中国黍稷种质资源抗黑穗病鉴定评价

采用人工对种子饱和接种的方法,对来自我国14省（区）的6526份黍稷种质资源进行了抗黑穗病鉴定。筛选出高抗种质11份,占0．17％;抗病种质574份,占8．80％;这些种质均可作为我国黍稷种质遗传改良的亲本材料应用,有些丰产性和品质性状优良的种质,黑穗病高发地区可在生产上直接利用。     

北方玉米丝轴黑粉菌遗传多样性与遗传分化研究

从80个随机扩增多态性DNA (RAPD)引物中筛选出26个扩增稳定、带纹清晰的引物,对从玉米丝黑穗病发生严重的大部分北方省市收集分离的68个玉米丝轴黑粉菌菌株进行了DNA遗传多 样性分析.结果表明,RAPD谱带多态性为98.33%,北方玉米丝轴黑粉菌具有丰富的遗传多样性,遗传分化明显;种群内遗传变异小于种群间遗传变异.玉米丝轴黑粉菌遗传分化除明显受地理阻隔影响外,也可能与玉米种子调运过程中携带病菌基因的遗传迁移相关.取相似系数为0.76阀值时的系统聚类分析,可将68个菌株划分为13个遗传宗谱.本研究结果完善和丰富了我国玉米丝轴黑粉菌遗传多样性评价研究,对玉米抗病资源筛选和抗病育种具有重要参考价值.     

高粱三系抗丝黑穗病鉴定与评价

采用土壤接种技术,对目前我国高粱育种上广泛应用的150份高粱种质资源(包括高粱不育系、保持系和恢复系)进行抗高粱丝黑穗病鉴定评价。经两年重复鉴定,在150份高粱种质中,筛选出对高粱丝黑穗病菌优势小种表现免疫(IM)的47份,占总数的31.3%;高抗(HR)和中抗(MR)的各6份,分别占鉴定材料总数4.0%;抗病(R)的4份,占2.7%;感病(S)的13份,占8.7%;高感(HS)的74份,占49.3%。上述结果表明,目前高粱育种中广泛应用的育种种质中抗丝黑穗病材料较为丰富。     

黑龙江省高粱种质抗丝黑穗病、靶斑病、高梁蚜和亚洲玉米螟鉴定

对黑龙江省种植的114份高粱种质资源进行丝黑穗病、靶斑病、高粱蚜及亚洲玉米螟病虫害鉴定,筛选出抗丝黑穗病材料6份、抗靶斑病材料7份、抗高粱蚜材料3份及1份高抗亚洲玉米螟材料。这些抗病虫材料可为今后进行种质创新及杂交种选育提供理论和实用价值。     

黑龙江省高粱种质抗丝黑穗病、靶斑病、高粱蚜和亚洲玉米螟鉴定

对黑龙江省种植的114份高粱种质资源进行丝黑穗病、靶斑病、高粱蚜及亚洲玉米螟病虫害鉴定,筛选出抗丝黑穗病材料6份、抗靶宽病材料7份、抗高粱蚜材料3份及1份高抗亚洲玉米螟材料.这些抗病虫材料可为今后进行种质创新及杂交种选育提供理论和实用价值.     

茄子种质资源抗青枯病的鉴定与评价

对304份茄子种质资源进行抗青枯病苗期人工接种鉴定,筛选出免疫材料10份,高抗材料51份,抗病材料35份,中抗材料32份,感病或高感材料176份,分别占鉴定材料的3.3%、16.8%、11.5%、10.5%和57.9%.茄子野生近缘种Solanum sisymbriifolium和S.torvum对青枯病有较强的抗病性,可作为茄子青枯病的抗源材料.获得4份抗青枯病的种间体细胞杂种.茄子对青枯病的抗性遗传较为复杂,主要由多基因控制.     

