首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 365 毫秒
1.
植物单倍体诱导技术发展与创新   总被引:2,自引:0,他引:2  
《遗传》2020,(5)
单倍体育种是培育作物新品种的主要育种技术之一,提高单倍体诱导频率和简化诱导程序是单倍体育种技术的关键。随着单倍体诱导技术的发展与改进,单倍体育种技术已被广泛应用于许多重要植物的育种研究中,展现出基因纯合快速、育种年限缩短、育种效率提高等优势。单倍体诱导技术与杂交育种、诱变育种、反向育种和分子标记辅助选择育种等技术相结合,在作物品种改良上的作用更加显著。单倍体和双单倍体在遗传群体构建、基因功能鉴定、转基因研究、细胞学研究等方面具有重要应用价值。本文从单倍体诱导技术、单倍体和双单倍体应用等方面综述了植物单倍体诱导技术的发展,尤其是近年来利用基因组编辑技术创制主要作物单倍体诱导系的进展,并分析了目前研究中存在的问题和今后的发展方向,以期促进单倍体诱导技术尤其是利用基因编辑创造诱导系技术在作物育种中的应用。  相似文献   

2.
玉米单倍体技术的应用可以大大缩短自交系选育年限,加快育种进程,提高选育效率,尤其是孤雌生殖单倍体技术的广泛应用,能够在高效加倍的基础上快速选育稳定的纯系。本文较全面地综述了近年来关于玉米孤雌生殖诱导产生单倍体的机理及单倍体染色体加倍分子机制的研究新进展,旨在为单倍体技术更广泛的应用提供一定的理论依据。  相似文献   

3.
殷丽琴  付绍红  杨进  李云  王继胜  王茂林 《遗传》2016,38(11):979-991
单倍体(Haploid)是指含有配子染色体数目的个体,对其进行基因组加倍可以快速获得纯合双单倍体(Doubled haploid, DH)。单倍体和双单倍体在植物品种选育、突变体筛选、基因功能鉴定、细胞学研究、遗传群体构建等方面具有重要作用,是近年来植物领域的一大研究热点。本文从单倍体和双单倍体的产生途径、鉴定、形成机理以及应用等方面较全面地综述了单倍体的最新研究进展,为单倍体的研究利用作一定的参考。  相似文献   

4.
代色平  包满珠 《植物学报》2004,21(4):385-391
从常规育种、基因工程育种、体细胞育种和单倍体育种4个方面评述了矮牵牛(Petunia hybrida Vilm.)育种研究进展。国外对矮牵牛育种研究较多,新品种面世推陈出新,国内对其研究则较为薄弱。其常规育种最为成功,不断有新品种推出,基因工程育种也取得了一定成就,已有新品种面世,而体细胞育种及单倍体育种尚无新品种产生,但对这两种方法在育种上应用的可能性和前景作出了一定探索。  相似文献   

5.
矮牵牛育种研究进展   总被引:25,自引:0,他引:25  
从常规育种、基因工程育种、体细胞育种和单倍体育种4个方面评述了矮牵牛(Petunia hybrida Vilm.)育种研究进展.国外对矮牵牛育种研究较多,新品种面世推陈出新,国内对其研究则较为薄弱.其常规育种最为成功,不断有新品种推出,基因工程育种也取得了一定成就,已有新品种面世,而体细胞育种及单倍体育种尚无新品种产生,但对这两种方法在育种上应用的可能性和前景作出了一定探索.  相似文献   

6.
用花药培养法由雄性不育材料诱导单倍体尚未见报道。在马铃薯中,所有双单倍体或一单倍体,也都是由有效花粉百分数较高的雄性可育材料诱导产生的。本文首次报道了用花药培养法由一个典型的雄性不育的双单倍体品系诱导产生一单倍体的试验结果。从接种的1850个花药中,诱导出了28个胚状体和23块愈伤组织,并从它们分化出了24株绿苗。分化出的小植株生活力大部分较弱,在继代培养过程中逐渐死亡,但也有一些生活力较强的植株存话下来,经L_1、L_2和L_1 3个胚层细胞的检查表明,它们具有典型的一倍体特征,体细胞染色体数目为2n=x=12。植株之间表现出明显的性状分离,说明它们均来自减数分裂后的小孢子。大部分植株的产量较低,但也有少数生活力强,单株块茎产量达0.5公斤左右的抗病、品质好的植株。所有植株都具有不正常的减数分裂,无有效花粉形成,个别植株能结实,但无种子形成,用四倍体或双单倍体的可育花粉授粉也不能形成种子,进一步证明了它们具有一单倍体特性。对诱导马铃薯一单倍体和利用雄性不育材料进行花药培养诱导单倍体的意义进行了讨论。  相似文献   

