logo
ResearchBunny Logo
Optogenetic control of migration of contractile cells predicted by an active gel model

Biology

Optogenetic control of migration of contractile cells predicted by an active gel model

O. M. Drozdowski, F. Ziebert, et al.

This exciting research by Oliver M. Drozdowski, Falko Ziebert, and Ulrich S. Schwarz explores how optogenetics can control actin-driven cell migration by manipulating myosin contractility. The study reveals a bistability between sessile and motile states that opens new possibilities for understanding cellular behavior in response to light, with implications consistent with real-world neutrophil experiments.

00:00
00:00
Playback language: English
Abstract
Cell crawling involves intracellular actin cytoskeleton flows driven by actin polymerization at the front and myosin contractility at the back. Optogenetics allows spatial control of contraction and potentially cell migration. This study uses a one-dimensional active gel model to analyze this, incorporating myosin II minifilament assembly. The model predicts bistability between sessile and motile states under sufficient adhesion and contractility balance. Optogenetic contractility activation or inhibition can switch between these states at realistic parameter values, consistent with neutrophil experiments in microchannels. The study predicts activation strengths, initiation times, and compares local and global myosin II increases, showing that actin polymerization alone affects directional switching only at high strengths.
Publisher
Communications Physics
Published On
Jun 30, 2023
Authors
Oliver M. Drozdowski, Falko Ziebert, Ulrich S. Schwarz
Tags
cell crawling
actin cytoskeleton
optogenetics
myosin contractility
bistability
cell migration

Related Publications

Explore these studies to deepen your understanding of the subject.

Active-feedback quantum control of an integrated low-frequency mechanical resonator
Physics

Active-feedback quantum control of an integrated low-frequency mechanical resonator

J. Guo, J. Chang, et al.

Dopamine control of social novelty preference is constrained by an interpeduncular-tegmentum circuit
Psychology

Dopamine control of social novelty preference is constrained by an interpeduncular-tegmentum circuit

S. Molas, T. G. Freels, et al.

The influence of enterprise dormitories on the urban integration of migrant workers in China: an exploration of two distinct migration stages of individual and family migration and the differences between them
Social Work

The influence of enterprise dormitories on the urban integration of migrant workers in China: an exploration of two distinct migration stages of individual and family migration and the differences between them

W. Wei and L. Zhang

Understanding continuance intention of artificial intelligence (AI)-enabled mobile banking applications: an extension of AI characteristics to an expectation confirmation model
Business

Understanding continuance intention of artificial intelligence (AI)-enabled mobile banking applications: an extension of AI characteristics to an expectation confirmation model

J. Lee, Y. Tang, et al.

Listen, Learn & Level Up
Over 10,000 hours of research content in 25+ fields, available in 12+ languages.
No more digging through PDFs, just hit play and absorb the world's latest research in your language, on your time.
listen to research audio papers with researchbunny