Morello Laura, Bardini Mauro, Cricrì Mauro, Sala Francesco, Breviario Diego
Istituto Biologia e Biotecnologia Agraria, CNR, Via Bassini 15, 20133 Milano, Italy.
Planta. 2006 Feb;223(3):479-91. doi: 10.1007/s00425-005-0105-z. Epub 2005 Oct 1.
Plant calcium-dependent protein kinases (CDPKs) are involved in calcium-mediated signal transduction pathways. Their expression is finely tuned in different tissues and in response to specific signals, but the mechanism of such a regulation is still largely unknown. OsCDPK2 gene expression is modulated in vivo during rice (Oryza sativa L.) flower development and is downregulated by white light in leaves. In order to identify OsCDPK2 regulatory sequences, we amplified and cloned both the 5' and 3'-flanking regions of the gene. Sequence analysis revealed that the leader sequence is interrupted by an intron, whose regulatory role was investigated. Different ss-gucuronidase (GUS) expression vectors, carrying combinations of the putative OsCDPK2 regulatory regions, were generated and GUS expression was analyzed both in transient assays and in transgenic rice plants. The whole 5'-flanking sequence was able to drive GUS expression in rice calli and leaves transiently transformed with the biolistic technique. Analysis of the GUS expression pattern in transgenic plants revealed strong activity in root tips, leaf veins and mesophyll cells, in flower reproductive organs and in mature pollen grains. Expression was also shown to be subject to an intron-mediated enhancement (IME) mechanism, since the deletion of the leader intron sequence from chimeric OsCDPK2::GUS plasmids almost completely abolished GUS activity. Furthermore, in transiently transformed leaves, GUS expression driven by the OsCDPK2 promoter-leader region was constitutively observed regardless of light or dark exposure. Light-regulated expression was restored by inserting the OsCDPK2 3' untranslated region (3'UTR) downstream of the chimeric OsCDPK2::GUS transcription unit, suggesting that light down-regulation is mediated by a mechanism driven by the 3'UTR.
植物钙依赖蛋白激酶(CDPKs)参与钙介导的信号转导途径。它们的表达在不同组织中以及对特定信号的响应中受到精细调节,但其调控机制仍大多未知。在水稻(Oryza sativa L.)花发育过程中,OsCDPK2基因的表达在体内受到调控,并且在叶片中受白光下调。为了鉴定OsCDPK2的调控序列,我们扩增并克隆了该基因的5'和3'侧翼区域。序列分析表明,前导序列被一个内含子打断,我们对其调控作用进行了研究。构建了不同的携带推定的OsCDPK2调控区域组合的β-葡萄糖醛酸酶(GUS)表达载体,并在瞬时分析和转基因水稻植株中分析了GUS表达。整个5'侧翼序列能够驱动GUS在通过生物弹道技术瞬时转化的水稻愈伤组织和叶片中表达。对转基因植物中GUS表达模式的分析显示,在根尖、叶脉和叶肉细胞、花的生殖器官以及成熟花粉粒中具有强活性。表达还显示受内含子介导的增强(IME)机制影响,因为从嵌合的OsCDPK2::GUS质粒中缺失前导内含子序列几乎完全消除了GUS活性。此外,在瞬时转化的叶片中,无论光照或黑暗处理,由OsCDPK2启动子-前导区域驱动的GUS表达均持续可见。通过在嵌合的OsCDPK2::GUS转录单元下游插入OsCDPK2 3'非翻译区(3'UTR)恢复了光调控表达,这表明光下调是由3'UTR驱动的机制介导的。
