Revathi S. Iyer scite author profile

Revathi S. Iyer

5Publications

26Citation Statements Received

26Citation Statements Given

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157

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Indian Institute of Technology Bombay

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Pseudohyphal differentiation defect due to mutations in GPCR and ammonium signaling is suppressed by low glucose concentration: a possible integrated role for carbon and nitrogen limitation

2008

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In response to carbon and/or nitrogen limitation, diploid cells of Saccharomyces cerevisiae either sporulate or develop pseudohyphae. Although the signal transduction pathways leading to these developmental changes have been extensively studied, how nutritional signals are integrated is not clearly understood. Results of this study indicate that reducing glucose concentration from 2% (SLAD) to 0.05% (SLALD) causes an increase in the magnitude of filamentation as well as a discernible reduction in the time required for pseudohyphal development. Further, the pseudohyphal defect of gpa2, gpr1and gpa2gpr1 but not the mep2 mutant strain is overcome on SLALD. Low glucose also induced pseudohyphae in mep2gpr1 but not mep2gpa2 strain suggesting that GPR1 inhibits pseudohyphae by inhibiting GPA2 function. Accordingly, deleting GPA2 in mep2gpr1 mutant abrogated pseudohyphae formation in SLALD. Further, replenishment of glucose suppressed pseudohyphal differentiation in wild-type cells grown in SLAD medium. However, in SLALD, glucose replenishment suppressed the filamentation response of gpa2 mutants but not that of strains carrying the wild-type GPA2. Increased trehalose levels correlated with decreased pseudohyphae formation. Results of this study demonstrate that filamentation in response to nitrogen limitation occurs as glucose becomes limiting.

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Epigenetics of the yeast galactose genetic switch

Bhat

Iyer

2009

J Biosci

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The transcriptional activation of enzymes involved in galactose utilization (GAL genes) in Saccharomyces cerevisiae is regulated by a complex interplay between three regulatory proteins encoded by GAL4 (transcriptional activator), GAL3 (signal transducer) and GAL80 (repressor). The relative concentrations of the signal transducer and the repressor are maintained by autoregulation. Cells disabled for autoregulation exhibit phenotypes distinctly different from that of the wild type cells, enabling us to explore the biological significance of autoregulation. The redundancy in signal transduction due to the presence of GAL1 (alternate signal transducer) also makes it a suitable model to understand the phenomenon of epigenetics. In this article we review some of the recent attempts made to understand the importance of epigenetics in the establishment of cellular and transcriptional memory.

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KRH1 and KRH2 are functionally non-redundant in signaling for pseudohyphal differentiation in Saccharomyces cerevisiae

Iyer

Bhat

2017

Curr Genet

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Diploid cells of Saccharomyces cerevisiae undergo pseudohyphal differentiation in response to nutrient depletion. Although this dimorphic transition occurs due to signals originating from carbon and nitrogen limitation, how these signals are coordinated and integrated is not understood. Results of this study indicate that the pseudohyphal defect of the mep2∆ mutant is overcome upon disruption of KRH2/GPB1 but not KRH1/GPB2. Further, the agar invasion defect observed in a mep2 mutant strain is suppressed only by deleting KRH2 and not KRH1. Thus, the results presented indicate that MEP2 functions by inhibiting KRH2 to trigger filamentation response when glucose becomes limiting. Biochemical data and phenotypic response to glucose replenishment reveal that KRH1 and KRH2 are differentially regulated by glucose and ammonium to induce pseudohyphae formation via the cAMP-PKA pathway. In contrast to the current view, this study clearly demonstrates that, KRH1 and KRH2 are not functionally redundant.

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PLC in Terms of Effect of Cross Culture in Acceptance of Brands in India

Iyer¹,

Vaidyanathan²,

Menon³

2010

SSRN Journal

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Trehalose biosynthetic pathway regulates filamentation response in Saccharomyces cerevisiae

Iyer¹,

Bhat²

2022

Mol Biol Rep

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Revathi S. Iyer

Pseudohyphal differentiation defect due to mutations in GPCR and ammonium signaling is suppressed by low glucose concentration: a possible integrated role for carbon and nitrogen limitation

Epigenetics of the yeast galactose genetic switch

KRH1 and KRH2 are functionally non-redundant in signaling for pseudohyphal differentiation in Saccharomyces cerevisiae

PLC in Terms of Effect of Cross Culture in Acceptance of Brands in India

Trehalose biosynthetic pathway regulates filamentation response in Saccharomyces cerevisiae

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