美国玉米自交系对4种病原茎腐病的抗性鉴定及遗传多样性分析

对外引玉米种质进行抗病鉴定是对其充分利用并选育抗病品种的基础和前提。本研究于2017-2018年连续2年采用人工接种技术评价了149个美国自交系对分别由禾谷镰孢(Fusarium graminearum)、拟轮枝镰孢(Fusarium verticillioides)、层出镰孢(Fusarium proliferatum)和芒孢腐霉(Pythium aristosporum)4种病原菌引起的茎腐病的抗性表现,并选择30个抗性较好的与6个骨干自交系进行遗传多样性分析。结果表明,149个美国自交系中,对禾谷镰孢、拟轮枝镰孢、层出镰孢和芒孢腐霉表现中抗及以上抗性的自交系分别有62个、44个、41个和54个,其中对4种茎腐病全部表现高抗的自交系有23个,全部表现中抗及以上抗性的自交系有32个,对3种镰孢菌茎腐病全部表现高抗的自交系有27个;所有供试材料中,88个自交系对4种茎腐病的抗性表现一致,61个自交系对4种茎腐病的抗性存在差异;共筛选出20条多态性引物,每个引物可检测出5～11个等位基因,平均等位变异数为7.7个,聚类分析将36个材料划分为6个类群,其中2FACC、J8608、黄早四分别被单独聚为一类,剩余自交系被划分为3个类群,分别包含自交系个数为26、5和2,第Ⅰ类群又分为3个亚群。本研究结果明确了外引美国自交系对不同病原菌引起的玉米茎腐病的抗性差异,为抗病育种中抗源的选择提供参考。     

辣椒31个优良自交系的亲本类群分析

以包含我国重要尖椒品种的亲本材料在内的31份优良自交系为材料, 利用SRAP标记和基因型值分析技术开展了辣椒自交系间遗传差异的分析与类群划分研究。结果表明: 在30个引物组合中, 27个引物组合可以 在自交系间扩增出多态性条带, 共扩增出310个多态性条带, 平均每个引物组合产生11.5个多态性条带, 显示出SRAP技术具有较强的分析效率; 基于SRAP标记和Yule相似系数对这些自交系进行的聚类分析中, 可以基本区分辣椒的2个变种(C. annuum var. grossum和C. annuum var. longum), 而且可以反映出自交系间的亲缘及系谱关系; 在相似系数为0.67处, 可将这31个自交系分为4个类群; 基于基因型值和标准Euclidean距离对这些自交系进行的聚类分析可成功地将辣椒的两个变种完全区分; 在遗传距离约4.5处, 可将这31个自交系分为4个类群; 自交系间基于SRAP标记与基因型值的遗传距离存在一定的相关性。     

RAPD技术在黑糯玉米亲缘关系划分上的应用

以8个黑糯玉米自交系为试验材料,利用CTAB微量提取法从幼苗中提取DNA,进行RAPD扩增,筛选出3个能产生稳定遗传多态性的引物,分别是OP—A01、OP—A11和OP-006;利用这些引物的扩增出的指纹图谱,进行聚类分析,可将8个自交系划分为4个类群,与各个自交系的来源基本一致。表明RAPD可以用于黑糯玉米亲缘关系的划分。     

玉米自交系遗传变异的RFLP分析

利用ＲＦＬＰ标记研究了１３个玉米（Ｚｃａ ｎａｙｓ Ｌ．）自交系的遗传变异。从３０对探针／酶组合中筛选出杂交带型清晰、稳定、重复性好的２４对组合,在１３个自交系中获得８５个等位基因杂交片段,平均每个位点为３．３条,平均多态性指数为０．４９９。１３个自交系之间的遗传相似系数为０．５２３－０．８０２,平均为０．６４９。ＵＰＧＭＡ聚类分析表明,供试自交系共分为５个类群,分群结果与其系谱关系基本吻合;表明     

