Results 301 to 310 of about 100,456 (344)

Apocarotenoid signaling regulates meristem activity and shapes shoot and root lateral organ formation in Arabidopsis. [PDF]

Plant Physiol
Sierra J, Escobar-Tovar L, Napsucialy-Mendivil S, Oltehua-López O, Agreda-Laguna KA, Dubrovsky JG, McQuinn RP, León P.   +7 more
europepmc   +1 more source

CUC/auxin patterning of decanalised petal number in <i>Cardamine hirsuta</i>. [PDF]

Quant Plant Biol
Rambaud-Lavigne L, Monniaux M, Hu ZL, McKim S, Hay A.   +4 more
europepmc   +1 more source

An updated history of TDIF‐PXY signalling: a study in cell fate and tissue patterning

New Phytologist, Volume 248, Issue 3, Page 1154-1165, November 2025.
Summary Non‐cell autonomous signalling is a mechanism by which stem cells are maintained across the tree of life. In plants, many stem cell populations are regulated by peptide ligands related to CLAVATA3, which are secreted from one cell type and bind to the leucine‐rich repeat domain of a plasma‐membrane‐localised receptor kinase related to CLAVATA1 ...
Qing He, Agnieszka Gladala‐Kostarz, Elizabeth E. Morris, J. Peter Etchells   +3 more
wiley   +1 more source

Guanylate‐binding proteins: emerging critical functions in plant development, immunity and stress response

New Phytologist, Volume 248, Issue 3, Page 1171-1179, November 2025.
Summary Guanylate‐binding proteins (GBPs) are large GTPases that belong to the Dynamin Superfamily Protein family. In humans, GBPs are well‐characterized interferon‐induced GTPases, playing a central role in cell‐autonomous innate immunity against infections, inflammation and cancer. GBPs orthologs have been identified in plants only recently.
Lucie Fernandez‐Lochu, Martine Lemaire‐Chamley, Christian Chevalier   +2 more
wiley   +1 more source

Salicylic acid inhibits V-ATPase activity and restricts cell elongation. [PDF]

Plant Physiol
Müller J, König Y, Xhelilaj K, Kaiser S, Müller T, Vielba-Fernández A, Gronnier J, Löfke C, Krebs M, Scheuring D.   +9 more
europepmc   +1 more source

Coordination of cortex modifications in time, space, and under stress

New Phytologist, Volume 248, Issue 4, Page 1677-1685, November 2025.
Summary In roots, cell‐type‐specific differentiation enables specialized responses to environmental stress. The cortex, located between the vasculature and epidermis, is a key site for stress‐responsive modifications. The distinct specializations of the cortex are controlled by developmental, positional and environmental signals.
Dorota Kawa, Hannah M. Schneider, Kaisa Kajala   +2 more
wiley   +1 more source

The role of post‐translational modifications in the dynamics of cytoplasmic biomolecular condensates in plants

New Phytologist, Volume 248, Issue 4, Page 1692-1699, November 2025.
Summary Cytoplasmic biomolecular condensates are membrane‐less structures important for cell homeostasis, especially during stress conditions. These aggregates concentrate RNA, protein, and metabolites during a wide variety of stresses. The formation of cytoplasmic biomolecular condensates was studied extensively in plants, revealing many key actors ...
Margaux Legoux, Jean‐Philippe Reichheld, Rémy Merret   +2 more
wiley   +1 more source

Almost lost in translation: integrated transcriptome and proteome analyses for early Arabidopsis flower development. [PDF]

J Exp Bot
de Folter S.
europepmc   +1 more source

A genomic approach to study developmental regulation during oil palm somatic embryogenesis and epigenetic modifications associated with 2,4-D utilization [PDF]

, 2005
Borgel, Alain, Duval, Yves, Jouannic, Stefan, Morcillo, Fabienne, Tranbarger, Timothy John, Tregear, James   +5 more
core  

Redox buffering and H₂O₂ orchestrate the vegetative development of Marchantia polymorpha. [PDF]

Plant J
Kock C, Helmig J, Gutsche N, Dierschke T, Müller-Schüssele SJ, Zachgo S.   +5 more
europepmc   +1 more source