一个新矮生玉米种质资源的发现与遗传鉴定

玉米矮生种质资源在育种工作中具有重要的利用价值。2002年在玉米种质资源扩繁与鉴定过程中,从玉米自交系K36中发现一株矮生突变体。随后通过连续自交,获得了纯合一致、稳定的矮生自交系,命名为矮2003。该矮秆材料在北京表现株高62．1cm,植株清秀,茎秆坚硬,结实正常。于不同时期用不同浓度赤霉素处理该材料显示其对赤霉素反应不敏感。矮2003与正常玉米自交系测交F1呈现高秆,F2与BC1高、矮秆分离比例分别符合3：1与1：1,遗传分析表明其矮生性状受一对主效单基因控制,表现为隐性遗传。所携带的矮生基因不同于已报道的玉米Dwarf8等。     

甘蓝型油菜矮秆突变材料99CDAM的发现及遗传分析

随着杂种优势的利用,油菜株高增加了20cm以上,导致油菜生长后期倒伏的风险加大。通过利用特殊矮秆基因来控制株高将是解决倒伏问题的有效方法。在甘蓝型油菜自交多代品系中发现了一个株高85cm左右的矮秆突变株99CDAM,该突变株具有开花早、分枝多等优良特性,产量性状和品质性状较好,各性状都能稳定遗传,具有重要的育种价值。对99CDAM和高秆品系2091、7045和7350的正反交F1以及99CDAM和2091的F2、BC1及F2:3代的遗传分析结果表明： 99CDAM的矮秆性状受3对隐性基因控制,存在母体细胞质效应,与以往的甘蓝型矮秆油菜有明显的区别。     

A blocking Gibbs sampling method to detect major genes with phenotypic data from a diallel mating

Diallel mating is a frequently used design for estimating the additive and dominance genetic (polygenic) effects involved in quantitative traits observed in the half- and full-sib progenies generated in plant breeding programmes. Gibbs sampling has been used for making statistical inferences for a mixed-inheritance model (MIM) that includes both major genes and polygenes. However, using this approach it has not been possible to incorporate the genetic properties of major genes with the additive and dominance polygenic effects in a diallel mating population. A parent block Gibbs sampling method was developed in this study to make statistical inferences about the major gene and polygenic effects on quantitative traits for progenies derived from a half-diallel mating design. Using simulated data sets with different major and polygenic effects, the proposed method accurately estimated the major and polygenic effects of quantitative traits, and possible genotypes of parents and progenies. The impact of specifying different prior distributions was examined and was found to have little effect on inference on the posterior distribution. This approach was applied to an experimental data set of Loblolly pine (Pinus taeda L.) derived from a 6-parent half-diallel mating. The result indicated that there might be a recessive major gene affecting height growth in this diallel population.     

粳稻穗部性状遗传分析

从粳稻（Oryzasativassp.japonica）RIL群体中选取每穗颖花数极端少的品系丙堡3201和丙堡3205及每穗颖花数极端多的品系丙堡3145和丙堡3214,配制丙堡3201×丙堡3145和丙堡3214×丙堡3205两个组合的P1、P2、F1、B1、B2和F26个世代,调查每穗颖花数、每穗实粒数、穗长、一次枝梗数和二次枝梗数的表型分布,并运用主基因＋多基因混合遗传模型,对这5个性状进行了遗传分析。结果表明,每穗颖花数性状在2个组合的各分离世代均未出现超亲分离,而其它4个性状均有不同程度的超亲分离。一次枝梗数受1对主基因＋多基因控制;其余4个性状均受2对主基因＋多基因控制。每穗颖花数、每穗实粒数、穗长和二次枝梗数4个性状以主基因遗传为主,一次枝梗数性状以多基因遗传为主。     

玉米株型性状多世代联合遗传分析

本文采用P1、P2、F1、F2、B1、B2多世代联合遗传分析方法,研究了玉米株高、穗位高、穗三叶面积、雄穗分枝数和叶形系数等5个株型性状遗传模型,并进行了混合模型参数估计.结果表明：株高、叶面积、雄穗分枝数符合加性-显性-上位性多基因遗传模型,表现为负向超显性;穗位高、叶形系数符合一对加性主基因＋加性-显性多基因混合遗传模型,主基因无显性,多基因无上位性.穗位高在B2世代主基因遗传率最大（46.51%）,在B1世代多基因遗传率最大（46.71%）;叶形系数在F2世代主基因遗传率最大（36.76%）,在B1世代多基因遗传率最大（26.31%）.     

