共查询到18条相似文献,搜索用时 140 毫秒
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植物基因工程的兴起,使特定的外源基因引入植物细胞成为可能。水稻转基因研究是国内外植物分子遗传学研究的热点之一。近十几年来,水稻转基因研究已取得显著进展。综述了水稻基因转化的方法、转基因技术在水稻上的应用及外源基因在转基因后代中的遗传表达的研究进展。 相似文献
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转基因植物中外源基因及其表达产物转移的途径 总被引:10,自引:1,他引:9
随着转基因植物商品化应用的增多,全面了解转基因植物潜在的生态风险性尤为重要。国内外对“转基因植物中外源基因向野生亲缘物种漂移的可能性”、“昆虫对抗虫转基因植物的耐受性”以及“转基因植物对生物多样性的潜在影响”等问题已进行了广泛研究。对转基因植物中外源基因及其表达产物的几种可能转移途径作了概述。着重介绍了“经花粉散布或与野生亲缘物种杂交等途径引起的外源基因转移”以及“转基因植物对土壤生态系统的影响”等方面的研究情况。此外,还对“鉴定外源基因及其表达产物存在的方法”进行了简要探讨。 相似文献
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原位杂交技术 ( in situ hybridization,ISH)是基因定位的主要技术之一。近来 ,随着植物细胞染色体制片技术的发展 ,以及酶联放大检测系统的采用 ,在植物中已有低拷贝和单拷贝甚至小于 1 kb的 DNA序列定位的成功报道 [1 ,2 ]。染色体原位杂交技术不仅可以用于基因的物理作图 ,而且可以用来对转基因植物中的外源基因进行染色体定位 [3 5] 。研究表明 ,外源目的基因在转基因植物中的表达与整合位点有关 [6] 。因而 ,进行外源基因在转基因植物染色体上的定位以及研究外源基因的整合位点与表达之间的关系 ,对于开发和利用转基因植物具有重要… 相似文献
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Zheng-jun Guan Bin Guo Yan-lin Huo Zheng-ping Guan Jia-kun Dai Ya-hui Wei 《Applied microbiology and biotechnology》2013,97(7):2817-2840
Transgenic plant-derived vaccines comprise a new type of bioreactor that combines plant genetic engineering technology with an organism's immunological response. This combination can be considered as a bioreactor that is produced by introducing foreign genes into plants that elicit special immunogenicity when introduced into animals or human beings. In comparison with traditional vaccines, plant vaccines have some significant advantages, such as low cost, greater safety, and greater effectiveness. In a number of recent studies, antigen-specific proteins have been successfully expressed in various plant tissues and have even been tested in animals and human beings. Therefore, edible vaccines of transgenic plants have a bright future. This review begins with a discussion of the immune mechanism and expression systems for transgenic plant vaccines. Then, current advances in different transgenic plant vaccines will be analyzed, including vaccines against pathogenic viruses, bacteria, and eukaryotic parasites. In view of the low expression levels for antigens in plants, high-level expression strategies of foreign protein in transgenic plants are recommended. Finally, the existing safety problems in transgenic plant vaccines were put forward will be discussed along with a number of appropriate solutions that will hopefully lead to future clinical application of edible plant vaccines. 相似文献
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目前双基因和多基因转基因植物已经商品化,并展现了广泛的应用前景。但在转基因植物研究中,使多个基因同时在植物体中表达调控依然很难实现,是植物基因工程和生物技术发展中的难点。融合基因表达载体作为一种新型的方法,弥补了获得双价或多价转基因植物传统方法的缺点,具有更高的应用价值。本文对目前构建融合基因的方法作了评述,并对比较新颖的连接肽2A和LP4做了详细介绍。 相似文献
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利用DNA或RNA植物病毒作载体表达外源蛋白是近几年发展较快的一种新的遗传转化方式,它具有以下几个优点:表达量大,表达速度快,易于进行基因操作和接种以及适用对象广泛。已发展的四种载体构建策略包括:基因取代,基因插入,融合抗原和基因互补。植物病毒表达载体可以用于基因的重组、病毒的移动和基因功能的检测等基础性研究,也可用于商业上表达多种药用蛋白或疫苗。植物病毒表达载体的稳定性主要取决于存在同源序列而引起的基因重组。本文还对病毒载体的生物安全性进行了讨论。 相似文献
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植物抗虫基因工程研究进展 总被引:21,自引:0,他引:21
