RSC2/YLR357W Literature Guide

Other names published for RSC2: YLR357W

RSC2 LITERATURE TOPICS

Curated Literature

Genetics/Cell Biology

Nucleic Acid Information

DNA/RNA Sequence Features

Gene Product Information

Related Genes/Proteins

Research Aids

Genome-wide Analysis

Proteome-wide Analysis

Other Topics

Alias

Additional Information

RSC2 - Primary Literature (35)

Results: 1 - 30 of 35 records
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Reference	Other Genes Addressed
Chambers AL, et al. (2012) The two different isoforms of the RSC chromatin remodeling complex play distinct roles in DNA damage responses. PLoS One 7(2):e32016	MEC1 \| RSC1 \| RSC3 \| RSC30
Niimi A, et al. (2012) A role for chromatin remodellers in replication of damaged DNA. Nucleic Acids Res 40(15):7393-403	ARP8 \| POL30 \| RSC1
Oum JH, et al. (2011) RSC facilitates Rad59-dependent homologous recombination between sister chromatids by promoting cohesin loading at DNA double-strand breaks. Mol Cell Biol 31(19):3924-37	HTL1 \| LDB7 \| NPL6 \| RAD59 \| RSC1 \| RSC30 \| RSC8 \| RTT102
Floer M, et al. (2010) A RSC/nucleosome complex determines chromatin architecture and facilitates activator binding. Cell 141(3):407-18	ARP7 \| ARP9 \| GAL1 \| GAL10 \| HTL1 \| LDB7 \| NPL6 \| RSC1 \| RSC3 \| RSC30 \| RSC4 \| RSC58 \| RSC6 \| RSC8 \| MORE
Pattenden SG, et al. (2010) Features of cryptic promoters and their varied reliance on bromodomain-containing factors. PLoS One 5(9):e12927	ADA2 \| BDF1 \| FLO8 \| HHF1 \| HHF2 \| HHT1 \| HHT2 \| RCO1 \| RSC1 \| STE11
Rossio V, et al. (2010) The RSC chromatin-remodeling complex influences mitotic exit and adaptation to the spindle assembly checkpoint by controlling the Cdc14 phosphatase. J Cell Biol 191(5):981-97	BFA1 \| BNS1 \| BUB1 \| BUB2 \| BUB3 \| CDC14 \| CDC15 \| CDC20 \| CDC28 \| CDC5 \| CDC55 \| CEP3 \| CIN8 \| CLB2 \| MORE
Zhang Q, et al. (2010) Biochemical profiling of histone binding selectivity of the yeast bromodomain family. PLoS One 5(1):e8903	BDF1 \| BDF2 \| GCN5 \| RSC1 \| RSC4 \| SNF2 \| SPT7 \| STH1
Dhillon N, et al. (2009) DNA polymerase epsilon, acetylases and remodellers cooperate to form a specialized chromatin structure at a tRNA insulator. EMBO J 28(17):2583-600	ASF1 \| BDP1 \| DPB3 \| DPB4 \| HHT1 \| HHT2 \| HMR \| HST3 \| HST4 \| ISW2 \| RRM3 \| RTT109 \| SIR3 \| tT(AGU)C \| MORE
Ginsburg DS, et al. (2009) NuA4 Lysine Acetyltransferase Esa1 Is Targeted to Coding Regions and Stimulates Transcription Elongation with Gcn5. Mol Cell Biol 29(24):6473-87	EAF1 \| EAF3 \| EAF5 \| EAF7 \| EPL1 \| ESA1 \| FMP27 \| GCN5 \| HDA1 \| HHF1 \| HHF2 \| HOS2 \| KIN28 \| PHO5 \| MORE
Partensky PD and Narlikar GJ (2009) Chromatin remodelers act globally, sequence positions nucleosomes locally. J Mol Biol 391(1):12-25	ARP7 \| ARP9 \| HTL1 \| LDB7 \| NPL6 \| RSC1 \| RSC3 \| RSC30 \| RSC4 \| RSC58 \| RSC6 \| RSC8 \| RSC9 \| RTT102 \| MORE
Andersen MP, et al. (2008) A Genetic Screen for Increased Loss of Heterozygosity in Saccharomyces cerevisiae. Genetics 179(3):1179-95	ADK1 \| ASF1 \| ATG17 \| CCR4 \| CDH1 \| CHL4 \| CLB5 \| CSM1 \| CSM3 \| CTF19 \| CTK3 \| DCC1 \| DPB3 \| DUN1 \| MORE
Hiraga S, et al. (2008) Histone H3 lysine 56 acetylation by Rtt109 is crucial for chromosome positioning. J Cell Biol 183(4):641-51	ACE2 \| ASF1 \| AST1 \| BRE2 \| CHL1 \| CSM4 \| CTF18 \| CTF4 \| ELP3 \| ELP4 \| GBP2 \| HHT1 \| HHT2 \| IMD4 \| MORE
Karpova TS, et al. (2008) Concurrent fast and slow cycling of a transcriptional activator at an endogenous promoter. Science 319(5862):466-9	CUP1-1 \| CUP1-2 \| CUP2
Hassan AH, et al. (2007) Selective recognition of acetylated histones by bromodomains in transcriptional co-activators. Biochem J 402(1):125-33	BDF1 \| BDF2 \| GCN5 \| HHF1 \| HHF2 \| HHT1 \| HHT2 \| RSC1 \| SNF2 \| SNF6 \| SPT7
