OsbHLH1基因过表达载体构建及转化水稻研究

OsbHLH1基因编码bHLH类转录因子,与水稻耐寒性相关.以pCAMBIA3300为母体,利用玉米泛素(Ubiquitin)启动子构建了能使OsbHLH1基因过表达且含有Bar基因的植物表达载体p3300-Ubi-Ω- OsbHLH1.利用基因枪法将其转化到粳稻品种东稻3号中,获得再生苗47株.选取其中9株进行PCR、Southern检测,结果表明目的基因已经整合到水稻基因组中;草铵膦叶片涂布试验结果表明,Bar基因在水稻植株中正常表达;低温处理后,除45号植株外,其余8株光合速率的变化率显著低于非转基因对照,初步证明OsbHLH1基因在水稻中过表达显著提高了水稻的耐低温能力.     

石榴WRKY基因家族全基因组鉴定与表达分析

WRKY蛋白是一类在植物生长发育过程及生物与非生物胁迫过程中起重要调控作用的转录因子。该研究利用石榴全基因组数据,采用生物信息学的方法,对石榴WRKY转录因子家族成员蛋白理化性质、系统进化、基因结构、保守基序、顺式作用元件、蛋白互作及基因共表达和转录组表达模式进行系统分析。结果共鉴定出69个PgWRKY基因;分组鉴定和进化分析显示WRKY蛋白可分为Ⅰ、Ⅱ和Ⅲ共三大类型。顺式作用元件分析表明,PgWRKY基因广泛参与到非生物胁迫中;蛋白互作网络与共表达分析暗示PgWRKY基因在同一胁迫应答中可能作用一致并同时诱导表达;RNA-Seq数据分析表明,PgWRKY基因有一定的组织表达特异性,广泛参与植物营养、生殖生长以及根部逆境胁迫应答过程。     

Expression of SK3-type dehydrin in transporting organs is associated with cold acclimation in Solanum species

The expression of a gene, encoding a dehydrin protein designated as DHN24 was analyzed at the protein level in two groups of Solanum species differing in cold acclimation ability. The DHN24 protein displays consensus amino acid sequences of dehydrins, termed K- and S-segments. The S-segment precedes three K-segments, classifying the protein into SK₃-type dehydrins. A group of Solanum species able to cold acclimation constituted by S. sogarandinum and S. tuberosum, cv. Aster, and a second one composed of a S. sogarandinum line, that lost ability to cold acclimation, and of S. tuberosum, cv. Irga, displaying low ability to cold acclimation were studied. Under control conditions, noticeable levels of the DHN24 protein was observed in stems, tubers, and roots of Solanum species. No protein was detected in leaves. During low temperature treatment the DHN24 protein level substantially increased in tubers, in transporting organs and in apical parts, and only a small increase was observed in leaves. The increase in protein abundance was only observed in the plants able to cold acclimate and was found to parallel the acclimation capacity. Upon drought stress, the DHN24 level decreased in stems and in leaves, but increased in apical parts. These results suggest that Dhn24 expression is regulated by organ specific factors in the absence of stress and by factors related to cold acclimation processes during low temperature treatment in collaboration with organ-specific factors. A putative function of the SK₃-type dehydrin proteins during plant growth and in the tolerance to low temperature is discussed.