作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2014年
9期
1549-1556
,共8页
王策%杨艳歌%吕维涛%周春菊%孙冬梅%邓馨
王策%楊豔歌%呂維濤%週春菊%孫鼕梅%鄧馨
왕책%양염가%려유도%주춘국%손동매%산형
玉米%bZIP转录因子%A亚族%ABA%逆境胁迫
玉米%bZIP轉錄因子%A亞族%ABA%逆境脅迫
옥미%bZIP전록인자%A아족%ABA%역경협박
Maize%bZIP transcription factor%A subfamily%ABA%Abiotic stress
碱性亮氨酸拉链(basic leucine zipper, bZIP)蛋白是真核生物所特有的一类转录因子,对于植物在逆境下的基因表达调控具有重要作用。为丰富对玉米 bZIP 转录因子功能的认识,本研究以从玉米中克隆到的一个 A 亚族 bZIP转录因子编码基因ZmbZIP81为对象展开。ZmbZIP81基因位于玉米第6染色体,编码区全长2492 bp,由4个外显子和3个内含子组成,编码蛋白含254个氨基酸。研究表明ZmbZIP81基因表达受外源ABA、NaCl和干旱胁迫诱导。过表达该基因的拟南芥植物表现出ABA不敏感和NaCl胁迫抗性增强的表型,推测ZmbZIP81可能作为ABA信号途径的负调控因子参与植物抗逆基因表达调控网络。
堿性亮氨痠拉鏈(basic leucine zipper, bZIP)蛋白是真覈生物所特有的一類轉錄因子,對于植物在逆境下的基因錶達調控具有重要作用。為豐富對玉米 bZIP 轉錄因子功能的認識,本研究以從玉米中剋隆到的一箇 A 亞族 bZIP轉錄因子編碼基因ZmbZIP81為對象展開。ZmbZIP81基因位于玉米第6染色體,編碼區全長2492 bp,由4箇外顯子和3箇內含子組成,編碼蛋白含254箇氨基痠。研究錶明ZmbZIP81基因錶達受外源ABA、NaCl和榦旱脅迫誘導。過錶達該基因的擬南芥植物錶現齣ABA不敏感和NaCl脅迫抗性增彊的錶型,推測ZmbZIP81可能作為ABA信號途徑的負調控因子參與植物抗逆基因錶達調控網絡。
감성량안산랍련(basic leucine zipper, bZIP)단백시진핵생물소특유적일류전록인자,대우식물재역경하적기인표체조공구유중요작용。위봉부대옥미 bZIP 전록인자공능적인식,본연구이종옥미중극륭도적일개 A 아족 bZIP전록인자편마기인ZmbZIP81위대상전개。ZmbZIP81기인위우옥미제6염색체,편마구전장2492 bp,유4개외현자화3개내함자조성,편마단백함254개안기산。연구표명ZmbZIP81기인표체수외원ABA、NaCl화간한협박유도。과표체해기인적의남개식물표현출ABA불민감화NaCl협박항성증강적표형,추측ZmbZIP81가능작위ABA신호도경적부조공인자삼여식물항역기인표체조공망락。
Basic leucine zipper (bZIP) proteins constitute a large family of transcription factors among eukaryotes, which plays important roles in gene expression regulation under abiotic stress in plants. In order to gain a better understanding of bZIPs in maize, we cloned ZmbZIP81 from maize, which encodes an A subfamily bZIP transcription factor. ZmbZIP81 is located on chro-mosome 6. The coding region of ZmbZIP81 is 2492 bp in length with four exons and three introns, which encodes 254 animo acid residues. Further study showed that the expression of ZmbZIP81 was induced by exogenous ABA, salt and drought treatments. The transgenic Arabidopsis plants overexpressing ZmbZIP81 were less sensitive to ABA, but more tolerant to salt, compared with the wild type. These results indicated that ZmbZIP81 may encode a transcription factor, regulate ABA signaling negatively and participate in abiotic stress tolerance regulation in maize.