玉米种质资源抗南方锈病鉴定

玉米南方锈病已成为近几年我国夏玉米生产区间歇性暴发流行的病害,对玉米生产构成严重威胁,病害流行年份可造成10%以上的产量损失。目前,已确认的抗病自交系非常有限,而抗病育种急需不同抗性控制背景的自交系。为发掘和丰富可利用的南方锈病抗源,于2008～2012年,在广西南宁采用田间人工接种方法对1589份玉米种质资源进行抗南方锈病鉴定。通过高病害压力和连续多年的鉴定,从1589份玉米种质中鉴定出高抗（HR）材料26份,占鉴定总数的1.64%;抗病（R）材料137份,占鉴定总数的8.62%;中抗（MR）水平的材料382份,占鉴定总数的24.04%;感病（S）材料489份,占鉴定总数的30.77%;高感（HS）材料555份,占鉴定总数的34.93%。总体上抗南方锈病种质较少,引进种质中抗病类型材料的比例略高。经重复鉴定,筛选出赤556等18份自交系、老来秕等3份地方品种、A69等4份来自津巴布韦的材料、引自CIMMYT的Dr11表现稳定高抗南方锈病,为今后我国玉米抗南方锈病育种提供了新的抗性资源。     

玉米抗腐霉茎腐病种质标记基因型鉴定与遗传多样性分析

腐霉茎腐病(Pythium stalk rot)是玉米生产上的重要病害。本研究利用14个与8个抗玉米茎腐病基因连锁的分子标记对196份抗腐霉茎腐病玉米种质进行抗病标记基因型鉴定,并采用42对多态性SSR标记对54份抗病自交系进行遗传多样性分析,以期阐明玉米抗腐霉茎腐病种质的标记基因型和遗传背景,并为资源的有效利用、新基因的挖掘和杂种优势模式确定提供参考信息。14个与抗病基因连锁的分子标记将196份抗性种质鉴定为128种标记基因型,表明存在多样的抗性基因组合方式。191份种质获得与齐319、X178或1145中一个或多个的相同的扩增,表明97.45%种质可能含有与3个抗玉米茎腐病材料相同的抗病基因;粤61、郑653、赤L136、白53和18--14共5份种质均未扩增出与齐319、X178和1145相同的标记基因型,可能携带其他抗茎腐病基因;遗传背景相近的抗性种质分属不同的标记基因型,表明抗病种质携带的抗病基因可能在育种选择中发生了分离。42对多态性SSR引物在54份抗病材料中共检测出119个等位基因(Na),多态位点百分率(PPB)为99.17%,平均有效等位基因数(Ne)为1.7070,平均Nei′s基因多样性(H)为0.3999,平均Shannon′s信息指数(I)为0.5844,平均多态信息含量(PIC)为0.5527,变幅为0.2061～0.7844;通过UPGMA聚类分析,54份抗病材料被划分为2个类群,共6个亚群中,分别是旅大红骨亚群、BSSS亚群、塘四平头亚群、PA亚群、PB亚群、Lan亚群,表现出较高的遗传多样性。结果表明,我国6个杂种优势群中均含有较为丰富的抗腐霉茎腐病种质资源,其中PA亚群包含的抗病种质最多。     

基于元分析的抗玉米丝黑穗病QTL比较定位

以玉米遗传连锁图谱IBM2 2005 Neighbors为参考图谱,通过映射整合不同试验中的抗玉米丝黑穗病QTL,构建QTL综合图谱。在国内外种质中,共发现22个抗病QTL,分布在除第7染色体外的9条玉米染色体上。采用元分析技术,获得2个“一致性”抗病QTL,图距分别为8.79 cM和18.92cM。从MaizeGDB网站下载“一致性”QTL区间内基因和标记的原始序列;采用NCBI网站在线软件BLASTx通过同源比对在2个“一致性”QTL区间内初步获得4个抗病位置候选基因。借助比较基因电子定位策略,将69个水稻和玉米抗性基因定位于玉米IBM2图谱上,在2个“一致性”QTL区间内分别发现1个水稻抗性基因,初步推断为抗病位置候选基因。本文结果为抗玉米丝黑穗病QTL精细定位和分子育种提供了基础。     