7.
该研究利用油菜双单倍体株系(348份)群体和已构建的遗传连锁图谱,采用复合区间作图法,对2009~2013年连续5年的千粒重性状表型数据进行QTL初步定位和分析,结果共获得46个显著性千粒重QTL,主要分布在A7、C1和C6等11条染色体上;其中qTSW-09 DL11-1的表型变异最高(19.63%),qTSW-11 DL9的表型变异最小(2.73%)。通过元分析方法将所获得的46个QTL进行整合,结果显示:cqTSW-C1-2的表型变异最大(10.64%),并发现多个整合后的一致性QTL能够在连续多年试验中被检测到,其中cqTSW-C1-3连续5年被检测到,表明控制千粒重的QTL在种植环境中能够稳定表达;同时,新发现位于C1染色体上的千粒重主效QTL cqTSW-C1-2,解释表型变异达到10.64%。油菜千粒重性状的QTL分析和主效QTL的获得,为进一步实现油菜大籽粒的分子育种和高产新品种的培育提供了重要的理论指导。  相似文献   

8.
利用花药培养获得单倍体,从而加速育种进程,是一项新兴的生物技术,目前在玉米育种中广泛应用。本文综合近几年来国内外玉米的花药培养、单倍体育种以及基因工程等方面的研究进展,重点对影响玉米花药培养效率的诸多因素进行了详细论述,并讨论了利用单倍体植株进行基因转导的潜力。  相似文献   

9.
该文较全面地综述了获得植物单倍体的相关途径及其在基础科学研究和植物育种方面的重要应用,着重介绍了一种基于着丝粒改造的染色体消除法诱导单倍体的策略及植物单倍体在基因组学研究中潜在的应用价值,旨在促进植物单倍体技术的完善并开拓其应用领域。  相似文献   

10.
马铃薯未传粉子房离体培养诱导双单倍体植株   总被引:3,自引:0,他引:3  
以MS为基本培养基,附加不同水平的生长素,培养未传粉马铃薯子房,经三年试验,从两个品种中获得了双单倍体的绿色小植株,(2n=2x=24);从分化绿苗力很强的球状愈伤组织中,又不断地分化出许多绿色小植株。绝大多数品种,都可以诱导出愈伤组织,一般诱导率为70%左右。品种的基因型和培养基中的生长素种类与水平在愈伤组织分化绿苗中起着重要作用。通过扦插和试管微型薯培养,可以大量繁殖试管苗,这为马铃薯单倍体育种提供了较有利的条件。  相似文献   

11.
禾本科牧草与草坪草在农业可持续发展、城市绿化和生态环境保护方面起着至关重要的作用。近年来, 随着生物技术的发展, 国内外在牧草及草坪草雄核发育与单倍体育种研究方面取得了较大进展。该文在归纳总结该领域研究成果的基础上, 对影响禾本科牧草及草坪草雄核发育与单倍体育种的几个主要因素进行了探讨。大量研究结果表明, 供试材料的基因型是影响培养效率的最主要因素。小孢子发育到单核中期至晚期时有利于提高培养效率。培养前花药经过低温和甘露醇等预处理不但可以提高愈伤组织的诱导效率, 还可提高愈伤组织的质量。适宜的激素种类和配比也是影响培养成败的关键因素。同时, 总结了雄核发育再生植株的倍性鉴定方法和加倍技术, 对单倍体育种技术在禾本科牧草及草坪草育种中的应用前景进行了展望。  相似文献   