植物抗虫基因工程为防治农业害虫提供了一条崭新途径。本文对植物抗虫基因工程近年来所取得的某些研究进展,包括目前已发现和利用的抗虫基因、提高抗虫基因在植物体内表达的方法以及防止或延缓害虫产生抗性的策略等方面进行了综合评述,并对植物抗虫基因工程中有待解决的问题和发展前提提出了自己的看法。 相似文献
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植物抗虫基因工程为防治农业害虫提供了一条崭新途径。本文对植物抗虫基因工程近年来所取得的某些研究进展,包括目前已发现和利用的抗虫基因、提高抗虫基因在植物体内表达的方法以及防止或延缓害虫产生抗性的策略等方面进行了综合评述,并对植物抗虫基因工程中有待解决的问题和发展前景提出了自己的看法。 相似文献
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Minimizing the unpredictability of transgene expression in plants: the role of genetic insulators 总被引:1,自引:0,他引:1
The genetic transformation of plants has become a necessary tool for fundamental plant biology research, as well as the generation
of engineered plants exhibiting improved agronomic and industrial traits. However, this technology is significantly hindered
by the fact that transgene expression is often highly variable amongst independent transgenic lines. Two of the major contributing
factors to this type of inconsistency are inappropriate enhancer-promoter interactions and chromosomal position effects, which
frequently result in mis-expression or silencing of the transgene, respectively. Since the precise, often tissue-specific,
expression of the transgene(s) of interest is often a necessity for the successful generation of transgenic plants, these
undesirable side effects have the potential to pose a major challenge for the genetic engineering of these organisms. In this
review, we discuss strategies for improving foreign gene expression in plants via the inclusion of enhancer-blocking insulators,
which function to impede enhancer-promoter communication, and barrier insulators, which block the spread of heterochromatin,
in transgenic constructs. While a complete understanding of these elements remains elusive, recent studies regarding their
use in genetically engineered plants indicate that they hold great promise for the improvement of transgene expression, and
thus the future of plant biotechnology. 相似文献
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耐盐转基因植物研究进展 总被引:36,自引:0,他引:36
高盐是限制作物生长、发育和产量的最严重的非生物胁迫之一。长期以来,改善作物的耐盐性一直是一个伟大的目标。然而,由于耐盐反应是一个极为复杂的过程,过去,通过传统的育种和遗传工程取得的成功有限。近十年来,由于分子生物学的发展,发现了一些与耐盐相关的新基因,对于这些基因的表达方式及其在耐盐反应中的作用已逐步得到了解,这为转基因工程提供了新的材料。通过控制耐盐相关基因在植物体内的表达,已获得了一些提高耐盐性的转基因植物,展示了诱人的前景,但该领域研究仍然存在许多困难和问题,文章重点讨论耐盐转基因植物的进展。 相似文献
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Agrobacterium-mediated genetic transformation is the most widely used technology for obtaining the overexpression of recombinant proteins in plants. However, complex patent issues related to the use of Agrobacterium as a tool for plant genetic engineering and the general requirement of establishing transgenic plants can create obstacles in using this technology for speedy research and development and for agricultural improvements in many plant species. Recent studies addressing these issues have shown that virus-based vectors can be efficiently used for high transient expression of foreign proteins in transfected plants and that non-Agrobacterium bacterial species can be used for the production of transgenic plants, laying the foundation for alternative tools for future plant biotechnology. 相似文献