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Rap1 regulates apical contractility to allow embryonic morphogenesis without tissue disruption and acts in part via Canoe-independent mechanisms

Kia Z. Perez-Vale, Kristi D. Yow, Noah J. Gurley, Melissa Greene, Mark Peifer

2022Molecular Biology of the Cell20 citationsDOIOpen Access PDF

Abstract

morphogenesis, defining roles for Rap1 and one of its guanine nucleotide exchange factor (GEF) regulators, Dizzy. Rap1 uses Canoe as one effector, regulating junctional planar polarity. However, Rap1 has additional roles in junctional protein localization and balanced apical constriction-in its absence, Bazooka/Par3 localization is fragmented, and cells next to mitotic cells apically constrict and invaginate, disrupting epidermal integrity. In contrast, the GEF Dizzy has phenotypes similar to but slightly less severe than Canoe loss, suggesting that this GEF regulates Rap1 action via Canoe. Taken together, these data reveal that Rap1 is a crucial regulator of morphogenesis, likely acting in parallel via Canoe and other effectors, and that different Rap1 GEFs regulate distinct functions of Rap1.

Topics & Concepts

Cell biologyRap1MorphogenesisBiologyAdherens junctionGuanine nucleotide exchange factorActin cytoskeletonEffectorRac GTP-Binding ProteinsRegulatorActinCytoskeletonCell polarityCadherinGTPaseGeneticsCellRAC1Signal transductionGeneCellular Mechanics and InteractionsHippo pathway signaling and YAP/TAZDevelopmental Biology and Gene Regulation