普通小麦主要农艺性状的全基因组关联分析

为解析小麦复杂农艺性状的遗传机制,本研究以150份小麦品种(系)为自然群体,在4个环境条件下测定了9个主要农艺性状,利用小麦35K SNP芯片,结合5种关联模型(Q、PCA、K、PCA+K、Q+K),进行全基因组关联分析。结果表明,全基因组多态性信息量PIC的范围为0.0950～0.5000,最小等位基因频率MAF值为0.0500～0.5000;群体结构分析和PCA分析均表明参试材料可分为两个亚群;连锁不平衡分析发现A基因组、B基因组、D基因组和全基因组的LD衰减距离分别为4.7、8、11和6 Mb。9个性状共检测到652个显著的关联位点(P≤0.001),其中21个SNP在2个或2个以上的环境中被重复检测到,分布在1A(1)、1B(4)、2A(3)、2D(2)、3A(1)、5A(1)、5B(5)、6A(1)、6B(2)和7D(3)染色体上; 1个SNP标记的物理位置未知, 3个SNP标记同时与2个性状显著关联;单个SNP的表型贡献率为7.67%～18.79%。8个优势等位变异在供试群体中所占比例较低,筛选出14个可能与小麦农艺性状相关的候选基因,其中TraesCS5B02G237200、TraesCS7D02G129700和TraesCS1B02G426300可能在植物抵御生物与非生物胁迫中起作用,TraesCS5B02G010800和TraesCS7D02G436800可能与植物激素的合成和响应有关,TraesCS2A02G092200可能与植物细胞壁的增强有关, TraesCS5A02G438800可能参与叶绿体发育,另外7个候选基因的功能未知。     

Pigeonpea improvement: An amalgam of breeding and genomic research

In the past five decades, constant research has been directed towards yield improvement in pigeonpea resulting in the deployment of several commercially acceptable cultivars in India. Though, the genesis of hybrid technology, the biggest breakthrough, enigma of stagnant productivity still remains unsolved. To sort this productivity disparity, genomic research along with conventional breeding was successfully initiated at ICRISAT. It endowed ample genomic resource providing insight in the pigeonpea genome combating production constraints in a precise and speedy manner. The availability of the draft genome sequence with a large‐scale marker resource, oriented the research towards trait mapping for flowering time, determinacy, fertility restoration, yield attributing traits and photo‐insensitivity. Defined core and mini‐core collection, still eased the pigeonpea breeding being accessible for existing genetic diversity and developing stress resistance. Modern genomic tools like next‐generation sequencing, genome‐wide selection helping in the appraisal of selection efficiency is leading towards next‐generation breeding, an awaited milestone in pigeonpea genetic enhancement. This paper emphasizes the ongoing genetic improvement in pigeonpea with an amalgam of conventional breeding as well as genomic research.     

Bulk pollen pollination in maize for efficient construction of introgression populations with high genome coverage

Introgression populations consist of a set of introgression lines or families, constructed by continuous backcrossing to the recurrent parent, while carrying a limited number of chromosome segments from a donor parent in their genomes. Increasing the genome coverage is an important aim when constructing introgression population. In this study, we proposed bulk pollen pollination (BPP) method and used it to increase the genome coverage of a maize introgression population. The results showed that the genome coverage of the introgression population constructed using BPP method reached 100% at BC₃ generation, which accorded with the simulation result. The BPP‐based BC₃F_1:2 population could identify most quantitative trait loci (QTL) detected using the F_2:3 population, especially major QTL. Simulation analysis showed that the genome coverage of introgression population increased with the increase of population size and the number of bulked plants, and decreased with the increase of backcross generation. Our results proved the reliability of the BPP‐based introgression population in increasing genome coverage and detecting QTL, and provided references for constructing high‐coverage introgression populations.     

A genetic linkage map in southern‐by‐spring oat identifies multiple quantitative trait loci for adaptation and rust resistance

We developed 178 recombinant inbred lines from a southern‐by‐spring oat population designated as “TxH.” These lines were genotyped to generate a high‐quality linkage map that resolved 6,902 markers into 21 linkage groups that matched closely with the latest hexaploid oat consensus map. Three major quantitative trait loci (QTLs) affecting heading date were found in locations that are consistent with known QTLs and candidate genes, and two other QTLs affecting heading date were found in novel locations. Five QTLs affecting plant height were found. Both sets of QTLs are responsible for transgressive segregation observed for these two traits. Four QTLs affecting resistance to crown rust, caused by the pathogen Puccinia coronata f. sp. avenae, were identified. Two of these QTLs are consistent with known clusters of rust resistance genes, while two may represent new locations of novel rust resistance genes. A complete set of SNP sequences suitable for generating markers for molecular selection is provided.     

Identification and verification of quantitative trait loci for eating and cooking quality of rice (Oryza sativa)

This study was conducted to identify new quantitative trait loci (QTLs) that have stable effects for eating and cooking quality (ECQ) of rice. Three recombinant inbred line populations of indica rice were each planted in two years. Three traits for ECQ, amylose content (AC), gel consistency (GC) and alkali spreading value (ASV), were measured for QTL analysis. A total of 13 QTLs were detected, including four for AC, six for ASV and three for GC. Two QTLs, qGC4 in the interval RM16252–RM335 on the short arm of chromosome 4 and qGC6.2 in the Alk region, were validated in a population derived from a residual heterozygote that was homozygous at the major locus Wx. In the absence of segregation at the Wx locus, qGC4 and qGC6.2 had additive effects of 2.46 and 8.18 mm, respectively, offering a potential for improving GC property of rice varieties. Comparison between qGC4 and previous results suggests that qGC4 is likely a new QTL for GC, providing a candidate for gene cloning and functional characterization.     

