小麦亲本遗传距离与产量杂种优势间的相关性研究

本文以10个小麦品种和按双列杂交配制的45个组合为材料,对遗传距离与产量杂种优势的关系进行了研究,结果表明:亲本遗传距离与产量杂种优势有极显著的非线性回归关系.遗传距离等于零时,杂种优势等于零;随着遗传距离的增大,杂种优势迅速达到最大值,然后缓慢下降,为通过原点的不对称抛物线.并对玉米、棉花的遗传距离与杂种优势的关系重新进行了探讨,一致表明,非线性回归关系优于抛物线回归关系.     

利用SSR标记分析水稻亲本间遗传距离与杂种优势的关系

利用5个光温敏核不育系与40个恢复系（品种）配制了200个组合,应用SSR标记估算了这5个不育系与40个恢复系之间的遗传距离,分析了遗传距离与杂种优势的关系。结果表明：（1）不同材料、不同遗传距离范围之间,遗传距离与单株产量以及有效穗数、穗长、每穗粒敷、着粒密度、结实率、千粒重、单株产量7个性状超亲优势的相关性有很大差别,表现出很复杂的关系。（2）田丰S与父本遗传距离在0．6286～2．5257之间时,F1单株产量及其超亲优势与遗传距离极显著相关;培矮64S与父本遗传距离在0．8247～1．5315之间时,F1单株产量与遗传距离显著相关。（3）所有两系组合亲本间遗传距离在0．5333～1．5之间时,F1单株产量超亲优势与遗传距离显著相关;遗传距离在0．5333～1．0之间时,F1单株产量与遗传距离显著相关,遗传距离分别在1．0～1．5、0．5333～1．5和0．5333～2．5257之间时极显著相关。（4）另外,F1单株产量与遗传距离的相关程度普遍高于其超亲优势与遗传距离的相关程度。     

高梁亲本遗传距离与杂种优势和特殊配合力的关系 Studies on the Relationships of Genetic Distance of Sorghum Parental Lines with Hetewosis and Specific Combining Ability

采有Griffing交配设计,对30个高梁恢复系的杂种一代及其6 个亲本进行两年(1989—1990)比较试验,探索高梁亲本遗传距离与F1产量的杂种优势和组合特殊配合力的关系,结果表明:亲本遗传距离与杂种优势、遗传距离与特殊配合力均呈显著或极显著的抛物线回归关系。遗传距离在一定范围内 (0相似文献   

小麦亲本间遗传距离预测杂种优势可行性的研究

本文通过10个小麦品种和按双列杂交配制的45个组合为材料,研究亲本间遗传距离预测杂种优势的可行性。结果表明：93.02％的样本实测值落在预测区间。     

玉米自交系间遗传距离与产量杂种优势,杂种产量的关系

以13个玉米自交系及其按双列杂交配制的78个单交种为材料,研究性状选择、亲本选择对遗传距离与产量杂种优势、杂种产量关系的影响,结果表明:(1)当性状数较少时,遗传距离与产量杂种优势、杂种产量的关系因性状的不同而异;当性状数较多时,遗传距离与产量杂种优势、杂种产量的关系为抛物线,受性状影响较小;(2)当所选亲本材料的遗传差异较大时,遗传距离与产量杂种优势的关系为抛物线;当所选亲本材料的遗传差异较小时,遗传距离与产量杂种优势的关系为直线或不相关。     

苜蓿SSR遗传距离与杂种优势的相关性分析

利用SSR标记技术对40份苜蓿材料（6个雄性不育株系和34个苜蓿品种）的遗传距离进行分析,并利用其中的6个不育株系与14个苜蓿品种测交,进一步对遗传距离(GD)、产量配合力与杂种优势效应进行相关性分析。结果表明,25对SSR引物共扩增出189条谱带,其中多态性条带136条,平均多态性位点百分率为69.23%;40份苜蓿材料的遗传距离为0.1818～0.9091,平均0.4544;各亲本一般配合力及GD均与杂种优势效应存在显著正相关,其中亲本一般配合力与杂种优势的相关性要高于GD.因此,仅以SSR遗传距离还不足以准确的组配强优势组合,需结合各性状配合力的分析,以充分发挥杂种优势效应。     

距离分析方法与杂种优势

对于75个小麦品种两年的试验结果,采用不同方法进行距离比较分析。结果表明:用表型平均值相关阵经主成分转换,计算品种间欧氏距离,再用类平均法聚类,似乎是适宜的距离分析方法。D~2值在年份间较稳定,不同年份的D~2估值,可用于预测杂种优势。根据13个性状估算的品种间距离(D~2)与株粒重杂种优势(H)之间呈曲线关系,其理论方程是:Y=-3.65 6.665X--0.1288X~2。根据该方程推算:D~2=25.87时,H出现最大值。     

