作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2014年
9期
1531-1539
,共9页
余琴鸯%尹恒%安利佳%李文利
餘琴鴦%尹恆%安利佳%李文利
여금앙%윤항%안리가%리문리
谷子%CDPK%逆境胁迫%钙信号
穀子%CDPK%逆境脅迫%鈣信號
곡자%CDPK%역경협박%개신호
Setaria italica%CDPK%Abiotic stress%Ca2+signal
CDPK是一类重要的钙信号感受蛋白和响应蛋白,在植物非生物胁迫应答方面具有重要的作用。为探究耐旱作物谷子 CDPK 在抗逆胁迫中的应答机制,利用 RT-PCR 技术从谷子幼苗 cDNA 中克隆到一个与逆境胁迫相关的CDPK基因,命名为SiCDPK1(GenBank登录号为KC249975.1)。以拟南芥CDPK基因序列为查询序列,预测谷子基因组含有28个CDPK基因。其系统发育分析表明,谷子CDPK基因家族由4个亚类组成,其中SiCDPK1属于第II亚类,其全长1596 bp,编码531个氨基酸,预测蛋白分子量为59.5 kD,等电点pI为5.94,含有典型CDPK的保守结构。启动子调控区含有与多种逆境胁迫相关的调控元件。实时定量结果显示, SiCDPK1基因受PEG、ABA、高盐、自然干旱胁迫诱导表达。本试验为谷子抗逆应答机制的深入研究奠定了良好的理论基础。
CDPK是一類重要的鈣信號感受蛋白和響應蛋白,在植物非生物脅迫應答方麵具有重要的作用。為探究耐旱作物穀子 CDPK 在抗逆脅迫中的應答機製,利用 RT-PCR 技術從穀子幼苗 cDNA 中剋隆到一箇與逆境脅迫相關的CDPK基因,命名為SiCDPK1(GenBank登錄號為KC249975.1)。以擬南芥CDPK基因序列為查詢序列,預測穀子基因組含有28箇CDPK基因。其繫統髮育分析錶明,穀子CDPK基因傢族由4箇亞類組成,其中SiCDPK1屬于第II亞類,其全長1596 bp,編碼531箇氨基痠,預測蛋白分子量為59.5 kD,等電點pI為5.94,含有典型CDPK的保守結構。啟動子調控區含有與多種逆境脅迫相關的調控元件。實時定量結果顯示, SiCDPK1基因受PEG、ABA、高鹽、自然榦旱脅迫誘導錶達。本試驗為穀子抗逆應答機製的深入研究奠定瞭良好的理論基礎。
CDPK시일류중요적개신호감수단백화향응단백,재식물비생물협박응답방면구유중요적작용。위탐구내한작물곡자 CDPK 재항역협박중적응답궤제,이용 RT-PCR 기술종곡자유묘 cDNA 중극륭도일개여역경협박상관적CDPK기인,명명위SiCDPK1(GenBank등록호위KC249975.1)。이의남개CDPK기인서렬위사순서렬,예측곡자기인조함유28개CDPK기인。기계통발육분석표명,곡자CDPK기인가족유4개아류조성,기중SiCDPK1속우제II아류,기전장1596 bp,편마531개안기산,예측단백분자량위59.5 kD,등전점pI위5.94,함유전형CDPK적보수결구。계동자조공구함유여다충역경협박상관적조공원건。실시정량결과현시, SiCDPK1기인수PEG、ABA、고염、자연간한협박유도표체。본시험위곡자항역응답궤제적심입연구전정료량호적이론기출。
CDPK (calcium-dependent protein kinase) is a kind of essential calcium sensors and calcium responders, which plays important roles in response to various abiotic stresses in plants. In this research, we cloned the abiotic stress response related CDPK gene with RT-PCR in Setaria italica, designated as SiCDPK1 (GenBank accession number KC249975.1). We predicted 28 CDPKs in the Setaria italica genome by using the known Arabidopsis CDPK sequences as query sequences. The phylogenetic analysis showed the SiCDPK gene family was divided into four subgroups, in which SiCDPK1 belongs to subgroup II. The ORF of SiCDPK1 contains 1596 bp, which encodes 531 amino acids. The predicted protein molecular weight is 59.5 kD and pI is 5.94. SiCDPK1 has conserved protein domains of CDPK. The regulatory element analysis of promoter in SiCDPK1 showed a lot of cis-acting elements associated with different abiotic stresses. The RT-PCR results showed that SiCDPK1 was induced by PEG, ABA, salinity and drought. The research on SiCDPK1 paves a way for unraveling the mechanism of abiotic stresses in plants.
