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1.
Wheat transformation technology has progressed rapidly during the past decade. Initially, procedures developed for protoplast isolation and culture, electroporation- and polyethylene glycol (PEG)-induced DNA transfer enabled foreign genes to be introduced into wheat cells. The development of biolistic (microprojectile) bombardment procedures led to a more efficient approach for direct gene transfer. More recently, Agrobacterium-mediated gene delivery procedures, initially developed for the transformation of rice, have also been used to generate transgenic wheat plants. This review summarises the considerable progress in wheat transformation achieved during the last decade. An increase in food production is essential in order to sustain the increasing world population. This could be achieved by the development of higher yielding varieties with improved nutritional quality and tolerance to biotic and abiotic stresses. Although conventional breeding will continue to play a major role in increasing crop yield, laboratory-based techniques, such as genetic transformation to introduce novel genes into crop plants, will be essential in complementing existing breeding technologies. A decade ago, cereals were considered recalcitrant to transformation. Since then, a significant research effort has been focused on cereals because of their agronomic status, leading to improved genetic transformation procedures (Bommineni and Jauhar 1997). Initially, the genetic transformation of cereals relied on the introduction of DNA into protoplasts and the subsequent production of callus from which fertile plants were regenerated. More recently, major advances have been accomplished in the regeneration of fertile plants from a range of source tissues, providing an essential foundation for the generation of transgenic plants. This review summarises procedures, vectors and target tissues used for transformation, high-lights the limitations of current approaches and discusses future trends. The citation of references is limited, where possible, to the most relevant or recent reports.  相似文献   

2.
Summary Transfer of genes from heterologous species provides the means of selectively introducing new traits into crop plants and expanding the gene pool beyond what has been available to traditional breeding systems. With the recent advances in genetic engineering of plants, it is now feasible to introduce into crop plants, genes that have previously been inaccessible to the conventional plant breeder, or which did not exist in the crop of interest. This holds a tremendous potential for the genetic enhancement of important food crops. However, the availability of efficient transformation methods to introduce foreign DNA can be a substantial barrier to the application of recombinant DNA methods in some crop plants. Despite significant advances over the past decades, development of efficient transformation methods can take many years of painstaking research. The major components for the development of transgenic plants include the development of reliable tissue culture regeneration systems, preparation of gene constructs and efficient transformation techniques for the introduction of genes into the crop plants, recovery and multiplication of transgenic plants, molecular and genetic characterization of transgenic plants for stable and efficient gene expression, transfer of genes to elite cultivars by conventional breeding methods if required, and the evaluation of transgenic plants for their effectiveness in alleviating the biotic and abiotic stresses without being an environmental biohazard. Amongst these, protocols for the introduction of genes, including the efficient regeneration of shoots in tissue cultures, and transformation methods can be major bottlenecks to the application of genetic transformation technology. Some of the key constraints in transformation procedures and possible solutions for safe development and deployment of transgenic plants for crop improvement are discussed.  相似文献   

3.
我国转基因作物育种发展回顾与思考   总被引:3,自引:0,他引:3  
文章综述了近30年来我国转基因作物育种发展历程和基本经验,并以实例说明我国已初步建成了世界上为数不多的转基因育种创新和产业开发体系,包括基因发掘、遗传转化、良种培育、产业开发,应用推广以及安全评价等关键环节;棉花、水稻、玉米等作物转基因研究创新能力得到进一步提升,初步形成了自己的研究特色和比较优势。本文对转基因作物育种当前存在的问题与面对的挑战进行了分析,提出了推进重大研究成果产业化、加快重大专项实施和自主创新、加强转基因科学传播等三点建议。  相似文献   

