GCS1/YDL226C Literature Guide

Other names published for GCS1: YDL226C

GCS1 LITERATURE TOPICS

Curated Literature

Genetics/Cell Biology

Nucleic Acid Information

Gene Product Information

Related Genes/Proteins

Research Aids

Genome-wide Analysis

Proteome-wide Analysis

Other Topics

Additional Information

GCS1 - Strains/Constructs (26)

Reference	Other Genes Addressed
Hoepfner D, et al. (2012) An integrated approach for identification and target validation of antifungal compounds active against Erg11p. Antimicrob Agents Chemother 56(8):4233-40	DAP1 \| ERG11 \| RCY1 \| SET6 \| TVP18 \| YPT31
Barreto L, et al. (2011) A genomewide screen for tolerance to cationic drugs reveals genes important for potassium homeostasis in Saccharomyces cerevisiae. Eukaryot Cell 10(9):1241-50	ADA2 \| AFG3 \| AKR1 \| ARF1 \| ARL1 \| ARP6 \| BRP1 \| COG5 \| COG6 \| COG7 \| COG8 \| CSE2 \| CTK2 \| DST1 \| MORE
Benjamin JJ, et al. (2011) Dysregulated Arl1, a regulator of post-Golgi vesicle tethering, can inhibit endosomal transport and cell proliferation in yeast. Mol Biol Cell 22(13):2337-47	AAT2 \| AGE2 \| AKR1 \| ARF1 \| ARL1 \| ARL3 \| AVT6 \| BEM2 \| CAN1 \| CAX4 \| CBF1 \| CHD1 \| CHL1 \| CKI1 \| MORE
Benjamin JJ, et al. (2011) The Yeast Arf GTPase-activating Protein Age1 Is Regulated by Phospholipase D for Post-Golgi Vesicular Transport. J Biol Chem 286(7):5187-96	AGE1 \| AGE2 \| CSR1 \| SPO14
Pereira FB, et al. (2011) Identification of candidate genes for yeast engineering to improve bioethanol production in Very-High-Gravity and lignocellulosic biomass industrial fermentations. Biotechnol Biofuels 4(1):57	ANP1 \| BUD31 \| END3 \| ERG2 \| ERG24 \| HPR1 \| NAT3 \| PHO85 \| PRS3 \| RAV1 \| RPB4 \| RPL1B \| TPS1 \| VMA16 \| MORE
Webster MT, et al. (2010) Vesicle trafficking maintains nuclear shape in Saccharomyces cerevisiae during membrane proliferation. J Cell Biol 191(6):1079-88	APL5 \| ARF1 \| ARL1 \| ARL3 \| COG8 \| ERV14 \| GET2 \| GYP1 \| RIC1 \| SPO7 \| SWA2 \| SYS1 \| TLG2 \| VPS25 \| MORE
Schindler C, et al. (2009) The GAP domain and the SNARE, coatomer and cargo interaction region of the ArfGAP2/3 Glo3 are sufficient for Glo3 function. Traffic 10(9):1362-75	BET1 \| BOS1 \| EMP47 \| GLO3
Zink S, et al. (2009) A link between ER tethering and COP-I vesicle uncoating. Dev Cell 17(3):403-16	ARF1 \| ARF2 \| COP1 \| DSL1 \| EMP47 \| GLO3 \| RER1 \| RET2 \| RET3 \| SEC12 \| SEC13 \| SEC27 \| SEC28 \| SEC39 \| MORE
Aguilera-Romero A, et al. (2008) The yeast p24 complex is required for the formation of COPI retrograde transport vesicles from the Golgi apparatus. J Cell Biol 180(4):713-20	EMP24 \| ERV25 \| GLO3 \| IRE1 \| KAR2 \| RER1 \| SEC21 \| SEC23 \| SEC27
Pagani MA, et al. (2007) Disruption of iron homeostasis in Saccharomyces cerevisiae by high zinc levels: a genome-wide study. Mol Microbiol 65(2):521-37	ACO1 \| ACO2 \| ADE1 \| ADE12 \| ADE13 \| ADE17 \| ADE2 \| ADE4 \| ADE5,7 \| ADE6 \| ADK1 \| AFT1 \| AKR1 \| ARN1 \| MORE
