RCY1, an Arabidopsis thaliana RPP8/HRT family resistance gene, conferring resistance to cucumber mosaic virus requires salicylic acid, ethylene and a novel signal transduction mechanism.
about
Disease Resistance Gene Analogs (RGAs) in PlantsAnalyses of RNA-Seq and sRNA-Seq data reveal a complex network of anti-viral defense in TCV-infected Arabidopsis thalianaThe relationship of within-host multiplication and virulence in a plant-virus system.Plant disease susceptibility conferred by a "resistance" geneGlobal expression analysis of nucleotide binding site-leucine rich repeat-encoding and related genes in Arabidopsis.Downy mildew of Arabidopsis thaliana caused by Hyaloperonospora parasitica (formerly Peronospora parasitica).Role of intron-mediated enhancement on accumulation of an Arabidopsis NB-LRR class R-protein that confers resistance to Cucumber mosaic virusGenome-wide survey of Arabidopsis natural variation in downy mildew resistance using combined association and linkage mappingThe plant vascular system: evolution, development and functions.Comparative analysis of zinc finger proteins involved in plant disease resistanceMechanisms of plant resistance to viruses.Impact of cucumber mosaic virus infection on the varietal traits of common bean cultivars in IranA viral resistance gene from common bean functions across plant families and is up-regulated in a non-virus-specific manner.Blue light photoreceptors are required for the stability and function of a resistance protein mediating viral defense in Arabidopsis.The folate precursor para-aminobenzoic acid elicits induced resistance against Cucumber mosaic virus and Xanthomonas axonopodis.Cyclic nucleotide gated channels and related signaling components in plant innate immunity.Immune Receptors and Co-receptors in Antiviral Innate Immunity in Plants.Overexpression of a novel peanut NBS-LRR gene AhRRS5 enhances disease resistance to Ralstonia solanacearum in tobacco.Salicylic acid and its function in plant immunity.Plant nucleotide binding site-leucine-rich repeat (NBS-LRR) genes: active guardians in host defense responses.Exploitation of natural genetic diversity to study plant-virus interactions: what can we learn from Arabidopsis thaliana?Dominant resistance against plant virusesDistinct post-transcriptional modifications result into seven alternative transcripts of the CC-NBS-LRR gene JA1tr of Phaseolus vulgaris.Rapid identification of QTLs underlying resistance to Cucumber mosaic virus in pepper (Capsicum frutescens).Divergent evolution of multiple virus-resistance genes from a progenitor in Capsicum spp.Arabidopsis thaliana as a model for the study of plant-virus co-evolution.Differential response of diverse solanaceous hosts to tomato leaf curl New Delhi virus infection indicates coordinated action of NBS-LRR and RNAi-mediated host defense.Chilli leaf curl virus infection highlights the differential expression of genes involved in protein homeostasis and defense in resistant chilli plants.Identification and mapping of a novel dominant resistance gene, TuRB07 to Turnip mosaic virus in Brassica rapa.Molecular marker-assisted genotyping of mungbean yellow mosaic India virus resistant germplasms of mungbean and urdbean.Spermine signaling in defense reaction against avirulent viral pathogen in Arabidopsis thaliana.Raphanusanin-mediated resistance to pathogens is light dependent in radish and Arabidopsis thaliana.Exogenous thermospermine has an activity to induce a subset of the defense genes and restrict cucumber mosaic virus multiplication in Arabidopsis thaliana.Antagonistic interactions between the SA and JA signaling pathways in Arabidopsis modulate expression of defense genes and gene-for-gene resistance to cucumber mosaic virus.Constitutively elevated salicylic acid signals glutathione-mediated nickel tolerance in Thlaspi nickel hyperaccumulators.Salicylic acid-dependent expression of host genes in compatible Arabidopsis-virus interactions.Cauliflower mosaic virus, a compatible pathogen of Arabidopsis, engages three distinct defense-signaling pathways and activates rapid systemic generation of reactive oxygen species.Overexpression of the Arabidopsis thaliana EDS5 gene enhances resistance to viruses.Rye Pm8 and wheat Pm3 are orthologous genes and show evolutionary conservation of resistance function against powdery mildew.Molecular Biology of Prune Dwarf Virus-A Lesser Known Member of the Bromoviridae but a Vital Component in the Dynamic Virus-Host Cell Interaction Network.