4.
近年来,植物遗传转化研究有了长足的发展。已经达到能够通过简单的遗传控制手段研究具有新表现型的植物,甚至达到进入商业化的程度。这些手段包括植物生物学的主要研究技术以及植物组织培养和树种改良的一些实用方法。尽管采用农瘤杆菌和鸟枪法等技术的植物遗传转化系统已经得到了广泛的应用,但是在如何开发具有能够得到控制表达的转基因高产植物方面,在如何使所得到的转基因植物远离遗传危害等方面,目前的转化系统遇到了极大的技术挑战。已经提出了各种各样的方法用于将新基因稳定地导入120多种不同植物的核基因组。本文将讨论这些遗传转化系统所需的生物学要求和实际应用方面的需求、基因转化和转基因表达的研究策略、遗传转化植物的鉴定以及转基因植物与大众的认可。本文将分为七个部分加以讨论:一、导言;二 、基因转化到细胞里的方法;三、植物遗传转化策略;四、植物遗传转化的鉴定;五、植物遗传转化的实际应用;六、转基因植物与环境;七、未来植物遗传转化的需求与发展方向。  相似文献   

5.
植物遗传转化表达载体是植物转基因研究中非常重要的一个环节,外源基因在转基因植物中的高效表达是转基因研究成功的关键。综述了植物遗传转化表达载体近年来的研究进展情况,着重介绍了在转基因植物中实现外源基因高效表达的多种途径和策略,旨在提高转基因植物中外源基因的表达水平和生物安全性,并展望了今后植物转基因研究及商业化发展方向。  相似文献   

6.
主要农作物转基因研究现状和展望   总被引:12,自引:0,他引:12  
近15年来,大豆、水稻、玉米、小麦等主要农作物转基因研究取得了较大进展,几乎各种遗传转化方法在这些作物上都取得了成功,尤其是农杆菌介导法,不仅在难转化的双子叶作物大豆上取得了成功,而且在单子叶作物水稻、玉米、小麦上先后取得了突破。同时,将一些与重要性状改良有关的外源基因转入了主要农作物,包括抗虫、抗病、抗除草剂、抗逆、品质改良、发育调控、营养吸收等。转基因大豆、玉米、棉花、油菜在生产上得到了大面积种植,产生了极大的经济效益,2004年全球转基因作物的种植面积达到了8100万公顷。本文对大豆、玉米、水稻和小麦等主要农作物转基因研究历史和产业化现状进行了综述,并对主要农作物转基因研究中存在的问题进行了分析。  相似文献   

7.
玉米是我国重要的粮食作物和饲料作物。目前转基因技术作为生物育种技术的代表,已成为国际上育种的前沿和核心技术。世界各国利用转基因技术相继研发了具有多种优良性状的转基因玉米,创造了巨大的经济效益;同时统一、有效的监管措施是转基因玉米研发、推广和商业化的重要基础。食用安全性评价是有效监管的前提。针对转基因玉米的商业化和控制玉米重要性状基因的研究进展进行了综述,并对转基因玉米的食用安全性评价进行归纳分析,以期为我国转基因玉米的研发、管理和推广提供理论参考。  相似文献   

8.
Advances in development of transgenic pulse crops   总被引:3,自引:0,他引:3  
It is three decades since the first transgenic pulse crop has been developed. Todate, genetic transformation has been reported in all the major pulse crops like Vigna species, Cicer arietinum, Cajanus cajan, Phaseolus spp, Lupinus spp, Vicia spp and Pisum sativum, but transgenic pulse crops have not yet been commercially released. Despite the crucial role played by pulse crops in tropical agriculture, transgenic pulse crops have not moved out from laboratories to large farm lands compared to their counterparts - 'cereals' and the closely related leguminous oil crop - 'soybean'. The reason for lack of commercialization of transgenic pulse crops can be attributed to the difficulty in developing transgenics with reproducibility, which in turn is due to lack of competent totipotent cells for transformation, long periods required for developing transgenics and lack of coordinated research efforts by the scientific community and long term funding. With optimization of various factors which influence genetic transformation of pulse crops, it will be possible to develop transgenic plants in this important group of crop species with more precision and reproducibility. A translation of knowledge from information available in genomics and functional genomics in model legumes like Medicago truncatula and Lotus japonicus relating to factors which contribute to enhancing crop yield and ameliorate the negative consequences of biotic and abiotic stress factors may provide novel insights for genetic manipulation to improve the productivity of pulse crops.  相似文献   

