Type | Description |
---|---|
Definition | Mso1p |
Date | Results | Publications |
---|---|---|
2013-07-27 10:39:00 | The Mso1p membrane interactions are essential for correct subcellular localization of Mso1p-Sec1p complexes and for membrane fusion in Saccharomyces cerevisiae. | 23197474 |
2010-01-21 00:00:00 | results suggest that Mso1 is a component of the exocytic SNARE complex and a possible ortholog of the Munc13/Mint proteins | 16087665 |
2010-01-21 00:00:00 | Mso1p is in the interface of the exocyst complex, Sec4p, and the SNARE machinery, and reveal a novel layer of molecular conservation in the exocytosis machinery. | 16030256 |
Type | IDs |
---|---|
Gene |
UniProtKB-ID:
MSO1_YEAST
UniprotKB:
P53604
UniParc:
UPI00074481DD,
UPI000012F626
EMBL:
BK006947,
AY558423,
Z71664,
U56416
EnsemblGenome:
YNR049C
KO:
sce:YNR049C
|
Nucleutide sequences |
EMBL-CDS:
CAA96330.1,
AAB01212.1,
DAA10590.1,
AAS56749.1
Gene_ORFName:
N3457
EnsemblGenome_TRS:
YNR049C_mRNA
|
Protein sequencees |
EnsemblGenome_PRO:
YNR049C
RefSeq:
NP_014447.3
|
Others |
UniRef100:
UniRef100_P53604
UniRef90:
UniRef90_P53604
UniRef50:
UniRef50_P53604
|
{{proteinIndex+1}} | mRNA | Protein | UniprotKB | Description | ||||
---|---|---|---|---|---|---|---|---|
Refseq |
{{protein.nucleotideVersion}}
Ensembl: {{protein.nucleotideEnsembl}} |
{{protein.proteinVersion}}
Ensembl: {{protein.proteinEnsembl}} |
{{uniprot}} , |
Definition: {{{protein.definition}}}Transcript Veriant:{{protein.transcriptVeriant}} Status: {{protein.status}} |
||||
Location | {{protein.contigId}} ( {{protein.positionStart}}..{{protein.positionEnd}} , {{protein.orientation}} ) | |||||||
Conserved domain | Region: {{conservedDomain.region == '' || conservedDomain.region == null ? "-": conservedDomain.region}} GFID: {{conservedDomain.gfid == '' || conservedDomain.gfid == null ? "-": conservedDomain.gfid}} Family: {{conservedDomain.family == '' || conservedDomain.family == null ? "-": conservedDomain.family}} CDD: {{conservedDomain.cdd}} - |
{{conservedDomain.comments == '' || conservedDomain.comments == null ? "-" : conservedDomain.comments }} |
Region: {{conservedDomain.region == '' || conservedDomain.region == null ? "-": conservedDomain.region}} GFID: {{conservedDomain.gfid == '' || conservedDomain.gfid == null ? "-": conservedDomain.gfid}} Family: {{conservedDomain.family == '' || conservedDomain.family == null ? "-": conservedDomain.family}} CDD: {{conservedDomain.cdd}} - |
{{conservedDomain.comments == '' || conservedDomain.comments == null ? "-" : conservedDomain.comments }} |
暂无数据
Pubmed编号 | 文献信息 | 发表日期 | 相关基因 |
---|---|---|---|
33115720 |
G3 (Bethesda) Elsbeth Sanders , Phoebe A Nguyen , Cody M Rogers , Matthew L Bochman |
