CUS2/YNL286W Literature Guide

Other names published for CUS2: YNL286W

CUS2 LITERATURE TOPICS

Curated Literature

Genetics/Cell Biology

Gene Product Information

Related Genes/Proteins

Research Aids

Strains/Constructs

Genome-wide Analysis

Additional Information

CUS2 Literature Curation Summary

Curated References for CUS2: 25

Date of last curation: 2013-02-26

Reference	Other Genes Addressed
Freeberg MA, et al. (2013) Pervasive and dynamic protein binding sites of the mRNA transcriptome in Saccharomyces cerevisiae. Genome Biol 14(2):R13	AGP3 \| ALD4 \| ATG8 \| BUD31 \| CUS1 \| HSH155 \| HSH49 \| INO1 \| IST3 \| LEA1 \| LSR1 \| MSL1 \| PRP11 \| PRP21 \| MORE
Albulescu LO, et al. (2012) A Quantitative, High-Throughput Reverse Genetic Screen Reveals Novel Connections between Pre-mRNA Splicing and 5' and 3' End Transcript Determinants. PLoS Genet 8(3):e1002530	EDC3 \| LSM6 \| MUD2 \| SNT309
Chen HC and Cheng SC (2012) Functional roles of protein splicing factors. Biosci Rep 32(4):345-59	AAR2 \| BRR2 \| BUD13 \| BUD31 \| CDC40 \| CEF1 \| CLF1 \| CUS1 \| CWC15 \| CWC2 \| CWC21 \| CWC22 \| CWC24 \| CWC25 \| MORE
McKay SL and Johnson TL (2011) An Investigation of a Role for U2 snRNP Spliceosomal Components in Regulating Transcription. PLoS One 6(1):e16077	BUR2 \| CTK2 \| DST1 \| LEO1 \| LSR1 \| SPT4
Alexander RD, et al. (2010) Splicing-dependent RNA polymerase pausing in yeast. Mol Cell 40(4):582-93	AAR2 \| APE2 \| BRR2 \| BUD31 \| CUS1 \| DIB1 \| HSH155 \| HSH49 \| IST3 \| LEA1 \| LIN1 \| LSM4 \| LSR1 \| MSL1 \| MORE
Kerins JA, et al. (2010) PRP-17 and the pre-mRNA splicing pathway are preferentially required for the proliferation versus meiotic development decision and germline sex determination in Caenorhabditis elegans. Dev Dyn 239(5):1555-72	BRR2 \| BUD31 \| CBC2 \| CDC40 \| CPR3 \| CWC24 \| DED1 \| ECM2 \| FAL1 \| HSH155 \| HSH49 \| IST3 \| LSM2 \| LSM5 \| MORE
Perriman R and Ares M Jr (2010) Invariant U2 snRNA nucleotides form a stem loop to recognize the intron early in splicing. Mol Cell 38(3):416-27	LSR1 \| PRP5 \| SNR6
Bergkessel M, et al. (2009) SnapShot: Formation of mRNPs. Cell 136(4):794, 794.e1	AAR2 \| ABD1 \| ADA2 \| BRR2 \| BUD31 \| CBC2 \| CDC33 \| CEF1 \| CEG1 \| CET1 \| CFT1 \| CFT2 \| CHD1 \| CLF1 \| MORE
Gunderson FQ and Johnson TL (2009) Acetylation by the transcriptional coactivator Gcn5 plays a novel role in co-transcriptional spliceosome assembly. PLoS Genet 5(10):e1000682	ADA2 \| CUS1 \| ELP3 \| GCN5 \| HOS2 \| HOS3 \| LEA1 \| MSL1 \| MUD2 \| NGG1 \| RPD3 \| SAS3 \| SGF11 \| SPT3 \| MORE
Wahl MC, et al. (2009) The spliceosome: design principles of a dynamic RNP machine. Cell 136(4):701-18	AAR2 \| BRR2 \| BUD13 \| BUD31 \| CDC40 \| CEF1 \| CLF1 \| CUS1 \| CWC15 \| CWC2 \| CWC21 \| CWC22 \| CWC23 \| CWC24 \| MORE
Kress TL, et al. (2008) A Single SR-like Protein, Npl3, Promotes Pre-mRNA Splicing in Budding Yeast. Mol Cell 32(5):727-34	BUD13 \| CWC21 \| GBP2 \| HRB1 \| HTZ1 \| IST3 \| LEA1 \| LSM1 \| MLP1 \| MUD1 \| MUD2 \| NAM8 \| NPL3 \| PAT1 \| MORE