P2860
Q26796642-85A3BBCC-C202-4127-9F52-0D671A2C6AC8Q28596936-59125C69-C736-4E08-B06A-3C1AC9796173Q33295377-F4D13066-5B27-47E6-9D57-A49C36939202Q33297469-EA4D0FAE-5DA1-4388-9D1C-6D684E1537BFQ33303636-3140702D-7DA9-4C8F-8D44-6F57F3C71F00Q33612889-A62C4EB9-5E55-4727-AA6C-10F96FF847FDQ33734245-5142E6D3-38F3-4B19-AD9F-5786C700B699Q33933393-C0FD7D78-B171-4D8E-92E1-ADA707B94F46Q34331061-BF8611FA-4E6F-431B-B388-5748D8D2F4BCQ34390897-ED4E8385-F842-4F9C-BF70-2952C2019C3EQ34446982-628017B2-A1E0-40CF-A9BC-34C156054988Q34671924-CE98A4A6-CBF9-44E8-8BF2-ECA049F086C4Q35033066-D8551B4D-C31B-4DBC-ADC0-9AEB838B86AAQ35045861-1F79AFD7-A0D1-44DE-B160-6DE1949456B4Q36780966-89903C20-A177-409A-AC7F-DEFE35044528Q37148103-9D0ED58E-C6E3-4992-97F5-A2DE8D7F5649Q37558521-1494C960-3F8E-458C-9B44-8E48B7424578Q37598067-7D3B1639-83E3-4190-A310-7F77306DF78FQ37871072-21B2DD84-9B9A-4481-995E-ABF391A21196Q38095329-E8ECD7D5-F9C2-4D0A-B234-8B418E5AA5BDQ38116103-5DC84288-022A-483B-8DF3-B51593D2050DQ38229020-97B2276D-E667-4BE8-B105-F0C6AED799ECQ38331683-73CDA7A5-1CB0-4D40-BD59-E3331FE614A1Q40533529-580F0DEB-BEF0-47DC-B2C1-D6C3F397E15FQ40588069-0E2474F6-B7D3-4142-A715-485A18221BD8Q40863313-333C64FB-FD3F-4E47-9535-120071996269Q41306630-484B079D-3B27-41E7-AE61-9F4D976D7C54Q41476658-80396F01-BCEB-44C6-B723-AB416CA10A66Q42248553-BCD76CFA-B369-4CB7-BA3C-F2A8B7C56F5EQ42669200-7AD2AEEA-08C6-4A57-854C-63C2E8F90B25Q43151443-87E35078-EFCD-44BA-AF04-98312A2FB9BFQ43471069-7D4EE3AC-A706-4D4A-8193-EDDEA4B7651DQ43820530-DDAD7610-C8DB-4679-BE33-5C5545697BA1Q44950558-036F2ADA-F18C-4487-A18E-791940A589E9Q44999031-0B925BE6-9392-4D54-B389-58404DA4634FQ45280701-FC8FB533-CBC1-4C26-81DB-520CEA5F80E6Q45423823-12A04CFE-917C-4710-AB20-15697EE1DA1FQ46537102-23F4D9E5-715E-4D8C-88A9-3B2B7FEA8EF8Q46982892-75B4EA7D-BDE7-4923-BEFA-D3B487075FCFQ47385765-9315240B-A2BD-4D80-89EA-26B20C31F0B2
P2860
RCY1, an Arabidopsis thaliana RPP8/HRT family resistance gene, conferring resistance to cucumber mosaic virus requires salicylic acid, ethylene and a novel signal transduction mechanism.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh-hant
name
RCY1, an Arabidopsis thaliana ...... signal transduction mechanism.
@en
RCY1, an Arabidopsis thaliana ...... signal transduction mechanism.
@nl
type
label
RCY1, an Arabidopsis thaliana ...... signal transduction mechanism.
@en
RCY1, an Arabidopsis thaliana ...... signal transduction mechanism.
@nl
prefLabel
RCY1, an Arabidopsis thaliana ...... signal transduction mechanism.
@en
RCY1, an Arabidopsis thaliana ...... signal transduction mechanism.
@nl
P2093
P2860
P1433
P1476
RCY1, an Arabidopsis thaliana ...... signal transduction mechanism.
@en
P2093
Hideki Takahashi
Jennifer Miller
Jyoti Shah
Masato Ikegami
Megumi Takeda
S P Dinesh-Kumar
Yoshio Ehara
Yukine Nozaki
P2860
P304
P356
10.1046/J.1365-313X.2002.01453.X
P577
2002-12-01T00:00:00Z