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同一基础材料的玉米双单倍体(DH)系配合力的分析 总被引:1,自引:0,他引:1
利用高频玉米单倍体诱导系,对选系材料M35/F35的F1代进行诱导获得大量单倍体籽粒,经自然加倍获得一批纯合双单倍体(DH)系,用测验系京24组配杂交组合分析DH系的配合力表现。结果表明,来源于同一基础材料的不同DH系之间,配合力差异较大,部分DH系的配合力比亲本增加,说明采用单倍体育种可以选育到高配合力的优良玉米自交系,组配出优良品种,从而加快育种进程,应用前景广阔。 相似文献
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玉米单倍体加倍(DH)系籽粒性状表现的研究 总被引:7,自引:0,他引:7
玉米单倍体育种是快速选育纯合自交系的方法.研究利用单倍体诱导系,对来自BSSS杂种优势群的两个自交系BX08和BX19的杂交F1进行诱导获得单倍体,又经加倍获得33个加倍纯合系(DH),分析单倍体加倍纯合系与两个亲本及F1杂交种的果穗及籽粒性状表现.结果表明,单倍体加倍系的籽粒容积和质量比亲本籽粒都有所提高,子代的农艺性状获得显著改善,说明发生单倍体不是基因随机分离的结果,单倍体育种存在选择压力,有利于优良基因的累积,淘汰不良基因. 相似文献
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为探讨玉米Reid种质遗传改良效果,本研究以Reid类群重要种质J1491、J1492、J1493、J1495、J1498与PH6WC构建基础群体,通过DH技术育成DH系,经鉴定从中选取5个代表DH系6DH6、6DH7、6DH9、6DH10、6DH12作母本,以Non-Reid群5个优良自交系作父本,按NCII设计组配25个杂交组合,对DH系单株产量及其构成因素的杂种优势、配合力和相关方面进行了研究。结果表明,单株产量杂种优势以组合6DH7×J1628最高为180.22%,组合6DH12×J1673最低为54.94%;单株产量一般配合力效应值最高的有6DH7和6DH10,穗长、穗粗亦为正效应,因此认为6DH7和6DH10更具应用潜力;特殊配合力效应值最高的组合是6DH7×J1673。各产量性状中穗长、穗粗和秃尖长,狭义遗传率高,主要以基因加性效应为主。本研究为鉴定有潜在价值的DH系及杂交种提供选择,为玉米遗传改良提供参考。 相似文献
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以Lancster类群的玉米自交系PH 5 AD和PH 4 CV进行杂交组配,连续自交4代,形成S0、S1、S2和S3四个世代,利用诱导系H-4对四个世代进行杂交诱导。结果表明,不同世代诱导率间呈极显著差异,诱导率最高的是S0世代,为10.66%。采用浸芽法,用纯度为0.6%的秋水仙素处理不同世代的单倍体种子,结果显示,不同浸芽时长对单倍体加倍率的影响显著,其中浸芽8 h的加倍效果最佳,加倍率为19.91%;对四个不同世代选育的20个DH系与Reid类群的5个测验种形成的双列杂交组合进行研究,发现DH系产量平均配合力较低的是S0世代;DH系产量一般配合力较高的是S2和S3世代,且S2和S3世代产量变化幅度比较接近;诱导产生DH系的最佳世代是S2代。 相似文献
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以超多穗行数DH系15D969和低穗行数自交系PH6WC、X901m组建的2个6世代群体(P1、P2、F1、B1、B2和F2)为材料,运用主-多基因混合模型遗传分析方法对穗行数进行遗传分析。结果表明:材料Ⅰ的F1穗行数平均优势为-1.11%,为2对主基因加、显、上+多基因加、显混合模型,主基因遗传率为12.22%~96.37%,多基因遗传率为0~61.16%;材料Ⅱ的F1穗行数平均优势为1.16%,为2对主基因加+多基因加、显混合模型,主基因遗传率为6.48%~54.18%,多基因遗传率为4.77%~67.23%。说明,穗行数由主基因和多基因共同主导,DH系15D969的超多穗行数由不完全显性多基因控制。 相似文献
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小麦与玉米杂交产生小麦单倍体与双单倍体的稳定性 总被引:2,自引:0,他引:2
小麦与玉米杂交是诱导小麦单倍体最有效的途径之一, 但单倍体和双单倍体产生频率不稳定影响了该技术的应用。选用13个小麦杂种F1代单交组合与玉米杂交, 研究了不同小麦生长环境、生长素处理、培养基和壮苗处理对单倍体及双单倍体产生频率的影响。小麦生长在大田, 去雄后割穗培养与玉米杂交平均得胚率为23.9%, 每个杂交穗平均得胚数6.8个, 均是返青后从大田移回冷温室盆栽的3倍以上;不同小麦杂交组合间胚产生频率存在明显差异。生长素Dicamba蘸穗处理平均得胚率是21.5%, 与2,4-D处理得胚率(21.1%)无显著差异, 但不同杂交组合间差异显著。B5培养基幼胚萌发率为70.9%~88.3%, 平均82.0%;1/2 MS培养基胚萌发率为70.0%~86.0%, 平均76.6%;两种培养基平均胚萌发率无显著差异。试管苗经壮苗培养基壮苗处理与试管苗经移栽壮苗处理后加倍效率分别是67.6%和8.6%。移栽壮苗处理的苗分蘖少, 生长较弱, 加倍处理后存活率低和加倍率低是其单倍体加倍效率低的原因。 相似文献
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The mildew reactions of the second generation of doubled haploid (DH) plants, derived from anther culture of crosses among three spring barley lines carrying different Mla mildew resistance alleles and the cv. ‘Pallas’, were analyzed by using a set of three European and one Israeli mildew isolate. The results indicated, (1) a significant level of distortion segregation in favour of resistant DH genotypes, which was possibly due to linkage of mildew resistance genes on chromosome 5 with genes for plant regeneration and (2) various degrees of dominance for the different resistance genes studied as well as the possible action of modifier genes. 相似文献
