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Expression analysis of <i>OsbZIP</i> transcription factors in resistance response by the rice blast resistance gene <i>Pi36</i>-mediated


Jinglan Han
Xiangming Zhang
Dan Zhang
Xuequn Liu
Chuntai Wang
Xinqiong Liu

Abstract

Plant basic leucine zipper (bZIP) proteins play an essential role in the genes expression and regulation in higher plants. They have been shown to regulate diverse plant specific phenomena, including germination, floral induction and development, seed maturation, photomorphogenesis, biotic and abiotic stresses. Resistance response mediated by the rice blast resistance gene Pi36 is a typical signal transduction, in which 12 OsbZIP genes were differentially expressed by microarray analyses. To understand the potential function of OsbZIP genes during the defense responses against rice blast, the expression analysis of these OsbZIP genes, in response to the blast fungus inoculation and the related defense signal molecules induction, were further conducted using real-time fluorescent quantitative polymerase chain reaction (PCR) technique. Our data indicates that among the 12 OsbZIP genes, the expression level eight tested genes were differentially regulated and maintained to 96 h points post inoculation in rice resistant and susceptible cultivars during Magnaporthe oryzae infection, and all of them were also significantly up-regulated by one or several kinds of exogenous plant hormones stresses. Although, these genes were induced only at early time points (1 to 24 h); it is evident that the OsbZIP genes may be involved in different signaling pathway, and play potential important functions in the defense response to rice blast.

Keywords: OsbZIP transcription factors, rice blast, resistance response, plant hormones stresses.

African Journal of Biotechnology Vol. 12(34), pp. 5294-5302

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eISSN: 1684-5315