120份欧美玉米自交系的遗传多样性分析

为了拓宽黄淮海区玉米自交系的遗传基础,加快欧美优异种质的融入与利用,本研究利用SSR分子标记对120份来自美国和塞尔维亚及2份中国的玉米自交系进行遗传多样性和聚类分析。结果表明:29个多态性SSR标记共检测到115个等位位点,平均3.97个,位点多态性信息指数(PIC)平均为0.50,较好地揭示了自交系间的遗传多样性;观测杂合度(Ho)仅为0.03,表明参试自交系遗传稳定、纯合度高;美国SS、美国NSS、塞尔维亚和中国骨干自交系4个群之间相比,美国NSS群的等位位点数(3.55)、Shannon信息指数(0.93)最高,而塞尔维亚群的有效等位位点数(2.37)最高,表明美国NSS和塞尔维亚自交系群比其他两个群遗传多样性高;4个自交系群间的遗传距离介于0.1403~0.4695之间,美国NSS群与美国SS群、塞尔维亚群之间较小(0.1419,0.1403),与中国骨干自交系群之间最大(0.4695),4个群的遗传一致度介于0.6253~0.8691之间,美国NSS群与美国SS、塞尔维亚两个群之间的遗传一致度较高,表明美国与塞尔维亚自交系之间基因交流频繁,亲缘关系较近;聚类分析将122份玉米自交系分为9大主要类群,美国SS种质、NSS种质自交系被明显的区分开,并且SS种质被分为2个主要类群(Ⅰ和Ⅸ),NSS种质被分为6个主要类群(Ⅱ-Ⅶ),来自塞尔维亚的材料分散在美国NSS种质类群。本研究结果为来自欧美的自交系在玉米育种中合理利用提供可靠依据。     

中国温带糯玉米自交系遗传及品质性状分析

利用SSR标记研究了40份中国温带常用糯玉米自交系的遗传变异,用32对扩增带型稳定的引物,从供试材料中检测出152个等位基因变异,每对引物检测等位基因2～9个,平均4.75个,平均多态信息量0.632;遗传多样性和聚类分析把40份供试糯玉米自交系分为4个类群;对40份糯玉米自交系籽粒的蛋白质、可溶性糖、还原糖、淀粉和赖氨酸含量进行测定,结果表明,糯玉米籽粒营养成分中蛋白质与淀粉之间存在消长关系,可溶性糖与还原糖含量之间存在显著正相关,且随着蛋白质含量的增加,与营养品质密切有关的赖氨酸含量随之增加.     

亚洲蝮亚科蛇属间系统发生支序分析 (蛇亚目：蝰科)

在大量比较形态研究的基础上,选择了５个特征方面２８个性状,以支序分析方法探讨了分布于亚洲蝮亚科蛇５属１４种的系统发生关系,结果表明：该亚科蛇类可以划分为３个不同的类群,第一个类群包括尖吻蝮属、瘤鼻蝮属、红口腹属,它们具有较多的祖征,代表了该科中原始一类,基中红口蝮可能是最原始的一属;亚洲蝮属单独形成一个类群;第三个类群为原广义的烙铁头蛇属,包括竹叶青蛇属、原矛蝮属、烙铁头蛇属、黑绿烙铁头蛇属、莽山     

绿豆种质资源的ISSR遗传多样性分析

利用ISSR标记对33份绿豆种质进行了遗传差异和亲缘关系分析。 结果表明,从46条ISSR引物中筛选出10条扩增条带清晰、多态性高的引物,利用这10条引物从33份绿豆种质中共扩增出118条条带,其中多态性条带115条,多态性位点比例98.18%。遗传相似性与聚类分析结果表明,供试绿豆种质间的遗传相似系数范围为0.50～0.98之间,平均0.68。当遗传相似性系数为0.682时,供试33份绿豆种质资源分为4个ISSR类群( ISSR Groups,IGs),第Ⅰ类群包括产地为黑龙江、吉林共9份和河北的1份绿豆种质资源,第二类群包括河南、山西和陕西的所有和河北的4份绿豆种质资源,第三类群为来自泰国的5份绿豆抗虫资源,第四类群包括山东和内蒙各2份绿豆资源;当遗传相似系数为0.98时,供试的33份绿豆种质资源可被全部区分开。 ISSR分析结果表明, ISSR类群划分与绿豆的地理来源存在一定相关性;而同一类群中,地理来源相同的绿豆种质间也存在一定的遗传差异。     

二十八份玉米自交系的RAPD亲缘关系分析

采用RAPD技术,对28份玉米自交系的亲缘关系进行分析。旨在DNA水平上揭示玉米自交系之间的亲缘关系,为进一步提高玉米杂种优势利用水平提供有益的信息从100个10bp随机引物中筛选出24个多态性较好的引物,对28份玉米自交系DNA进行扩增,扩增出24张DNA指纹图谱,其中多态性DNA谱带106条,占总扩增带数的64％。利用DNA扩增结果进行聚类分析,建立了28个玉米自交系的亲缘天系树状图,将供试材料划分为五个类群,RAPD分析结果与已知系谱的亲缘关系基本一致。     

