space used: 2335763916
T: 11
A: 40
X1: 16 ( 7.2 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 42 (21.9 bits)
S2: 52 (24.6 bits)