9.
玉米是世界上种植面积最大的粮食作物,为了提高玉米产量和满足人类需求,转基因育种已经成为改良玉米性状的有效手段。自1996年美国种植商业化转基因玉米以来,利用玉米遗传转化技术开发商业化转基因玉米已取得巨大成功。综述了玉米遗传转化体系优化的重要步骤,系统总结了已开发的商业化转基因玉米的种类,并对玉米遗传转化未来发展方向进行了展望。  相似文献   

10.
Age-dependent transformation frequency in elite wheat varieties.   总被引:10,自引:0,他引:10  
Wheat is a major world crop and as such is a primary target for improvement of agronomic characteristics via genetic engineering. Optimization of transformation is essential in order to overcome the relatively low transformation frequencies encountered with wheat. Transformation of elite wheat varieties is not always successful due to variability in regeneration and transformation frequencies between varieties. In this work, two elite wheat varieties with a relatively high embryogenic capacity were transformed by particle bombardment. A strong correlation between transformation frequency and the age of wheat donor plants was observed in both varieties. The mean transformation frequency rose from 0.7% to 5% when using immature embryos from old and young donor plants, respectively. This was observed in both varieties, the best bombardments achieving up to 7.3% frequency. Using explants at an optimal developmental stage from donor plants grown under environmentally-controlled conditions has improved the reproducibility of transformation efficiency of elite wheat varieties and leads to the production of apparently phenotypically normal, fertile, transgenic plants.  相似文献   

11.
Narrow-leaf lupin (NLL) is the main legume crop grown in rotation with wheat and other cereals in Western Australia. Efforts to improve NLL germplasm by use of genetic technologies have been hampered by the lack of an efficient genetic transformation method, an issue that is in common with dominant crop legumes globally. Prior research has primarily used the bar gene for phosphinothricin (PPT) resistance. The aim of recent research has been to investigate alternative selection methodologies, in order to determine whether the limitations of low frequency of transgenic shoots, combined with chimerism at T0 could be overcome. Investigation of hygromycin resistance as a selectable marker compared to PPT is reported here. The results suggested that hygromycin resistance was a more suitable selectable marker for NLL transformation than PPT. Surprisingly, from investigation of transformation using the GUS reporter gene, it was also observed that transformation frequency was greater when selection treatment was reduced or delayed, compared to the existing protocols. To further investigate this observation, an eGFP expressing construct was prepared. Observations within the first week after Agrobacterium exposure of lupin explants demonstrated that transformation of NLL explant cells was not a rate-limiting step. Instead, the results indicated that the current selection methodology was killing the cells that were competent to regenerate into transgenic shoots. It was concluded that further research on the development of the treated explants should focus on delayed selection and exposure to Agrobacterium of cells below the apical meristem.  相似文献   

12.
Genetic transformation is a reverse genetics tool for validation of target genes and crop improvement. However, due to its low efficiency and genotype dependency, wheat is considered a recalcitrant plant for genetic transformation. During the last 20 years, various in vitro and in planta transformation methods have been reported in wheat. Until now, biolistic particle and Agrobacterium-mediated wheat transformation methods using immature embryos as explants have been the two major transformation approaches. In addition to immature embryos, other explant types, such as mature embryos, anther-derived calli, inflorescences, apical meristems, and other floral organs, have been employed; however, they need further optimization. In addition to the common marker genes, such as bar, hpt and gus, other effective markers, ALS, AtMYB12 and pmi, have been successfully used for selection of positive transgenic plants. Numerous agronomic trait genes such as biotic stress resistance or tolerance genes have been transferred into wheat plants. Future prospects, such as recipient wheat cultivars and explants, marker free issues, and transgene silencing, are discussed. The objective of this review is to summarize current successful techniques for wheat transformation and stimulate further research into long-term wheat improvement by genetic engineering approaches.  相似文献   

