Transgenic expression of pear PGIP in tomato limits fungal colonization.
about
Insights into molecular and metabolic events associated with fruit response to post-harvest fungal pathogensBiotic interactions in the rhizosphere: a diverse cooperative enterprise for plant productivityHomogalacturonan-modifying enzymes: structure, expression, and roles in plantsStructural requirements of endopolygalacturonase for the interaction with PGIP (polygalacturonase-inhibiting protein)Genome analysis and genetic enhancement of tomato.Comparative study of protein-protein interaction observed in PolyGalacturonase-Inhibiting Proteins from Phaseolus vulgaris and Glycine max and PolyGalacturonase from Fusarium moniliforme.The pgip family in soybean and three other legume species: evidence for a birth-and-death model of evolution.Constitutive expression of a grapevine polygalacturonase-inhibiting protein affects gene expression and cell wall properties in uninfected tobaccoGenome-wide transcriptional profiling of Botrytis cinerea genes targeting plant cell walls during infections of different hostsMolecular cloning and expression of three polygalacturonase cDNAs from the tarnished plant bug, Lygus lineolarisThe intersection between cell wall disassembly, ripening, and fruit susceptibility to Botrytis cinereaA single amino-acid substitution allows endo-polygalacturonase of Fusarium verticillioides to acquire recognition by PGIP2 from Phaseolus vulgaris.RNA-Seq derived identification of differential transcription in the chrysanthemum leaf following inoculation with Alternaria tenuissima.Immuno-affinity purification of PglPGIP1, a polygalacturonase-inhibitor protein from pearl millet: studies on its inhibition of fungal polygalacturonases and role in resistance against the downy mildew pathogen.The effect on the transcriptome of Anemone coronaria following infection with rust (Tranzschelia discolor).Analysis of genes that are differentially expressed during the Sclerotinia sclerotiorum-Phaseolus vulgaris interaction.Molecular and Functional Characterization of a Polygalacturonase-Inhibiting Protein from Cynanchum komarovii That Confers Fungal Resistance in Arabidopsis.Mobility of Transgenic Nucleic Acids and Proteins within Grafted Rootstocks for Agricultural ImprovementGenomic characterization of plant cell wall degrading enzymes and in silico analysis of xylanses and polygalacturonases of Fusarium virguliforme.Role of poly-galacturonase inhibiting protein in plant defense.Tomato transcriptome and mutant analyses suggest a role for plant stress hormones in the interaction between fruit and Botrytis cinerea.Proteomic analysis of ripening tomato fruit infected by Botrytis cinerea.Cloning, expression analysis and recombinant expression of a gene encoding a polygalacturonase-inhibiting protein from tobacco, Nicotiana tabacum.Molecular evidence for the involvement of a polygalacturonase-inhibiting protein, GhPGIP1, in enhanced resistance to Verticillium and Fusarium wilts in cotton.Glyco-conjugates as elicitors or suppressors of plant innate immunity.Engineering plant resistance by constructing chimeric receptors that recognize damage-associated molecular patterns (DAMPs).Cell wall integrity: targeted post-synthetic modifications to reveal its role in plant growth and defense against pathogens.MYB46 modulates disease susceptibility to Botrytis cinerea in Arabidopsis.An update on polygalacturonase-inhibiting protein (PGIP), a leucine-rich repeat protein that protects crop plants against pathogens.The potential of genetically enhanced plants to address food insecurity.GmPGIP3 enhanced resistance to both take-all and common root rot diseases in transgenic wheat.A gene for plant protection: expression of a bean polygalacturonase inhibitor in tobacco confers a strong resistance against Rhizoctonia solani and two oomycetes.Abscisic acid deficiency causes changes in cuticle permeability and pectin composition that influence tomato resistance to Botrytis cinerea.Brassica napus polygalacturonase inhibitor proteins inhibit Sclerotinia sclerotiorum polygalacturonase enzymatic and necrotizing activities and delay symptoms in transgenic plants.Functional characterisation of wheat Pgip genes reveals their involvement in the local response to wounding.Transgenic expression of polygalacturonase-inhibiting proteins in Arabidopsis and wheat increases resistance to the flower pathogen Fusarium graminearum.Expression profile analysis of the polygalacturonase-inhibiting protein genes in rice and their responses to phytohormones and fungal infection.Tandemly duplicated Arabidopsis genes that encode polygalacturonase-inhibiting proteins are regulated coordinately by different signal transduction pathways in response to fungal infection.Characterization of the complex locus of bean encoding polygalacturonase-inhibiting proteins reveals subfunctionalization for defense against fungi and insects.Cloning and functional analysis of three genes encoding polygalacturonase-inhibiting proteins from Capsicum annuum and transgenic CaPGIP1 in tobacco in relation to increased resistance to two fungal pathogens.