谷子种质资源抗黑穗病鉴定与过氧化物酶研究

对全国2050份谷子种质资源进行了抗黑穗病鉴定,对不同抗、感黑穗病的谷子种质资源进行了过氧化物酶活性、过氧化物酶同工酶的比较研究。结果表明,谷子不同种质资源对黑穗病的抗性存在着明显的差异。谷子种质资源对黑穗病的抗性比较稳定。谷子感染黑穗病后,抗病品种的过氧化物酶活性明显高于感病品种。过氧化物酶同工酶可以作为一种遗传标记。     

玉米种质资源对六种重要病虫害的抗性鉴定与评价

在2003-2005年间,对604份玉米种质进行了抗弯孢菌叶斑病和玉米螟鉴定,筛选出抗弯孢菌叶斑病的材料93份,抗玉米螟材料22份。2006-2009年间,对836份玉米种质进行了抗大斑病、茎腐病、穗腐病和瘤黑粉病的鉴定与评价,筛选出一批高抗和多抗的资源。在836份资源中,对大斑病1、2和N号3个生理小种具有抗性的材料均为50%左右;抗茎腐病材料为41.3%,高抗和抗性种质分别为264和81份;穗腐病高抗和抗性种质分别为5和171份,占比为21.1%;瘤黑粉病高抗和抗性种质各261和14份,占总鉴定材料的32.9%。上述结果表明抗大斑病、茎腐病和瘤黑粉病的种质资源较为丰富。通过对抗性结果进行对比分析,发现不同生态区玉米种质的抗性强弱以及抗性多样性存在明显差异,黑龙江和内蒙古的种质对病虫害的抗性强弱及多样性程度明显高于四川种质。此外,玉米自交系对病虫害的抗性强弱以及多抗性程度高于农家种。     

玉米重要自交系的肿囊腐霉茎腐病抗性鉴定与评价

由肿囊腐霉菌(Pythium inflatum Matthews)引起的玉米茎腐病是影响玉米产量的一种重要病害。为进一步拓展可利用的抗源,于2010-2011年在田间采用人工接种方法对287份重要的玉米自交系种质进行了玉米茎腐病的抗性鉴定评价。结果表明,287份鉴定材料中有171份自交系对茎腐病的抗性达到中抗以上水平,占鉴定材料的59.58%,其中高抗自交系共43份,占鉴定材料总数的14.98%;感病类型自交系共116份,占鉴定材料的40.42%,其中高感自交系共95份,占鉴定材料总数的33.10%。Lancaster、Reid及P群种质中具有丰富的茎腐病抗源,而塘四平头种质群中茎腐病抗源相对缺乏,多为感病类型。该研究结果可为今后我国玉米茎腐病抗性种质的引进和改良提供重要参考。     

抗茎腐病分子标记在159份玉米自交系中的验证及实用性评价

为了评价抗茎腐病基因分子标记在辅助育种中的实用性,本研究对159份玉米自交系进行了茎腐病田间抗性鉴定,并检测了与4个茎腐病抗性QTL(qRfg1、qRfg2、Rpi QI319-1和Rpi QI319-2)紧密连锁的11个分子标记在上述材料中的扩增情况。结果表明:供试玉米自交系的平均发病率为26.30%,发病率低于30.0%的材料占67.92%,抗病资源丰富。来源于国外、东北、西南和黄淮海地区的材料平均发病率分别为27.67%、17.92%、15.12%和36.80%,与东北和西南地区种质相比,黄淮海地区抗性种质相对缺乏。通过比较分子标记扩增带型与田间茎腐病表型,发现与同一QTL连锁的不同分子标记的检测结果存在较大差异,其中分子标记STS01(qRfg1)、STSZ479(qRfg2)、bnlg1866(Rpi QI319-1)和bnlg1716(Rpi QI319-2)的阳性检测结果与田间表型符合度较高,分别为76.79%、78.95%、91.67%、73.33%,具有上述特异扩增多态性的材料平均发病率分别为22.06%、19.01%、10.65%、19.63%,可作为抗茎腐病分子检测的有效标记。本研究为开展玉米抗茎腐病分子育种提供了重要参考。     

Evaluation of <Emphasis Type="Italic">ZmCCT</Emphasis> haplotypes for genetic improvement of maize hybrids

Key message

The elite ZmCCT haplotypes which have no transposable element in the promoter could enhance maize resistance to Gibberella stalk rot and improve yield-related traits, while having no or mild impact on flowering time. Therefore, they are expected to have great value in future maize breeding programs.

