NEWS & VIEWS: Inositol phosphates: small molecules with a BIG impact on maize embryo development (Catherine P Freed , Erin Cullen) doi.org/10.1093/plph... #PlantScience @aspbofficial
Comparative proteomics reveals protein signatures shared between and unique to bona fide plant EVs and other plant-derived vesicles (Michele Bifolco , Elisa Cappetta , Alfredo Ambrosone) doi.org/10.1093/plph... #PlantScience @aspbofficial
Transcriptome profiling reveals divergent response strategies in two olive cultivars with contrasting drought tolerance (Genoveva Carmen Martos de la Fuente , Amanda Bullones , et al) doi.org/10.1093/plph... #PlantScience @aspbofficial
#ASPBPlantPhysMonday #ICYMI
CdJACG1 integrates jasmonic acid signaling and CBF pathways to confer cold tolerance in bermudagrass (Cynodon dactylon) (Xuebing Huang , Shurui Song , Miaomiao Zhou , Guangjing Ma , Zhengrong Hu , Liang Chen) doi.org/10.1093/plph... #PlantScience @aspbofficial
Plants utilize complex signaling networks to coordinate nutrient allocation and storage across tissues. In maize and other cereal crops, traits such as emb
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Identifying conserved molecular signatures that distinguish plant extracellular vesicles from heterogeneous plant-derived vesicles clarifies their identity
Drought tolerance in olive reflects a conservative strategy based on early metabolic control that maintains cellular function and provides molecular insigh
Abstract. Cold stress limits the growth and distribution of warm-season grasses such as bermudagrass (Cynodon dactylon). While jasmonic acid (JA) accumulat
Evolutionary history and expression analysis of the RWP-RK gene family and its potential regulatory network in root nodules (Jiacheng Zhang , Zhouwen Wang , Bingxue Zhang , et al) doi.org/10.1093/plph... #PlantScience @aspbofficial
The maternal-effect gene ZmGRP23 promotes PPR-DYW-mediated RNA editing in maize mitochondria (Yan-Zhuo Yang , Shu-Guang Zhang , Yi-Meng Chen , Yu-Tong Ren , Song Gao , Xin-Yuan Liu , Chunhui Xu , Bao-Cai Tan) #PlantScience @aspbofficial
SlNOR interacts with SlMYB60 to regulate the jasmonic acid-mediated low-temperature stress response in tomato (Xiangguang Meng , Zhen Kang , Guo Chen , Zhimei Chen , Songshen Hu , Guobin Li , Tianlai Li , Xiaohui Hu , Changan Zhu) doi.org/10.1093/plph... #PlantScience @aspbofficial
Root system growth and function respond to soil temperature in maize (Zea mays L.) (Randy Clark , Dan Chamberlain , Christine Diepenbrock , Leandro Perugini , Ignacio R Hisse , Mark Cooper , Carlos D Messina) doi.org/10.1093/plph... #PlantScience @aspbofficial
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#PlantScience #SciComm @ASPB
The study of the evolutionary expansion and functional differentiation of the RWP-RK gene family is significant for understanding the complexity of plant g
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Maize GLUTAMINE-RICH PROTEIN23 acts as a maternal effect factor that influences seed development by forming specific protein complexes to regulate mitochon
Specific transcription factors in tomatoes regulate stress responses to low-temperatures by promoting the synthesis of the signaling molecule jasmonic acid
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Genetic variation in the root growth response to temperature can improve yield and drought tolerance in maize.
The May 2026 issue of Plant Physiology from ASPB @aspbofficial and Oxford University Press is now COMPLETE! Check it out here: academic.oup.com/plphys/issue... #PlantSci
Plants employ diverse metabolic pathways to produce large numbers of metabolites, which are not only critical to plant growth, development, and defense, but also important to humans as foods, medicines, and raw materials. Recent advances in genetics, synthetic biology, omics, and AI enable us to unravel the intricate metabolic networks and dynamic regulatory control of plant metabolism, which offer novel insights and facilitate rational manipulation of the complex metabolic processes in plants. Image credit: Tianhu Sun.
