OsWRKY13,WRKY13

2015-01-20 | Categories genes  | Tags growth  transcription factor  disease  transcription regulator  disease resistance  defense  seedling  blast  fungal blast  homeostasis  jasmonate  bacterial blight  blight  jasmonic  defense response  jasmonic acid  breeding  sa  abiotic stress  salt  fertility  transcriptional activator  resistance  leaf  sheath  resistant  pathogen  blast disease 

• Information
  • Symbol: OsWRKY13,WRKY13
  • MSU: LOC_Os01g54600
  • RAPdb: Os01g0750100
• Publication
  • Suppression of expression of the putative receptor-like kinase gene NRRB enhances resistance to bacterial leaf streak in rice, 2014, Mol Biol Rep.
  • Exploring transcriptional signalling mediated by OsWRKY13, a potential regulator of multiple physiological processes in rice, 2009, BMC Plant Biol.
  • Identification of novel pathogen-responsive cis-elements and their binding proteins in the promoter of OsWRKY13, a gene regulating rice disease resistance, 2008, Plant Cell Environ.
  • OsWRKY13 mediates rice disease resistance by regulating defense-related genes in salicylate- and jasmonate-dependent signaling, 2007, Mol Plant Microbe Interact.
  • The WRKY Gene Family in Rice Oryza sativa, 2007, J Integr Plant Biol.
  • Functional analysis and expressional characterization of rice ankyrin repeat-containing protein, OsPIANK1, in basal defense against Magnaporthe oryzae attack, 2013, PLoS One.
  • Rice gene network inferred from expression profiling of plants overexpressing OsWRKY13, a positive regulator of disease resistance, 2008, Mol Plant.
  • The WRKY45-2-WRKY13-WRKY42 Transcriptional Regulatory Cascade Is Required for Rice Resistance to Fungal Pathogen., 2015, Plant Physiol.
  • Gene network mediated by WRKY13 to regulate resistance against sheath infecting fungi in rice Oryza sativa L.., 2018, Plant Sci.
  • The CC-NB-LRR OsRLR1 mediates rice disease resistance through interaction with OsWRKY19, 2020, Plant Biotechnol J.
• Genbank accession number
  • AK067329
  • BK005016
  • EF143611
  • AK067329
  • BK005016
  • EF143611
  • AK067329
  • BK005016
  • EF143611
• Key message
  • Furthermore, OsWRKY13 will provide a transgenic tool for engineering wider-spectrum and whole-growth-stage resistance rice in breeding programs
  • At least 39 transcription factor genes were influenced by OsWRKY13, and 30 of them were downregulated
  • The promoters of OsWRKY13-upregulated genes were overrepresented with W-boxes for WRKY protein binding, whereas the promoters of OsWRKY13-downregulated genes were enriched with cis-elements putatively for binding of MYB and AP2/EREBP types of transcription factors
  • CONCLUSION: These results suggest that OsWRKY13-mediated signalling pathways are partitioned by different transcription factors
  • In this study, we identified cis-acting elements and their binding proteins of rice OsWRKY13, a gene that plays a pivotal role in disease resistance against bacterial and fungal pathogens
  • These results suggest that OsWRKY13 expression is regulated by multiple factors to achieve disease resistance
  • Identification of novel pathogen-responsive cis-elements and their binding proteins in the promoter of OsWRKY13, a gene regulating rice disease resistance
  • BACKGROUND: Rice transcription regulator OsWRKY13 influences the functioning of more than 500 genes in multiple signalling pathways, with roles in disease resistance, redox homeostasis, abiotic stress responses, and development
  • Here, we show that OsWRKY13 plays a pivotal role in rice disease resistance
  • OsWRKY13 mediates rice disease resistance by regulating defense-related genes in salicylate- and jasmonate-dependent signaling
  • Overexpression of OsWRKY13 can enhance rice resistance to bacterial blight and fungal blast, two of the most devastating diseases of rice worldwide, at both the seedling and adult stages, and shows no influence on the fertility