2020-12-03 | - |
30670610 |
G3 (Bethesda) Komudi Singh , Mid Eum Lee , Maryam Entezari , Chan-Hun Jung , Yeonsoo Kim , Youngmin Park , Jack D Fioretti , Won-Ki Huh , Hay-Oak Park , Pil Jung Kang |
2019-03-07 | - |
29674565 |
Systematic analysis of complex genetic interactions. Science Elena Kuzmin , Benjamin VanderSluis , Wen Wang , Guihong Tan , Raamesh Deshpande , Yiqun Chen , Matej Usaj , Attila Balint , Mojca Mattiazzi Usaj , Jolanda van Leeuwen , Elizabeth N Koch , Carles Pons , Andrius J Dagilis , Michael Pryszlak , Jason Zi Yang Wang , Julia Hanchard , Margot Riggi , Kaicong Xu , Hamed Heydari , Bryan-Joseph San Luis , Ermira Shuteriqi , Hongwei Zhu , Nydia Van Dyk , Sara Sharifpoor , Michael Costanzo , Robbie Loewith , Amy Caudy , Daniel Bolnick , Grant W Brown , Brenda J Andrews , Charles Boone , Chad L Myers |
2018-04-20 | - |
29158339 |
G3 (Bethesda) Jason E Miller , Liye Zhang , Haoyang Jiang , Yunfei Li , B Franklin Pugh , Joseph C Reese |
2018-01-04 | - |
28900268 |
Sci Rep Kristian Shulist , Eric Yen , Susanne Kaitna , Allen Leary , Alexandra Decterov , Debarun Gupta , Jackie Vogel |
2017-09-12 | - |
27708008 |
A global genetic interaction network maps a wiring diagram of cellular function. Science Michael Costanzo , Benjamin VanderSluis , Elizabeth N Koch , Anastasia Baryshnikova , Carles Pons , Guihong Tan , Wen Wang , Matej Usaj , Julia Hanchard , Susan D Lee , Vicent Pelechano , Erin B Styles , Maximilian Billmann , Jolanda van Leeuwen , Nydia van Dyk , Zhen-Yuan Lin , Elena Kuzmin , Justin Nelson , Jeff S Piotrowski , Tharan Srikumar , Sondra Bahr , Yiqun Chen , Raamesh Deshpande , Christoph F Kurat , Sheena C Li , Zhijian Li , Mojca Mattiazzi Usaj , Hiroki Okada , Natasha Pascoe , Bryan-Joseph San Luis , Sara Sharifpoor , Emira Shuteriqi , Scott W Simpkins , Jamie Snider , Harsha Garadi Suresh , Yizhao Tan , Hongwei Zhu , Noel Malod-Dognin , Vuk Janjic , Natasa Przulj , Olga G Troyanskaya , Igor Stagljar , Tian Xia , Yoshikazu Ohya , Anne-Claude Gingras , Brian Raught , Michael Boutros , Lars M Steinmetz , Claire L Moore , Adam P Rosebrock , Amy A Caudy , Chad L Myers , Brenda Andrews , Charles Boone |
2016-09-23 | - |
26928762 |
One library to make them all: streamlining the creation of yeast libraries via a SWAp-Tag strategy. Nat. Methods Ido Yofe , Uri Weill , Matthias Meurer , Silvia Chuartzman , Einat Zalckvar , Omer Goldman , Shifra Ben-Dor , Conny Schütze , Nils Wiedemann , Michael Knop , Anton Khmelinskii , Maya Schuldiner |
2016-04-01 | - |
26673895 |
A deep proteomics perspective on CRM1-mediated nuclear export and nucleocytoplasmic partitioning. Elife Koray Kırlı , Samir Karaca , Heinz Jürgen Dehne , Matthias Samwer , Kuan Ting Pan , Christof Lenz , Henning Urlaub , Dirk Görlich |
