James L Weller

Overview

Explore the profile of James L Weller including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 59

Citations 2027

Followers 0

Related Specialties

Biology

Physiology

Cell Biology

Top 10 Co-Authors

Valerie Hecht

Jacqueline K Vander Schoor

Richard C Macknight

James B Reid

Fanjiang Kong

Frances C Sussmilch

Valerie F G Hecht

Lim Chee Liew

Baohui Liu

Stephen Ridge

Published In

Plant Physiol

J Exp Bot

Front Plant Sci

Plant Cell

New Phytol

Affiliations

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Recent Articles

Seed production determines the entrance to dormancy of the inflorescence meristem of Pisum sativum and the end of the flowering period

Burillo E, Ortega R, Vander Schoor J, Martinez-Fernandez I, Weller J, Bombarely A, et al.

Physiol Plant . 2024 Jul; 176(4):e14425. PMID: 38982330

Flowering plants adjust their reproductive period to maximize the success of the offspring. Monocarpic plants, those with a single reproductive cycle that precedes plant senescence and death, tightly regulate both...

Physical seed dormancy in pea is genetically separable from seed coat thickness and roughness

Williams O, Vander Schoor J, Butler J, Hecht V, Weller J

Front Plant Sci . 2024 Mar; 15:1359226. PMID: 38476691

Introduction: The seeds of wild pea () exhibit marked physical dormancy due to impermeability of the seed coat to water, and the loss of this dormancy is thought to have...

Focusing the GWAS Lens on days to flower using latent variable phenotypes derived from global multienvironment trials

Neupane S, Wright D, Martinez R, Butler J, Weller J, Bett K

Plant Genome . 2022 Oct; 16(1):e20269. PMID: 36284473

Adaptation constraints within crop species have resulted in limited genetic diversity in some breeding programs and areas where new crops have been introduced, for example, for lentil (Lens culinaris Medik.)...

Identification and characterization of putative targets of VEGETATIVE1/FULc, a key regulator of development of the compound inflorescence in pea and related legumes

Serra-Pico M, Hecht V, Weller J, Benlloch R, Madueno F

Front Plant Sci . 2022 Oct; 13:765095. PMID: 36212341

Inflorescence architecture contributes to essential plant traits. It determines plant shape, contributing to morphological diversity, and also determines the position and number of flowers and fruits produced by the plant,...

Genetic control of the operculum and capsule morphology of Eucalyptus globulus

Hernandez M, Butler J, Ammitzboll H, Weller J, Vaillancourt R, Potts B

Ann Bot . 2022 Jun; 130(1):97-108. PMID: 35652517

Background And Aims: The petaline operculum that covers the inner whorls until anthesis and the woody capsule that develops after fertilization are reproductive structures of eucalypts that protect the flower...

The genetic architecture of flowering time changes in pea from wild to crop

Williams O, Vander Schoor J, Butler J, Ridge S, Sussmilch F, Hecht V, et al.

J Exp Bot . 2022 Apr; 73(12):3978-3990. PMID: 35383838

Change in phenology has been an important component in crop evolution, and selection for earlier flowering through a reduction in environmental sensitivity has helped broaden adaptation in many species. Natural...

Genetic analysis of early phenology in lentil identifies distinct loci controlling component traits

Rajandran V, Ortega R, Vander Schoor J, Butler J, Freeman J, Hecht V, et al.

J Exp Bot . 2022 Mar; 73(12):3963-3977. PMID: 35290451

Modern-day domesticated lentil germplasm is generally considered to form three broad adaptation groups: Mediterranean, South Asian, and northern temperate, which correspond to the major global production environments. Reproductive phenology plays...

A Point Mutation in Alters the Circadian Clock and Photoperiodic Flowering of

Perez-Santangelo S, Napier N, Robson F, Weller J, Bond D, Macknight R

Plants (Basel) . 2022 Feb; 11(3). PMID: 35161220

Plants use seasonal cues to initiate flowering at an appropriate time of year to ensure optimal reproductive success. The circadian clock integrates these daily and seasonal cues with internal cues...

Genetic basis for lentil adaptation to summer cropping in northern temperate environments

Haile T, Stonehouse R, Weller J, Bett K

Plant Genome . 2021 Oct; 14(3):e20144. PMID: 34643336

The continued success of lentil (Lens culinaris Medik.) genetic improvement relies on the availability of broad genetic diversity, and new alleles need to be identified and incorporated into the cultivated...

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Genetic basis and adaptation trajectory of soybean from its temperate origin to tropics

Dong L, Fang C, Cheng Q, Su T, Kou K, Kong L, et al.

Nat Commun . 2021 Sep; 12(1):5445. PMID: 34521854

Soybean (Glycine max) serves as a major source of protein and edible oils worldwide. The genetic and genomic bases of the adaptation of soybean to tropical regions remain largely unclear....