华北农学报
華北農學報
화북농학보
ACTA AGRICULTURAE BOREALI-SINICA
2013年
6期
18-23
,共6页
龙翔宇%蒲至恩%郑科%刘泽厚
龍翔宇%蒲至恩%鄭科%劉澤厚
룡상우%포지은%정과%류택후
小麦%TaCBL7%基因克隆%生物信息学%基因表达
小麥%TaCBL7%基因剋隆%生物信息學%基因錶達
소맥%TaCBL7%기인극륭%생물신식학%기인표체
Wheat%TaCBL7%Gene clone%Bioinformatic analysis%Gene expression
从小麦抗性相关EST数据库中筛选并获得一条753 bp的核苷酸序列,该序列包含了一个642 bp的开放阅读框,编码一个由213个氨基酸残基组成的蛋白,氨基酸同源性分析发现,该蛋白含有保守的钙结合结构域EF-hand ,在其N端含有豆蔻酰化位点MGXXXS/T,与OsCBL7高度同源,属于小麦CBL家族,命名为TaCBL7。实时荧光定量PCR分析表明,TaCBL7基因在苗期的根、茎及叶子,成熟期的根、茎、叶子及种子中均表达,但表达存在差异;该基因表达受盐、干旱、低温、ABA及条锈病诱导调控,表达分析结果表明,TaCBL7基因在小麦发育时间和组织空间上存在表达特异性(即时空表达特异性),同时参与了小麦生物与非生物胁迫的响应。推测TaCBL7基因编码的蛋白在小麦生长发育及胁迫过程中具有重要功能,为进一步研究小麦TaCBL7基因在生长发育和逆境响应过程中的功能,以及利用TaCBL7基因进行小麦分子育种奠定基础。
從小麥抗性相關EST數據庫中篩選併穫得一條753 bp的覈苷痠序列,該序列包含瞭一箇642 bp的開放閱讀框,編碼一箇由213箇氨基痠殘基組成的蛋白,氨基痠同源性分析髮現,該蛋白含有保守的鈣結閤結構域EF-hand ,在其N耑含有豆蔻酰化位點MGXXXS/T,與OsCBL7高度同源,屬于小麥CBL傢族,命名為TaCBL7。實時熒光定量PCR分析錶明,TaCBL7基因在苗期的根、莖及葉子,成熟期的根、莖、葉子及種子中均錶達,但錶達存在差異;該基因錶達受鹽、榦旱、低溫、ABA及條鏽病誘導調控,錶達分析結果錶明,TaCBL7基因在小麥髮育時間和組織空間上存在錶達特異性(即時空錶達特異性),同時參與瞭小麥生物與非生物脅迫的響應。推測TaCBL7基因編碼的蛋白在小麥生長髮育及脅迫過程中具有重要功能,為進一步研究小麥TaCBL7基因在生長髮育和逆境響應過程中的功能,以及利用TaCBL7基因進行小麥分子育種奠定基礎。
종소맥항성상관EST수거고중사선병획득일조753 bp적핵감산서렬,해서렬포함료일개642 bp적개방열독광,편마일개유213개안기산잔기조성적단백,안기산동원성분석발현,해단백함유보수적개결합결구역EF-hand ,재기N단함유두구선화위점MGXXXS/T,여OsCBL7고도동원,속우소맥CBL가족,명명위TaCBL7。실시형광정량PCR분석표명,TaCBL7기인재묘기적근、경급협자,성숙기적근、경、협자급충자중균표체,단표체존재차이;해기인표체수염、간한、저온、ABA급조수병유도조공,표체분석결과표명,TaCBL7기인재소맥발육시간화조직공간상존재표체특이성(즉시공표체특이성),동시삼여료소맥생물여비생물협박적향응。추측TaCBL7기인편마적단백재소맥생장발육급협박과정중구유중요공능,위진일보연구소맥TaCBL7기인재생장발육화역경향응과정중적공능,이급이용TaCBL7기인진행소맥분자육충전정기출。
The cDNA sequence of TaCBL7 were isolated and analyzed from wheat EST database .The results showed that TaCBL7 contained a 642 bp ORF encoding 213 amino acids .Using the methods of bioinformatics to predict and analyze TaCBL7 ,the protein has the high level homology with OsCBL 7 and highly conserved domain of EF-hand and N-myristoylation .The results of Real-time PCR reveal that the expression of TaCBL7 has expression in leaf,stem,seed and root both seedling and mature stage .In addition,the expression of TaCBL7 was induced by drought,salt,low-temperature,ABA and yellow rust.Those results indicate that TaCBL7 has specific expression of temporal and spatial ,and the expression was induced by biotic and abiotic stresses .It is speculated that TaCBL7 could play a role not only in growth and development conditions but also in stress of wheat .This investigation laid a foundation for functional dissection of TaCBL7 and wheat molecular breeding with TaCBL7 in the future .