粳稻穗部性状遗传分析

从粳稻(Oryza sativa ssp. japonica)RIL群体中选取每穗颖花数极端少的品系丙堡3201和丙堡3205及每穗颖花数极端多的品系丙堡3145和丙堡3214, 配制丙堡3201×丙堡3145和丙堡3214×丙堡3205两个组合的P₁、P₂、F₁、B₁、B₂和F₂ 6个世代, 调查每穗颖花数、每穗实粒数、穗长、一次枝梗数和二次枝梗数的表型分布, 并运用主基因+多基因混合遗传模型,对这5个性状进行了遗传分析。结果表明, 每穗颖花数性状在2个组合的各分离世代均未出现超亲分离, 而其它4个性状均有不同程度的超亲分离。一次枝梗数受1对主基因+多基因控制; 其余4个性状均受2对主基因+多基因控制。每穗颖花数、每穗实粒数、穗长和二次枝梗数4个性状以主基因遗传为主, 一次枝梗数性状以多基因遗传为主。     

甘蓝型油菜含油量的主基因+多基因遗传效应分析

应用多世代联合分析数量性状主基因和多基因混合遗传的统计方法,分析了甘蓝型油菜两个组合的5个世代——亲本P1、P2、F1、F2和F2：3家系材料含油量的遗传效应。结果表明,分离世代F2及F2：3家系含油量次数分布均呈混合的正态分布,符合主基因＋多基因的遗传特征。D-2模型是该项研究两个甘蓝型油菜杂交组合含油量的最适遗传模型,含油量的遗传是由一对加性主基因和加-显性多基因共同控制的。组合1（1141Bx垦C1-1）主基因加性效应值为-1．74,表明亲本1141B中主基因位点上的等位基因降低含油量,而亲本垦C1-1中的等位基因增加含油量。多基因加性效应值和显性效应值分别为1．20和-1．93;F2的主基因遗传力和多基因遗传力分别为68．21％和27．17％;F2：3的主基因遗传力和多基因遗传力分别为81．70％和16．80％。组合2（32Bx垦C1-2）主基因加性效应值为-3．74,表明亲本32B中主基因位点上的等位基因降低含油量,而亲本垦C1-2中的等位基因增加含油量。多基因加性效应值和显性效应值分别为-1．99和0．93;F2的主基因遗传力和多基因遗传力分别为66．20％,和28．10％;F2：3的主基因遗传力和多基因遗传力为81．00％和14．90％。两组合在F2：3家系世代含油量的主基因遗传力均较F2高,因此认为高含油量育种中在F2：3家系进行选择效率较高。     

Analysis of the effects of parental genotypes of rye lines on the development of quantitative traits in primary octaploid triticale. Plant height

When breeding the primary spring octoploid triticale derived from crosses of various inbred rye lines to wheat Chinese Spring, the effects of the rye genotype and growth conditions on the plant height and proportion of the first, second, and final (pedicle) internodes to the entire stem length were studied. Two triticale groups were examined: homozygotes for the dominant (Ddw1) and recessive (ddw1) alleles of the gene responsible for short stem in rye. In the short stem triticale lines carrying the Ddw1 alleles, the plants were 20 cm shorter on average than those in the ddw1-carrying lines, and the distribution of the two triticale groups overlapped significantly. In both groups, the lines significantly differing in plant height could be differentiated, because of allelic diversity of the additional genes controlling this trait along with the Ddw gene. In most triticale lines, especially in the Ddw1-carrying ones, the plant height was much reduced under unfavorable growth conditions. At the same time, a short-stem line was isolated, which is characterized by ecological plasticity, like the maternal wheat cultivar. In the triticale studied, the stem structure depended on the short-stem rye genotype. The two-year study showed that in the triticale carrying the dominant allele of this gene, the first internode is significantly extended, whereas the upper (pedicle) internode is reduced, which increases plant lodging resistance. The differences revealed between the rye lines as well as their effect on the quantitative triticale traits are discussed in view of a variant of the hybridological analysis, which had been previously proposed for identification and mapping of the correspondent rye genes.     