观赏南瓜及葫芦种质资源遗传多样性分子评价

利用RAPD和ISSR标记对28份观赏南瓜及葫芦种质资源进行遗传多样性分子评价。结果表明:12个RAPD引物和13个ISSR引物分别扩增出89条和93条清晰谱带,平均每个引物分别扩增出6.1条和6.2条多态性谱带,多态性比率分别为82%和86%。RAPD和ISSR标记检测供试材料的遗传相似性系数(GS)范围分别为0.31～0.99和0.33～0.99,ISSR(平均GS值0.68)检测多态性效果高于RAPD(平均GS值0.73)。利用UPGMA法基于RAPD与ISSR混合聚类,将28份观赏南瓜及葫芦种质分为3类,类群的划分与果实形状明显相关:第Ⅰ类群包括15份种质,为扁圆形、卵圆形、圆球形或圆筒状的早熟或晚熟果实;第Ⅱ类群包括11份种质,为汤匙形、梨形、扁球形或皇冠形的早中熟果实;第Ⅲ类群包括2份种质,为葫芦形的晚熟果实。     

Analysis of genetic distance by SSR in waxy maize

We examined the genetic diversity of 80 inbred waxy maize lines using 22 SSR molecular markers that could be used to achieve heterosis in waxy maize. Eighty inbred waxy maize lines with different phenotypes, 40 yellow, 25 white, 13 black, and two red lines were analyzed by SSR molecular marker fingerprint and cluster analysis. Using a standard genetic distance of 0.55, the 80 waxy maize inbred lines were clustered into nine groups. Among them, group II, group V, groups VII and VIII, and group IX were divided into three subgroups at a genetic distance of 0.46, into two subgroups at 0.49, into two subgroups at 0.46, and into four subgroups at 0.493, respectively. All but one of the yellow waxy maize inbred lines were clustered in groups VI, VII, VIII, and IX. Group IX (30 lines) contained 28 yellow lines; the other 11 yellow lines were distributed among groups VI, VII and VIII. Among the 25 white lines, 21 were clustered in groups III, V, VI and the third subgroup of group II. The black line N72 was in a group of its own. The black lines N75, N76 and N78 were distributed in groups VII, VIII and IX, respectively. The other nine black lines were clustered in group II. The red lines were distributed in the second subgroup of group II and there was no difference in genetic distance between them. In conclusion, there were considerable genetic differences among waxy maize inbred lines of different colors. The mean genetic distance of inbred lines of the same color was significantly less than that of lines of different colors. Therefore, we concluded that it was more accurate to determine the difference between the populations using the highly stable DNA genetic markers.     

Patterns of genomic variation in Chinese maize inbred lines and implications for genetic improvement

Key message

Genetic relationships among Chinese maize germplasms reveal historical trends in heterotic patterns from Chinese breeding programs and identify line Dan340 as a potential genome donor for elite inbred line Zheng58.

Abstract

The characterization of the genetic relationships, heterotic patterns and breeding history of lines in maize breeding programs allows breeders to efficiently use maize germplasm for line improvement over time. In this study, 269 temperate inbred lines, most of which have been widely used in Chinese maize breeding programs since the 1970s, were genotyped using the Illumina MaizeSNP50 BeadChip, which contains 56,110 single-nucleotide polymorphisms. The STRUCTURE analysis, cluster analysis and principal coordinate analysis results consistently revealed seven groups, of which five were consistent with known heterotic groups within the Chinese maize germplasm—Domestic Reid, Lancaster, Zi330, Tang SPT and Tem-tropic I (also known as “P”). These genetic relationships also allowed us to determine the historical trends in heterotic patterns during the three decades from 1970 to 2000, represented by Mo17 from Lancaster, HuangZaoSi (HZS) from Tang SPT, Ye478 from Domestic Reid and P178 from Tem-tropic I heterotic groups. Mo17-related commercial hybrids were widely used in the 1970s and 1980s, followed by the release of HZS- and Ye478-related commercial hybrids in the 1980s and 1990s, and the introduction of Tem-tropic I group in the 1990s and 2000s. Additionally, we identified inbred line Dan340 as a potential genome donor for Zheng58, which is the female parent of the most widely grown commercial hybrid ZhengDan958 in China. We also reconstructed the recombination events of elite line HZS and its 14 derived lines. These findings provide useful information to direct future maize breeding efforts.

