作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2013年
1期
34-42
,共9页
冯娟%范昕琦%徐鹏%张香桂%沈新莲*
馮娟%範昕琦%徐鵬%張香桂%瀋新蓮*
풍연%범흔기%서붕%장향계%침신련*
旱地棉%GarCIPK8%耐盐性%耐旱性
旱地棉%GarCIPK8%耐鹽性%耐旱性
한지면%GarCIPK8%내염성%내한성
Gossypium aridum%GarCIPK8%Salt stress%Drought stress
CIPK (calcineurin B-like calcium sensor interacting protein kinase)是植物钙感受器钙调磷酸酶B类似蛋白特定靶向的一类丝氨酸/苏氨酸蛋白激酶.在前期的研究中,我们将棉属野生种D亚组旱地棉(Gossypium aridum)盐胁迫前后RNA混合样品进行转录组测序,发现一CIPK相关基因存在较高的转录丰度.盐胁迫下荧光定量PCR分析表明该基因在根部表现诱导上调表达,推测该基因可能参与植物在高盐胁迫下的生理调控.利用电子克隆及RT-PCR方法从旱地棉中克隆了一个ORF全长为1350 bp的蛋白激酶基因GarCIPK8.序列分析表明该基因编码的蛋白含有449个氨基酸,分子量为51.12 kD,理论等电点为8.13,其N端催化结构域包含一个丝氨酸/苏氨酸蛋白激酶域, C端具有植物CIPK蛋白家族特有的24个氨基酸组成的NAF保守结构域;与水稻OsCIPK8蛋白的相似度为73.95%.为进一步验证其功能,利用组成型高效强启动子CaMV35S和拟南芥逆境胁迫启动子rd29A构建植物表达载体并转化烟草,经PCR 和 RT-PCR 分子检测,证明 GarCIPK8基因已经整合到烟草基因组中,并正常表达.T1代转基因植株耐盐性鉴定结果表明GarCIPK8基因对提高转基因植株的耐盐性有较明显的作用, PEG干旱模拟试验也证明GarCIPK8基因可增强植株的抗旱性.
CIPK (calcineurin B-like calcium sensor interacting protein kinase)是植物鈣感受器鈣調燐痠酶B類似蛋白特定靶嚮的一類絲氨痠/囌氨痠蛋白激酶.在前期的研究中,我們將棉屬野生種D亞組旱地棉(Gossypium aridum)鹽脅迫前後RNA混閤樣品進行轉錄組測序,髮現一CIPK相關基因存在較高的轉錄豐度.鹽脅迫下熒光定量PCR分析錶明該基因在根部錶現誘導上調錶達,推測該基因可能參與植物在高鹽脅迫下的生理調控.利用電子剋隆及RT-PCR方法從旱地棉中剋隆瞭一箇ORF全長為1350 bp的蛋白激酶基因GarCIPK8.序列分析錶明該基因編碼的蛋白含有449箇氨基痠,分子量為51.12 kD,理論等電點為8.13,其N耑催化結構域包含一箇絲氨痠/囌氨痠蛋白激酶域, C耑具有植物CIPK蛋白傢族特有的24箇氨基痠組成的NAF保守結構域;與水稻OsCIPK8蛋白的相似度為73.95%.為進一步驗證其功能,利用組成型高效彊啟動子CaMV35S和擬南芥逆境脅迫啟動子rd29A構建植物錶達載體併轉化煙草,經PCR 和 RT-PCR 分子檢測,證明 GarCIPK8基因已經整閤到煙草基因組中,併正常錶達.T1代轉基因植株耐鹽性鑒定結果錶明GarCIPK8基因對提高轉基因植株的耐鹽性有較明顯的作用, PEG榦旱模擬試驗也證明GarCIPK8基因可增彊植株的抗旱性.
CIPK (calcineurin B-like calcium sensor interacting protein kinase)시식물개감수기개조린산매B유사단백특정파향적일류사안산/소안산단백격매.재전기적연구중,아문장면속야생충D아조한지면(Gossypium aridum)염협박전후RNA혼합양품진행전록조측서,발현일CIPK상관기인존재교고적전록봉도.염협박하형광정량PCR분석표명해기인재근부표현유도상조표체,추측해기인가능삼여식물재고염협박하적생리조공.이용전자극륭급RT-PCR방법종한지면중극륭료일개ORF전장위1350 bp적단백격매기인GarCIPK8.서렬분석표명해기인편마적단백함유449개안기산,분자량위51.12 kD,이론등전점위8.13,기N단최화결구역포함일개사안산/소안산단백격매역, C단구유식물CIPK단백가족특유적24개안기산조성적NAF보수결구역;여수도OsCIPK8단백적상사도위73.95%.위진일보험증기공능,이용조성형고효강계동자CaMV35S화의남개역경협박계동자rd29A구건식물표체재체병전화연초,경PCR 화 RT-PCR 분자검측,증명 GarCIPK8기인이경정합도연초기인조중,병정상표체.T1대전기인식주내염성감정결과표명GarCIPK8기인대제고전기인식주적내염성유교명현적작용, PEG간한모의시험야증명GarCIPK8기인가증강식주적항한성.
CIPK (calcineurin B-like calcium sensor interacting protein kinase) is a typical group of serine / threonine protein kinase targeting calcium sensor calcineurin B-like protein-specific. In a previous study, we obtained the transcriptome of Gos-sypium aridum with a pooled RNA sample from root and leaf of G. aridum under salt stress. From the transcriptome data, we founded that a CIPK related gene had high level of expression abundance. Real-time fluorescence quantitative PCR analysis showed its relative expression level was up-regulated in root induced by salt stress, indicating this CIPK related gene might be involved in response to salt stress during cotton seedling stage. By in silico cloning and RT-PCR technology, a full-length cDNA encoding a CIPKs homologue (GarCIPK8) was isolated from G. aridum. The deduced GarCIPK8 protein had 449 amino acids with a predicted molecular weight of 51.12 kD and a predicted isoelectric point of 8.13. The kinase N-terminal catalytic domain of GarCIPK8 exhibited a typica1 serine/threonine protein kinase domain. The conserved 24 amino acid motif existed in C-terminal non-kinase regions of GarCIPK8 protein. Alignment of amino acid sequence showed that GarCIPK8 was 73.95% identical to Oryza sativa OsCIPK8 protein. In order to characterize its putative function, the GarCIPK8 gene driven by CaMV35S promoter and stress-specific promoter rd29A respectively were transformed into tobacco by Agrobacterium-mediated transgenic technology. PCR and RT-PCR detection confirmed that GarCIPK8 gene was integrated into tobacco genome and expressed normally. The growth of transgenic plants of T1 generation was observed under salinity and drought stresses, showing that transgenic plants en-hance tolerance to both high salt and osmotic stresses.
