[Objective] The aim of the study is to clone and analyze the gene encoding 14-3-3 protein from banana. [Method] Combined with PCR amplification, RACE (rapid amplification of cDNA ends) technique was employed to clone ...[Objective] The aim of the study is to clone and analyze the gene encoding 14-3-3 protein from banana. [Method] Combined with PCR amplification, RACE (rapid amplification of cDNA ends) technique was employed to clone 14-3-3 gene from banana; then the amplified sequence was sequenced and homologically analyzed. [Result] A new cDNA homologous with 14-3-3 protein genes were obtained by RT-PCR and RACE ( rapid amplification of cDNA ends ) approaches. The full length of this cDNA was 866 bp encoding 197 amino acids. Alignment of deduced amino acid sequence with those from other plants revealed that the cDNA shared high homology with 14-3-3 protein genes from other plants, and was designated as Musa acuminata 14-3-3 gene (Ma-14-3-3d). Phylogenetic analysis reveals that Ma-14-3-3d has closer genetic relationship with those from monocotyledon species than those from other species. [Conclusion] Ma-14-3-3d belongs to the same lineage of 14-3-3 from monocotyledon.展开更多
通过简并引物和降落PCR方法结合RACE(rapid amplification of c DNA end)技术在香蕉果实c DNA文库中获得2个14-3-3基因,分别命名为Ma14-3-3d和Ma14-3-3h,把Ma14-3-3d和Ma14-3-3h与Ma14-3-3a、Ma14-3-3c、Ma14-3-3e、Ma14-3-3i进行多重...通过简并引物和降落PCR方法结合RACE(rapid amplification of c DNA end)技术在香蕉果实c DNA文库中获得2个14-3-3基因,分别命名为Ma14-3-3d和Ma14-3-3h,把Ma14-3-3d和Ma14-3-3h与Ma14-3-3a、Ma14-3-3c、Ma14-3-3e、Ma14-3-3i进行多重序列比对和同源性比较。结果表明:Ma14-3-3d和Ma14-3-3h与Ma14-3-3a、Ma14-3-3c、Ma14-3-3e、Ma14-3-3i具有较高的同源性,同时具有一定的差异性。遗传进化分析结果表明,Ma14-3-3d与Ma14-3-3a、Ma14-3-3c、Ma14-3-3e、Ma14-3-3i同属于non-ε类14-3-3基因,Ma14-3-3h属于ε类14-3-3基因。RT-PCR分析结果表明,Ma14-3-3d和Ma14-3-3h在香蕉不同器官中差异表达,Ma14-3-3d在香蕉的根、茎、叶、花和果中均有表达,且在茎、叶和花中的表达量高于根和果;Ma14-3-3h在根、花和果中的表达量较高,而在茎和叶中的表达量较低。q RT-PCR分析结果表明,Ma14-3-3d基因的表达明显受乙烯的诱导,而Ma14-3-3h在正常成熟、乙烯处理与1-MCP处理的果实中表达量均很低,与果实成熟的相关性不明显。推测Ma14-3-3d可能与香蕉果实成熟密切相关,可能参与乙烯调控果实成熟过程中的生物合成与信号转导。展开更多
文摘【目的】构建家蝇Musca domestica酵母双杂交cDNA文库,筛选MD14-3-3互作蛋白。【方法】以家蝇为研究对象,经mRNA纯化、cDNA初级文库构建、重组pGADT7-DEST构建次级文库,构建酵母双杂交筛选系统,构建pGBKT7-MD14-3-3质粒作为诱饵筛选与MD14-3-3相互作用的蛋白,并进行回转验证。【结果】成功构建文库容量为1.6×10^(7) CFU,重组率为100%的家蝇酵母双杂交cDNA文库。酵母双杂交筛选获得2个靶蛋白,回转试验表明mucin-like protein HKR1与抗菌肽ctenidin-1为MD14-3-3的互作蛋白。【结论】从成功构建的家蝇酵母双杂交cDNA文库中筛选出MD14-3-3蛋白的2个互作蛋白,为进一步探究家蝇免疫应答机制奠定了基础。
文摘[Objective] The aim of the study is to clone and analyze the gene encoding 14-3-3 protein from banana. [Method] Combined with PCR amplification, RACE (rapid amplification of cDNA ends) technique was employed to clone 14-3-3 gene from banana; then the amplified sequence was sequenced and homologically analyzed. [Result] A new cDNA homologous with 14-3-3 protein genes were obtained by RT-PCR and RACE ( rapid amplification of cDNA ends ) approaches. The full length of this cDNA was 866 bp encoding 197 amino acids. Alignment of deduced amino acid sequence with those from other plants revealed that the cDNA shared high homology with 14-3-3 protein genes from other plants, and was designated as Musa acuminata 14-3-3 gene (Ma-14-3-3d). Phylogenetic analysis reveals that Ma-14-3-3d has closer genetic relationship with those from monocotyledon species than those from other species. [Conclusion] Ma-14-3-3d belongs to the same lineage of 14-3-3 from monocotyledon.
文摘通过简并引物和降落PCR方法结合RACE(rapid amplification of c DNA end)技术在香蕉果实c DNA文库中获得2个14-3-3基因,分别命名为Ma14-3-3d和Ma14-3-3h,把Ma14-3-3d和Ma14-3-3h与Ma14-3-3a、Ma14-3-3c、Ma14-3-3e、Ma14-3-3i进行多重序列比对和同源性比较。结果表明:Ma14-3-3d和Ma14-3-3h与Ma14-3-3a、Ma14-3-3c、Ma14-3-3e、Ma14-3-3i具有较高的同源性,同时具有一定的差异性。遗传进化分析结果表明,Ma14-3-3d与Ma14-3-3a、Ma14-3-3c、Ma14-3-3e、Ma14-3-3i同属于non-ε类14-3-3基因,Ma14-3-3h属于ε类14-3-3基因。RT-PCR分析结果表明,Ma14-3-3d和Ma14-3-3h在香蕉不同器官中差异表达,Ma14-3-3d在香蕉的根、茎、叶、花和果中均有表达,且在茎、叶和花中的表达量高于根和果;Ma14-3-3h在根、花和果中的表达量较高,而在茎和叶中的表达量较低。q RT-PCR分析结果表明,Ma14-3-3d基因的表达明显受乙烯的诱导,而Ma14-3-3h在正常成熟、乙烯处理与1-MCP处理的果实中表达量均很低,与果实成熟的相关性不明显。推测Ma14-3-3d可能与香蕉果实成熟密切相关,可能参与乙烯调控果实成熟过程中的生物合成与信号转导。