GGrantIndex
← Search

Control of cell growth and size by a novel cell cycle checkpoint mechanism

$308,359R01FY2014GMNIH

University Of California Santa Cruz, Santa Cruz CA

Investigators

Linked publications & trials

Abstract

The mechanisms that control cell growth and size are largely unknown and represent a fundamental unsolved problem in biology. We recently discovered a checkpoint that links mitotic entry to membrane growth. Our analysis of this checkpoint suggests a novel hypothesis: we propose that vesicles arriving at a site of membrane growth generate a checkpoint signal that is proportional to the extent of membrane growth. We further hypothesize that downstream components read the strength of this signal to determine when sufficient growth has occurred for entry into mitosis. This hypothesis suggests a simple and broadly relevant solution to two fundamental problems in cell biology: 1) How is cell size controlled? and 2) How is membrane growth integrated with the cell cycle? The proposed Aims test key predictions of the hypothesis. Aim 1 uses diverse approaches, including single cell analysis, to test whether membrane growth is translated into a proportional checkpoint signal. Aim 2 tests whether key checkpoint components translate a gradually increasing checkpoint signal into a switch-like output that triggers mitosis. Completion of the Aims will define a novel checkpoint mechanism that could control the size and shape of all eukaryotic cells.

View original record on NIH RePORTER →