Abstract

A CCT domain-containing gene, ZmCCT, is involved in both photoperiod response and stalk rot resistance in maize. At least 15 haplotypes are present at the ZmCCT locus in maize germplasm, whereas only three of them are found in Chinese commercial maize hybrids. Here, we evaluated ZmCCT haplotypes for their potential application in corn breeding. Nine resistant ZmCCT haplotypes that have no CACTA-like transposable element in the promoter were introduced into seven elite maize inbred lines by marker-assisted backcrossing. The resultant 63 converted lines had 0.7-5.1 Mb of resistant ZmCCT donor segments with over 90% recovery rates. All converted lines tested exhibited enhanced resistance to maize stalk rot but varied in photoperiod sensitivity. There was a close correlation between the hybrids and their parental lines with respect to both resistance performance and photoperiod sensitivity. Furthermore, in a given hybrid A5302/83B28, resistant ZmCCT haplotype could largely improve yield-related traits, such as ear length and 100-kernel weight, resulting in enhanced grain yield. Of nine resistant ZmCCT haplotypes, haplotype H5 exhibited excellent performance for both flowering time and stalk rot resistance and is thus expected to have potential value in future maize breeding programs.

     

玉米抗镰刀菌穗腐病接种方法及抗病资源筛选研究

对玉米抗穗腐病性鉴定中采用的牙签法与花丝通道注射法进行比较研究表明,牙签法接种果穗的发病程度重于花丝通道注射法接种。牙签法接种病菌于果穗子粒与穗轴之间,有利于病原菌的发育扩展,是一种比较理想的、容易操作的接种方法。采用牙签法接种串珠镰刀菌,对178份玉米自交系和15份杂交种进行抗穗腐病鉴定,筛选出高抗(HR)自交系1份、抗病(R)玉米自交系34份、抗病(R)玉米杂交种12份。     

Reduced Anthracnose Stalk Rot in Resistant Maize is Associated with Restricted Development of Colletotrichum graminicola in Pith Tissues

Resistance to anthracnose stalk rot (ASR) in maize was investigated for its effects on the development of Colletotrichum graminicola. ASR and fungal presence in pith tissues of resistant and susceptible genotypes, inoculated at time intervals after wounding in the first internodes, were assessed by rating tissue discoloration and by quantifying ergosterol production using high performance liquid chromatography (HPLC) and fungal recovery from tissues, respectively. Slices (30 μm thick) of pith cores (2 mm diam) of first internodes at late‐whorl and kernel blister stages were also inoculated with a suspension of fungal conidia immediately, 2 or 6 h after slicing. Fungal development was observed in tissues by light microscopy. ASR was markedly reduced in resistant genotypes when compared to susceptible genotypes and when inoculation was delayed after stalk wounding. Ergosterol content in tissues was associated with extent of discoloration due to ASR and fungal recovery. Conidial germination, germ tube elongation, appressorium formation and penetration of cortical cells were all markedly delayed in resistant genotypes, in both resistant and susceptible maize at vegetative stages, and by wound healing. C. graminicola macerated more rapidly and to a greater extent pith tissues of susceptible than resistant genotypes. Resistance mediated by maize genotype and ontogeny, and wound healing is expressed at early stages and subsequent events of host–pathogen interaction. Fungal structural development in detached pith tissues and the rapidity and extent of pith maceration in susceptible when compared to resistant genotypes was indicative of genotypic reaction to ASR in maize in the field. Laboratory inoculation and observation of detached pith tissues could be a useful and accurate tool for rapid screening of maize germplasm to identify ASR resistant genotypes that will function well in the field even where pathogen ingress occurs via wounds.     