Inheritance of a dwarf seed stalk character in onion

Results are reported of crossing a dwarf seed stalk line (mean height 44.8 cm) from Israel with five inbred lines of the Rijnsburger type each having normal tall seed stalks (mean heights 83.1–105.9 cm). The seed stalk height of F₁ generations from these crosses was slightly greater than that of the Rijnsburger parents but segregation occurred in the F₂ giving plants which could be considered ‘dwarf’ and ‘normal’ with respect to seed stalk height. Selfing individual F₂‘dwarf’ plants produced F₃ progenies whose mean heights were in the dwarf range, and were significantly correlated with those of their F₂ parent. The results obtained in the F₂ and F₃ families suggest that although a major recessive gene for dwarfness may be present, substantial minor gene and environmental variation is also involved.     

水稻籼型光温敏核雄性不育性遗传研究

1　引　　言水稻光温敏核雄性不育性是一种典型的生态遗传现象 ,其遗传行为既受内部基因控制 ,又受外部光、温等生态因子的调节 ,还与所处的遗传背景密切相关 .前人已对农垦 5 8Ｓ及其衍生系等粳型光温敏核不育性有过较系统地研究 ,并提出一对、二对、三对和重复基因突变等多种假说[3 ,5,7～ 9] ;但对籼型及非农垦 5 8Ｓ基因源的光温敏核不育性研究较少 .本文采用极大似然法 ,对不同来源的籼型光温敏核不育性进行系统研究 ,旨在揭示其遗传本质 ,为解决两系法杂交水稻推广过程中出现的不育起点温度“漂移”等问题提供理论依据 .2　材料与方法…     

Genome-wide association study identifies candidate genes that affect plant height in Chinese elite maize (Zea mays L.) inbred lines

Background

The harvest index for many crops can be improved through introduction of dwarf stature to increase lodging resistance, combined with early maturity. The inbred line Shen5003 has been widely used in maize breeding in China as a key donor line for the dwarf trait. Also, one major quantitative trait locus (QTL) controlling plant height has been identified in bin 5.05–5.06, across several maize bi-parental populations. With the progress of publicly available maize genome sequence, the objective of this work was to identify the candidate genes that affect plant height among Chinese maize inbred lines with genome wide association studies (GWAS).

Methods and Findings

A total of 284 maize inbred lines were genotyped using over 55,000 evenly spaced SNPs, from which a set of 41,101 SNPs were filtered with stringent quality control for further data analysis. With the population structure controlled in a mixed linear model (MLM) implemented with the software TASSEL, we carried out a genome-wide association study (GWAS) for plant height. A total of 204 SNPs (P≤0.0001) and 105 genomic loci harboring coding regions were identified. Four loci containing genes associated with gibberellin (GA), auxin, and epigenetic pathways may be involved in natural variation that led to a dwarf phenotype in elite maize inbred lines. Among them, a favorable allele for dwarfing on chromosome 5 (SNP PZE-105115518) was also identified in six Shen5003 derivatives.

Conclusions

The fact that a large number of previously identified dwarf genes are missing from our study highlights the discovery of the consistently significant association of the gene harboring the SNP PZE-105115518 with plant height (P = 8.91e-10) and its confirmation in the Shen5003 introgression lines. Results from this study suggest that, in the maize breeding schema in China, specific alleles were selected, that have played important roles in maize production.     