12.
Haploid induction has potential application for maize breeding. This paper reports that maize haploid plants have been induced by in vitro culture of pollinated ovaries. From a total of 26,400 cultured ovaries, 24 haploid plants were obtained and two of them were doubled after colchicine treatment. The maximum frequency of gynogenesis was 0.17% at 19.5 h post-pollination (HPP). The results showed that HPP was an important factor affecting plant induction from ovaries. Regenerated diploid R0 plants were then subjected to genetic analysis using SSR molecular markers. One R0 plant, whose progeny revealed a high level of homogeneity for several agro-morphological traits, was homozygous at 20 loci tested, with 11 showing paternal and 9 maternal banding pattern. This demonstrates that it is feasible to induce maize haploid plants by in vitro culture of pollinated ovaries.  相似文献   

13.
中国水稻遗传育种历程与展望   总被引:8,自引:0,他引:8  
吴比  胡伟  邢永忠 《遗传》2018,40(10):841-857
我国的水稻育种经历了矮化育种、杂种优势利用和绿色超级稻培育3次飞跃,其间伴随矮化育种(第一次绿色革命)、三系杂交稻培育、二系杂交稻培育、亚种间杂种优势利用、理想株型育种和绿色超级稻培育等6个重要历程。育种目标从唯产量是举到高抗、优质和高产并重,育种理念从高产优质逐步提升为“少投入,多产出,保护环境”。水稻功能基因组研究为第二次绿色革命准备了大量的有重要利用价值的基因,水稻育种正迈向设计育种的新时代。基因组选择技术和转基因技术将为培育“少打农药,少施化肥,节水抗旱,优质高产” 绿色超级稻保驾护航。本文对我国水稻遗传育种的发展历程进行了概括,指出了各种育种方法和育种技术的优缺点,系统介绍了水稻细胞质雄性不育和光温敏雄性核不育以及籼粳杂种不育的分子机制的研究进展,综述了水稻株型、穗型、粒形和养分高效利用相关的重要功能基因,阐明了产量与开花期联动的关系,凸显了我国水稻基础研究在国际上的重要地位。特别指出,近年来,我国水稻生产方式发生了或正在发生巨大变革,育种理念也要与时俱进。未来,杂交育种技术要与现代育种技术紧密结合,选育水稻品种不仅要满足市场需求,而且更要具备绿色健康的特点,同时还要适应新耕作制度和新耕作方法。  相似文献   

14.
In vivo haploid induction has been extended from maize to monocotyledonous plants like rice, wheat, millet and dicotyledonous plants such as tomato, rapeseed, tobacco and cabbage. Accurate identification of haploids is a crucial step of doubled haploid technology, where a useful identification marker is very pivotal. R1-nj is an extensively used visual marker for haploid identification in maize. RFP and eGFP have been shown to be feasible in identifying haploid. However, these methods are either limited to specific species, or require specific equipment. It still lacks an efficient visual marker that is practical across different crop species. In this study, we introduced the RUBY reporter, a betalain biosynthesis system, into maize and tomato haploid inducers as a new marker for haploid identification. Results showed that expression of RUBY could result in deep betalain pigmentation in maize embryos as early as 10 days after pollination, and enabled 100% accuracy of immature haploid embryo identification. Further investigation in tomato revealed that the new marker led to deep red pigmentation in radicles and haploids can be identified easily and accurately. The results demonstrated that the RUBY reporter is a background-independent and efficient marker for haploid identification and would be promising in doubled haploid breeding across different crop species.  相似文献   

15.
The utility of haploids and DH lines for breeding programmes and basic research is discussed here. High effectiveness of haploid induction from random responding gametes and from valuable donor plants is not sufficient to ensure success in breeding. DH lines often appeared inferior to conventionally obtained inbred lines. One of the causes may be a very high level of homozygosity, in this paper referred to as excessive homozygosity. Besides, colchicine treatment as well as gametoclonal and somaclonal variation could have a negative effect on the agronomic performance of DH plants. Lack of natural selection in the first stages of haploid development is another important factor, negatively influencing haploid utility. On the other hand, there is a wide range of possibilities of using haploids as model plants for basic research. Among different applications, including mapping, genetic analysis, mutations, transformation, somatic hybridisation, biochemical and physiological studies, artificial seed production and germplasm storage, the first seems to be explored most effectively and give promising results.  相似文献   