13.
遗传转化是植物基因工程的重要手段。快速、高效地将目的基因导入植物细胞, 并缩短获得转基因后代的时间是遗传转化的关键。花生(Arachis hypogaea)是我国重要的油料及经济作物。目前花生的遗传转化体系尚未完善, 制约着花生的基因功能解析和分子育种进程。该文建立了一套快速、稳定的花生遗传转化体系。通过将农杆菌注射于花生第2茎节的切面获得转化植株, 再将阳性植株进行移栽和回土, 采摘注射点以上的荚果进行后续鉴定与分析。结果表明, 利用该方法可获得40%以上的T0代嵌合体植株, 约5个月可收获T0代花生种子, 其中约有9%的T1代花生植株为非嵌合体的杂合体。针对部分转基因植株结实少的问题, 进一步提出了将快速转化体系与传统组培方法相结合的优化方案。构建的快速转化方法对大蒜(Allium sativum)、马铃薯(Solanum tuberosum)和香雪兰(Freesia refracta)的遗传转化具有潜在应用价值, 对其它植物的遗传转化也有重要参考价值。  相似文献   

14.
Direct DNA transfer methods based on particle bombardment have revolutionized plant genetic engineering. Major agronomic crops previously considered recalcitrant to gene transfer have been engineered using variations of this technology. In many cases variety-independent and efficient transformation methods have been developed enabling application of molecular biology techniques to crop improvement. The focus of this article is the development and performance of electric discharge particle bombardment (ACCELL™) technology. Unique advantages of this methodology compared to alternative propulsion technologies are discussed in terms of the range of species and genotypes that have been engineered, and the high transformation frequencies for major agronomic crops that enabled the technology to move from the R&D phase to commercialization. Creation of transgenic soybeans, cotton, and rice will be used as examples to illustrate the development of variety-independent and efficient gene transfer methods for most of the major agronomic crops. To our knowledge, no other gene transfer method based on particle bombardment has resulted in variety-independent and practical generation of large numbers of independently-derived crop plants. ACCELL™ technology is currently being utilized for the routine transfer of valuable genes into elite germplasm of soybean, cotton, bean, rice, corn, peanut and woody species.  相似文献   

15.
小麦转基因技术研究进展   总被引:1,自引:0,他引:1  
小麦是我国的主要粮食作物,对其进行基因工程改良已成为研究的热点。近年来,利用转基因技术以提高小麦产量、改善品质、增强抗病虫和抗逆能力等相关研究日趋深入广泛。主要对目前小麦转基因研究现状进行综述,包括表达载体、报告基因与选择标记基因、目标基因、受体材料及转化方法等;并对当前小麦转基因技术存在的问题及育种潜力分析和展望。  相似文献   

16.
The costs of meeting regulatory requirements and market restrictions guided by regulatory criteria are substantial impediments to the commercialization of transgenic crops. Although a cautious approach may have been prudent initially, we argue that some regulatory requirements can now be modified to reduce costs and uncertainty without compromising safety. Long-accepted plant breeding methods for incorporating new diversity into crop varieties, experience from two decades of research on and commercialization of transgenic crops, and expanding knowledge of plant genome structure and dynamics all indicate that if a gene or trait is safe, the genetic engineering process itself presents little potential for unexpected consequences that would not be identified or eliminated in the variety development process before commercialization. We propose that as in conventional breeding, regulatory emphasis should be on phenotypic rather than genomic characteristics once a gene or trait has been shown to be safe.  相似文献   

