茶叶科学
茶葉科學
다협과학
Journal of Tea Science
2015年
5期
501-511
,共11页
胡娟%王丽鸳%韦康%成浩%张成才%张芬%吴立赟
鬍娟%王麗鴛%韋康%成浩%張成纔%張芬%吳立赟
호연%왕려원%위강%성호%장성재%장분%오립빈
茶树%Dof基因%CsCDF1基因%光调控%氮素%表达分析
茶樹%Dof基因%CsCDF1基因%光調控%氮素%錶達分析
다수%Dof기인%CsCDF1기인%광조공%담소%표체분석
tea plant (Camellia sinensis)%Dof gene%CsCDF1 gene%light regulation%nitrogen%expression analysis
采用SMART-RACE技术克隆了茶树Dof(DNA binding with one finger)基因CsCDF1的全长cDNA序列,并利用在线生物信息学软件对其进行了分析。采用实时荧光定量 PCR 分析该 Dof 基因在茶树不同组织间的表达差异和昼夜表达规律,及其在氮饥饿处理2周后对不同浓度氮素诱导的响应。该cDNA序列全长1606 bp,包含1个编码464个氨基酸的完整开放阅读框,含有高度保守的DOF结构域,推导的蛋白分子量为50.8 kDa,理论等电点(PI)为5.52;其编码的蛋白序列与茸毛烟草、马铃薯和美花烟草的CDF蛋白(Cycling dof factor)相似性分别为69%、67%、68%。系统发育分析结果表明,该基因编码的氨基酸序列与拟南芥CDF蛋白聚为一类,因此将其命名为 CsCDF1;CsCDF1在3个不同茶树品种根系中的表达量均高于一芽二叶和成熟叶;在一天中,该基因的表达呈现出昼夜节律变化;在氮饥饿后重新供氮,不同组织中该基因对不同浓度氮素的响应均为上调。
採用SMART-RACE技術剋隆瞭茶樹Dof(DNA binding with one finger)基因CsCDF1的全長cDNA序列,併利用在線生物信息學軟件對其進行瞭分析。採用實時熒光定量 PCR 分析該 Dof 基因在茶樹不同組織間的錶達差異和晝夜錶達規律,及其在氮饑餓處理2週後對不同濃度氮素誘導的響應。該cDNA序列全長1606 bp,包含1箇編碼464箇氨基痠的完整開放閱讀框,含有高度保守的DOF結構域,推導的蛋白分子量為50.8 kDa,理論等電點(PI)為5.52;其編碼的蛋白序列與茸毛煙草、馬鈴藷和美花煙草的CDF蛋白(Cycling dof factor)相似性分彆為69%、67%、68%。繫統髮育分析結果錶明,該基因編碼的氨基痠序列與擬南芥CDF蛋白聚為一類,因此將其命名為 CsCDF1;CsCDF1在3箇不同茶樹品種根繫中的錶達量均高于一芽二葉和成熟葉;在一天中,該基因的錶達呈現齣晝夜節律變化;在氮饑餓後重新供氮,不同組織中該基因對不同濃度氮素的響應均為上調。
채용SMART-RACE기술극륭료다수Dof(DNA binding with one finger)기인CsCDF1적전장cDNA서렬,병이용재선생물신식학연건대기진행료분석。채용실시형광정량 PCR 분석해 Dof 기인재다수불동조직간적표체차이화주야표체규률,급기재담기아처리2주후대불동농도담소유도적향응。해cDNA서렬전장1606 bp,포함1개편마464개안기산적완정개방열독광,함유고도보수적DOF결구역,추도적단백분자량위50.8 kDa,이론등전점(PI)위5.52;기편마적단백서렬여용모연초、마령서화미화연초적CDF단백(Cycling dof factor)상사성분별위69%、67%、68%。계통발육분석결과표명,해기인편마적안기산서렬여의남개CDF단백취위일류,인차장기명명위 CsCDF1;CsCDF1재3개불동다수품충근계중적표체량균고우일아이협화성숙협;재일천중,해기인적표체정현출주야절률변화;재담기아후중신공담,불동조직중해기인대불동농도담소적향응균위상조。
The full-length cDNA of the firstDofgene (CsCDF1)was cloned from tea plant [Camellia sinensis(L.) O. Kuntze] by SMART-RACE cloning technology, and the bioinformatic analysis of the cloned gene were conducted by using online service.The expression profile of this gene in various tissues and with diurnal rhythm as well as in response to different dosage nitrogen treatment were investigated by using real-time fluorescent quantitative RT- PCR. The obtained cDNA sequence was 1 606 bp and contained a complete open reading frame encoding 464 amino acid residues with highly conserved DOF domain. The molecular weight and theoretical isoelectric point (PI) is 50.8 kDa and 5.52 respectively. The analysis by utilizing the BLAST software showed that the derived protein sequences shared separately 69%, 67% and 68% similarity with CDF (Cycling dof factor) proteins inNicotianato-mentosiformis, Solanum tuberosum andNicotiana sylvestris. Phylogenetic analysis showed that the protein encoded by this gene was clustered into the same clade withArabidopsis thaliana CDF, so it was named asCsCDF1. The expression ofCsCDF1 dominated in roots rather than in one bud and two leaves or mature leaves in three phenotypes. During one day,CsCDF1gene changed with the diurnal rhythm, and resupplying nitrogen after starvation for 2 weeks, the expressionin response to different concentration of nitrogen was all raised in different tissues.