几个优良籼稻亲本品质性状的配合力和杂种优势分析

以3个不育系和10个恢复系为材料,采用NCII交配设计研究10个米质性状的配合力和杂种优势。结果表明：①大多数品质性状的量值介于双亲之间,除粒重表现一定的超亲优势、垩白度和粒宽表现一定的正向平均优势外,其他品质性状优势不明显。②杂种稻米的品质性状主要受不育系或恢复系的影响,其中粒长、粒宽和直链淀粉含量3个性状,不育系的影响要高于恢复系;而对于整精米率、粒重、垩白率、垩白度和糊化温度,则恢复系的影响要高于不育系。③就优质育种的利用价值而言,不育系以广占63-4S为好,恢复系以扬稻6号为好,R527、镇恢084次之,用上述亲本选配的杂交组合米质较好;恢复系特青、盐恢559表现为一般配合力效应低,特殊配合力方差小,优质育种利用价值不大。     

烟草数量性状遗传距离与杂种优势关系的研究

利用８个数量性状计算了主成分遗传距离,对１５个烟草品种进行聚类,在４３７的阀值下可将１５个一分为５大类,分类结果与品种地理来无必然的联系,而与品种的血缘头等级一定的联系,可将烤纯烟和晒晾烟分开,在一定程度上反映了品种的遗传差异,Ｆ１产量杂种优势指数（Ｆ１／ＭＰ）与亲本间遗传距离（Ｄ＾２）相关系数不显,二呈抛物线关系,在Ｄ＾２〈５．６３的范围内,二呈一直线关系,二相关系数为０．５１１。达极显     

杂交籼稻子粒QTL标记遗传距离与粒重、粒重杂种优势的相关性

利用与子粒性状相关的QTL标记分析了10个杂交水稻亲本间(5个不育系和5个恢复系)的遗传差异,结合10个亲本所配25个组合的F1表现,研究了基于子粒QTL分子标记遗传距离与粒重及粒重杂种优势的相关性。结果表明分子标记遗传距离与粒重呈显著正相关(r=0.26*),与对照优势呈显著正相关(r=0.28*),与母本优势呈极显著正相关(r=0.41**)。为分子标记预测杂交水稻杂种优势研究奠定了基础。     

QTL mapping of combining ability and heterosis of agronomic traits in rice backcross recombinant inbred lines and hybrid crosses

Background

Combining ability effects are very effective genetic parameters in deciding the next phase of breeding programs. Although some breeding strategies on the basis of evaluating combining ability have been utilized extensively in hybrid breeding, little is known about the genetic basis of combining ability. Combining ability is a complex trait that is controlled by polygenes. With the advent and development of molecular markers, it is feasible to evaluate the genetic bases of combining ability and heterosis of elite rice hybrids through QTL analysis.

Methodology/Principal Findings

In the present study, we first developed a QTL-mapping method for dissecting combining ability and heterosis of agronomic traits. With three testcross populations and a BCRIL population in rice, biometric and QTL analyses were conducted for ten agronomic traits. The significance of general combining ability and special combining ability for most of the traits indicated the importance of both additive and non-additive effects on expression levels. A large number of additive effect QTLs associated with performance per se of BCRIL and general combining ability, and dominant effect QTLs associated with special combining ability and heterosis were identified for the ten traits.

Conclusions/Significance

The combining ability of agronomic traits could be analyzed by the QTL mapping method. The characteristics revealed by the QTLs for combining ability of agronomic traits were similar with those by multitudinous QTLs for agronomic traits with performance per se of BCRIL. Several QTLs (1–6 in this study) were identified for each trait for combining ability. It demonstrated that some of the QTLs were pleiotropic or linked tightly with each other. The identification of QTLs responsible for combining ability and heterosis in the present study provides valuable information for dissecting genetic basis of combining ability.     

Understanding the genetic and molecular constitutions of heterosis for developing hybrid rice

The wide adoption of hybrid rice has greatly increased rice yield in the last several decades. The utilization of heterosis facilitated by male sterility has been a common strategy for hybrid rice development. Here, we summarize our efforts in the genetic and molecular understanding of heterosis and male sterility together with the related progress from other research groups. Analyses of F1 diallel crosses show that strong heterosis widely exists in hybrids of diverse germplasms, and inter-subsp...     