Connolly JE and Engebrecht J (2006) The Arf-GTPase-activating protein Gcs1p is essential for sporulation and regulates the phospholipase D Spo14p. Eukaryot Cell 5(1):112-24	AGE1 \| AGE2 \| ARL1 \| GLO3 \| NDT80 \| SPO14
Liu YW, et al. (2006) Arl1p is involved in transport of the GPI-anchored protein Gas1p from the late Golgi to the plasma membrane. J Cell Sci 119(Pt 18):3845-55	ARF1 \| ARL1 \| ARL3 \| GAS1 \| IMH1 \| SYS1 \| YPT6
Robinson M, et al. (2006) The Gcs1 Arf-GAP mediates Snc1,2 v-SNARE retrieval to the Golgi in yeast. Mol Biol Cell 17(4):1845-58	ARF1 \| SNC1 \| SNC2 \| TCA17
Song XF, et al. (2006) RPA, a class II ARFGAP protein, activates ARF1 and U5 and plays a role in root hair development in Arabidopsis. Plant Physiol 141(3):966-76	GLO3
Liu YW, et al. (2005) Role for Gcs1p in regulation of Arl1p at trans-Golgi compartments. Mol Biol Cell 16(9):4024-33	ARF1 \| ARF3 \| ARL1 \| ARL3 \| GLO3 \| IMH1
Wong TA, et al. (2005) Membrane metabolism mediated by Sec14 family members influences Arf GTPase activating protein activity for transport from the trans-Golgi. Proc Natl Acad Sci U S A 102(36):12777-82	AGE1 \| AGE2 \| CSR1 \| GLO3 \| SEC14 \| SPO14
Zhuang X, et al. (2005) OsAGAP, an ARF-GAP from rice, regulates root development mediated by auxin in Arabidopsis. Plant Cell Environ 28(2):147-56	GLO3
Lewis SM, et al. (2004) The ArfGAP Glo3 is required for the generation of COPI vesicles. Mol Biol Cell 15(9):4064-72	EMP47 \| GLO3
Zhang CJ, et al. (2003) Four ARF GAPs in Saccharomyces cerevisiae have both overlapping and distinct functions. Yeast 20(4):315-30	AGE1 \| AGE2 \| ARF1 \| GLO3
Li X, et al. (2002) Analysis of oxysterol binding protein homologue Kes1p function in regulation of Sec14p-dependent protein transport from the yeast Golgi complex. J Cell Biol 157(1):63-77	KES1 \| PIK1 \| SAC1 \| SEC14 \| STT4
Zhang CJ, et al. (2002) Genetic interactions link ARF1, YPT31/32 and TRS130. Yeast 19(12):1075-86	ARF1 \| BET3 \| BET5 \| TRS120 \| TRS130 \| TRS20 \| TRS23 \| YPT31 \| YPT32
Poon PP, et al. (1996) Saccharomyces cerevisiae Gcs1 is an ADP-ribosylation factor GTPase-activating protein. Proc Natl Acad Sci U S A 93(19):10074-7	ARF1 \| ARF2
Wang X, et al. (1996) Prenylated isoforms of yeast casein kinase I, including the novel Yck3p, suppress the gcs1 blockage of cell proliferation from stationary phase. Mol Cell Biol 16(10):5375-85	HRR25 \| YCK1 \| YCK2 \| YCK3
Ireland LS, et al. (1994) A member of a novel family of yeast 'zn-finger' proteins mediates the transition from stationary phase to cell proliferation. EMBO J 13(16):3812-21	GLO3 \| SPS18
Filipak M, et al. (1992) Mitochondrial DNA loss by yeast reentry-mutant cells conditionally unable to proliferate from stationary phase. Curr Genet 22(6):471-7	SED1
Drebot MA, et al. (1987) A yeast mutant conditionally defective only for reentry into the mitotic cell cycle from stationary phase. Proc Natl Acad Sci U S A 84(22):7948-52	SED1