The role of plant defence proteins in fungal pathogenesis.
about
Plant Cell Cancer: May Natural Phenolic Compounds Prevent Onset and Development of Plant Cell Malignancy? A Literature ReviewSoybean toxin (SBTX) impairs fungal growth by interfering with molecular transport, carbohydrate/amino acid metabolism and drug/stress responsesMycoherbicidal Potential of Phaeoacremonium italicum, A New Pathogen of Eichhornia crassipes Infesting Harike Wetland, IndiaSugarcane genes differentially expressed in response to Puccinia melanocephala infection: identification and transcript profiling.Interactions between cauliflower and Rhizoctonia anastomosis groups with different levels of aggressiveness.Gene expression profiling in susceptible interaction of grapevine with its fungal pathogen Eutypa lata: extending MapMan ontology for grapevine.The first set of EST resource for gene discovery and marker development in pigeonpea (Cajanus cajan L.).The Botrytis cinerea early secretomeAnalysis of expressed sequence tags derived from a compatible Mycosphaerella fijiensis-banana interaction.Dissecting Phaseolus vulgaris innate immune system against Colletotrichum lindemuthianum infectionIdentification and characterization of lysine-rich proteins and starch biosynthesis genes in the opaque2 mutant by transcriptional and proteomic analysis.High incidence of preharvest colonization of huanglongbing-symptomatic citrus sinensis fruit by Lasiodiplodia theobromae (Diplodia natalensis) and exacerbation of postharvest fruit decay by that fungus.Microarray analysis of tomato's early and late wound response reveals new regulatory targets for Leucine aminopeptidase A.Characterization of a pathogen induced thaumatin-like protein gene AdTLP from Arachis diogoi, a wild peanut.Molecular design and synthesis of novel salicyl glycoconjugates as elicitors against plant diseasesBacillus cereus AR156-induced resistance to Colletotrichum acutatum is associated with priming of defense responses in loquat fruitDifferent Gene Expressions of Resistant and Susceptible Hop Cultivars in Response to Infection with a Highly Aggressive Strain of Verticillium albo-atrum.Phylogenetic and preliminary phenotypic analysis of yeast PAQR receptors: potential antifungal targetsAnalysis of genes that are differentially expressed during the Sclerotinia sclerotiorum-Phaseolus vulgaris interaction.Genome-wide association mapping of partial resistance to Phytophthora sojae in soybean plant introductions from the Republic of Korea.Differences and commonalities of plant responses to single and combined stresses.Dual RNA-Sequencing of Eucalyptus nitens during Phytophthora cinnamomi Challenge Reveals Pathogen and Host Factors Influencing Compatibility.Hidden weapons of microbial destruction in plant genomes.Progress toward the tomato fruit cell wall proteomeProteomic analysis of ripening tomato fruit infected by Botrytis cinerea.Detection and control of Ganoderma boninense: strategies and perspectives.Computational models in plant-pathogen interactions: the case of Phytophthora infestans.Biotechnological production of inducible defense-related proteins in edible radish (raphanus sativus) found in NepalProteomic Analysis of Responsive Proteins Induced in Japanese Birch Plantlet Treated with Salicylic AcidFungitoxic and insecticidal plant polypeptides.Genome-wide characterization of cis-acting DNA targets reveals the transcriptional regulatory framework of opaque2 in maize.Validation of reference genes for RT-qPCR normalization in common bean during biotic and abiotic stresses.The role of strigolactones and ethylene in disease caused by Pythium irregulare.Sequence analysis and gene expression of putative oil palm chitinase and chitinase-like proteins in response to colonization of Ganoderma boninense and Trichoderma harzianum.Unravelling early events in the Taphrina deformans-Prunus persica interaction: an insight into the differential responses in resistant and susceptible genotypes.Comparative proteomic analysis of oil palm leaves infected with Ganoderma boninense revealed changes in proteins involved in photosynthesis, carbohydrate metabolism, and immunity and defense.Phyllosticta musarum Infection-Induced Defences Suppress Anthracnose Disease Caused by Colletotrichum musae in Banana Fruits cv 'Embul'.Fusion of a novel genetically engineered chitosan affinity protein and green fluorescent protein for specific detection of chitosan in vitro and in situArabidopsis histone methyltransferase SET DOMAIN GROUP8 mediates induction of the jasmonate/ethylene pathway genes in plant defense response to necrotrophic fungi.Fungal effector protein AVR2 targets diversifying defense-related cys proteases of tomato.