2015-01-01 |
CHA1,
KRR1,
SRO9,
STE50,
RRP7,
RNQ1,
DCC1,
GBP2,
SAT4,
RVS161,
YCR016W,
PWP2,
SSK22,
SOL2,
PAT1,
YCR087C-A,
OCA4,
MOB2,
EPL1,
BUD27,
FRS2,
LOC1,
YFR016C,
LSB3,
RPL2A,
PHO4,
SAP155,
IRC6,
ENT4,
PRP19,
RIX7,
YLL032C,
FRA1,
ISA1,
SPA2,
PUF3,
RPL8B,
NOC3,
SSL1,
SSK1,
NSE1,
RLP24,
SDO1,
ADE16,
RPL15A,
STU2,
RPS0B,
FRS1,
BMT6,
KIN2,
HRT3,
REX3,
YLR108C,
CFT2,
MSL5,
ACE2,
STM1,
YLR157C-A,
APS1,
CBF5,
SWI6,
SKG3,
HCR1,
PWP1,
NOP56,
BUR2,
GPN3,
DBP9,
GCD7,
SGD1,
STE11,
NMD4,
RPS22B,
ROM2,
STP3,
IKI3,
REH1,
AFG2,
UTP21,
ATG17,
TUS1,
MAG2,
ATG23,
RPS1A,
FPR4,
PDP3,
CDC24,
RBG1,
FUN12,
MTW1,
PRP45,
MAK16,
ECM1,
GPB2,
VPS8,
KIN3,
CDC15,
YAT1,
WHI4
|
24390141 |
Eukaryotic Cell Chien Lam , Ethan Santore , Elizabeth Lavoie , Leor Needleman , Nicholas Fiacco , Carey Kim , Aaron M Neiman |
2014-03-01 |
PRD1,
CDC10,
SYP1,
THR4,
SED4,
FET5,
YFL040W,
RRT5,
VPS13,
OSW2,
TUB4,
CDA1,
BUD6,
CHS5,
VID22,
CSR1,
LDS1,
PEX22,
NUS1,
ADY3,
SHS1,
RXT3,
YDR018C,
GIS1,
SEC5,
SPR28,
YSP2,
RVS167,
PKC1,
AKL1,
EXO84,
YSW1,
BEM1,
PBP2,
RGD1,
SEC15,
YGL230C,
MND1,
SPO74,
YGL138C,
YGL015C,
SPR3,
PTI1,
YAP1802,
YGR266W,
EXO70,
YJL043W,
HUL4,
APS2,
CDC11,
BUD2,
YKR005C,
YKR015C,
TGL4,
SPO21,
LDS2,
IRC10,
HTZ1,
MPC54,
DCI1,
SPR1,
SSP2,
SPS4,
MNE1,
MEK1,
SGA1,
SPO22,
HOP1,
SEC6,
YIL055C,
GAT4,
TUB3,
YML119W,
SMA2,
SRT1,
YMR114C,
MRPS17,
YMR196W,
TGL3,
BNI1,
CNM67,
CBK1,
YNL019C,
YNL018C,
MSO1,
HRR25,
SPC29,
MEI5,
HOS3,
SRL4,
SMA1,
SEC8,
YLH47,
CDC12,
CHS7,
KEL1,
YAP1801,
SSP1,
SEC3
|
23891562 |
A lipid E-MAP identifies Ubx2 as a critical regulator of lipid saturation and lipid bilayer stress. Mol. Cell Michal A Surma , Christian Klose , Debby Peng , Michael Shales , Caroline Mrejen , Adam Stefanko , Hannes Braberg , David E Gordon , Daniela Vorkel , Christer S Ejsing , Robert Farese , Kai Simons , Nevan J Krogan , Robert Ernst |
2013-08-22 |
PBN1,
LRE1,
SPS22,
EMC1,
RER1,
YCL001W-A,
RVS161,
CWH43,
BPH1,
ARE1,
YCR061W,
ABP1,
FIG2,
YPT1,
HAC1,
BST1,
BUD27,
SEC4,
RPN11,
FAB1,
PRE4,
RET2,
RPN12,
GPI13,
SSA2,
KNS1,
EMC6,
UBR2,
SED5,
PAU23,
RIC1,
ERG3,
MNL2,
KIN2,
ERG27,
CCW12,
AVL9,
YPS1,
ACE2,
CKI1,
SEC10,
PEX13,
ARV1,
LCB5,
YPT6,
SEC22,
CTS1,
SEC72,
CHS5,
MID2,
GAS2,
ORM2,
VPS38,
ROM2,
ELO3,
SEC61,
CCW14,
SEI1,
BLS1,
TUS1,
CNA1,
ECM30,
SEC39,
ECM7,
HMG2,
CDC24,
SNC1,
PMT2,
PSK1,
SYN8,
SPO7,
FLO9,
CNE1,
PEX22,
ERV46,
VPS8,
ERP1,
UIP3,
MST28,
SWH1,
FLO1,
FMP45,
SHR3,
ARF1,
COS7,
ENT1,
RPN5,
CRD1,
ARF2,
SRF1,
IWR1,
YDL109C,
GET3,
RPN6,
PMT1,
PMT5,
VAM6,
PEX19,
USO1
|
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---|---|---|
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---|---|---|
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