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Reprogramming of hormone-mediated antiviral responses in plants by viruses:A molecular tug of war on the salicylic acid-mediated immunity: 《Molecular Plant》2023年第10期1493-1495,共3页Faisal Islam Shan Liu Huan Chen Jian Chen; funding by the National Natural Science Foundation of China(32250410283,31800386,and 32000201);the Jiangsu Outstanding Postdoctoral Program(2022ZB678);the Natural Science Foundation of Jiangsu Province(BK20211319).; Plants are consistently exposed to pathogens throughout theirlife cycle and have developed sophisticated and effective regulatory mechanisms to protect themselves against infections.Viruses,as obligate pathogens,can t...; 关键词：programming cycle IMMUNITY

Jasmonate perception: Ligand-receptor interaction, regulation, and evolution被引量：8: 《Molecular Plant》2023年第1期23-42,共20页Shuai Hu Kaiming Yu Jianbin Yan Xiaoyi Shan Daoxin Xie; National Natural Science Foundation of China(31830008,31871424);National Key R&D Program of China(2021YFA1300400);Science,Technology and Innovation Commission of Shenzhen Municipality(ZDSYS20200811142605017);Elite Young Scientists Program of CAAS,the Agricultural Science and Technology Innovation Program;Postdoctoral Fellowship of the Tsinghua-Pe-king Joint Center for Life Sciences.; Phytohormones integrate external environmental and developmental signals with internal cellular responses for plant survival and multiplication in changing surroundings.Jasmonate(JA),which might originate from prokary...; 关键词：JASMONATE COI1 hormone perception ligand-receptor interaction ligand-receptor binding techniques EVOLUTION

Two roads diverge in the yellow pigments metabolic pathway for ABA synthesis: 《Molecular Plant》2022年第1期3-5,共3页Prateek Gupta Varda Mann Joseph Hirschberg; The authors gratefully acknowledge support from Israel Science Foundation grant no.1930/18 to J.H;P.G.is supported by the PBC postdoctoral fellowship,Council of Higher Education,Israel。; The phytohormone abscisic acid(ABA)is a 15-carbon molecule that fulfills essential functions in all plants.It regulates many as-pects of plant life,including growth and development,seed dormancy and germination,leaf s...; 关键词：HORMONE METABOLIC YELLOW

Nutrient-hormone relations:Driving root plasticity in plants被引量：10: 《Molecular Plant》2022年第1期86-103,共18页Zhongtao Jia Ricardo F.H.Giehl Nicolaus von Wirén; Z.J.was supported by a fellowship(No.201406350062)from China Scholarship Council(CSC);This work was supported by the Deutsche For-schungsgemeinschaft with grants to N.v.W.(WI1728/25-1)and R.F.H.G.(HE 8362/1-1).; Optimal plant development requires root uptake of 14 essential mineral elements from the soil.Since the bioavailability of these nutrients underlies large variation in space and time,plants must dynamically adjust the...; 关键词：root development root plasticity nutrient sensing nutrient signaling plant hormones nutrient use efficiency

ABAting the Response:A Novel ABA Signal Terminator that Disrupts the Hormone Co-receptor Complex: 《Molecular Plant》2020年第9期1241-1243,共3页Akhtar Ali Jose M.Pardo Dae-Jin Yun; supported by Next Generation Bio-Green21 Program,Rural Development Administration(RDA),Republic of Korea(SSAC,PJ01318201 to D.-J.Y.and PJ01318205 to J.M.P.);the National Research Foundation of Korea(NRF)funded by the Korean Government(2019R1A2C2084096);Global Research Lab(2017K1A1A2013146).; The phytohormone abscisic acid(ABA)regulates multiple physiological processes such as embryo morphogenesis,seed maturation and germination,leaf senescence,fruit ripening,and stress adaptation(Gupta et al.,2020).ABA le...; 关键词：Gupta SIGNAL COMPLEX

PBS3 and EPS1 Complete Salicylic Acid Biosynthesis from Isochorismate in Arabidopsis被引量：17: 《Molecular Plant》2019年第12期1577-1586,共10页Michael P.Torrens-Spence Anastassia Bobokalonova Valentina Carballo Christopher MGlinkerman Toma(s)Pluskal Amber Shen Jing-Ke Weng; This work was supported by the Pew Scholar Program in the Biomedical Sciences,the Searle Scholars Program,and the National Science Foundation(CHE-1709616).; Salicylic acid(SA)is an important phytohormone mediating both local and systemic defense responses in plants.Despite over half a century of research,how plants biosynthesize SA remains unresolved.In Arabidop-sis,a maj...; 关键词：salicylic ACID PBS1 EPS1 isochorismic ACID PLANT DEFENSE PLANT HORMONE

A Single JAZ Repressor Controls the Jasmonate Pathway in Marchantia polymorpha被引量：3: 《Molecular Plant》2019年第2期185-198,共14页Isabel Monte Jose M. Franco-Zorrilla Gloria Garcia-Casado Angel M. Zamarreno Jose M. Garcia-Mina Ryuichi Nishihama Takayuki Kohchi Roberto Solano; JAZ proteins are negative regulators of jasm onate responses,acting both as repressors of transcription factors and as co-receptors of JA-lle. The high redundancy of JAZ genes in angiosperms has hindered the character...; 关键词：JASMONATE REPRESSORS MARCHANTIA HORMONE signaling evolution gene redundancy

the 20GD Superfamily： Emerging Functions in Plant Epigenetics and Hormone Metabolism被引量：3: 《Molecular Plant》2018年第10期1222-1224,共3页Riad Nadi Eduardo Mateo-Bonmati Lucia Juan-Vicente Jose Luis Micol; The 2-oxoglutarate and Fe （ll）-dependent dioxygenase （2OGD） superfamily includes oxidative enzymes with an active site con- taining two histidines and （in most cases） one aspartic or glutamic acid residue. This ...

Jasmonic Acid Oxidase 2 Hydroxylates Jasmonic Acid and Represses Basal Defense and Resistance Responses against Botrytis cinerea Infection被引量：15: 《Molecular Plant》2017年第9期1159-1173,共15页; Jasmonates （JAs） orchestrate immune responses upon wound/herbivore injury or infection by necrotro- phic pathogens. Elucidation of catabolic routes has revealed new complexity in jasmonate metabolism. Two integrated...; 关键词：2-oxoglutarate oxygenase jasmonic acid defense regulation hormone metabolism BOTRYTIS

A Pivotal Role of DELLAs in Regulating Multiple Hormone Signals被引量：46: 《Molecular Plant》2016年第1期10-20,共11页Jean-Michel Daviere Patrick Achard; Plant phenotypic plasticity is controlled by diverse hormone pathways, which integrate and convey infor- mation from multiple developmental and environmental signals. Moreover, in plants many processes such as growth,...; 关键词：GIBBERELLINS DELLAs hormone crosstalk plant development phenotypic plasticity

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