Joel Tchoufag

Overview

Explore the profile of Joel Tchoufag including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 6

Citations 27

Followers 0

Related Specialties

Biophysics

Biology

Science

Top 10 Co-Authors

Kranthi K Mandadapu

Amaresh Sahu

Konstantin Doubrovinski

Miriam Osterfield

Swayamdipta Bhaduri

Jacques Magnaudet

David Fabre

Kranthi Kiran Mandadapu

Pushpita Ghosh

Mohamad Ibrahim Cheikh

Published In

Phys Rev Lett

Phys Rev E

Development

Elife

Proc Natl Acad Sci U S A

Affiliations

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Recent Articles

A comprehensive model of epithelium reveals the role of embryo geometry and cell topology in mechanical responses

Cheikh M, Tchoufag J, Osterfield M, Dean K, Bhaduri S, Zhang C, et al.

Elife . 2023 Oct; 12. PMID: 37782009

In order to understand morphogenesis, it is necessary to know the material properties or forces shaping the living tissue. In spite of this need, very few in vivo measurements are...

Absolute vs Convective Instabilities and Front Propagation in Lipid Membrane Tubes

Tchoufag J, Sahu A, Mandadapu K

Phys Rev Lett . 2022 Feb; 128(6):068101. PMID: 35213207

We analyze the stability of biological membrane tubes, with and without a base flow of lipids. Membrane dynamics are completely specified by two dimensionless numbers: the well-known Föppl-von Kármán number...

Geometry and dynamics of lipid membranes: The Scriven-Love number

Sahu A, Glisman A, Tchoufag J, Mandadapu K

Phys Rev E . 2020 Jun; 101(5-1):052401. PMID: 32575240

The equations governing lipid membrane dynamics in planar, spherical, and cylindrical geometries are presented here. Unperturbed and first-order perturbed equations are determined and nondimensionalized. In membrane systems with a nonzero...

Mechanisms for bacterial gliding motility on soft substrates

Tchoufag J, Ghosh P, Pogue C, Nan B, Mandadapu K

Proc Natl Acad Sci U S A . 2019 Nov; 116(50):25087-25096. PMID: 31767758

The motility mechanism of certain prokaryotes has long been a mystery, since their motion, known as gliding, involves no external appendages. The physical principles behind gliding still remain poorly understood....

A simplified mechanism for anisotropic constriction in mesoderm

Doubrovinski K, Tchoufag J, Mandadapu K

Development . 2018 Nov; 145(24). PMID: 30401702

Understanding how forces and material properties give rise to tissue shapes is a fundamental issue in developmental biology. Although gastrulation is a well-used system for investigating tissue morphogenesis, a consensus...

Weakly nonlinear model with exact coefficients for the fluttering and spiraling motion of buoyancy-driven bodies

Tchoufag J, Fabre D, Magnaudet J

Phys Rev Lett . 2015 Sep; 115(11):114501. PMID: 26406832

Gravity- or buoyancy-driven bodies moving in a slightly viscous fluid frequently follow fluttering or helical paths. Current models of such systems are largely empirical and fail to predict several of...