利用酵母双杂交技术筛选与AtbZIP1相互作用的蛋白质

碱性亮氨酸拉链bZIP类转录因子在植物的生长发育、光形态建成、光信号传导及非生物胁迫反应中发挥重要的作用.为研究AtbZIP1基因的作用机理,本研究首先验证了该基因的自激活转录活性,通过缺失突变确定了该转录因子的转录激活结构域;以AtbZIP1缺失突变体AtbZ3为诱饵蛋白,采用Matchmaker Gold Yeast Two-Hybrid System(Clonetch),共筛选获得5个与诱饵蛋白相互作用的蛋白质;并通过AbA(Aureobasidin A)抗生素标记基因,His营养缺陷和LacZ蓝白斑检测验证了阳性克隆.亚细胞定位分析发现,AtbZIP1蛋白除了定位于细胞核外,还定位于叶绿体细胞.通过分析这些靶蛋白的已知功能,为研究AtbZIP1蛋白的未知生物学功能提供重要信息.     

Possible His to Asp phosphorelay signaling in an Arabidopsis two-component system

We have so far cloned a cDNA encoding a hybrid-type histidine kinase (ATHK1), three cDNAs encoding phosphorelay intermediates (ATHP1-3), and four cDNAs encoding response regulators (ATRR1-4) from Arabidopsis thaliana. To determine which molecules constitute a His to Asp phosphorelay pathway, we examined protein-protein interactions between them using a pairwise yeast two-hybrid analysis, as an initial step. We detected a specific interaction between ATHK1 and ATHP1. We further examined protein-protein interactions between ATHP1-3 and other histidine kinases. We detected interactions between ETR1 and all ATHPs, and between CKI1 and ATHP1 or ATHP2. Interestingly, ERS1 could not interact with any ATHPs. We also examined protein-protein interactions between ATHP1-3 and ATRR1-4. The results indicated that ATHP2 could interact with ATRR4, and that ATHP3 could interact with ATRR1 or ATRR4. However, ATHP1 could not interact with any ATRRs. On the basis of these results, we discuss the possible phosphorelay networks in an Arabidopsis two-component system.     

The Arabidopsis Cdc2a-interacting protein ICK2 is structurally related to ICK1 and is a potent inhibitor of cyclin-dependent kinase activity in vitro

Cyclin-dependent kinases (CDKs) are important regulators of the eukaryotic cell division cycle. To study protein-protein interactions involving plant CDKs, the Arabidopsis thaliana Cdc2aAt was used as bait in the yeast two-hybrid system. Here we report on the isolation of ICK2, and show that it interacts with Cdc2aAt, but not with a second CDK from Arabidopsis, Cdc2bAt. ICK2 contains a carboxy-terminal domain related to that of ICK1, a previously described CDK inhibitor from Arabidopsis, and to the CDK-binding domain of the mammalian inhibitor p27Kip1. Outside of this domain, ICK2 is distinct from ICK1, p27Kip1, and other proteins. At nanogram levels (8 nM), purified recombinant ICK2 inhibits p13Suc1-associated histone H1 kinase activity from Arabidopsis tissue extracts, demonstrating that it is a potent inhibitor of plant CDK activity in vitro. ICK2 mRNA was present in all tissues analysed by Northern hybridization, and its distribution was distinct from that of ICK1. These results demonstrate that plants possess a family of differentially regulated CDK inhibitors that contain a conserved carboxy terminal but with distinct amino terminal regions.