大豆种质对疫霉根腐病抗性特点研究

对1027份中国和国外引进的大豆种质进行了大豆疫霉(Phytophthora sojae)根腐病的抗病性鉴定评价.结果表明,中国大豆种质的抗病性高于国外引进种质;中国南方的大豆种质抗病性较北方种质强,长江流域大豆中抗病种质比率最高,其次为黄淮海流域种质,而东北地区抗病种质较少;不同省份大豆种质的总体抗病性差异明显;育成品系的抗性好于改良品种和农家种,但不同省份来源的农家种、品系和品种抗性存在差异,黑龙江材料抗病性最低,这也是该省大豆疫霉根腐病严重发生的重要原因之一;在大豆籽粒脐色为黄色和褐色的材料中,抗病种质较多.     

The Identification of Two Head Smut Resistance-Related QTL in Maize by the Joint Approach of Linkage Mapping and Association Analysis

Head smut, caused by the fungus Sphacelotheca reiliana (Kühn) Clint, is a devastating threat to maize production. In this study, QTL mapping of head smut resistance was performed using a recombinant inbred line (RIL) population from a cross between a resistant line “QI319” and a susceptible line “Huangzaosi” (HZS) with a genetic map constructed from genotyping-by-sequencing (GBS) data and composed of 1638 bin markers. Two head smut resistance QTL were identified, located on Chromosome 2 (q2.09HR) and Chromosome 5 (q5.03HR), q2.09HR is co-localized with a previously reported QTL for head smut resistance, and the effect of q5.03HR has been validated in backcross populations. It was also observed that pyramiding the resistant alleles of both QTL enhanced the level of resistance to head smut. A genome-wide association study (GWAS) using 277 diverse inbred lines was processed to validate the mapped QTL and to identify additional head smut resistance associations. A total of 58 associated SNPs were detected, which were distributed in 31 independent regions. SNPs with significant association to head smut resistance were detected within the q2.09HR and q5.03HR regions, confirming the linkage mapping results. It was also observed that both additive and epistastic effects determine the genetic architecture of head smut resistance in maize. As shown in this study, the combined strategy of linkage mapping and association analysis is a powerful approach in QTL dissection for disease resistance in maize.     

Marker-assisted introgression of qHSR1 to improve maize resistance to head smut

Head smut, one of the most devastating diseases in maize, causes severe yield losses worldwide. Resistance to head smut has been proven to be a quantitative inherited trait. In our previous study, a major resistance quantitative trait locus (named qHSR1) was detected on maize chromosome 2 (bin 2.09), and a number of molecular markers have been developed in the qHSR1 region. Here, we report the marker-assisted introgression of qHSR1 to improve maize resistance to head smut. The 10 maize inbred lines, namely Ji853, 444, 98107, 99094, Chang7-2, V022, V4, 982, 8903, and 8902, which have high yield potential but are susceptible to head smut, were selected for resistance improvement. Each of the 10 high-yielding lines was crossed with a donor parent Ji1037 that is completely resistant to head smut, followed by five generations of backcrossing to the respective recurrent parent. Marker-assisted foreground selection was conducted to identify qHSR1. Recombinant selection was carried out in the fourth backcross (BC4) generation by using the flanking markers to reduce the size of the Ji1037 donor segment carrying qHSR1. Background selection was performed in the BC5 generation with genome-wide SSR markers to select the line with the highest recovery rate of the recurrent parent genome. Self-pollination was conducted twice for the BC5 plant with both the shortest qHSR1 region and the highest recovery rate to obtain converted inbred lines harboring qHSR1. The 10 converted inbred lines all showed substantial improvement in resistance to head smut. Furthermore, the hybrids prepared from the converted lines also showed significant increase in resistance to head smut, while remaining mostly unchanged for other agronomic traits.