Genetic dissection of Verticillium wilt resistance mediated by tomato Ve1.
about
Tomato immune receptor Ve1 recognizes effector of multiple fungal pathogens uncovered by genome and RNA sequencingOf PAMPs and effectors: the blurred PTI-ETI dichotomyThe Role of Pathogen-Secreted Proteins in Fungal Vascular Wilt DiseasesLectin domains at the frontiers of plant defenseGenetic and genomic approaches for R-gene mediated disease resistance in tomato: retrospects and prospectsCharacterization of a Novel Cotton Subtilase Gene GbSBT1 in Response to Extracellular Stimulations and Its Role in Verticillium ResistancePerception of pathogenic or beneficial bacteria and their evasion of host immunity: pattern recognition receptors in the frontlineBacillus thuringiensis and Bacillus weihenstephanensis Inhibit the Growth of Phytopathogenic Verticillium SpeciesNatural diversity in the model legume Medicago truncatula allows identifying distinct genetic mechanisms conferring partial resistance to Verticillium wiltFunctional analyses of the CLAVATA2-like proteins and their domains that contribute to CLAVATA2 specificity.Arabidopsis CLAVATA1 and CLAVATA2 receptors contribute to Ralstonia solanacearum pathogenicity through a miR169-dependent pathway.ERECTA, salicylic acid, abscisic acid, and jasmonic acid modulate quantitative disease resistance of Arabidopsis thaliana to Verticillium longisporum.The Ectopic Overexpression of the Cotton Ve1 and Ve2-Homolog Sequences Leads to Resistance Response to Verticillium Wilt in ArabidopsisAn XA21-associated kinase (OsSERK2) regulates immunity mediated by the XA21 and XA3 immune receptors.The receptor-like kinase SERK3/BAK1 is required for basal resistance against the late blight pathogen phytophthora infestans in Nicotiana benthamianaComparative genomics yields insights into niche adaptation of plant vascular wilt pathogens.Verticillium longisporum infection affects the leaf apoplastic proteome, metabolome, and cell wall properties in Arabidopsis thalianaThe beneficial fungus Piriformospora indica protects Arabidopsis from Verticillium dahliae infection by downregulation plant defense responses.FLS2-BAK1 extracellular domain interaction sites required for defense signaling activationIsland cotton Gbve1 gene encoding a receptor-like protein confers resistance to both defoliating and non-defoliating isolates of Verticillium dahliaeFunctional characterization of cotton genes responsive to Verticillium dahliae through bioinformatics and reverse genetics strategiesArabidopsis thaliana resistance to fusarium oxysporum 2 implicates tyrosine-sulfated peptide signaling in susceptibility and resistance to root infection.Silencing GhNDR1 and GhMKK2 compromises cotton resistance to Verticillium wiltProteomic and virus-induced gene silencing (VIGS) Analyses reveal that gossypol, brassinosteroids, and jasmonic acid contribute to the resistance of cotton to Verticillium dahliae.Functional analysis of the tomato immune receptor Ve1 through domain swaps with its non-functional homolog Ve2The tomato leucine-rich repeat receptor-like kinases SlSERK3A and SlSERK3B have overlapping functions in bacterial and nematode innate immunityMutational analysis of the Ve1 immune receptor that mediates Verticillium resistance in tomato.Spatial gene expression analysis in tomato hypocotyls suggests cysteine as key precursor of vascular sulfur accumulation implicated in Verticillium dahliae defense.Identification of pathogenicity-related genes in the vascular wilt fungus Verticillium dahliae by Agrobacterium tumefaciens-mediated T-DNA insertional mutagenesisCotton GhBAK1 mediates Verticillium wilt resistance and cell death.Different Gene Expressions of Resistant and Susceptible Hop Cultivars in Response to Infection with a Highly Aggressive Strain of Verticillium albo-atrum.Random mutagenesis of the nucleotide-binding domain of NRC1 (NB-LRR Required for Hypersensitive Response-Associated Cell Death-1), a downstream signalling nucleotide-binding, leucine-rich repeat (NB-LRR) protein, identifies gain-of-function mutationBrassinosteroids inhibit pathogen-associated molecular pattern-triggered immune signaling independent of the receptor kinase BAK1Transcriptome analysis of the compatible interaction of tomato with Verticillium dahliae using RNA-sequencing.Phytophthora infestans RXLR-WY Effector AVR3a Associates with Dynamin-Related Protein 2 Required for Endocytosis of the Plant Pattern Recognition Receptor FLS2.The fungal-specific transcription factor Vdpf influences conidia production, melanized microsclerotia formation and pathogenicity in Verticillium dahliae.Mapping QTL associated with Verticillium dahliae resistance in the cultivated strawberry (Fragaria × ananassa).Overexpression of GbRLK, a putative receptor-like kinase gene, improved cotton tolerance to Verticillium wilt.Prosystemin overexpression induces transcriptional modifications of defense-related and receptor-like kinase genes and reduces the susceptibility to Cucumber mosaic virus and its satellite RNAs in transgenic tomato plants.Salicylic acid-related cotton (Gossypium arboreum) ribosomal protein GaRPL18 contributes to resistance to Verticillium dahliae.