Kent NA, et al. (2007) Dual Chromatin Remodeling Roles for RSC during DNA Double Strand Break Induction and Repair at the Yeast MAT Locus. J Biol Chem 282(38):27693-701	ARP8 \| CHD1 \| FUN30 \| ISW1 \| ISW2 \| LEU2 \| MATALPHA \| NPL6 \| RAD54 \| RSC1 \| RSC30 \| URA3
Liang B, et al. (2007) RSC functions as an early double-strand-break sensor in the cell's response to DNA damage. Curr Biol 17(16):1432-7	MEC1 \| TEL1
Carey M, et al. (2006) RSC exploits histone acetylation to abrogate the nucleosomal block to RNA polymerase II elongation. Mol Cell 24(3):481-7	ACT1 \| ADA2 \| ARP4 \| ARP7 \| ARP9 \| CHD1 \| EAF1 \| EAF3 \| EAF5 \| EAF6 \| EAF7 \| EPL1 \| ESA1 \| GCN5 \| MORE
Lorch Y, et al. (2006) Chromatin remodeling by nucleosome disassembly in vitro. Proc Natl Acad Sci U S A 103(9):3090-3	ARP7 \| ARP9 \| ASF1 \| HTL1 \| LDB7 \| NAP1 \| NPL6 \| RSC1 \| RSC3 \| RSC30 \| RSC4 \| RSC58 \| RSC6 \| RSC8 \| MORE
Byrne KP and Wolfe KH (2005) The Yeast Gene Order Browser: combining curated homology and syntenic context reveals gene fate in polyploid species. Genome Res 15(10):1456-61	AAC3 \| AAP1 \| ABF2 \| ACA1 \| ACC1 \| ACE2 \| ADE16 \| ADE17 \| ADH1 \| ADH5 \| ADY2 \| ADY3 \| AFR1 \| AFT1 \| MORE
Chai B, et al. (2005) Distinct roles for the RSC and Swi/Snf ATP-dependent chromatin remodelers in DNA double-strand break repair. Genes Dev 19(14):1656-61	RAD52 \| RSC1 \| SFH1 \| SNF2 \| SNF5 \| STH1 \| YKU70
Jambunathan N, et al. (2005) Multiple bromodomain genes are involved in restricting the spread of heterochromatic silencing at the Saccharomyces cerevisiae HMR-tRNA boundary. Genetics 171(3):913-22	BDF1 \| BDF2 \| GCN5 \| HHF1 \| HHF2 \| HHT1 \| HHT2 \| HMR \| RPD3 \| RSC1 \| RSC4 \| SAS2 \| SAS4 \| SAS5 \| MORE
Shim EY, et al. (2005) The yeast chromatin remodeler RSC complex facilitates end joining repair of DNA double-strand breaks. Mol Cell Biol 25(10):3934-44	HO \| MRE11 \| RAD52 \| RSC1 \| RSC30 \| RSC8 \| STH1 \| YKU70 \| YKU80
Askree SH, et al. (2004) A genome-wide screen for Saccharomyces cerevisiae deletion mutants that affect telomere length. Proc Natl Acad Sci U S A 101(23):8658-63	ADE12 \| ADO1 \| AGP2 \| APE3 \| ARG2 \| ARV1 \| ASC1 \| ATG11 \| BEM4 \| BRE2 \| BRO1 \| BUD16 \| BUD30 \| CAX4 \| MORE
Baetz KK, et al. (2004) The ctf13-30/CTF13 genomic haploinsufficiency modifier screen identifies the yeast chromatin remodeling complex RSC, which is required for the establishment of sister chromatid cohesion. Mol Cell Biol 24(3):1232-44	CBF2 \| CSE4 \| CTF13 \| CTF3 \| HTL1 \| NPL6 \| RSC1 \| RSC58 \| RTT102
Bungard D, et al. (2004) RSC1 and RSC2 are required for expression of mid-late sporulation-specific genes in Saccharomyces cerevisiae. Eukaryot Cell 3(4):910-8	RSC1 \| SMK1
Ng HH, et al. (2002) Genome-wide location and regulated recruitment of the RSC nucleosome-remodeling complex. Genes Dev 16(7):806-19	HIR1 \| HIR2 \| HTA1 \| HTB1 \| RSC1 \| RSC3 \| RSC8 \| STH1
Saha A, et al. (2002) Chromatin remodeling by RSC involves ATP-dependent DNA translocation. Genes Dev 16(16):2120-34	ARP7 \| ARP9 \| LDB7 \| NPL6 \| RSC1 \| RSC3 \| RSC30 \| RSC4 \| RSC6 \| RSC8 \| RSC9 \| SFH1 \| STH1
Wong MC, et al. (2002) RSC2, encoding a component of the RSC nucleosome remodeling complex, is essential for 2 microm plasmid maintenance in Saccharomyces cerevisiae. Mol Cell Biol 22(12):4218-29	REP1 \| REP2 \| RSC1
Yukawa M, et al. (2002) Functional differences between RSC1 and RSC2, components of a for growth essential chromatin-remodeling complex of Saccharomyces cerevisiae, during the sporulation process. FEMS Yeast Res 2(2):87-91	IME2 \| RSC1
Xue Y, et al. (2000) The human SWI/SNF-B chromatin-remodeling complex is related to yeast rsc and localizes at kinetochores of mitotic chromosomes. Proc Natl Acad Sci U S A 97(24):13015-20	RSC1 \| RSC4

Results: 1 - 30 of 35 records
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