Nature of heterosis and combining ability in the silkworm

Summary The isogenic, highly heterotic parthenoclone 29, originating from a hybrid silkworm female, was transformed via unisexual reproduction (meiotic and ameiotic parthenogenesis) into four genotypical variants differing in well-known various levels of hetero zygosity and combinations of useful and harmful genes. A comparison of these changes with the heterosis level made it possible to discover that both heterosity for adaptively neutral genes (overdominance hypothesis) and the number of allelic pairs, each of them being heterozygous for a favourable, completely dominant gene (dominance hypothesis) play no decisive role in the intensity of heterosis. The level of heterosis is largely determined by the relationship between the effects of useful and harmful genes, the first falling into the category of semidominant, cumulatively acting genes which control viability. Their favourable, joint well-coordinated effects, unlike those of genes which control quantitative characters, increase in relation to the number of genes in a geometric rather than an arithmetic progression. The interaction between semilethal genes is subjected to the same regularity. The high combining ability of parthenoclone 29 variants is determined by the number and homozygosity of the useful genes.     

杂交水稻产量性状配合力研究

利用 9个不育系和 7个恢复系配制 40个杂交组合 ,对 6个产量性状的亲本一般配合力和组合特殊配合力效应进行分析。结果表明 ,杂种一代 (F1)各性状的形成同时受亲本一般配合力和组合特殊配合力的影响。单株穗数、每穗总粒数、千粒重三性状主要受一般配合力作用 ;每穗实粒数、结实率、单株粒重三性状则一般配合力和组合特殊配合力的作用同样明显 ,或特殊配合力作用更明显些。不育系珍汕 97A、龙特浦A、K1 8A和恢复系明恢 63、直龙、1 0 2 5的一般配合力高 ,利用它们容易配制出高产组合。两年试验结果千粒重、单株粒重二性状的形成均是不育系的作用大于恢复系 ,近期育种工作重点应放在不育系的选育上。     

籼型杂交稻光合特性的配合力分析

以6个籼型杂交稻三系不育系和5个恢复系按不完全双列杂交设计配制的30个杂交稻组合及其亲本品种为材料,对其光合性状进行了测定和分析,结果表明:(1)杂交稻组合的光合特性存在显著或极显著的组合间遗传差异,光合特性的遗传变异主要来自基因的非加性效应;(2)胞间CO2浓度、蒸腾速率、叶绿素a、叶绿素b和类胡萝卜素含量受不育系的影响大于恢复系,而气孔导度、叶绿素a+b含量受恢复系的影响大于不育系;(3)杂交稻光合性状的广义遗传力均大于狭义遗传力,各性状主要受基因互作及环境的影响。狭义遗传力的大小依次为叶绿素b、叶绿素a+b、叶绿素a、气孔导度、胞间CO2浓度、类胡萝卜素和蒸腾速率,这些性状具有中等遗传力;(4)9个光合性状杂交稻F1表型值与父母本一般配合力效应值之和的相关系数均达极显著水平。因此,可以根据父母本一般配合力效应值之和来预测杂交稻组合光合性状的表现,有利于高效选育高光效杂交稻组合。     

RFLP variation and genealogical distance,multivariate distance,heterosis, and genetic variance in oats

Patterns of restriction fragment length polymorphisms (RFLPs) have been proposed as estimators of genetic diversity among breeding lines and as predictors of heterosis and genetic variance. We evaluated these proposals by using a set of nine elite oat lines crossed in a diallel mating design without reciprocals. RFLP analysis was conducted using HindIII-digested DNA and a total of 107 probes from three different sources: 14 heterologous wheat cDNA clones, 17 oat genomic clones, and 76 oat cDNA clones. Of the 77 probes that produced high-quality autoradiographs, 26 detected polymorphisms among this set of lines, with an average of 2.6 variants per probe. RFLP-based genetic distance (FD) was calculated from these data by using Nei and Li's measure of genetic similarity, and was compared with two other measures of genetic divergence. Genealogical distance (GD ^*) was obtained from the coefficients of parentage based on known parental pedigrees, and multivariate distance (DI) was calculated by using the first five principal components of the parental correlation matrix for 12 agronomic traits. FD was significantly correlated with GD ^* (r=0.63, P<0.01), but not with DI (r=-0.05). Cluster analysis based on these three distance estimates did not produce equivalent groupings, but the FD and GD ^* clusters were more similar to each other than to the DI clusters. These results indicate that: (1) sufficient variation exists for further application of RFLP technologyto oats, (2) RFLPs could provide accurate estimates of genetic divergence among elite oat lines, and (3) it is unlikely that dispersed markers can predict heterosis or population genetic variance in oats. Further investigations will require more parental lines, a larger set of markers, and more information on the linkage relationships between RFLP markers and loci controlling the trait of interest.Journal paper No. J-15302 of the Iowa Agriculture and Home Economics Experiment Station, Ames, IA 50011, USA. Project No. 2818 and 2447. Supported by Quaker Oats grant to M. Lee     

