Shankarling Krishnamurthy scite author profile

Phosphorylation of serine-2 (S2) and serine-5 (S5) of the C-terminal domain (CTD) of RNA polymerase II (RNAP II) is a dynamic process that regulates the transcription cycle and coordinates recruitment of RNA processing factors. The Fcp1 CTD phosphatase catalyzes dephosphorylation of S2-P. Here, we report that Ssu72, a component of the yeast cleavage/polyadenylation factor (CPF) complex, is a CTD phosphatase with specificity for S5-P. Ssu72 catalyzes CTD S5-P dephosphorylation in association with the Pta1 component of the CPF complex, although its essential role in 3' end processing is independent of catalytic activity. Depletion of Ssu72 impairs transcription in vitro, and this defect can be rescued by recombinant, catalytically active Ssu72. We propose that Ssu72 has a dual role in transcription, one as a CTD S5-P phosphatase that regenerates the initiation-competent, hypophosphorylated form of RNAP II and the other as a factor necessary for cleavage of pre-mRNA and efficient transcription termination.

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Distinct and redundant roles of the two protein kinase A isoforms Tpk1p and Tpk2p in morphogenesis and growth of Candida albicans

Bockmühl

Krishnamurthy

Gerads

et al. 2001

Molecular Microbiology

181

192

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TPK1 and TPK2 encode both isoforms of protein kinase A (PKA) catalytic subunits in Candida albicans. Mutants lacking both TPK1 alleles showed defective hyphal morphogenesis on solid inducing media, whereas in liquid hypha, formation was affected slightly. In contrast, tpk2 mutants were only partially morphogenesis defective on solid media, whereas a strong block was observed in liquid. In addition, the yeast forms of tpk2– but not tpk1– mutants were completely deficient in invading agar. Because Tpk1p and Tpk2p differ in their N‐terminal domains of approximately 80–90 amino acids, while the catalytic portions are highly homologous, the functions of hybrid Tpk proteins with exchanged N‐terminal domains were tested. The results demonstrate that the catalytic portions mediate Tpk protein specificities with regard to filamentation, whereas agar invasion is mediated by the N‐terminal domain of Tpk2p. Homozygous tpk1 and tpk2 mutants grew normally; however, a tpk2 mutant strain containing a single regulatable TPK1 allele (PCK1p‐TPK1) at low expression levels was severely growth defective. It was completely blocked in hyphal morphogenesis and was stress resistant to high osmolarities or temperatures. Thus, both Tpk isoforms in C. albicans share growth functions but, unlike Saccharomyces cerevisiae isoforms, they have positive, specific roles in filament formation in different environments.

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A physiological role for gene loops in yeast

Lainé¹,

Singh²,

et al. 2009

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DNA loops that juxtapose the promoter and terminator regions of RNA polymerase II-transcribed genes have been identified in yeast and mammalian cells. Loop formation is transcription-dependent and requires components of the pre-mRNA 39-end processing machinery. Here we report that looping at the yeast GAL10 gene persists following a cycle of transcriptional activation and repression. Moreover, GAL10 and a GAL1p-SEN1 reporter undergo rapid reactivation kinetics following a cycle of activation and repression-a phenomenon defined as ''transcriptional memory''-and this effect correlates with the persistence of looping. We propose that gene loops facilitate transcriptional memory in yeast.Supplemental material is available at http://www.genesdev.org.

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Adaptation of the Efg1p Morphogenetic Pathway in Candida albicans by Negative Autoregulation and PKA-dependent Repression of the EFG1 Gene

Tebarth

Doedt

Krishnamurthy

et al. 2003

Journal of Molecular Biology

111

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Control of eukaryotic gene expression: Gene loops and transcriptional memory

Hampsey

Singh

Ansari

et al. 2011

Advances in Enzyme Regulation

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