水稻中受体激酶的系统树分析

植物受体激酶(RLKs)在植物细胞内的反应中发挥着重要作用。为了比较拟南芥(Arabidopsis thaliana L.)和水稻(Oryza sativa L.)中受体激酶的进化关系,作者通过对北京华大基因研究中心(BGI)的籼稻蛋白质数据库进行BLASTP搜索,找到267个受体激酶类似基因,根据它们的胞外结构域可以将这些基因分为不同的类型。与拟南芥中受体激酶的系统树比较分析表明,不同类型的受体激酶具有不同的序列保守性,说明在植物进化过程中,不同类型的受体激酶具有不同的进化关系。水稻受体激酶与拟南芥受体激酶BRI1的多序列匹配结果也表明二者可能具有不同的磷酸化位点。     

Characterization of an ethylene receptor homolog gene from rice

Ethylene is a gaseous hormone and plays important roles in plant growth and development, including seed germination, root hair development, flowering, pollination, abscission, and fruit ripening[1]. It is also involved in plant responses to biotic stress such as pathogen attack, and abiotic stresses such as wounding, drought and freezing[1]. Mutational and genetic analysis of Arabidopsis has led to the identification of five ethylene receptor genes, i.e. ETR1, ERS1, ETR2, EIN4 and ERS2. …     

水稻乙烯受体类似物基因的克隆及其表达特性

乙烯在植物的生长发育以及对逆境的反应中起着重要作用. 乙烯受体基因在拟南芥、 烟草和番茄等双子叶植物中已有一些研究, 但到目前为止还没有见到关于单子叶植物乙烯受体研究的报道. 我们从水稻中克隆了一个乙烯受体基因OSPK2, 发现它所编码的蛋白与双子叶植物的乙烯受体有所不同. OSPK2的N端较长, 其后是3个跨膜区、一个GAF结构域、一个推测的激酶结构域和接受器结构域. 虽然大多数的结构域都是保守的, 但预期的磷酸化位点His和磷酸基团接受位点Asp在OSPK2中分别被Gln和Asn取代. 这一事实说明, OSPK2可能不是以组氨酸激酶的磷酸转移方式进行作用, 而是以其他的机制, 如具有丝/苏激酶的活性. 应用RT-PCR方法对不同条件下OSPK2基因的表达进行了研究, 结果表明, OSPK2受伤害和PEG处理诱导, 但盐及ABA处理对其没有显著影响. OSPK2基因的差异表达可能反映了它在介导不同非生物逆境反应中的作用, 这与我们以前关于烟草乙烯受体的研究结果是一致的.     

Characterization of an ethylene receptor homolog gene from rice

Ethylene plays important roles in plant growth, development and stress responses. Its receptor genes have been studied in dicots such asArabidopsis, tobacco and tomato. However, no research has been reported for the ethylene receptors from monocots currently. In the present study, we cloned an ethylene receptor geneOSPK2 from rice and found that its encoded protein was divergent from the ethylene receptors from dicots. OSPK2 had a long extension in its N-terminal, followed by three transmembrane segments, a GAF domain, a putative kinase domain and a putative receiver domain. Although most of the domains were conserved, the expected phosphorylation site His and the phosphate receiver Asp have been replaced by Gln and Asn, respectively. This fact indicates that OSPK2 may not function as a histidine kinase in a phosphorelay manner, but rather play roles by other mechanism, probably through Ser/Thr kinase activity. The expression of theOSPK2 gene was investigated by RT-PCR method under different conditions. We found that this gene was apparently induced by wounding and PEG treatment, but not significantly affected by salt and ABA treatments. The differential expression of theOSPK2 gene may reflect its roles in mediating different abiotic stress responses, consistent with our previous studies on tobacco ethylene receptors.     

水稻中受体激酶的系统树分析

植物受体激酶(RLKs)在植物细胞内的反应中发挥着重要作用.为了比较拟南芥(Arabidopsis thaliana L.)和水稻(Oryza sativa L.)中受体激酶的进化关系,作者通过对北京华大基因研究中心(BGI)的籼稻蛋白质数据库进行BLASTP搜索,找到267个受体激酶类似基因,根据它们的胞外结构域可以将这些基因分为不同的类型.与拟南芥中受体激酶的系统树比较分析表明,不同类型的受体激酶具有不同的序列保守性,说明在植物进化过程中,不同类型的受体激酶具有不同的进化关系.水稻受体激酶与拟南芥受体激酶BRI1的多序列匹配结果也表明二者可能具有不同的磷酸化位点.