Tomato prosystemin promoter confers wound-inducible, vascular bundle-specific expression of the β-glucuronidase gene in transgenic tomato plants

Tomato (Lycopersicon esculentum Mill. cv. Better Boy) plants were transformed with a fused gene containing a 2.2-kb promoter fragment of the tomato prosystemin gene and the coding region of the β-glucuronidase (GUS) reporter gene. The transgenic plants exhibited a low constitutive level of prosystemin-β-glucuronidase gene expression, assayed by histochemical staining and GUS enzyme activity, that was associated in the vascular bundles of leaf main veins, petiolules, petioles and stems. The GUS activity in the vascular bundles in each tissue was increased by wounding and by treatment of the plants with methyl jasmonate, similar to the induction of prosystemin in wild-type plants. The increase in GUS activity in the vascular bundles of leaves in response to wounding correlated with the wound-inducible increase in prosystemin mRNA. Tissue printing, using rabbit anti-serum prepared against prosystemin, confirmed that inducible prosystemin protein was localized in vascular bundles of petiolules, petioles and stems of wild-type tomato plants. The evidence indicates that the 2.2-kb promoter region of the tomato prosystemin gene contains elements conferring its correct temporal and spatial expression in the vascular bundles of transgenic tomato plants. Received: 7 January 1997 / Accepted: 2 April 1997     

高羊茅FaChit1基因启动子的功能分析

用含有不同长度FaChitl基因启动子区域与GUS基因融合构建植物表达载体pFaChitlP—I、pFaChitlP-Ⅱ以及pFaChitlP-Ⅲ并分别对烟草进行转化,经真菌激发子、干旱、机械损伤以及乙烯等多种胁迫处理后测定GUS活性。启动子缺失分析实验结果显示,真菌激发子对FaChitl基因启动子所介导的GUS诱导表达效果最强,而机械损伤只能微弱地诱导GL靥基因表达;FaChitl基因启动子-651bp以内的序列均能介导GUS基因的诱导表达,同时-935bp与-233bp之间的区域是该启动子响应真菌激发子、乙烯以及机械损伤胁迫所必需的。表明FaChitl启动子是一个多胁迫诱导型启动子。     

5'' upstream sequences from the wun1 gene are responsible for gene activation by wounding in transgenic plants.

A 1.2-kilobase pair fragment of the 5' upstream region of a potato wound-inducible gene (wun1) was fused to different marker genes (wun1-CAT, wun1-NPTII). Stable integration of a wun1-CAT chimeric gene into the tobacco genome led to a high wound-inducible chloramphenicol acetyltransferase activity in leaves. Transient expression experiments in potato protoplasts showed that wun1 carries a strong promoter sequence similar in strength to the 35S promoter. The same intensity of expression was also observed using wun1 constructs in transient experiments with rice protoplasts. wun1 mRNA was shown to accumulate to high levels in potato leaves collapsing as a result of infection with the phytopathogen Phytophthora infestans. The wun1 product might, therefore, play a role in a general physiological reaction to stress correlated with cell death.     

A wound-inducible tobacco peroxidase gene expresses preferentially in the vascular system

A tobacco peroxidase gene tpoxN1 was reported to be expressed within 1 h after wounding in leaves [Hiraga et al. (2000a) Plant Cell Physiol. 41: 165]. We describe here further results on the wound-induced tpoxN1 expression. The quick tpoxN1 induction occurred preferentially in stems and petioles, but was negligible in leaf blades even 8 h after wounding. Induced GUS activity was also detected rapidly after wounding in the stem of transgenic tobacco plants carrying the tpoxN1 promoter::GUS fusion gene, localized mainly in the vascular systems where it was maintained this level for 14 d or more. Strong GUS activity was also found in the petiole and veinlet as well as the epidermal tissue in the stem. Treatment of known inducers for wound-responsive genes such as jasmonate, 1-aminocyclopropane-1-carboxylate, spermine, phytohormones and other stress treatments did not enhance wound-induced tpoxN1 gene expression in stems at all, but rather repressed it in some cases. Studies using metabolic inhibitors suggested that phosphorylation and dephosphorylation of proteins together with de novo protein synthesis are likely to be involved in the wound-induced tpoxN1 expression as well as some other wound-responsive genes. Thus, tpoxN1 is a unique wound-inducible and possible wound-healing gene which is rapidly expressed being maintained for a long time in veins via an unknown wound-signaling pathway(s).     

病程相关基因启动子片段与GUS的融合基因在拟南芥中的表达

PR1是拟南芥(Arabidopsisis thaliana L.)系统获得抗性的一个标志基因.利用PCR技术,从拟南芥中扩增并克隆了PR1基因的启动子片段.将该启动子片段与GUS报告基因拼接,构建成含有PR1-GUS融合基因的重组表达质粒.经根癌农杆菌介导转化,得到了转基因的拟南芥植株.用已知的系统获得抗性激活剂处理转基因植物,检测到GUS活性.因此,这一转基因体系可以作为一种简便、灵敏的实验体系以筛选激活植物系统获得抗性的化合物.     

水稻OsGSTL1启动子的分离和表达分析

从水稻基因组文库中筛选得到一个水稻GST基因,命名为OsGSTL1.半定量RT-PCR分析表明OsGSTL1基因的表达不受绿磺隆、乙烯利、脱落酸、水杨酸和茉莉酸甲酯的诱导,因此该基因可能与植物抗逆性无关.为了研究OsGSTL1启动子在植物体内的表达特性,将OsGSTL1起始位点5＇端上游不同长度的调控序列与报告基因GUS融合,并在洋葱表皮瞬间表达和拟南芥中稳定表达.研究表明：在洋葱表皮细胞中,160bp及更长的上游调控序列均能启动GUS基因的表达;而在转基因拟南芥中,含有2155 bp的上游序列的PGZ2.1：：GUS具有时空表达的特性,在转基因的早期幼苗中GUS基因在子叶中特异性表达,但在根中没有表达;而在幼苗生长的后期,根、茎、叶中都有少量的表达.但包含1 224 bp的上游序列的PGZ1.2：：GUS却表现为组成型表达的特性.由此推测,OsGSTL1启动子启动的基因表达可能与幼苗的营养代谢相关;而OsGSTL1启动子的时空表达相关元件可能位于OsGSTL1翻译起始位点5＇端上游-2155 bp至-1224 bp范围内.     

病程相关基因启动子片段与GUS的融合基因在拟南芥中的表达

PR1是拟南芥 (Arabidopsis thaliana L.) 系统获得抗性的一个标志基因。利用PCR技术,从拟南芥中扩增并克隆了PR1基因的启动子片段。将该启动子片段与GUS报告基因拼接,构建成含有PR1-GUS融合基因的重组表达质粒。经根癌农杆菌介导转化,得到了转基因的拟南芥植株。用已知的系统获得抗性激活剂处理转基因植物,检测到GUS活性。因此,这一转基因体系可以作为一种简便、灵敏的实验体系以筛选激活植物系统获得抗性的化合物。