小麦雌性育性的主基因+多基因混合遗传分析

选用普通小麦中3种不同生态型育性正常品种与雌性不育系XND126杂交构建3个F2组合, 连续两年对3组合P₁、P₂、F₁和F₂雌性育性进行调查, 利用植物数量性状主基因+多基因混合遗传模型的4世代联合分析方法分析了小麦雌性育性的遗传。结果表明: 小麦雌性育性受两对主效基因+多基因联合控制, 两对主效基因之间存在互作效应。     

辣椒株高遗传分析

以辣椒矮秆自交系B9431（P1）和高秆自交系‘吉林长椒’（P2）为双亲,构建P1、F1、P1、B1、B2和F2 6个家系世代群体,应用植物数量性状主基因＋多基因混合遗传模型对该6个世代群体株高进行多世代联合分析,结果显示：株高遗传符合1对主基因＋多基因遗传模型,高秆对矮秆表现为不完全显性,F1代株高的势能比值为0．39,显性程度为0．91。B1、B2和F2群体主基因遗传率分别为20．35％、17．20％和35．29％,多基因遗传率分别为5．08％、19．75％和0;主基因效应表现为负向加性效应,其值为-6．43,显性效应为0;多基因加性效应值和显性效应值分别为-8．89和9．77。研究还表明,主基因与多基因间的基因效应存在一定差异,主基因加性效应值相当于多基因加性效应值的72．33％,主基因无显性效应,显性效应是由多基因控制遗传。     

Using mouse models to dissect the genetics of obesity

Mice have proved to be powerful models for understanding obesity in humans and farm animals. Single-gene mutants and genetically modified mice have been used successfully to discover genes and pathways that can regulate body weight. For polygenic obesity, the most common pattern of inheritance, many quantitative trait loci (QTLs) have been mapped in crosses between selected and inbred mouse lines. Most QTL effects are additive, and diet, age and gender modify the genetic effects. Congenic, recombinant inbred, advanced intercross, and chromosome substitution strains are needed to map QTLs finely, to identify the genes underlying the traits, and to examine interactions between them.     

Molecular markers of nuclear restoration gene Rf1 in sunflower using bulked segregant analysis-RAPD

Restoration of cytoplasmic male sterility (CMS) in sunflower was demonstrated to be controlled by polygenes by analysing 982 effective crosses among 109 self-crossed lines and 16 CMS lines. Two self-crossed lines and one CMS line with distinct genotypes were applied to creation of segregating populations for DNA bulks of the target gene Rfl. Bulked DNA was prepared in order to investigate single gene Rfl and its gene marker among polygenic characters at the same genetic background. Using 80 10-mer operon primers, 620 RAPD reactions were carried out between fertile and sterile DNA bulks. In about 800 loci, primary results showed that 8 were related to the restoration genes. Furthermore. 2 were confirmed as RAPD markers for gene Rfl by examining 9 maintenance and 7 restoration lines. This method is the improvement for bulked segregant analysis[1] with which markers of single gene of target can be identified rapidly among polygenic characters.     

Inheritance of osmotic adjustment to water stress in three grain sorghum crosses

Water stress is one of the major constraints to the grain yield of sorghum in tropical and sub-tropical areas of the world. Osmotic adjustment has been widely proposed as a plant attribute that confers adaptation to water stress. The inheritance of osmotic adjustment to water stress was investigated in a series of generations derived from the three possible bi-parental crosses between two inbred sorghum lines with a high capacity for osmotic adjustment (Tx2813 and TAM422; high-OA lines) and one with a low capacity (QL27; low-OA line). Broad-sense heritability on a single-plant basis was generally found to be high. Analysis of segregation ratios by the mixture method of clustering identified two independent major genes for high osmotic adjustment. The line Tx2813 possessed a recessive gene which is given the symbol oa1; the line TAM422 possessed an additive gene which is given the symbol OA2. There was some evidence that there may be other minor genes which influence the expression of osmotic adjustment in these crosses as two putative transgressive segregants, with higher osmotic adjustment than the parents, were identified from the cross between Tx2813 and TAM422. Populations of recombinant inbred lines were developed and characterised for osmotic adjustment for two of the crosses (QL27 x TAM422, low-OA x high-OA; Tx2813 x TAM422, high-oal x high-OA2). These will be used to conduct experiments which test hypotheses about the contribution of the high-osmotic-adjustment genes to the grain yield of sorghum under a range of water-stress conditions.     

