P Muralidhara scite author profile

P Muralidhara

5Publications

9Citation Statements Received

220Citation Statements Given

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205

Affiliations

University of Tübingen, Institute of Parasitology, Post Graduate Institute of Medical Education and Research

Publications

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When yeast cells change their mind: cell cycle “Start” is reversible under starvation

et al. 2022

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Eukaryotic cells decide in late G1 phase of the cell cycle whether to commit to another round of division. This point of cell cycle commitment is termed “Restriction Point” in mammals and “Start” in the budding yeast Saccharomyces cerevisiae. At Start, yeast cells integrate multiple signals such as pheromones and nutrients, and will not pass Start if nutrients are lacking. However, how cells respond to nutrient depletion after the Start decision remains poorly understood. Here, we analyze how post‐Start cells respond to nutrient depletion, by monitoring Whi5, the cell cycle inhibitor whose export from the nucleus determines Start. Surprisingly, we find that cells that have passed Start can re‐import Whi5 into the nucleus. In these cells, the positive feedback loop activating G1/S transcription is interrupted, and the Whi5 repressor re‐binds DNA. Cells which re‐import Whi5 become again sensitive to mating pheromone, like pre‐Start cells, and CDK activation can occur a second time upon replenishment of nutrients. These results demonstrate that upon starvation, the commitment decision at Start can be reversed. We therefore propose that cell cycle commitment in yeast is a multi‐step process, similar to what has been suggested for mammalian cells.

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Response of Mast Cells against Filarial Antigens from Experimentally Infected Mastomys natelensis with <i>Brugia malayi</i>

Muralidhara

Malla

Ganguly

et al. 1992

Int Arch Allergy Immunol

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The role of antigens of Brugia malayi adult worms in induction of histamine release from mast cells was studied. Both peritoneal and lung mast cells were passively sensitized using immune serum collected from Mastomys natelensis on different days after infection with B. malayi. A significant release of histamine both with crude worm and 60-kD antigens was shown. However, the role of the 43-kD antigen in histamine release was comparable to that of control. When the sera were heat inactivated, the histamine release was minimal, thus indicating the heat-labile nature of the antibodies. Furthermore, the responses of peritoneal and lung mast cells to filarial antigens were similar.

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Protein–Metabolite Interactions Shape Cellular Metabolism and Physiology

Muralidhara

Ewald

2022

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Role of protein kinase C and calmodulin in histamine release in experimental filariasis

Muralidhara

Malla

Mahajan

et al. 1998

Allergology International

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When Yeast Cells Change their Mind: Cell Cycle “Start” is Reversible under Starvation

Irvali

Muralidhara

et al. 2021

Preprint

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Eukaryotic cells decide in late G1 whether to commit to another round of genome duplication and division. This point of irreversible cell cycle commitment is a molecular switch termed “Restriction Point” in mammals and “Start” in budding yeast. At Start, yeast cells integrate multiple signals such as pheromones, osmolarity, and nutrients. If sufficient nutrients are lacking, cells will not pass Start. However, how the cells respond to nutrient depletion after they have made the Start decision, remains poorly understood.Here, we analyze by live cell imaging how post-Start yeast cells respond to nutrient depletion. We monitor fluorescently labelled Whi5, the cell cycle inhibitor whose export from the nucleus determines Start. Surprisingly, we find that cells that have passed Start can re-import Whi5 back into the nucleus. This occurs when cells are faced with starvation up to 20 minutes after Start. In these cells, the positive feedback loop is interrupted, Whi5 re-binds DNA, and CDK activation occurs a second time once nutrients are replenished. Cells which re-import Whi5 also become sensitive to mating pheromone again, and thus behave like pre-Start cells. In summary, we show that upon starvation the commitment decision at Start can be reversed. We therefore propose that in yeast, as has been suggested for mammalian cells, cell cycle commitment is a multi-step process, where irreversibility in face of nutrient signaling is only reached approximately 20 minutes after CDK activation at Start.

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P Muralidhara

When yeast cells change their mind: cell cycle “Start” is reversible under starvation

Response of Mast Cells against Filarial Antigens from Experimentally Infected Mastomys natelensis with <i>Brugia malayi</i>

Protein–Metabolite Interactions Shape Cellular Metabolism and Physiology

Role of protein kinase C and calmodulin in histamine release in experimental filariasis

When Yeast Cells Change their Mind: Cell Cycle “Start” is Reversible under Starvation

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