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Androgenetic doubled haploid spring barley lines (DH-lines) were compared in field experiments with their pedigree-selected sister lines (PD-lines). The PD-lines resemble a selected proportion of 1 % (10?2) or less of the original complete F2-population. By comparison, an average of 10 DH-lines were recovered from 10,000 anthers X > 1,000 microspores, i.e. at least 107 microspores per cross. The average success rate was therefore approximately 10?6. Both PD- and DH-families showed similar levels of performance with regard to all the characters studied, although no conscious selection had been applied in deriving doubled haploid progeny. Therefore, it is concluded that the regenerated microspore-progenies may be the result of unconscious selection among the large numbers of microspores cultured. 相似文献
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A total of 316 doubled haploid lines (DH) of spring wheat were compared with 621 lines selected in a pedigree system (PS) under field conditions in a breeding nursery. The lines originated from 21 crosses and the samples tested represent mean values for variables comprising the main breeding goals such as disease resistance, baking quality, and agronomic traits. In general, the DH lines were later in days to heading and shorter than PS lines of different homozygosity levels. Except for leaf rust (Puccinia recondite), the DHs were more resistant to the artificially infected diseases such as powdery mildew (Erysiphe graminis), stripe rust (Puccinia striiformis), and septoria nodorum blotch (Septoria nodorum). These differences, which were relatively small for practical selection purposes, were probably due to easier and more precise disease assessment of the homozygous DH lines. For quality characters, the DHs had a higher protein level, while the rest of the parameters were similar for both origins. The data analyzed suggest so far that androgentic doubled haploids in spring wheat are very similar to lines selected in a pedigree system in respect to all the agronomic characters tested. However, the DH lines were produced in a much shorter period of time. It is suggested that androgenetic doubled haploids be produced from F1 hybrids and that the well-established bulk method should continue to allow selection bulk method should continue to allow selection for rare recombinants as soon as homozygosity is reached. 相似文献
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甘蓝型油菜DH系在不同生态区SPAD值的差异分析 总被引:2,自引:0,他引:2
以甘蓝型油菜纯合双单倍体(DH)为材料,研究不同生态环境下油菜叶绿素SPAD值的变化状况,揭示叶绿素含量遗传表现规律,创制更高叶绿素含量种质资源,以期为油菜高光效育种奠定方法和理论基础。选取了170份甘蓝型油菜DH系,连续3年分别种植在冬油菜区(陕西大荔)和春油菜区(甘肃张掖)。结果表明:无论是不同遗传背景的DH系、还是同一亲本下的不同DH系材料,油菜DH系叶绿素含量在田间既表现出遗传稳定性,又容易受到外界环境影响,即在相似的生态条件下,同一区域即便不同年份的各DH系材料,叶绿素SPAD值的表现基本一致,但在不同生态区,油菜DH系的SPAD值差异很大。通过对油菜DH系亲本和DH系叶绿素SPAD值频数分布分析,叶绿素含量连续3年在2个生态环境具有广泛的连续分布,并且服从正态或者近似于正态分布,以及超亲分离的特点。这些都表明油菜叶绿素含量是一个典型的数量性状,受到多对基因的控制。 相似文献
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