Macias S, et al. (2008) L30 binds the nascent RPL30 transcript to repress U2 snRNP recruitment. Mol Cell 30(6):732-42	LSR1 \| MSL5 \| MUD2 \| RPL30 \| SNR19 \| SUB2
Perriman RJ and Ares M Jr (2007) Rearrangement of competing U2 RNA helices within the spliceosome promotes multiple steps in splicing. Genes Dev 21(7):811-20	LSR1 \| PRP16 \| PRP5 \| SNR6
Xu YZ and Query CC (2007) Competition between the ATPase Prp5 and Branch Region-U2 snRNA Pairing Modulates the Fidelity of Spliceosome Assembly. Mol Cell 28(5):838-49	LSR1 \| PRP5
Morillo-Huesca M, et al. (2006) A simple in vivo assay for measuring the efficiency of gene length-dependent processes in yeast mRNA biogenesis. FEBS J 273(4):756-69	CDC40 \| CWC15 \| DST1 \| LEO1 \| MFT1 \| PHO5 \| REF2 \| RPB9 \| RTF1 \| SPT4 \| SPT6 \| SYC1 \| THP2
Burckin T, et al. (2005) Exploring functional relationships between components of the gene expression machinery. Nat Struct Mol Biol 12(2):175-82	BRR1 \| CBC2 \| CEG1 \| CTK1 \| CTR9 \| CWC15 \| CWC21 \| DBP5 \| DBR1 \| DED1 \| DHH1 \| DST1 \| HPR1 \| IST3 \| MORE
Perriman R, et al. (2003) ATP requirement for Prp5p function is determined by Cus2p and the structure of U2 small nuclear RNA. Proc Natl Acad Sci U S A 100(24):13857-62	PRP5
Wang Q, et al. (2003) The Clf1p splicing factor promotes spliceosome assembly through N-terminal tetratricopeptide repeat contacts. J Biol Chem 278(10):7875-83	BRR2 \| CEF1 \| CLF1 \| CWC2 \| CWC23 \| ECM2 \| HSH155 \| ISY1 \| LEA1 \| LSM2 \| LSM3 \| LSM5 \| LSM6 \| LSM7 \| MORE
Stevens SW, et al. (2002) Composition and functional characterization of the yeast spliceosomal penta-snRNP. Mol Cell 9(1):31-44	ASC1 \| BNA7 \| BRR2 \| BUD31 \| CEF1 \| CLF1 \| CUS1 \| DED1 \| DHH1 \| DIB1 \| ECM2 \| GPM1 \| HSH155 \| HSH49 \| MORE
Kaufer NF and Potashkin J (2000) Analysis of the splicing machinery in fission yeast: a comparison with budding yeast and mammals. Nucleic Acids Res 28(16):3003-10	BRR2 \| CEF1 \| DBR1 \| ECM2 \| ISY1 \| LSM2 \| LSM3 \| LSM4 \| LSM5 \| LSM6 \| LSM7 \| LSM8 \| LUC7 \| MUD2 \| MORE
Perriman R and Ares M Jr (2000) ATP can be dispensable for prespliceosome formation in yeast. Genes Dev 14(1):97-107	PRP5
Burge CB et al. (1999) "Splicing of precursors to mRNAs by the spliceosomes." Pp. 525-560 in The RNA World, Second Edition, edited by Gesteland RF, Cech TR, Atkins JF. Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press	AAR2 \| BRR1 \| BRR2 \| CBC2 \| CDC40 \| CUS1 \| DBR1 \| DED1 \| DHR2 \| HSH49 \| LSM1 \| LSM2 \| LSM3 \| LSM4 \| MORE
Rieger KJ, et al. (1999) Chemotyping of yeast mutants using robotics. Yeast 15(10B):973-86	ADY3 \| AIM22 \| AIM6 \| AMA1 \| AQR1 \| AZR1 \| BIT61 \| CAF40 \| CSH1 \| CST26 \| CYK3 \| DGK1 \| DLS1 \| DTR1 \| MORE
Yan D, et al. (1998) CUS2, a yeast homolog of human Tat-SF1, rescues function of misfolded U2 through an unusual RNA recognition motif. Mol Cell Biol 18(9):5000-9	PRP11
McKinney R, et al. (1997) Molecular characterization of a novel fission yeast gene spUAP2 that interacts with the splicing factor spU2AF59. Curr Genet 32(5):323-30