17.
我国部分地区土地盐碱化的日益严重,对作物的生长和生态环境产生了显著影响,因此通过植物基因工程手段培育耐盐碱的转基因作物品种对改善作物的生存能力和生态环境,提高作物产量具有重要的意义。采用农杆菌介导法将来自小麦(Triticum aestivum Linn)的Na+ /H+逆向转运蛋白的基因(vacuolar Na+/H+ exchanger or antiporter,简称NHX、NHE或NHA),对普那菊苣(Cichorium intybus L.cv.Puna)植株进行了遗传转化。经抗生素筛选以及针对TaNHX2基因的PCR检测和Southern杂交分析,证明获得了28株转TaNHX2基因的普那菊苣植株。用不同浓度NaCl溶液对普那菊苣野生型和T0代种子、愈伤组织和幼苗生长情况胁迫的研究,结果表明:转TaNHX2基因普那菊苣植株表现出一定的抗性,比野生型明显提高。在300 mmol/L NaCl胁迫下转基因植株种子的出芽率、外植体出愈率和分化率是野生型植株的2-4倍,而500 mmol/L NaCl浓度为野生型和转基因外植体能否生长的临界点。在此临界值下野生型外植体或不能形成愈伤组织、或幼苗不能正常生根、或已生根幼苗不能正常成长,而转基因外植体可以继续形成愈伤组织并正常生根生长。同时对500 mmol/L NaCl胁迫下野生型和转基因普那菊苣幼苗其体内丙二醛含量(MDA)、过氧化氢酶(POD)和超氧化物歧化酶(SOD)活性进行测定,结果表明 转基因植株比野生型植株的MDA含量降低了1-3倍,POD活性提高了1-3倍,SOD活性提高了2-3倍,分析发现普那菊苣的耐盐性与其体内的丙二醛含量(MDA)、过氧化氢酶(POD)和超氧化物歧化酶(SOD)活性密切相关。  相似文献   

18.
转基因植物环境安全评价策略   总被引:4,自引:0,他引:4  
构建完善的转基因植物环境安全评价技术体系是保障转基因生物产业健康发展的重要组成部分。本文综述了转基因植物环境安全评价技术发展历程与趋势,归纳了转基因植物环境安全评价的思路与内容。转基因植物环境安全评价应分为潜在风险分析、风险假设验证、风险特征描述等3个步骤,并采用逐层评价模式;安全评价应贯穿转基因植物新品种研发与产业化全程,包括应用前预测、研发中筛选、推广前评价、推广后监测。此外,基于科学性和个案分析原则,本文对复合性状、非生物胁迫抗性等新型转基因植物环境安全评价策略进行了探讨。  相似文献   

19.
高粱遗传转化研究进展   总被引:2,自引:0,他引:2  
高粱是世界上仅次于小麦、水稻、玉米和大豆的重要作物之一,然而由于其高效、稳定的遗传转化体系的建立较难,限制了其转基因研究进程.近年来,随着转基因技术的不断发展和完善,高粱转基因研究也取得了飞速的发展.从高粱遗传转化再生系统中外植体的选择、转化方法、影响转化和基因表达效率的因素等几方面进行了综述,并总结转基因高粱研究进展.  相似文献   

20.

Key message

The current status of development of transgenic plants for improved aphid resistance, and the pros and cons of different strategies are reviewed and future perspectives are proposed.

Abstract

Aphids are major agricultural pests that cause significant yield losses of crop plants each year. Excessive dependence on insecticides for aphid control is undesirable because of the development of insecticide resistance, the potential negative effects on non-target organisms and environmental pollution. Transgenic plants engineered for resistance to aphids via a non-toxic mode of action could be an efficient alternative strategy. In this review, the distribution of major aphid species and their damages on crop plants, the so far isolated aphid-resistance genes and their applications in developments of transgenic plants for improved aphid resistance, and the pros and cons of these strategies are reviewed and future perspectives are proposed. Although the transgenic plants developed through expressing aphid-resistant genes, manipulating plant secondary metabolism and plant-mediated RNAi strategy have been demonstrated to confer improved aphid resistance to some degree. So far, no aphid-resistant transgenic crop plants have ever been commercialized. This commentary is intended to be a helpful insight into the generation and future commercialization of aphid-resistant transgenic crops in a global context.  相似文献   

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