  • The OsWRKY13-associated disease resistance pathway synergistically interacts via OsWRKY13 with the glutathione/glutaredoxin system and flavonoid biosynthesis pathway to monitor redox homeostasis and to putatively enhance the biosynthesis of antimicrobial flavonoid phytoalexins, respectively, in OsWRKY13-overexpressing lines
  • Meanwhile, the OsWRKY13-associated disease resistance pathway appears to interact antagonistically with the SNAC1-mediated abiotic stress defense pathway, jasmonic acid signaling pathway, and terpenoid metabolism pathway via OsWRKY13 to suppress salt and cold defense responses as well as to putatively retard rice growth and development
  • Rice gene network inferred from expression profiling of plants overexpressing OsWRKY13, a positive regulator of disease resistance
  • These results suggest that OsWRKY13, as an activator of the SA-dependent pathway and a suppressor of JA-dependent pathways, mediates rice resistance by directly or indirectly regulating the expression of a subset of genes acting both upstream and downstream of SA and JA
  • Here we report that OsWRKY13, an activator of rice resistance to both bacterial and fungal pathogens, appears to function as a convergent point for crosstalk among the pathogen-induced salicylate-dependent defense pathway and five other physiologic pathways
  • WRKY45-2, functioning as a transcriptional activator, directly activated WRKY13
  • Previous studies have revealed that rice WRKY13 (as a transcriptional repressor) and WRKY45-2 enhance resistance to M
  • To compute and evaluate the possible molecular mechanism for observed resistance correlated to WRKY13 gene expression, rice gene expression profiles against bacterial leaf blight and leaf blast disease from ROAD database were used to prioritize the locus IDs that were used as input in RiceNet v2 tool
  • Gene network mediated by WRKY13 to regulate resistance against sheath infecting fungi in rice (Oryza sativa L.).
  • Agrobacterium mediated transformation was carried out in rice plants using overexpression construct of WRKY13 (agroinfection in seeds of varieties susceptible to sheath blight and sheath rot, followed by selection in antibiotic media, germinating and hardening of putative transgenic lines)
  • RT-PCR and qPCR analyses of WRKY13 using RNA extracted from the plant tissues revealed higher WRKY13 expression in resistant varieties (both diseases) upon pathogen challenge compared to uninfected control and also the susceptible varieties
• Connection
  • OsPR1a~OsSCP, OsWRKY13~WRKY13, Suppression of expression of the putative receptor-like kinase gene NRRB enhances resistance to bacterial leaf streak in rice, Furthermore, transcription of some salicylic acid synthesis-related and pathogenesis-related genes including PAD4, PR1a and WRKY13 in transgenic plants was activated, implying that enhanced resistance to BLS might be mediated by the activation of the SA signaling pathway
  • OsCBSX3, OsWRKY13~WRKY13, Over-Expression of Rice CBS Domain Containing Protein, OsCBSX3, Confers Rice Resistance to Magnaporthe oryzae Inoculation., Consistently, the over-expression of OsCBSX3 enhances the transcript levels of immunity associated marker genes including PR1a, PR1b, PR5, AOS2, PAL, NH1, and OsWRKY13 in plants inoculated with M
  • OsWRKY13~WRKY13, v2, Gene network mediated by WRKY13 to regulate resistance against sheath infecting fungi in rice Oryza sativa L.., To compute and evaluate the possible molecular mechanism for observed resistance correlated to WRKY13 gene expression, rice gene expression profiles against bacterial leaf blight and leaf blast disease from ROAD database were used to prioritize the locus IDs that were used as input in RiceNet v2 tool
  • OsARF12, OsWRKY13~WRKY13, Auxin response factors ARFs differentially regulate rice antiviral immune response against rice dwarf virus, In turn, OsARF12 activates the down-stream OsWRKY13 expression through direct binding to its promoter, loss-of-function mutants of oswrky13 exhibit reduced resistance

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