Type | Description |
---|---|
Definition | sphingosine N-acyltransferase LAG1 |
Date | Results | Publications |
---|---|---|
2020-07-25 12:42:00 | that the different specificities of the two ceramide synthases, and the specific effect of Lag1 on asymmetrical inheritance, may explain why Deltalag1 cells have an increased lifespan while Deltalac1 cells do not | 31164445 |
2015-05-09 11:03:00 | Lac1 and Lag1 are direct targets for CK2 and that phosphorylation at conserved positions within the C-terminal cytoplasmic domain of each protein is required for optimal CerS activity | 25429105 |
2010-01-21 00:00:00 | Data demonstrate that the pleiotropic drug resistance regulatory pathway regulates the transcription of multiple genes encoding steps in sphingolipid biosynthesis, including LAC1, but not LAG1. | 15302821 |
2010-01-21 00:00:00 | the topology of the Lag1p and Lac1p subunits of ceramide synthase was investigated | 16756512 |
Type | IDs |
---|---|
Gene |
UniProtKB-ID:
LAG1_YEAST
UniprotKB:
P38703
UniParc:
UPI0000000521
EMBL:
BK006934,
U08133,
AY558514,
U10555,
U05335
EnsemblGenome:
YHL003C
KO:
sce:YHL003C
|
Nucleutide sequences |
EMBL-CDS:
AAF21442.1,
AAB68429.1,
AAS56840.1,
AAA21579.1,
DAA06684.1
EnsemblGenome_TRS:
YHL003C_mRNA
|
Protein sequencees |
EnsemblGenome_PRO:
YHL003C
RefSeq:
NP_011860.1
|
Others |
UniRef100:
UniRef100_P38703
UniRef90:
UniRef90_P38703
UniRef50:
UniRef50_P38703
|
{{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 | - |
31164445 |
Yeast ceramide synthases, Lag1 and Lac1, have distinct substrate specificity. J. Cell. Sci. Márton Megyeri , Rupali Prasad , Giora Volpert , Andrzej Sliwa-Gonzalez , A Galih Haribowo , Auxiliadora Aguilera-Romero , Howard Riezman , Yves Barral , Anthony H Futerman , Maya Schuldiner |
2019-06-24 | - |
27821408 |
A novel translational control mechanism involving RNA structures within coding sequences. Genome Res. Jennifer Jungfleisch , Danny D Nedialkova , Ivan Dotu , Katherine E Sloan , Neus Martinez-Bosch , Lukas Brüning , Emanuele Raineri , Pilar Navarro , Markus T Bohnsack , Sebastian A Leidel , Juana DÃez |
2017-01-01 | - |
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 | - |
27107014 |
An inter-species protein-protein interaction network across vast evolutionary distance. Mol Syst Biol Quan Zhong , Samuel J Pevzner , Tong Hao , Yang Wang , Roberto Mosca , Jörg Menche , Mikko Taipale , Murat TaÅan , Changyu Fan , Xinping Yang , Patrick Haley , Ryan R Murray , Flora Mer , Fana Gebreab , Stanley Tam , Andrew MacWilliams , Amélie Dricot , Patrick Reichert , Balaji Santhanam , Lila Ghamsari , Michael A Calderwood , Thomas Rolland , Benoit Charloteaux , Susan Lindquist , Albert-László Barabási , David E Hill , Patrick Aloy , Michael E Cusick , Yu Xia , Frederick P Roth , Marc Vidal |
2016-04-22 | - |
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 | - |
26524240 |
Protein-RNA networks revealed through covalent RNA marks. Nat. Methods Christopher P Lapointe , Daniel Wilinski , Harriet A J Saunders , Marvin Wickens |
2015-12-01 | - |
25429105 |
J Biol Chem Tara Fresques , Brad Niles , Sofia Aronova , Huzefa Mogri , Taha Rakhshandehroo , Ted Powers |
2015-01-16 | - |
24700328 |
G3 (Bethesda) Grace P Leung , Maria J Aristizabal , Nevan J Krogan , Michael S Kobor |
2014-06-01 |
MRC1,
SRO9,
GFD2,
DCC1,
SGF29,
RVS161,
PET18,
MAK31,
NPP1,
ELO2,
PER1,
YCR050C,
HCM1,
RAD18,
TUP1,
MSH4,
GCN20,
UBP6,
ERJ5,
ENT4,
RTT109,
RPL8B,
SLX4,
RPS28B,
SEC22,
YLR287C,
RPS30A,
SEC72,
ATG39,
BUD6,
MMS22,
CHS5,
NUP2,
FKS1,
DCR2,
ELO3,
PSY3,
IKI3,
RPN13,
TDA5,
CRN1,
ECM30,
LTE1,
PMT2,
FUN30,
DEP1,
OAF1,
VPS8,
SWD1,
BUD14,
YDL176W,
CDC36,
RDI1,
PPH21,
RPL41B,
CDC48,
CYK3,
PMT1,
NUR1,
BRE1,
RAD59,
MBP1,
SLC1,
RAD57,
RAD61,
RPS11A,
YDR061W,
IPT1,
PPH3,
RAD55,
UBC13,
BMH2,
DPB4,
ARO1,
SAC3,
HST4,
HRQ1,
PPM1,
DOT1,
SSN2,
STP1,
SDC1,
GNP1,
SMT3,
RTG3,
TEL1,
SEF1,
PSY4,
NCL1,
SCT1,
SLA1,
CSG2,
UBP14,
RDH54,
ECM33,
POL30,
PHO5,
RXT2,
MMS4
|
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
|
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