共查询到19条相似文献,搜索用时 187 毫秒
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开发实用的染色体加倍体系构建成烟草DH群体 总被引:5,自引:0,他引:5
通过对4种染色体加倍方法(烟草浸花药法、浸花培苗法,叶片再生法及浸腋芽法等)的比较研究表明:以4g/L浓度的秋水仙碱浸泡花药法加倍率最高达47.5%~75%,其次为叶片再生法(30%~36.67%)和浸苗法(16.67%~32.35%),而浸腋芽法较低(17.78%)。前两种方法加倍率虽高,但有较高畸形苗比率,叶片再生法工序较繁琐。作者认为烟草加倍单倍体产生,应以采用浸苗法为主。在使用秋水仙碱浸苗加倍时,添加DMSO可明显促进秋水仙碱的加倍效率,且促进作用随时间延长而提高:从高效、快捷和节约等原则考虑,我们开发了烟草有效的染色体加倍体系,以4g/L的秋水仙碱 20g/LDMSO溶液浸苗48h的效果最好。对两个组合烟草单倍体苗浸12h以上,其染色体加倍效率达到对照的2.30-2.93倍。本试验用较低浓度秋水仙碱添加DMSO有利于节约实验费用。通过完善染色体加倍技术程序已构建成2个DH群体,供基因定位研究。 相似文献
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玉米单倍体育种技术可以有效地缩短育种进程,快速获得大量纯合系。孤雌生殖诱导是获得玉米单倍体的主要方法之一,该项技术在国外各大育种公司已被广泛使用,但在国内仍处于研究探索阶段。本文从诱导系的选择与繁殖、基础材料的组配、杂交诱导、单倍体籽粒的挑选、单倍体植株的种植、加倍以及双单系的繁殖等方面综述了孤雌生殖诱导系(简称诱导系)产生玉米单倍体育种技术的基本流程,同时展望了单倍体育种的应用前景。 相似文献
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Oryzalin as an Efficient Agent for Chromosome Doubling of Haploid Apple Shoots in vitro 总被引:4,自引:0,他引:4
In an outbreeding species such as apple, haploid plants may be especially useful in breeding programmes for the production of homozygous material. However, methods must be available to induce chromosome doubling in the haploid plants. Two antimitotic agents, colchicine and oryzalin, were compared as regards their efficiency in inducing chromosome doubling of in vitro haploid apple shoots. Three colchicine levels (0.025, 0.25 and 1.25 mM) and three oryzalin levels (5, 15 and 30 μM) were evaluated. Three techniques were also used and compared. Survival rate and chromosome counts were determined. Differences were observed between the two antimitotic agents and between the three techniques. This study demonstrates that oryzalin could be a better choice than colchicine for chromosome doubling on haploid apple shoots in vitro. 相似文献
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Early spontaneous diploidization of maternal maize haploids generated by in vivo haploid induction 总被引:2,自引:0,他引:2
The production of doubled haploid (DH) lines has become a key technology in maize (Zea mays L.) research and breeding. However, most of the haploid plants are sterile and in many cases artificial chromosome doubling involves the use of costly and toxic chemicals. Here, we report a special kind of doubled haploid named the early doubled haploid (EH) that was generated directly by in vivo haploid induction. We found 83 EH plants induced from the hybrid Zhengdan958, 55 families of its F2:3 population and the parental lines, all of which were confirmed to be homozygous diploids via flow cytometry and 104 SSR markers. The progeny of EH0 (EH1) behaved in the same manner and showed the same potentialities as the parents of Zheng58 and Chang7-2. EH plants were also detected in other genetic backgrounds at a frequency of 1–3.5 % based on the total number of haploid plants. Because the EH lines exhibited completely fertility and were obtained from induction directly in one step, they could be used in DH breeding as a new breeding strategy. According to our observations, it is likely that spontaneous doubling in EH occurred during embryo development when haploid induction. The possible mechanism of EH is also discussed. 相似文献
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棉花半配合材料 VSg-1的选育及其育种应用研究 总被引:2,自引:0,他引:2
从美国引入的海岛棉(Gossypium barbadense L.)半配合材料 VSg~(**),经过八年的选育和加倍,培育出适合我国气候的新品系 VSg-1。单倍体遗传频率达到69.9%。棉花半配合材料 VSg-1,已初步成功地应用于单倍体育种。已获得陆地棉(Gossypiumhirsutum L.)四个杂交组合育种初代材料的单倍体和少量加倍单培体种子。 相似文献
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Efficient Production of Doubled Haploid Plants through Chromosome Doubling of Isolated Microspores in Brassica napus 总被引:12,自引:0,他引:12
Three methods of chromosome doubling to produce doubled haploid plants from microspore cultures of Brassica napus were compared: colchicine treatment of microspore-derived plants, microspore-derived embryos, and isolated microspores. In the whole plant treatment, 53% of the treated plants set seed, but the treatment delayed plant growth and reduced seed set. When microspore-derived embryos were treated with colchicine, the doubling frequency was 32% (compared to 15% for spontaneous doubling). Direct colchicine treatment of isolated microspores resulted in a doubling efficiency of 70 % of the whole plants. This treatment also stimulated embryogenesis in microspore culture, leading to increased plant regeneration. Thus, direct chromosome doubling of isolated microspores is efficient and more than 10 000 doubled haploid plants have been produced in this manner in the past three years in order to accelerate the plant-breeding process. 相似文献
