Amoeboid cells crawl by simultaneously extending lamellipodia and retracting their cell bodies. A precise mechanical analysis of this process has been difficult because, in most cases, locomotion is generated by the actin cytoskeleton, which is also involved in many other processes. George Oster and co-workers have approached the problem by analyzing a ‘stripped down’ version of a crawling cell: sperm from the nematode Ascaris suum. These cells crawl using a unique cytoskeletal filament system based on the major sperm protein (MSP), which is dedicated to locomotion and requires few accessory proteins. The authors have developed a computational model that accounts for the principal features of crawling in terms of vectorial filament assembly and bundling without a major contribution from motor proteins. In the model, localized filament polymerization/bundling at the leading edge of lamellipodia generates protrusive force; this is coupled to localized contraction at the cell body, which is generated...
Interviews with Biologists @ 100 conference speakers
Explore our interviews with keynote speakers from the Biologists @ 100 conference, hosted to celebrate our publisher’s 100th anniversary, where we discuss climate change and biodiversity with Hans-Otto Pörtner and Jane Francis, health and disease with Charles Swanton and emerging technologies with Manu Prakash and Jennifer Lippincott-Schwartz.
Introducing our new Associate Editors
In this Editorial, JCS Editor-in-Chief Michael Way welcomes five new Associate Editors to the JCS team. These Associate Editors will expand our support for the wider cell biology community and handle articles in immune cell biology, proteostasis, imaging and image analysis, plant cell biology, and stem cell biology and modelling.
The spatial choreography of mRNA biosynthesis
In their Review, André Ventura-Gomes and Maria Carmo-Fonseca detail the latest research progress and technological advancements that are helping to unlock how nuclear organisation underpins control of gene transcription and pre-mRNA splicing.
JCS-FocalPlane Training Grants
Early-career researchers - working in an area covered by JCS - who would like to attend a microscopy training course, please apply. Deadline dates for 2025 applications: 6 June 2025 (decision by week commencing 28 July 2025) and 5 September 2025 (decision by week commencing 20 October 2025).
The emerging roles of the endoplasmic reticulum in mechanosensing and mechanotransduction
In their Review, Jonathan Townson and Cinzia Progida highlight recently emerging evidence for a role of the endoplasmic reticulum in enabling a cell to sense and respond to changes in the extracellular mechanical environment.
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