Expression of desiccation-related proteins from the resurrection plant Craterostigma plantagineum in transgenic tobacco

Three cDNAs encoding desiccation-induced proteins from the resurrection plant Craterostigma plantagineum were each ligated to a triplicated CaMV 35S promoter and a nopaline synthase 3-flanking region in an Agrobacterium vector and introduced into tobacco. Transgenic plants expressed the encoded Craterostigma proteins at high levels. This did not lead to changes in the phenotype, in the growth habit or in basic photosynthetic parameters. In tobacco, one protein was targeted to the chloroplast stroma which is its normal location in Craterostigma. These desiccation-related proteins are not sufficient per se to increase drought tolerance as measured by ion-leakage tests.     

转基因植物中抗生素抗性基因的安全性评价

20世纪80年代以来,植物转基因技术取得突飞猛进的进展。转基因植物大量出现,带来了巨大的经济效益和社会效益。与此同时,转基因植物的释放可能带来的风险也越来越受到人们的重视,抗生素抗性基因是筛选转基因植物的常用基因,其安全性引起了人们的普遍关注,作者就转基因植物中抗生素抗性基因的安全性作一综述。     

转基因植物中标记基因的消除

随着转基因植物的商业化,植物遗传转化技术将为农业生产带来一场新的革命,新的基因转化程序要求转基因为单拷贝,不带有标记基因,并在不同的转化体中表达一致,稳定遗传,本文讨论了转基因植物中有关标记基因及其安全性和标记基因消除的方法等问题。     

Bacterial pathogen phytosensing in transgenic tobacco and Arabidopsis plants

Plants are subject to attack by a wide range of phytopathogens. Current pathogen detection methods and technologies are largely constrained to those occurring post‐symptomatically. Recent efforts were made to generate plant sentinels (phytosensors) that can be used for sensing and reporting pathogen contamination in crops. Engineered phytosensors indicating the presence of plant pathogens as early‐warning sentinels potentially have tremendous utility as wide‐area detectors. We previously showed that synthetic promoters containing pathogen and/or defence signalling inducible cis‐acting regulatory elements (RE) fused to a fluorescent protein (FP) reporter could detect phytopathogenic bacteria in a transient phytosensing system. Here, we further advanced this phytosensing system by developing stable transgenic tobacco and Arabidopsis plants containing candidate constructs. The inducibility of each synthetic promoter was examined in response to biotic (bacterial pathogens) or chemical (plant signal molecules salicylic acid, ethylene and methyl jasmonate) treatments using stably transgenic plants. The treated plants were visualized using epifluorescence microscopy and quantified using spectrofluorometry for FP synthesis upon induction. Time‐course analyses of FP synthesis showed that both transgenic tobacco and Arabidopsis plants were capable to respond in predictable ways to pathogen and chemical treatments. These results provide insights into the potential applications of transgenic plants as phytosensors and the implementation of emerging technologies for monitoring plant disease outbreaks in agricultural fields.     

Desiccation of the resurrection plant Craterostigma plantagineum induces dynamic changes in protein phosphorylation

Reversible phosphorylation of proteins is an important mechanism by which organisms regulate their reactions to external stimuli. To investigate the involvement of phosphorylation during acquisition of desiccation tolerance, we have analysed dehydration-induced protein phosphorylation in the desiccation tolerant resurrection plant Craterostigma plantagineum. Several dehydration-induced proteins were shown to be transiently phosphorylated during a dehydration and rehydration (RH) cycle. Two abundantly expressed phosphoproteins are the dehydration- and abscisic acid (ABA)-responsive protein CDeT11-24 and the group 2 late embryogenesis abundant (LEA) protein CDeT6-19. Although both proteins accumulate in leaves and roots with similar kinetics in response to dehydration, their phosphorylation patterns differ. Several phosphorylation sites were identified on the CDeT11-24 protein using liquid chromatography-tandem mass spectrometry (LCMS/MS). The coincidence of phosphorylation sites with predicted coiled-coil regions leads to the hypothesis that CDeT11-24 phosphorylations influence the stability of coiled-coil interactions with itself and possibly other proteins.     

Developmental regulation and tissue-specific differences of heat shock gene expression in transgenic tobacco and Arabidopsis plants

The heat shock (hs) response during plant growth and development was analyzed in tobacco and Arabidopsis using chimaeric -glucuronidase reporter genes (hs-Gus) driven by a soybean hs promoter. Fluorimetric measurements and histochemical staining revealed high Gus activities in leaves, roots, and flowers exclusively after heat stress. The highest levels of heat-inducible expression were found in the vascular tissues. Without heat stress, a developmental induction of hs-Gus was indicated by the accumulation of high levels of Gus in transgenic tobacco seeds. There was no developmental induction of hs-Gus in Arabidopsis seeds. In situ hybridization to the RNA of the small heat shock protein gene Athsp17.6 in tissue sections revealed an expression in heat-shocked leaves but no expression in control leaves of Arabidopsis. However, a high level of constitutive expression of hs gene was detected in meristematic and provascular tissues of the Arabidopsis embryo. The developmental and tissue-specific regulation of the hs response is discussed.Abbreviations hs heat shock - Hsp heat shock protein(s) - hs Gus: heat-inducible Gus gene(s) - HSE heat shock element(s) - HSF heat shock factor - X-gluc 5-bromo-4-chloro-3-indolyl--D-glucuronide - Gus -glucuronidase - DAF days after flowering - SAR scaffold attachment region     

疫苗生产的新途径——转基因植物

与发酵生产方式相比,转基因植物疫苗生产技术具有高效、经济和简便等特点。植物表达系统生产外源蛋白一般采用两种方式：（１）编码外源抗原基因与植物基因组稳定整合;（２）利用植物病毒载体,使外源蛋白在植物细胞中瞬时表达。植物系统生产的抗原疫苗可保持自然免疫原性质,口服后能够诱发体液和粘膜免疫反应。