Pages that link to "Q33589227"

The following pages link to The mixed xylem sap proteome of Fusarium oxysporum-infected tomato plants (Q33589227):

Displaying 50 items.

• Proteomics of plant pathogenic fungi (Q21296824) (← links)
• Comparative genomics reveals mobile pathogenicity chromosomes in Fusarium (Q22122192) (← links)
• Vascular Sap Proteomics: Providing Insight into Long-Distance Signaling during Stress (Q26744592) (← links)
• The Role of Pathogen-Secreted Proteins in Fungal Vascular Wilt Diseases (Q26782476) (← links)
• Genetic and genomic approaches for R-gene mediated disease resistance in tomato: retrospects and prospects (Q27013964) (← links)
• Apoplastic immunity and its suppression by filamentous plant pathogens (Q27015236) (← links)
• Plants versus fungi and oomycetes: pathogenesis, defense and counter-defense in the proteomics era (Q27022838) (← links)
• Identification of a Novel Small Cysteine-Rich Protein in the Fraction from the Biocontrol Fusarium oxysporum Strain CS-20 that Mitigates Fusarium Wilt Symptoms and Triggers Defense Responses in Tomato (Q27307627) (← links)
• Analyses of the xylem sap proteomes identified candidate Fusarium virguliforme proteinacious toxins (Q28538981) (← links)
• Suppression of plant resistance gene-based immunity by a fungal effector (Q33332583) (← links)
• Defence reactions in the apoplastic proteome of oilseed rape (Brassica napus var. napus) attenuate Verticillium longisporum growth but not disease symptoms (Q33394401) (← links)
• The nuclear protein Sge1 of Fusarium oxysporum is required for parasitic growth (Q33511993) (← links)
• Analysis of banana transcriptome and global gene expression profiles in banana roots in response to infection by race 1 and tropical race 4 of Fusarium oxysporum f. sp. cubense. (Q33715872) (← links)
• Proteomic characterization of the Rph15 barley resistance gene-mediated defence responses to leaf rust (Q34483363) (← links)
• Comparative transcriptome profiling of the early response to Magnaporthe oryzae in durable resistant vs susceptible rice (Oryza sativa L.) genotypes (Q34517011) (← links)
• MITEs in the promoters of effector genes allow prediction of novel virulence genes in Fusarium oxysporum (Q34595807) (← links)
• Compatibility in the Ustilago maydis-maize interaction requires inhibition of host cysteine proteases by the fungal effector Pit2. (Q34607837) (← links)
• A comparative hidden Markov model analysis pipeline identifies proteins characteristic of cereal-infecting fungi (Q35046944) (← links)
• Genome-Wide Analysis in Three Fusarium Pathogens Identifies Rapidly Evolving Chromosomes and Genes Associated with Pathogenicity. (Q35826155) (← links)
• Comparative genomics and prediction of conditionally dispensable sequences in legume-infecting Fusarium oxysporum formae speciales facilitates identification of candidate effectors. (Q38636603) (← links)
• Transcriptome analysis of the fungal pathogen Fusarium oxysporum f. sp. medicaginis during colonisation of resistant and susceptible Medicago truncatula hosts identifies differential pathogenicity profiles and novel candidate effectors. (Q36181263) (← links)
• Regulation of proteinaceous effector expression in phytopathogenic fungi (Q36352157) (← links)
• Changes in the Proteome of Xylem Sap in Brassica oleracea in Response to Fusarium oxysporum Stress. (Q36524460) (← links)
• Proteome Biomarkers in Xylem Reveal Pierce's Disease Tolerance in Grape (Q36728389) (← links)
• Sequence/structural analysis of xylem proteome emphasizes pathogenesis-related proteins, chitinases and β-1, 3-glucanases as key players in grapevine defense against Xylella fastidiosa. (Q36954708) (← links)
• Evaluation of Three Protein-Extraction Methods for Proteome Analysis of Maize Leaf Midrib, a Compound Tissue Rich in Sclerenchyma Cells (Q36999693) (← links)
• The FonSIX6 gene acts as an avirulence effector in the Fusarium oxysporum f. sp. niveum - watermelon pathosystem (Q37019378) (← links)
• Identification of pathogenicity-related genes in Fusarium oxysporum f. sp. cepae. (Q37169598) (← links)
• Plant-pathogen interactions: what is proteomics telling us? (Q37212236) (← links)
• Pathogen profile update: Fusarium oxysporum. (Q37463248) (← links)
• Extraction and Characterization of Extracellular Proteins and Their Post-Translational Modifications from Arabidopsis thaliana Suspension Cell Cultures and Seedlings: A Critical Review. (Q37566417) (← links)
• Assessing the impact of transcriptomics, proteomics and metabolomics on fungal phytopathology. (Q37583033) (← links)
• Fungal effector proteins: past, present and future. (Q37619682) (← links)
• The arms race between tomato and Fusarium oxysporum (Q37743757) (← links)
• Application of proteomics to investigate stress-induced proteins for improvement in crop protection (Q37834447) (← links)
• Heavy traffic in the fast lane: long-distance signalling by macromolecules. (Q38080590) (← links)
• The xylem as battleground for plant hosts and vascular wilt pathogens (Q38102991) (← links)
• Proteomic dissection of plant responses to various pathogens (Q38340402) (← links)
• Xylem sap in cotton contains proteins that contribute to environmental stress response and cell wall development (Q38473233) (← links)
• Investigating the diversity of effector genes in the banana pathogen, Fusarium oxysporum f.sp. cubense, reveals evidence of horizontal gene transfer (Q38627935) (← links)
• Uptake of the Fusarium Effector Avr2 by Tomato Is Not a Cell Autonomous Event (Q39032804) (← links)
• CCR4-Not Complex Subunit Not2 Plays Critical Roles in Vegetative Growth, Conidiation and Virulence in Watermelon Fusarium Wilt Pathogen Fusarium oxysporum f. sp. niveum (Q39329708) (← links)
• Effector profiles distinguish formae speciales of Fusarium oxysporum (Q39624790) (← links)
• A nuclear localization for Avr2 from Fusarium oxysporum is required to activate the tomato resistance protein I-2. (Q39755622) (← links)
• The Chloroplastic Protein THF1 Interacts with the Coiled-Coil Domain of the Disease Resistance Protein N' and Regulates Light-Dependent Cell Death. (Q39941581) (← links)
• Structure-function analysis of the Fusarium oxysporum Avr2 effector allows uncoupling of its immune-suppressing activity from recognition. (Q40073187) (← links)
• A mobile pathogenicity chromosome in Fusarium oxysporum for infection of multiple cucurbit species (Q40083800) (← links)
• Bark and wood tissues of American elm exhibit distinct responses to Dutch elm disease. (Q40109179) (← links)
• Involvement of salicylic acid, ethylene and jasmonic acid signalling pathways in the susceptibility of tomato to Fusarium oxysporum. (Q40259631) (← links)
• The effector repertoire of Fusarium oxysporum determines the tomato xylem proteome composition following infection. (Q40904353) (← links)