小麦株高性状的QTL分析

自20世纪60年代农林10号矮秆基因被用于小麦育种以来,矮化育种成为世界范围内势不可挡的趋势,矮秆基因研究被越来越多的育种专家重视,先后鉴定出20余个矮秆基因,并应用其中6,7个基因,培育了大批丰产潜力大的半矮秆品种,应用矮秆冬小麦吕系DN3338（♀）和F390（♂）杂交得到的F2：3群体,研究小麦株高的遗传基础,以控制株高的数量性状基因座进行定位,利用240个F2：3家系,构建了含215个微卫星标记,覆盖3600cM,由21个连锁群组成的遗传 连锁图谱,并对该群体进行了4个环境（2年：2000年和2001年,2点：北京和石家庄）3重复的田间种植;采用区间作图法,对该群体的株高性状进行了QTL分析。结果表明：7个影响株高的QTL分别位于染色体1B,4B(2个）,6A（2个）,6D和7A上,每个QTL能解释5．2％－50．1％的表型变异,每个环境条件下检测出的所有QTL能解释64．8％－75％,的表型变异,除了7A上的QTL外,其他6个降低株高的QTL均来自ND3338,其效应介于0．94cm-9.33cm之间,且其中的4个在所有的环境下都能被检测出来,具有较高的稳定性,在4BS的Xgwm113标记附近有一主效QTL,其在不同的环境下能降低株高7．91cm-9.33cm,解释27．8％－36．2％,的表型变异,有着同农林10号中Rht-Blb相近的效应;同时在4BS上还发现一个和地点互作的QTL,该QTL在石家庄的两年试验中均被检测到,且有较大的效应值（80cm和7.6cm),因此,认为大部分的QTL能在所有的环境中检测到,这些QTO可以被用于品种改良和分子标记辅助选择育种。     

水稻种子抗老化遗传分析

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Sensitized polygenic trait analysis

Genetic variation in many biological processes and evolutionary adaptations is caused by polygenes – genes that act in combination to affect a particular trait. Despite the recent identification of several polygenes, many remain to be found, suggesting that new experimental and analytical methods are needed to facilitate their discovery. Here we discuss sensitized polygenetic trait analysis, a method that has emerged recently for simplifying the genetic analysis of polygenic traits. The method uses a known single gene mutation in linkage testing crosses to ‘sensitize’ the analysis. By increasing the frequency of affected individuals in segregating populations, linkages are more readily detected. This method has considerable potential, especially given the increasing variety of mutations that can be used to sensitize the genetic analysis of polygenic traits.     

Mapping quantitative trait loci associated with aluminum toxin tolerance in NJRIKY recombinant inbred line population of soybean (Glycine max)

To investigate the genetic mechanism of AI-tolerance in soybean,a recombinant inbred line population (RIL) with 184 F2:7:11 lines derived from the cross of Kefeng No.1 x Nannong 1138-2 (AI-tolerant x AI-sensitive) were tested in pot experimentwith sand culture medium in net room in Nanjing.Four traits,i.e.plant height,number of leaves,shoot dry weight and root dry weight at seedling stage,were evaluated and used to calculate the average membership index (FAi) as the indicator of AI-tolerance.The composite interval mapping (ClM) under WinQTL Cartographer v.2.5 detected five QTLs (i.e.qFAiol,qFAi-2,qFAi-3,qFAi-4 and qFAi-5),explaining 5.20%-9.07% of the total phenotypic variation individually.While with the multiple interval mapping (MIM) of the same software,five QTLs (qFAi-1,qFAi-5,qFAi-6,qFAi-7,and qFAi-8) explaining 5.7%-24.60% of the total phenotypic variation individually were mapped.Here qFAi-1 and qFAi-5 were detected by both CIM and MIM with the locations in a same flanking marker region,GMKF046-GMKF080 on B1 and satt278-sat_95 on L,respectively.While qFAi-2 under CIM and qFAi-6 under MIM both on D1b2 were located in neighboring regions with their confidence intervals overlapped and might be the same locus.Segregation analysis under major gene plus polygene inheritance model showed that Al-tolerance was controlled by two major genes (h2mg =33.05%) plus polygenes (h2pg=52.73%).Both QTL mapping and segregation analysis confirmed two QTLs responsible for Al-tolerance with relatively low heritability,and there might be a third QTL,confounded with the polygenes in segregation analysis.