Type | Description |
---|---|
Definition | Uga3p |
Date | Results | Publications |
---|---|---|
2020-11-21 13:31:00 | Novel function of transcription factor Uga3 as an activator of branched-chain amino acid permease BAP2 gene expression. | 31625834 |
2012-08-04 11:43:00 | Uga3 and Dal81 transcription factors depend on GABA to interact with UGA genes. Dal81 is necessary for Uga3 binding to UGA promoters. Uga3 factor acts as a bridge between Dal81 and DNA. | 22282516 |
2012-01-21 11:00:00 | Yeast zinc cluster proteins Dal81 and Uga3 cooperate by targeting common coactivators for transcriptional activation of gamma-aminobutyrate responsive genes. | 21515579 |
2010-01-21 00:00:00 | Chromatin organization plays a major role in the bidirectional properties of the UGA3-GLT1 promoter, through the action of an upstream Abf1p-binding consensus sequence and a polydAdT(tract). | 16553884 |
Type | IDs |
---|---|
Gene |
UniProtKB-ID:
UGA3_YEAST
UniprotKB:
P26370
UniParc:
UPI0000137AE8
EMBL:
BK006938,
Z67750,
Z74218,
X82846,
X51664
EnsemblGenome:
YDL170W
KO:
sce:YDL170W
|
Nucleutide sequences |
EMBL-CDS:
CAA98744.1,
CAA91576.1,
CAA35976.1,
DAA11691.1,
CAA58049.1
EnsemblGenome_TRS:
YDL170W_mRNA
|
Protein sequencees |
EnsemblGenome_PRO:
YDL170W
RefSeq:
NP_010111.1
|
Others |
UniRef100:
UniRef100_P26370
UniRef90:
UniRef90_P26370
UniRef50:
UniRef50_P26370
|
{{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 |
---|---|---|---|
31625834 |
Microbiology (Reading) Sebastián A Muñoz , Juan F Gulias , Jenniffer Valencia-Guillén , Susana Correa-GarcÃa , Mariana Bermúdez-Moretti |
2020-01-01 | - |
30011030 |
Integrating Rio1 activities discloses its nutrient-activated network in Saccharomyces cerevisiae. Nucleic Acids Res Maria G Iacovella , Michael Bremang , Omer Basha , Luciano Giacò , Walter Carotenuto , Cristina Golfieri , Barnabas Szakal , Marianna Dal Maschio , Valentina Infantino , Galina V Beznoussenko , Chinnu R Joseph , Clara Visintin , Alexander A Mironov , Rosella Visintin , Dana Branzei , Sébastien Ferreira-Cerca , Esti Yeger-Lotem , Peter De Wulf |
2018-09-06 | - |
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 | - |
28325876 |
Proc Natl Acad Sci U S A Richard She , Anupam K Chakravarty , Curtis J Layton , Lauren M Chircus , Johan O L Andreasson , Nandita Damaraju , Peter L McMahon , Jason D Buenrostro , Daniel F Jarosz , William J Greenleaf |
2017-04-04 | - |
27550811 |
Mol. Cell. Biol. Anne-Lise Steunou , Myriam Cramet , Dorine Rossetto , Maria J Aristizabal , Nicolas Lacoste , Simon Drouin , Valérie Côté , Eric Paquet , Rhea T Utley , Nevan Krogan , François Robert , Michael S Kobor , Jacques Côté |
2016-11-15 | - |
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 | - |
26067383 |
Metallomics Mojca Mattiazzi UÅ¡aj , Metod Prelec , Mojca Brložnik , Cecilia Primo , Tomaž Curk , Janez Å ÄanÄar , Lynne Yenush , UroÅ¡ PetroviÄ |
2015-09-01 |
AGP1,
PTC6,
YCR102C,
LAM5,
BUD27,
LPD1,
PES4,
RPL2A,
RMD8,
RPS0B,
HRT3,
SNC1,
DRS2,
RRI1,
YDL180W,
UGA3,
RPS11A,
MIX14,
MRH1,
ARO3,
EHD3,
BAP3,
PST1,
OCA6,
SWF1,
SWI5,
HOM2,
RAD30,
SIP1,
DOT1,
ECM11,
STP1,
RMT2,
PKH3,
VPS72,
PKH1,
RPL37B,
EMI2,
FMP23,
NHP6B,
FES1,
APD1,
ARL1,
MET8,
RRT2,
SAF1,
VEL1,
RMR1,
MDM34,
HOS2,
ROG1,
PAN2,
TYW3,
EFM5,
MEP1,
RSR1,
PSD2,
RPS0A,
APL6,
SLH1,
YJL181W,
MDV1,
GZF3,
SAP185,
CHM7,
YJR030C,
RAV1,
VPS55,
PTK2,
MIR1,
VBA5,
PAP2,
PTH4,
IZH2,
VAM3,
CEX1,
SYC1,
DCI1,
SLK19,
KIN4,
ENV9,
RBL2,
PNT1,
YOR289W,
YPK9,
TIM18,
SLY41,
RPL20B,
SPS4,
FAA1,
MRS2,
TYE7,
CIR2,
HAP5,
PIP2,
GDH1,
PHR1,
BNR1,
TPM2
|
24470217 |
The yeast Ess1 prolyl isomerase controls Swi6 and Whi5 nuclear localization. G3 (Bethesda) David Atencio , Cassandra Barnes , Thomas M Duncan , Ian M Willis , Steven D Hanes |
2014-03-01 |
PEX34,
APA1,
GRX1,
RNQ1,
BUD3,
CWH43,
IMG2,
SSK22,
YFL051C,
FET5,
RPO41,
STE2,
AUA1,
VTC2,
MSH4,
DEG1,
QCR6,
SAP155,
BNA6,
HSP104,
RPL8B,
BRE2,
PSR2,
RPS0B,
YLR050C,
YLR053C,
OSW2,
RFU1,
CCW12,
YPS1,
DCN1,
ACF2,
SPE4,
STM1,
PCD1,
YLR173W,
TFS1,
YLR179C,
SWI6,
PEX13,
HCR1,
CRR1,
RSA3,
IRC20,
RCK2,
RED1,
NEJ1,
YLR297W,
PEX30,
VRP1,
RPL26A,
CIS1,
VPS38,
CCW14,
DUS4,
PAU4,
FUN19,
SNC1,
YAL065C,
FLC2,
HBT1,
YDL218W,
UGA3,
RPO21,
ARF2,
YDL109C,
IDP1,
RPS29B,
MBP1,
STP4,
NAT1,
DIA3,
RAD61,
NRG1,
YDR061W,
FMP16,
CPR1,
HOM2,
ARG82,
PLP1,
ATC1,
UPS3,
GTB1,
PMP3,
MRX10,
CPR5,
HNT2,
PMT7,
MCM21,
YSP2,
IRC3,
RQC1,
MRX8,
YDR338C,
YPS7,
CNL1,
CTS2,
ERD1,
SIP1
|
22282516 |
Microbiology (Reading, Engl.) Sabrina B Cardillo , Carolina E Levi , Mariana Bermúdez Moretti , Susana Correa GarcÃa |
2012-04-01 | - |
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