SSU72/YNL222W Literature Guide Help

Other names published for SSU72: YNL222W

SSU72 - Strains/Constructs (22)

ReferenceOther Genes Addressed
Fuchs SM, et al.  (2012) RNA polymerase II carboxyl-terminal domain phosphorylation regulates protein stability of the Set2 methyltransferase and histone H3 di- and trimethylation at lysine 36. J Biol Chem 287(5):3249-56
Loya TJ, et al.  (2012) A genetic screen for terminator function in yeast identifies a role for a new functional domain in termination factor Nab3. Nucleic Acids Res 40(15):7476-91
Ghazy MA, et al.  (2009) The Essential N Terminus of the Pta1 Scaffold Protein Is Required for snoRNA Transcription Termination and Ssu72 Function but Is Dispensable for Pre-mRNA 3'-End Processing. Mol Cell Biol 29(8):2296-307
Holbein S, et al.  (2009) Cordycepin interferes with 3' end formation in yeast independently of its potential to terminate RNA chain elongation. RNA 15(5):837-49
Krishnamurthy S, et al.  (2009) Functional interaction of the Ess1 prolyl isomerase with components of the RNA polymerase II initiation and termination machineries. Mol Cell Biol 29(11):2925-34
Breslow DK, et al.  (2008) A comprehensive strategy enabling high-resolution functional analysis of the yeast genome. Nat Methods 5(8):711-8
Kuehner JN and Brow DA  (2008) Regulation of a eukaryotic gene by GTP-dependent start site selection and transcription attenuation. Mol Cell 31(2):201-11
Reyes-Reyes M and Hampsey M  (2007) Role for the Ssu72 C-terminal domain phosphatase in RNA polymerase II transcription elongation. Mol Cell Biol 27(3):926-36
Singh BN and Hampsey M  (2007) A transcription-independent role for TFIIB in gene looping. Mol Cell 27(5):806-16
Ganem C, et al.  (2006) Kinase Cak1 functionally interacts with the PAF1 complex and phosphatase Ssu72 via kinases Ctk1 and Bur1. Mol Genet Genomics 275(2):136-47
Kim M, et al.  (2006) Distinct pathways for snoRNA and mRNA termination. Mol Cell 24(5):723-34
Ansari A and Hampsey M  (2005) A role for the CPF 3'-end processing machinery in RNAP II-dependent gene looping. Genes Dev 19(24):2969-78
Davierwala AP, et al.  (2005) The synthetic genetic interaction spectrum of essential genes. Nat Genet 37(10):1147-52
Somesh BP, et al.  (2005) Multiple mechanisms confining RNA polymerase II ubiquitylation to polymerases undergoing transcriptional arrest. Cell 121(6):913-23
St-Pierre B, et al.  (2005) Conserved and specific functions of mammalian ssu72. Nucleic Acids Res 33(2):464-77
Ganem C, et al.  (2003) Ssu72 is a phosphatase essential for transcription termination of snoRNAs and specific mRNAs in yeast. EMBO J 22(7):1588-98
He X, et al.  (2003) Functional interactions between the transcription and mRNA 3' end processing machineries mediated by Ssu72 and Sub1. Genes Dev 17(8):1030-42
Nedea E, et al.  (2003) Organization and function of APT, a subcomplex of the yeast cleavage and polyadenylation factor involved in the formation of mRNA and small nucleolar RNA 3'-ends. J Biol Chem 278(35):33000-10
Steinmetz EJ and Brow DA  (2003) Ssu72 protein mediates both poly(A)-coupled and poly(A)-independent termination of RNA polymerase II transcription. Mol Cell Biol 23(18):6339-49
Dichtl B, et al.  (2002) A role for SSU72 in balancing RNA polymerase II transcription elongation and termination. Mol Cell 10(5):1139-50
Wu WH, et al.  (1999) Mutational analysis of yeast TFIIB. A functional relationship between Ssu72 and Sub1/Tsp1 defined by allele-specific interactions with TFIIB. Genetics 153(2):643-52
Sun ZW and Hampsey M  (1996) Synthetic enhancement of a TFIIB defect by a mutation in SSU72, an essential yeast gene encoding a novel protein that affects transcription start site selection in vivo. Mol Cell Biol 16(4):1557-66