eF-site ID 1bmf-E
PDB Code 1bmf
Chain E

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Title BOVINE MITOCHONDRIAL F1-ATPASE
Classification ATP PHOSPHORYLASE
Compound BOVINE MITOCHONDRIAL F1-ATPASE
Source ORGANISM_COMMON: cattle; ORGANISM_SCIENTIFIC: Bos taurus;
Sequence E:  TTGRIVAVIGAVVDVQFDEGLPPILNALEVQGRETRLVLE
VAQHLGESTVRTIAMDGTEGLVRGQKVLDSGAPIRIPVGP
ETLGRIMNVIGEPIDERGPIKTKQFAAIHAEAPEFVEMSV
EQEILVTGIKVVDLLAPYAKGGKIGLFGGAGVGKTVLIME
LINNVAKAHGGYSVFAGVGERTREGNDLYHEMIESGVINL
KDATSKVALVYGQMNEPPGARARVALTGLTVAEYFRDQEG
QDVLLFIDNIFRFTQAGSEVSALLGRIPSAVGYQPTLATD
MGTMQERITTTKKGSITSVQAIYVPADDLTDPAPATTFAH
LDATTVLSRAIAELGIYPAVDPLDSTSRIMDPNIVGSEHY
DVARGVQKILQDYKSLQDIIAILGMDELSEEDKLTVSRAR
KIQRFLSQPFQVAEVFTGHLGKLVPLKETIKGFQQILAGE
YDHLPEQAFYMVGPIEEAVAKADKLA
Description


Functional site
1) chain E
residue 162
type
sequence K
description LYSINE WITHIN THE P-LOOP (PHOSPHATE BINDING) MOTIF, GXXXXGKT/S.
source : PLP
2) chain E
residue 188
type
sequence E
description THE CARBOXYLATE GROUP OF THE GLUTAMIC ACID RESIDUE IS BELIEVED TO ACTIVATE A WATER MOLECULE FOR INLINE ATTACK ON THE GAMMA PHOSPHATE DURING ATP HYDROLYSIS. THE ARGININE RESIDUE (WHICH IS LOCATED ON AN ADJACENT ALPHA SUBUNIT) COULD HELP TO STABLIZE THE NEGATIVE CHARGE THAT DEVELOPS ON THE TERMINAL PHOSPHATE IN THE PUTATIVE PENTACOORDINATED TRANSITION STATE.
source : CAT
3) chain E
residue 157
type MOD_RES
sequence G
description N6-acetyllysine => ECO:0000250|UniProtKB:Q91VR2
source Swiss-Prot : SWS_FT_FI1
4) chain E
residue 162
type catalytic
sequence K
description 178
source MCSA : MCSA2
5) chain E
residue 188
type catalytic
sequence E
description 178
source MCSA : MCSA2
6) chain E
residue 189
type catalytic
sequence R
description 178
source MCSA : MCSA2
7) chain E
residue 472
type MOD_RES
sequence K
description N6-acetyllysine => ECO:0000250|UniProtKB:P36542
source Swiss-Prot : SWS_FT_FI3
8) chain E
residue 74
type MOD_RES
sequence K
description N6-acetyllysine => ECO:0000250|UniProtKB:P36542
source Swiss-Prot : SWS_FT_FI3
9) chain E
residue 111
type MOD_RES
sequence K
description N6-acetyllysine => ECO:0000250|UniProtKB:P36542
source Swiss-Prot : SWS_FT_FI3
10) chain E
residue 209
type MOD_RES
sequence K
description N6-acetyllysine => ECO:0000250|UniProtKB:P36542
source Swiss-Prot : SWS_FT_FI3
11) chain E
residue 214
type MOD_RES
sequence K
description N6-acetyllysine => ECO:0000250|UniProtKB:P36542
source Swiss-Prot : SWS_FT_FI3
12) chain E
residue 148
type MOD_RES
sequence K
description N6-succinyllysine; alternate => ECO:0000250|UniProtKB:Q91VR2
source Swiss-Prot : SWS_FT_FI4
13) chain E
residue 376
type MOD_RES
sequence K
description N6-succinyllysine; alternate => ECO:0000250|UniProtKB:Q91VR2
source Swiss-Prot : SWS_FT_FI4
14) chain E
residue 262
type MOD_RES
sequence T
description Phosphoserine => ECO:0000250|UniProtKB:P36542
source Swiss-Prot : SWS_FT_FI5
15) chain E
residue 365
type MOD_RES
sequence S
description Phosphoserine => ECO:0000250|UniProtKB:P06576
source Swiss-Prot : SWS_FT_FI6
16) chain E
residue 383
type MOD_RES
sequence S
description Phosphoserine => ECO:0000250|UniProtKB:P10719
source Swiss-Prot : SWS_FT_FI7
17) chain E
residue 430
type MOD_RES
sequence K
description N6-acetyllysine => ECO:0000250|UniProtKB:P56480
source Swiss-Prot : SWS_FT_FI8
18) chain E
residue 435
type MOD_RES
sequence K
description N6-acetyllysine => ECO:0000250|UniProtKB:P56480
source Swiss-Prot : SWS_FT_FI8
19) chain E
residue 56
type CARBOHYD
sequence S
description O-linked (GlcNAc) serine => ECO:0000250
source Swiss-Prot : SWS_FT_FI9

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