P2860
Q26779388-39FEE4CC-BBD2-47CC-AC44-0FE53BC5DF15Q26829001-894D8E83-4F36-44DB-BA79-A4EB98AFB03BQ26849744-236258F2-8A34-4EB2-B964-0AC94E5F168FQ27635893-37B697EC-B5C2-495B-981C-231F59E27216Q33421828-F0D347E7-E91B-4119-8BAA-75C1C3218840Q33517175-9C70ADE2-B823-431F-9299-18D059B9CCBDQ33970012-2DCC0B7E-1495-44DB-A0F6-8C25091CA87AQ34073114-92D5FC43-0151-4F13-AD3A-FA2B259EAA12Q34125852-713FD512-FCB2-4161-A4F7-D6850C14C055Q34702984-B0772750-0133-4F7E-ABBF-7E9D20B84154Q34736921-A8D256A4-AA34-49BD-B766-4EED131BBCF1Q35049151-EBCBFADE-17F9-4068-B15F-BC00B7908D22Q35081458-04A65B12-806A-4A06-8E82-7FAA8A516D54Q35544193-E68CC18D-5408-4D24-B6AB-08D9FAF891BBQ35576581-F0A8C1E8-BD1B-4EEA-B5EE-96FD50730426Q35844676-A21C69F9-4870-43C5-865C-1F5A012581C5Q35890677-C8440C27-266C-41FD-945B-8145F94217F8Q35970780-DA243A46-8628-47C8-84DE-B6459138429AQ36074021-DB49BF42-3EA6-41D5-AC12-382ABA5E0151Q36523560-2BE35E1E-4A04-4730-87CB-6C703371FAB0Q36841209-48A34B00-9C01-4CA3-AED8-CD8A874BB464Q36921235-F01EA668-932F-4091-B9B6-27A2F002694DQ37097363-AAE9D9C5-186C-409B-A87E-2FE2ED7FF0ACQ37581714-3CE7CBD6-2750-415A-BDB4-B7E7A283B897Q37657971-E6756FB8-000F-4B25-AA70-1F0DC1E88D5CQ37871127-6746EECE-926F-4B5E-A664-0E3E9528EC50Q38121811-21583AAF-B612-4515-9CE1-63E4BDDC39DAQ38337661-D638199E-8B10-40C4-8BA9-BD5940829AB3Q38411012-4EC7DB4E-AF4D-4BC8-BA06-0EE707695AF0Q40507361-C88067D1-94DD-4C35-AA80-4767BB6724DCQ41610293-12E362A4-5E7B-4B28-8C7A-8BE2A78366EBQ42416172-B3C29760-F480-49E1-8967-BA6DC94A588BQ42475759-8FE0BA20-9553-4F15-8846-AF5917823AB5Q43574429-006136B1-8B26-4DB7-8232-79D6857989F8Q43718369-105A0D55-7D5D-4D7F-A76D-F7447FE97CD9Q44087189-D07477D7-E508-428A-B26B-05EE0234592AQ44193048-735353EE-029B-4602-B8C2-D73D72560D08Q44267784-15073298-E8AE-4638-B6C1-28DBD5D6CAC3Q45010397-97878243-751A-4717-B12B-5E8D65B59B8AQ45341560-3F63D9D0-5EB6-4D46-905C-4D4CB86478D9
P2860
Transgenic expression of pear PGIP in tomato limits fungal colonization.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
2000年论文
@zh
2000年论文
@zh-cn
name
Transgenic expression of pear PGIP in tomato limits fungal colonization.
@en
type
label
Transgenic expression of pear PGIP in tomato limits fungal colonization.
@en
prefLabel
Transgenic expression of pear PGIP in tomato limits fungal colonization.
@en
P2093
P1476
Transgenic expression of pear PGIP in tomato limits fungal colonization
@en
P2093
P304
P356
10.1094/MPMI.2000.13.9.942
P50
P577
2000-09-01T00:00:00Z