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The regeneration of haploid plantlets is considered as a bottleneck in rice anther culture. In this study, an antimitotic chromosome doubling method, simple and efficient, of androgenic haploid plantlets resulted in an efficient doubled haploid obtainment. Through chromosome doubling capacity comparison of the three antimitotic compounds (colchicine, trifluralin and oryzalin), colchicine at 500 and 625 mg/L without supplementing with DMSO was found to be the best antimitotic treatment, with a chromosome doubling capacity of 40%. Furthermore, the in vitro growth of plantlets was followed to analyse the effects of antimitotic compounds. Colchicine treatments were more toxic than dinitroanilines, and colchicine DMSO-supplemented treatments had significant lower values on shoot growth. On the other hand, dinitroaniline compounds impeded root growth, provoked helical growth of shoot and caused the apparition of white nodules in the base of the plantlet due to sprouting abortion. In this study, a protocol for doubled haploid plant recovery was established taking advantage from androgenic haploid plantlets in order to increase the number of doubled haploid plantlets produced after an anther culture protocol. 相似文献
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In cereals, chromosome doubling of microspore-derived haploid plants is a critical step in producing doubled haploid plants.
This investigation was undertaken to study the effect of incorporation of colchicine in the induction medium for anther culture,
and the effect of colchicine on anther culture-derived plants of triticale grown under controlled greenhouse conditions. In
the latter case, chromosome doubling of adult sterile plants derived from anther culture of fourteen triticale populations
was attempted, where androgenetic plants with non-dehiscent anthers were cloned and subjected to the colchicine treatment,
and then grown with the aid of hydroponics. The hydroponic system provided optimal conditions for recovery of the affected
haploids from the toxic effects of colchicine treatment and all colchicine-treated plants survived. A topcross-F1 (TC1F1) population with timopheevii cytoplasm produced the highest percentage of plants with seed-set either due to chromosome doubling
by colchicine (98%) or spontaneous doubling of chromosome number (15%). Colchicine-treated anthers performed inferior than
control in both induction and regeneration phases. One of the key observation of this study was the reversal from reproductive
stage back to the vegetative stage which in turn enabled further cloning of haploid plants under hydroponic conditions once
they were identified as sterile. The one hundred percent survival rate of in vitro-derived plants, 100% survival rate of colchicine treated haploid plants and the high chromosome doubling success rate (X
= 82.3) observed in this study imply that a temperature-controlled greenhouse with an hydroponic system provides an efficient
environment for inducing chromosome doubling of haploid plants in cereals.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
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Jiwei Yang Yanzhi Qu Qiong Chen Jihua Tang Thomas Lübberstedt Haochuan Li Zonghua Liu 《Plant Breeding》2019,138(3):259-265
Haploid genome doubling is a key limiting step of haploid breeding in maize. Spontaneous restoration of haploid male fertility (HMF) provides a more promising method than the artificial doubling process. To reveal the genetic basis of HMF, haploids were obtained from the offspring of 285 F2:3 families, derived from the cross Zheng58 × K22. The F2:3 families were used as the female donor and Yu high inducer No. 1 (YHI‐1) as the male inducer line. The rates of HMF from each family line were evaluated at two field sites over two planting seasons. HMF displayed incomplete dominance. Transgressive segregation of haploids from F2:3 families was observed relative to haploids derived from the two parents of the mapping population. A total of nine quantitative trait loci (QTL) were detected, which were distributed on chromosomes 1, 3, 4, 7 and 8. Three major QTL, qHMF3b, qHMF7a and qHMF7b were detected in both locations, respectively. These QTL could be useful to predict the ability of spontaneous haploid genome doubling, and to accelerate the haploid breeding process by introgression or aggregation of those QTL. 相似文献