Turrà David, Bellin Diana, Lorito Matteo, Gebhardt Christiane
Dip. Ar.Bo.Pa.Ve.-sez. Patologia Vegetale, Università di Napoli Federico II and IPP-CNR sezione di Portici, via Università 100, 80055 Portici (NA), Italy.
J Plant Physiol. 2009 May 1;166(7):762-74. doi: 10.1016/j.jplph.2008.10.005. Epub 2008 Dec 17.
Protease inhibitors (PIs) are small ubiquitous proteins with a variety of biological functions in plants, including protein stabilization, modulation of apoptosis and defense against pathogens. Kunitz-like inhibitors (PKPIs) and proteinase inhibitors 1 (PI-1) are abundant in storage organs of potato plants and are up-regulated in other tissues in response to biotic and abiotic stress. However, little information is available on genotype-dependent regulation of individual PKPI group- and PI-1 genes. We isolated, sequenced and characterized four novel full-length PI-1 cDNAs (PPI3A2, PPI3A4, PPI2C4 and PPI2C1A) from Solanum tuberosum cv. Desirée. Specific primers were developed for PI-1 genes PPI3A2, PPI3B2 and PPI2C4 and the three PKPI homology groups A, B and C. Their expression profiles were studied by semi-quantitative RT-PCR in comparison with transcripts of the PI-1, Pin2 and PR1 gene families in various tissues, after wounding and Globodera rostochiensis infection of nematode-resistant genotypes P40 and LB7/4/c-I-7, and susceptible cv. Desirée. Individual PI-1 genes and PKPI homology groups were expressed in a tissue- and genotype-dependent manner after wounding and nematode infection. The differences in PI expression patterns were related to the intensity, type of inhibitors produced, and the kinetics of induction. Therefore, different genotype-environment combinations produce different sets of PI transcripts. Potato plants reacted to G. rostochiensis infection by modulating PKPI, PI-1 and Pin2, but not PR1 gene expression, suggesting that the jasmonic acid but not the salicylic acid defense signaling pathway is activated. PI expression profiles were not correlated with the resistance status of the potato genotype infected with G. rostochiensis.
蛋白酶抑制剂(PIs)是一类广泛存在的小分子蛋白质,在植物中具有多种生物学功能,包括蛋白质稳定、细胞凋亡调节以及抵御病原体。类库尼茨抑制剂(PKPIs)和蛋白酶抑制剂1(PI-1)在马铃薯植株的贮藏器官中含量丰富,并且在其他组织中会因生物和非生物胁迫而上调表达。然而,关于单个PKPI组和PI-1基因的基因型依赖性调控的信息却很少。我们从马铃薯品种Desirée中分离、测序并鉴定了四个新的全长PI-1 cDNA(PPI3A2、PPI3A4、PPI2C4和PPI2C1A)。针对PI-1基因PPI3A2、PPI3B2和PPI2C4以及三个PKPI同源组A、B和C设计了特异性引物。通过半定量RT-PCR研究了它们与PI-1、Pin2和PR1基因家族在各种组织中的转录本相比,在抗线虫基因型P40和LB7/4/c-I-7以及感病品种Desirée受到创伤和马铃薯金线虫感染后的表达谱。在创伤和线虫感染后,单个PI-1基因和PKPI同源组以组织和基因型依赖性方式表达。PI表达模式的差异与产生的抑制剂的强度、类型以及诱导动力学有关。因此,不同的基因型-环境组合产生不同的PI转录本集合。马铃薯植株通过调节PKPI、PI-1和Pin2的表达来响应马铃薯金线虫的感染,但不调节PR1基因的表达,这表明激活的是茉莉酸而非水杨酸防御信号通路。PI表达谱与感染马铃薯金线虫的马铃薯基因型的抗性状态无关。