P2860
Q24598609-03788199-0C2A-4424-8998-3D60E31EE543Q24605642-052E02FB-50D6-47DA-9864-D2E38F6044DFQ26782476-02D18B72-88D3-455E-915C-4BD0205C3FDBQ27003157-C11C0411-5315-4101-B84F-570E7CCA275FQ27013964-ACED4934-8AF1-4EBA-9929-AB8887192DF2Q27313062-493D5BB1-ECE4-495E-84E7-67D7D0A77937Q28081174-83BCF2C1-699F-49E6-886B-5E21F706E2F5Q28816963-B66AC2B4-C110-420F-9BF0-98AE1EEB7BDEQ30530376-01048569-A3F1-4483-9360-842D5E34273DQ33348135-012C44B5-53DD-4BEE-A966-3D3EF91EABBBQ33362802-1DEFC098-A236-463E-A285-4406E02C2ACCQ33612870-63EB15C9-9216-4C42-8ABC-2F6C08D8B4A2Q33734841-5D65DF41-2170-481F-85E4-13BD631485B4Q33780047-361A49B4-1593-4601-B461-8D104FD41BD9Q33815228-01383195-1F4A-4E8B-8167-EC0767FC5E94Q33987415-D5288B83-8A2A-49B0-834A-A0DD82C736BBQ34170949-EFFE1A2B-67D0-441A-8EE2-F1094914EB5EQ34346524-6C6C26B2-AD83-4F89-9975-452C05BFC4F7Q34428415-AAB888AE-0685-484A-B746-AF80646DABF7Q34516090-07399E89-A859-4D66-9819-AA04B42FB28FQ34580711-4240FCC3-BDC4-4768-886E-FD91B8A30B3DQ34743788-50B7793B-BA76-4422-80D1-7266045D3F14Q34809903-4328E45A-D832-4AB1-922A-61BB8B49F50BQ34982502-5DDAD31F-F6B7-480A-A483-5931C4AC1777Q35088600-3701D6A1-7EBA-41FB-B59D-2C73B589A2C3Q35133343-42641FA0-1EA8-4865-9004-5FF7AAB000A2Q35184117-60A9813E-23FD-4F4E-A0B9-00FEBD4F1AB8Q35188417-7F335F7B-75BA-42F8-9746-2AA83395303BQ35243128-C5AD29D9-ADDF-414C-9C95-483706A203F4Q35394467-E4EE2B9F-E9D2-405A-A399-850D5A8A5BF0Q35607326-99CF69E8-CA81-42B9-A8FA-AC2F91F34233Q35641013-7A5E53AF-9D64-4E57-987D-94EC79FC993DQ35657810-2D7EC32E-2012-4F4F-B663-DED23E14F926Q35691600-4233DDDD-8B00-408F-A054-387AA77FEEB9Q35766703-C47616F6-20F2-47FA-96B9-D65BF5C7662EQ35917776-51F55549-DDBC-4486-9945-D24919CCFFEBQ36129567-4F5A1D5C-627E-4163-9F43-4EA64F4A23DBQ36134263-298F42D7-1046-4E1D-97DA-9FB69CC6E01FQ36275649-7C684AD2-C7ED-4D06-85EB-52FBA12DFA83Q36295679-A64443E7-65A3-42E8-8A1D-3E721BC4427D
P2860
Genetic dissection of Verticillium wilt resistance mediated by tomato Ve1.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Genetic dissection of Verticillium wilt resistance mediated by tomato Ve1.
@en
Genetic dissection of Verticillium wilt resistance mediated by tomato Ve1.
@nl
type
label
Genetic dissection of Verticillium wilt resistance mediated by tomato Ve1.
@en
Genetic dissection of Verticillium wilt resistance mediated by tomato Ve1.
@nl
prefLabel
Genetic dissection of Verticillium wilt resistance mediated by tomato Ve1.
@en
Genetic dissection of Verticillium wilt resistance mediated by tomato Ve1.
@nl
P2093
P2860
P356
P1433
P1476
Genetic dissection of Verticillium wilt resistance mediated by tomato Ve1
@en
P2093
Bart P H J Thomma
Chun-Ming Liu
Emilie F Fradin
Juan C Juarez Ayala
Ross N Nazar
P2860
P304
P356
10.1104/PP.109.136762
P407
P577
2009-03-25T00:00:00Z