水稻逆境响应基因OsMsr15的表达分析与克隆

应用Affymetrix水稻表达芯片,分析了苗期和孕穗期的培矮64S水稻基因在高温、干旱和低温逆境处理条件下的表达模式,发现多个与逆境反应相关基因.其中,OsMsr15(Oryza sativa L.multiple stresses responsivegene 15)受高温、干旱和低温胁迫诱导,表达水平均显著上调.实时定量PCR分析结果与芯片数据基本吻合.序列分析表明,该基因无内含子,ORF(open reading frame)全长为717 bp,编码一个由238个氨基酸残基组成、具有典型C2H2结构域的锌指蛋白,推测相对分子质量约为2.46 kD,pI值约为8.90,蛋白分子的氨基端和羧基端分别存在一个推测的核定位信号B-box和EAR(ERF-associated amphiphilic repression)基序.对OsMsr15可能的启动子区域进行分析,发现多种与逆境诱导相关的调控元件.该基因编码的蛋白在不同物种中存在高度相似性,显示OsMsr15基因可能作为一个保守的耐逆基因,参与植物的多种耐逆反应过程.     

油菜RbohB基因的克隆及逆境响应表达分析

利用RACE技术从‘陇油6号’油菜中克隆得到一个新的RbohB基因,全长2 694 bp,开放阅读框2 541 bp,编码846个氨基酸。实时荧光定量PCR分析表明RbohB基因表达受低温、高盐、H₂O₂诱导,MAPKK抑制剂U0126预处理12 h再经低温、高盐、H₂O₂诱导,与单独处理结果相比,RbohB基因表达明显降低,表明该基因在油菜适应低温、高盐、H₂O₂胁迫过程中发挥作用,U0126对该基因的转录有抑制作用。NADPH氧化酶活性受H₂O₂处理的诱导,U0126预处理12 h再经H₂O₂处理,与单独H₂O₂处理结果相比,NADPH氧化酶活性明显降低,表明MAPKK抑制剂U0126对该酶活性有抑制作用。     

小黑杨HD-Zip转录因子家族生物信息学及应答盐胁迫分析

HD-Zip转录因子基因是植物中特有的一类蛋白家族,在植物生长发育和逆境应答胁迫过程中发挥重要作用。HD-Zip转录因子基因是由高度保守的同源异型结构域（HD）和亮氨酸拉链域（LZ）结构域构成的特殊结构模型。杨树HD-Zip转录因子家族共有63个基因,可被分为HD-ZipⅠ、HD-ZipⅡ、HD-ZipⅢ和HD-ZipⅣ四个亚家族。本文利用RNA-Seq分析了盐胁迫条件下HD-Zip基因家族在小黑杨根、茎、叶等不同组织的基因表达差异,从转录组水平揭示其应答胁迫环境的分子机制,结果表明,盐胁迫下在叶中有25个HD-Zip基因下调表达,21个基因上调表达;茎中有42个基因下调表达,11个基因上调表达;根中有26个基因下调表达,24个基因上调表达。另外,本文根据拟南芥HD-Zip转录因子家族基因的已知功能,预测了杨树HD-Zip转录因子同源基因的功能,并利用生物信息学方法分析了杨树HD-Zip转录因子蛋白序列的保守结构域、氨基酸组成和理化性质等,为进一步研究杨树HD-Zip转录因子基因功能提供参考。     

A rice (Oryza sativa L.) MAP kinase gene, OsMAPK44, is involved in response to abiotic stresses

We have isolated and characterized a putative rice MAPK gene (designated OsMAPK44) encoding for a protein of 593 amino acids that has the MAPK family signature and phosphorylation activation motif, TDY. Alignment of the predicted amino acid sequences of OsMAPK44 showed high homology with other rice MAPKs. Under normal conditions, the OsMAPK44 gene is highly expressed in root tissues, but relatively less in leaf and stem tissues of the japonica type rice plant (O. sativa L. Donggin). mRNA expression of the gene is highly inducible by salt and drought treatment, but not by cold treatment. Moreover, the mRNA level of the OsMAPK44 is up-regulated by exogenously applied Abscisic acid (ABA) and H₂O₂. When we compared the OsMAPK44 gene expression level between a salt sensitive indica cultivar (IR64) and a salt resistant indica cultivar (Pokkali), they showed some difference in expression kinetics with the salt treatment. OsMAPK44 gene expression in Pokkali was slightly up-regulated within 30 min and then disappeared rapidly, while IR64 maintained its expression for 1 h following down-regulation. Under the salinity stress, OsMAPK44 overexpression transgenic rice plants showed less damage and greater ratio of potassium and sodium than OsMAPK44 suppressed transgenic lines did, suggesting that OsMAPK44 may have a role to prevent damages due to working for favorable ion balance in the presence of salinity.