16.
油酸(C18∶1)是双低菜籽油的主要脂肪酸之一,合理的高油酸菜籽油脂肪酸组分更有利于人体健康,因此提高油酸含量是双低油菜品质育种的一个重要方向。当前我国高油酸油菜品种选育相关研究进展缓慢,高油酸菜籽油产业化进程急需提速。围绕高油酸油菜主要从四个方面开展论述:国内外利用理化方法成功创建的油菜高油酸种质资源及其高油酸性状遗传模式;油菜高油酸性状的控制基因及其突变位点;世界上高油酸品种的培育以及我国高油酸品种的发展趋势;当前高油酸品种的不足及今后高油酸油菜品种的改良途径。为油菜育种工作者较全面地展示了国际上高油酸油菜在遗传育种方面的研究成果,也为今后我国高油酸油菜的进一步发展提供了参考。  相似文献   

17.
Novel technologies in doubled haploid line development   总被引:1,自引:0,他引:1       下载免费PDF全文
haploid inducer line can be transferred (DH) technology can not only shorten the breeding process but also increase genetic gain. Haploid induction and subsequent genome doubling are the two main steps required for DH technology. Haploids have been generated through the culture of immature male and female gametophytes, and through inter‐ and intraspecific via chromosome elimination. Here, we focus on haploidization via chromosome elimination, especially the recent advances in centromere‐mediated haploidization. Once haploids have been induced, genome doubling is needed to produce DH lines. This study has proposed a new strategy to improve haploid genome doubling by combing haploids and minichromosome technology. With the progress in haploid induction and genome doubling methods, DH technology can facilitate reverse breeding, cytoplasmic male sterile (CMS) line production, gene stacking and a variety of other genetic analysis.  相似文献   

18.
油菜油脂研究进展   总被引:12,自引:0,他引:12  
油菜(Brassica napus)是世界范围内重要的油料作物,是植物油脂的第三大来源,其种植面积和总产量在油料作物中占有相当大的比例。我国油菜品种油脂含量普遍较国外低2—5个百分点,而油脂含量每增加1个百分点对产油量提高的贡献,相当于菜籽产量提高2.5个百分点。因此提高油菜油脂含量是解决油菜生产效益低的重要途径之一。本文综述了油菜油脂研究的状况,包括油脂积累的遗传学基础、油脂合成途径和调控、油脂含量的QTL定位及油脂含量与品质性状的遗传相关性,同时展望了油菜油脂研究前景,以期为油菜油脂含量的品种改良提供科学指导。  相似文献   

19.
油菜(Brassica napus)是世界范围内重要的油料作物, 是植物油脂的第三大来源, 其种植面积和总产量在油料作物中占有相当大的比例。我国油菜品种油脂含量普遍较国外低2-5个百分点, 而油脂含量每增加1个百分点对产油量提高的贡献, 相当于菜籽产量提高2.5个百分点。因此提高油菜油脂含量是解决油菜生产效益低的重要途径之一。本文综述了油菜油脂研究的状况, 包括油脂积累的遗传学基础、油脂合成途径和调控、油脂含量的QTL定位及油脂含量与品质性状的遗传相关性, 同时展望了油菜油脂研究前景, 以期为油菜油脂含量的品种改良提供科学指导。  相似文献   

20.
The recent development of the industrial use of rapeseed oil rich in erucic acid has led to increased interest in the improvement of the high-erucic-acid (50–60%) varieties and to research towards genotypes containing a very high erucic acid content. This trait is controlled by two genes with additive effects. The low-erucic-acid trait was relatively easily introduced through backcrosses into various backgrounds because the zero-erucic-acid homozygotes were clearly identified in the segregating populations. To select for high erucic acid level is more difficult because of the partial overlap of the high-erucic-acid homozygous class and the intermediate one, containing heterozygotes. In order to help conventional breeding, RAPD markers were used to map the two genes involved in determining the erucic acid content in a doubled haploid progeny derived from a low x high erucic acid F1 hybrid. The two genes were successfully localized in two independent linkage group, through a QTL approach. A close association was found between individual plant genotypes and the erucic acid content of the doubled haploid progeny, and it was shown that the two genes do not contribute uniformly to the C22:1 level. The value of molecular gene mapping of such a trait in a conventional breeding programme is discussed.Abbreviations BSA bulked segregant analysis - DH doubled haploid - NIL near-isogenic lines - QTL quantitative trait locus - C22:1 erucic acid - TAG triacyl glycerol - SCAR sequence characterized amplified region  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号