Results 71 to 80 of about 6,564 (176)

FLOWERING LOCUS T Genes MtFTb1 and MtFTb2 Act Redundantly to Promote Flowering Under Long Days in Medicago truncatula

open access: yesPlant Direct, Volume 10, Issue 6, June 2026.
ABSTRACT Flowering time is a crucial agronomic trait affecting yield and plant performance in different climates and photoperiods. While the molecular pathways regulating photoperiodic flowering are well‐characterized in Arabidopsis and cereals, they remain poorly understood in many other groups of plants.
Soledad Perez Santangelo   +1 more
wiley   +1 more source

Genetic dissection and transcriptomic analysis of a novel high‐tillering phenotype in rice derived from weedy rice (Hapcheonaengmi3) and Tongil‐type Rice (Milyang23)

open access: yesThe Plant Genome, Volume 19, Issue 2, June 2026.
Abstract Rice (Oryza sativa L.) tillering is a critical determinant of grain yield, yet the genetic mechanisms underlying non‐productive tillers remain poorly understood. Here, we report a novel high‐tillering (HT) phenotype derived from a cross between the elite cultivar Milyang23 and weedy rice Hapcheonaengmi3. The HT phenotype was absent in parental
Kyu‐Chan Shim   +8 more
wiley   +1 more source

COP1 regulates the stability of CAM7 to promote photomorphogenic growth

open access: yesPlant Direct, 2019
The unique member of the calmodulin gene family, Calmodulin7 (CAM7), plays a crucial role as transcriptional regulator to promote Arabidopsis seedling development.
Dhirodatta Senapati   +6 more
doaj   +1 more source

Genome‐wide association studies of a pea germplasm reveal novel markers and candidate genes implicated in resistance to Fusarium oxysporum f. sp. pisi races 1 and 2

open access: yesThe Plant Genome, Volume 19, Issue 2, June 2026.
Abstract Pea (Pisum sativum L.) is an essential legume crop cultivated globally as food and feed. However, its production is greatly constrained by Fusarium oxysporum f. sp. pisi (Fop). Breeding for resistance is the most efficient management strategy, but the genetic foundation of Fop resistance remains unclear.
Osman Zakaria Wohor   +2 more
wiley   +1 more source

lincRNA6679 promotes FnPR1B expression via phosphorylation‐activated FnWRKY14 to enhance strawberry resistance to Botrytis cinerea

open access: yesJournal of Integrative Plant Biology, Volume 68, Issue 6, Page 1898-1918, June 2026.
In strawberry, Botrytis cinerea induces the expression of the long, intergenic non‐coding RNA lincRNA667,which upregulates the transcription factor gene FnWRKY14. FnWRKY14 then binds to the promoter of the pathogenesis‐related gene FnPR1B, enhancing strawberry resistance to B. cinerea.
Yuhan Guan   +6 more
wiley   +1 more source

The role of far-red light (FR) in photomorphogenesis and its use in greenhouse plant production

open access: yesActa Agriculturae Slovenica, 2020
Light energy is one of the most important factors regulating the growth and development of plants. In greenhouses and other controlled- environments in which the natural radiation intensities are often low, plant production relies on supplementary ...
Bojka KUMP
doaj   +1 more source

KAS‐Seq Captures Global Transcription Dynamics and Active Single‐Stranded Enhancers in Rice

open access: yes
Plant Biotechnology Journal, EarlyView.
Haoxuan Li   +7 more
wiley   +1 more source

The ZmCOP1s–ZmCOL3 Module Enhances Late Flowering, Grain Yield and Grain Quality in Maize

open access: yesPlant Biotechnology Journal, Volume 24, Issue 6, Page 4415-4432, June 2026.
ABSTRACT Flowering time is a key determinant of yield and regional adaptation in crops and is largely controlled by light signalling. In this study, we identified two maize orthologs of Arabidopsis CONSTITUTIVE PHOTOMORPHOGENIC 1 (COP1), designated ZmCOP1a and ZmCOP1b, which activate light signalling and reduce plant height. Loss‐of‐function mutants of
Shuling Yang   +15 more
wiley   +1 more source

Divergent Regulatory Effects of Jasmonic Acid on Tomato Lycopene Biosynthesis Under Light and Dark Conditions

open access: yesAdvanced Science, Volume 13, Issue 26, 8 May 2026.
This study reveals the mechanism by which jasmonic acid (JA) regulates lycopene synthesis under light and dark conditions. In light, JA activates SlMYC2, which suppresses SlPIF1a and promotes SlPSY1 expression. In darkness, JA induces the acetyltransferase SlNATA1, which acetylates the dark‐accumulated SlPIF1a, thereby repressing SlPSY1 expression ...
Jiayi Xu   +10 more
wiley   +1 more source

Photomorphogenesis [PDF]

open access: yesThe Arabidopsis Book, 2002
Jennifer, Nemhauser, Joanne, Chory
openaire   +2 more sources

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