基于RIL群体鉴定棉花抗黄萎病相关QTLs

【目的】鉴定出能够稳定表达的棉花抗黄萎病相关数量性状位点(Quantitative trait loci,QTLs)。【方法】以抗落叶型黄萎病棉花品种常抗棉和感黄萎病品种TM-1为亲本配制的111个重组自交系家系为作图群体,筛选出多态性简单序列重复(Simple sequence repeat,SSR)标记,并用于构建遗传图谱。用完备复合区间作图法对该群体在安阳大田、新疆重病地及病圃等多个环境下的黄萎病病情指数进行QTLs检测。【结果】构建了1张含有12个连锁群、40个标记、总长212.5 cM(厘摩)的遗传图谱。获得了6个与抗黄萎病基因相关的QTLs,对数优势比(Logarithm of the odd score,LOD)分布在2.51～5.55,贡献率最大为20.34%,最小为6.93%。其中,qVR-D05-1能够在安阳大田2015年7月15日和新疆南疆重病地2016年7月9日2个环境中检测到,贡献率分别为12.96%和20.34%。【结论】本研究得到的qVR-D05-1能够为定位出稳定的棉花抗黄萎病相关QTLs提供参考。     

用籼/籼交重组自交系群体构建的分子遗传图谱及其与籼/粳交群体的分子图谱的比较

为了最终实现对籼稻数量性状基因位点 (QTLs)精确定位 ,用一个包含 1 31个系的籼 /籼交重组自交系群体 (F6∶7)构建了分子遗传连锁图谱。该图谱含由 1 1 3个水稻探针、2 8个小麦探针揭示的 1 6 0个RFLP标记和由 5个PstⅠ /MseⅠ引物组合揭示的 78个AFLP标记。群体的杂合性比率接近期望值 ,表明该群体具有正常的遗传结构。在 6个染色体区域观察到标记的偏分离 ,表明即使在亚种内群体中也可能发生标记的偏分离。本图谱的总长度为 1 4 35 8cM ,相邻标记间的平均距离为 6 38cM。由于采用了一套日本水稻基因组计划 (RGP)的RFLP标记 ,使本图谱能与RGP图谱进行比较。结果表明 ,两个图谱上的共同标记所覆盖图谱总长度几乎相同 ;在水稻 1 2条染色体中的 9条表现完全的连锁保守性。此外 ,水稻的第 1号染色体与小麦的第 3组染色体具有很强共线性。但是 ,两个图谱间也存在明显的差异 ,在 1S、1L、4L和 8L 4个染色体臂上发现 4个小倒位 ;除第 5号和第 6号染色体外的其他染色体上共检测到 1 9个新的位点。籼稻亲本间在染色体臂 2S、7S、1 0L和 1 1S 4个区域的RFLP多态性很低或没有 ,从而导致籼稻图谱在这些区域呈现空白。在这个籼稻图谱中 ,未检测到第 1 1号和 1 2号染色体间的重复性。还就稻属在基因组进化中的染     

黄淮海夏播区联合体国审玉米新品种综合性状分析

对2020年黄淮海夏播区玉米联合体审定的产量前20位品种进行性状分析。结果表明,在选育和种植品种上,应选择比对照增产5.0%以上、抗穗腐病、千粒重在330 g以上、容重在720 g/L以上、穗高系数等于或接近0.382、高淀粉(粗淀粉含量在72%以上)、赖氨酸含量在0.3%以上、中大穗(穗长在17.8 cm以上)、穗行16左右的新品种。     

小麦黑胚病抗性遗传研究进展

小麦黑胚病病因复杂,链格孢（Alternaria alternata）、麦根腐平脐蠕孢（Bipolaris Sorokiniana）、层出镰刀菌（Fusarium proliferatum）等多种真菌是引起小麦黑胚病的主要病原。有限的研究报告显示,小麦对黑胚病的抗性具有数量性状特征,QTL定位研究尚处于初级阶段。目前报道的小麦抗黑胚病QTLs位于1D、2A、2B、2D、3D、4A、5A、7A等多条染色体上。小麦第2部分同源群携带了较多抗病QTLs,与这些QTLs连锁的分子标记有gwm319(2B)、gwm341(3DS)和wmc048(4AS)等,但是还没有见到这些标记在抗小麦黑胚病新品种培育中应用的报道。综上所述,针对目前小麦黑胚病抗性遗传研究中缺乏准确的抗性鉴定方法和病原不清导致的QTL定位结果不可靠的问题,应在明确病原菌的情况下,采取可靠的接菌鉴定方法进行QTL定位研究并开发分子标记,以期辅助抗黑胚病株系的选择。     

Identification of QTL Affecting Protein and Amino Acid Contents in Rice

The phenotypes of protein and amino acid contents were measured in an F9 recombinant inbred line population derived from a cross between Zhenshan 97B and Delong 208. A total of 48 and 64 QTLs were identified in 2004 and 2005, respectively. The contribution of each QTL to the phenotypic variation ranged from 4.0% to 43.7%. Most QTLs co-localized, forming 29 QTL clusters on the chromosomes with three major ones detected in both years, which were mapped on chromosomes 1, 7 and 9, respectively. The two QTL clus...