Relation of genetic distance between cattle breeds and heterosis of resulting crosses

The relationship was investigated between performance differences, and genetic distance between parental breeds, and heterosis increment in milk and fat yield. Heterosis increments were positively correlated with both yield difference and genetic distance but only the relation between heterosis of fat yield and genetic distance between parental breeds was statistically significant. It appears that measures of genetic distance could provide a useful tool in selecting breeds for crossbreeding.     

Genetic diversity in relation to heterosis and combining ability in spring wheat

Summary Genetic diversity among ten varieties of spring wheat used as parents in a diallel cross was assessed through multivariate analysis (D²-statistics) and then related to heterosis and SCA effects of their hybrids. The parents fell into three groups. Group I contained the varieties, Nobre, Girua and Carazinho; group II contained Sonalika, Lyallpur and Pitic 62 and group III contained Indus 66, Balaka, Sonora 64rs and MSl. The varieties of group I were good general combiners, while the varieties of group III were poor combiners. Significant heterotic and SCA effects for yield and yield components were observed in the hybrids of the parents belonging to different groups but not in the same group. Genetic divergence between the parents had a positive relationship with heterosis and SCA effects of the hybrids.     

Genetic distance as a predictor of heterosis and hybrid performance within and between heterotic groups in sunflower

Heterosis is significant for seed yield and is one of the driving forces behind the hybrid seed industry in cultivated sunflower (Helianthus annuus L). Heterotic groups in sunflower, if any other than the female and male inbred-line groups exist, have not been well studied or described. The primary aims of this study were to assess the utility and validity of a series of proposed heterotic groups and estimate correlations between genetic distance, heterosis, and hybrid performance for seed yield in sunflower. Fortytwo female by male heterotic group (A × R) and 81 female by female heterotic group (A × B) single-cross hybrids were grown in Corvallis, Ore., and Casselton, N.D., in 1996 and 1997. Heterosis was significant for seed yield and plant height but not for seed oil concentration and days to flowering. Genetic distances were significantly correlated with hybrid seed yield when estimated from AFLP fingerprints (G _D) (r = 0.63 for A × R and 0.79 for A × B hybrids), but not from coancestries (G _C) (r = -0.02 for A × R and 0.54 for A × B hybrids). G _D (R ² = 0.4) was a poor predictor of hybrid seed yield. The proposed heterotic groups in sunflower seem to have utility, but do not seem to be as strongly differentiated as those in corn (Zea mays L.). The highest-yielding hybrids were from the B_C× R_B heterotic pattern; however, several B_C× B_C hybrids (within-group hybrids) were among the top-yielding hybrids. The outstanding performance of certain B_C× B_C hybrids casts some doubt on the validity of the B_C group. Substantial genetic diversity seems to be present within and between heterotic groups in sunflower. Received: 1 September 1998 / Accepted: 14 September 1999     

Genome‐wide association analyses reveal the genetic basis of combining ability in rice

Combining ability is a measure for selecting elite parents and predicting hybrid performance in plant breeding. However, the genetic basis of combining ability remains unclear and a global view of combining ability from diverse mating designs is lacking. We developed a North Carolina II (NCII) population of 96 Oryza sativa and four male sterile lines to identify parents of greatest value for hybrid rice production. Statistical analyses indicated that general combining ability (GCA) and specific combining ability (SCA) contributed variously to different agronomic traits. In a genome‐wide association study (GWAS) of agronomic traits, GCA and SCA, we identified 34 significant associations (P < 2.39 × 10^?7). The superior alleles of GCA loci (Ghd8, GS3 and qSSR4) accumulated in parental lines with high GCA and explained 30.03% of GCA variance in grain yield, indicating that molecular breeding of high GCA parental lines is feasible. The distinct distributions of these QTLs contributed to the differentiation of parental GCA in subpopulations. GWAS of SCA identified 12 more loci that showed dominance on corresponding agronomic traits. We conclude that the accumulation of superior GCA and SCA alleles is an important contributor to heterosis and QTLs that greatly contributed to combining ability in our study would accelerate the identification of elite inbred lines and breeding of super hybrids.