P2860
Q26738649-271B9AB4-2873-4C72-BB5A-3E5DF2C58481Q28534755-84193EFF-C17D-4BD0-995D-A9EBC1510B00Q28830151-E379ABC8-8F05-4FB6-8D78-566FE45B1BCFQ33352779-32EF085E-9C95-40D5-A673-DC25D9DF1414Q33484970-CA2CA716-6150-4674-9644-4B08778923A5Q33490846-BBE1904B-3CEB-4F6C-B0D4-442A06F27635Q33540019-69B4FBC5-E29C-417E-81C2-10DA2C75906EQ33610297-A7D1E15D-5EAB-467D-9482-CEEA24BD32E9Q33807179-B8071615-08EA-43E5-8D45-8D55E94062E8Q34389372-281C7F66-0DBD-4695-9586-2386023CFBCFQ34668392-07BF06E9-8FEE-4813-B3E4-A0A79BCF1DA1Q34747666-9777F38A-1C04-4EA4-A770-57ADF90FB8BDQ35035743-0EC92AAA-9914-43C9-AC38-2316DBF229D0Q35075633-18846922-F5F5-4B48-A2F5-A60142A59448Q35279794-E6A3E714-8B7F-4CED-9354-77BA05970160Q35409675-5318A4A9-431C-4B7F-99D6-47957FE900D9Q35607326-B235E5EB-4BE1-468D-A922-01A36F20C8D7Q35610249-4A0E3664-A840-49C9-B74E-5D2D7DA738D3Q35844676-93F503AD-49F2-496F-8458-1196A1A54FD8Q36102076-C0D706C4-BD7E-4C5A-893A-B6807C5D12DDQ36332665-BF3881E4-8599-496C-B17C-E75379438E63Q36637712-517D18D1-E58B-4882-BCA6-4A8C479F3808Q36643254-13E769AB-F20D-4703-854E-59500E2F5DA5Q36881776-0A5F3C6E-644D-4D0C-B73F-581C4E69C5C4Q36921235-AB947541-1D01-48AD-8036-1E845BFEB6B4Q37299761-B4E34554-D9A7-4F87-8D35-736B51A6345AQ37454899-CAAA0E62-EAE9-473F-971F-632917F54230Q37611899-9BE77ECB-D873-4251-9BD5-641223AEB1CFQ37636471-648E1841-2BBF-49AB-9CF2-8ED49DFDAEECQ38063508-7500865E-D98A-4588-90C3-2A14937933A7Q38466735-15AE4D2C-9F9C-4BD6-92F2-1F4988AE4DF5Q38915049-1F82D291-700E-455E-97F9-FA8B0106F4EAQ38963216-F0760892-D708-4FA4-9DA0-9A2A09869C73Q39615878-26A9F716-3229-4B50-8403-AFD7190ECE96Q40314566-D5A4D305-F96E-4172-AFB2-E7D3E9C85E2AQ41268512-404DD3E0-812B-489E-8219-3C70D12173A0Q41887406-721FFA2A-3591-4516-A3A6-91FEDBD21836Q42151389-6CCFBC2C-FCB7-473A-A0E9-74A781C438E7Q42920216-1B1E4F20-9999-469D-9617-7568589942EDQ46616039-2249324B-1D6B-4DB5-9FDD-41AF4402DC15
P2860
The role of plant defence proteins in fungal pathogenesis.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
The role of plant defence proteins in fungal pathogenesis.
@en
type
label
The role of plant defence proteins in fungal pathogenesis.
@en
prefLabel
The role of plant defence proteins in fungal pathogenesis.
@en
P2093
P2860
P1476
The role of plant defence proteins in fungal pathogenesis.
@en
P2093
Alexandre Borges
Artur R Teixeira
Cláudia N Santos
João Duarte
Luís M Batista
Regina Freitas
Ricardo B Ferreira
Sara Monteiro
Zhenjia Chen
P2860
P304
P356
10.1111/J.1364-3703.2007.00419.X
P577
2007-09-01T00:00:00Z