Stephane Verger

Overview

Explore the profile of Stephane Verger including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 21

Citations 358

Followers 0

Related Specialties

Biology

Cell Biology

General Medicine

Top 10 Co-Authors

Olivier Hamant

Kristoffer Jonsson

Ozer Erguvan

Elsa Demes

Arezki Boudaoud

Gregory Mouille

Stephanie Robert

Shogo Takatani

Mengying Liu

Rishikesh P Bhalerao

Published In

Elife

Front Plant Sci

Curr Biol

BMC Biol

Development

Affiliations

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Recent Articles

Reduced RG-II pectin dimerization disrupts differential growth by attenuating hormonal regulation

Jewaria P, Aryal B, Begum R, Wang Y, Sancho-Andres G, Baba A, et al.

Sci Adv . 2025 Feb; 11(7):eads0760. PMID: 39937898

Defects in cell wall integrity (CWI) profoundly affect plant growth, although, underlying mechanisms are not well understood. We show that in mutant, CWI defects from compromising dimerization of RG-II pectin,...

Segmentation and characterization of macerated fibers and vessels using deep learning

Qamar S, Baba A, Verger S, Andersson M

Plant Methods . 2024 Aug; 20(1):126. PMID: 39143615

Purpose: Wood comprises different cell types, such as fibers, tracheids and vessels, defining its properties. Studying cells' shape, size, and arrangement in microscopy images is crucial for understanding wood characteristics....

Cell wall integrity modulates HOOKLESS1 and PHYTOCHROME INTERACTING FACTOR4 expression controlling apical hook formation

Lorrai R, Erguvan O, Raggi S, Jonsson K, Siroka J, Tarkowska D, et al.

Plant Physiol . 2024 Jul; 196(2):1562-1578. PMID: 38976579

Formation of the apical hook in etiolated dicot seedlings results from differential growth in the hypocotyl apex and is tightly controlled by environmental cues and hormones, among which auxin and...

High-throughput characterization of cortical microtubule arrays response to anisotropic tensile stress

Demes E, Verger S

BMC Biol . 2023 Jul; 21(1):154. PMID: 37430369

Background: Plants can perceive and respond to mechanical signals. For instance, cortical microtubule (CMT) arrays usually reorganize following the predicted maximal tensile stress orientation at the cell and tissue level....

Characterising the mechanics of cell-cell adhesion in plants

Atakhani A, Bogdziewiez L, Verger S

Quant Plant Biol . 2023 Apr; 3:e2. PMID: 37077973

Cell-cell adhesion is a fundamental feature of multicellular organisms. To ensure multicellular integrity, adhesion needs to be tightly controlled and maintained. In plants, cell-cell adhesion remains poorly understood. Here, we...

FERONIA and microtubules independently contribute to mechanical integrity in the Arabidopsis shoot

Malivert A, Erguvan O, Chevallier A, Dehem A, Friaud R, Liu M, et al.

PLoS Biol . 2021 Nov; 19(11):e3001454. PMID: 34767544

To survive, cells must constantly resist mechanical stress. In plants, this involves the reinforcement of cell walls, notably through microtubule-dependent cellulose deposition. How wall sensing might contribute to this response...

Effects of Arabidopsis wall associated kinase mutations on ESMERALDA1 and elicitor induced ROS

Kohorn B, Greed B, Mouille G, Verger S, Kohorn S

PLoS One . 2021 May; 16(5):e0251922. PMID: 34015001

Angiosperm cell adhesion is dependent on interactions between pectin polysaccharides which make up a significant portion of the plant cell wall. Cell adhesion in Arabidopsis may also be regulated through...

External Mechanical Cues Reveal a Katanin-Independent Mechanism behind Auxin-Mediated Tissue Bending in Plants

Baral A, Aryal B, Jonsson K, Morris E, Demes E, Takatani S, et al.

Dev Cell . 2021 Jan; 56(1):67-80.e3. PMID: 33434527

Tissue folding is a central building block of plant and animal morphogenesis. In dicotyledonous plants, hypocotyl folds to form hooks after seedling germination that protects their aerial stem cell niche...

Correction: A tension-adhesion feedback loop in plant epidermis

Verger S, Long Y, Boudaoud A, Hamant O

Elife . 2020 Mar; 9. PMID: 32202501

No abstract available.

10.

Microtubule Response to Tensile Stress Is Curbed by NEK6 to Buffer Growth Variation in the Arabidopsis Hypocotyl

Takatani S, Verger S, Okamoto T, Takahashi T, Hamant O, Motose H

Curr Biol . 2020 Mar; 30(8):1491-1503.e2. PMID: 32169210

Growth variability generates mechanical conflicts in tissues. In plants, cortical microtubules usually align with maximal tensile stress direction, thereby mechanically reinforcing cell walls, and channeling growth rate and direction. How...