     

农杆菌介导的玉米自交系愈伤组织转化条件的优化

采用农杆菌介导法,将外源基因导入玉米骨干自交系掖515和掖502胚性愈伤组织并再生玉米植株。在农杆菌浸染玉米胚性愈伤组织过程中,采取真空渗入、部分酶解和超声波处理,可以显著提高转化率。农杆菌浸染玉米胚性愈伤组织时,在50kPa下真空渗入5min,掖515和掖502胚性愈伤组织的转化率分别从6.3％和4.5％提高到8．7％和7．8％。愈伤组织在农杆菌浸染前,以0．2％离析酶酶解10min,掖515和掖502胚性愈伤组织的转化率分别提高到8.3％和8．9％。在农杆菌浸染时,以功率100W超声波处理90-120s,掖515和掖502胚性愈伤组织的转化率最高可达9．1％和9．4％。     

新疆自然高温环境下玉米自交系开花期耐热性鉴定与评价

在新疆夏季自然高温环境下,以田间玉米空秆率、果穗结实率、相对结实率为主要评价指标,综合籽粒产量与穗部性状,对26份国内外玉米骨干自交系连续2年进行耐热性鉴定与评价,结合新疆当地高温干燥的气候特点,建立一套适宜玉米种质资源大田耐热性的鉴定、评价体系,为中国玉米耐热种质资源的遗传改良和新品种选育提供参考。结果表明:(1)不同基因型玉米自交系空秆率、果穗结穗率、相对结实率和耐热性差异较大,其中GW5F、GW4F、GW7F和PH6WC耐热性最强,在高温胁迫下空秆率最低,果穗结实率与相对结实率最高;其次为PHBA6、新自351等8份自交系,在高温胁迫下籽粒产量及综合表现较好;其余自交系对高温均表现敏感。(2)高温胁迫导致玉米穗部性状严重衰退,其中的穗重、穗行数和行粒数所受影响最大。(3)在年份或材料之间,玉米自交系籽粒产量与其主要农艺性状相关性差异较大,并以果穗重与籽粒产量相关性最高。(4)以相对结实率为主要指标通过层次聚类可将参试材料分为两大群,耐热性最强的GW5F、PH6WC、GW4M聚为第Ⅰ群,其余自交系聚为第Ⅱ群;第Ⅱ群中‘吉63’、Mo17等6份自交系可聚为第1亚群,PHBA6、LH82等6份自交系聚为第2亚群,郑58、新农育6390M等11份自交系聚为第3亚群。综合分析来看,该研究中表现极耐高温的4份自交系均为国外优异种质,可用于玉米耐高温基础研究和遗传改良;表现较强耐热性的8份品系多来自于新疆本地选育的材料,其遗传基础较为广泛,适应当地的高温环境,也是优异的耐热育种资源。     

Sequence Polymorphism Characteristics in the See2β Gene from Maize Key Inbred Lines and Derived Lines in China

Research on the sequence polymorphism characteristics of key genes is important in the early identification of maize inbred lines. The See2β gene functions in remobilizing leaf nitrogen and exporting it to developing grain during foliar senescence. We analyzed See2β sequences from 49 inbred lines representing four key lines and their derivatives: Huangzaosi, Mo17, Dan340, and Ye478. We found that the See2β gene had one insertion and two deletions in most Huangzaosi lines and three insertions in the Mo17 group; that the Huangzaosi, Dan340, and Ye478 lines, but not the Mo17 line, had unique indels; and that the See2β gene in lines derived from the same key inbred line had higher sequence homology, according to phenetic analysis of the inbred lines derived from Huangzaosi and Mo17. Thus, a candidate inbred line could be preliminarily identified using markers closely linked to the See2β gene combined with sequence alignment of See2β.     

中国17个优良玉米自交系的分子标记杂合性及其与杂交种性状的关系研究

在玉米单交种育种中 ,鉴定高产杂交种和具有优良特性的自交系是一个重要的问题。研究以 1 7个优良玉米自交系为亲本 ,按照双列杂交配组合 ,利用 RAPD技术分析了 1 7个自交系的多态性以及 RAPD标记与 9个重要农艺性状 (包括产量 )的关系。基于 RAPD标记计算的相似系数聚类将 1 7个自交系分为 5个类群 ,经分析与系谱亲缘关系基本一致。杂交种性状及其特殊配合力与亲本间的遗传距离是高度相关的 ,与聚类前比较 ,聚类后平均遗传距离与平均产量、平均特殊配合力的相关系数显著提高 ,类间平均产量高于类内平均产量。RAPD技术可揭示优良玉米自交系的系谱亲缘关系 ,将自交系划分成不同的类群 ,从而为选择类间自交系杂交 ,进行亲本选配和分子标记辅助育种提供一种方法。     

Assessment of testcross performance and genetic diversity of yellow endosperm maize lines derived from adapted × exotic backcrosses

Introduction of exotic maize (Zea mays L.) into adapted tropical germplasm may enhance genetic variability and lead to greater progress from selection. The first objective of this study was to determine if yellow endosperm lines derived from adapted × exotic backcrosses contain exotic alleles that are superior to the recurrent adapted parental line for yield and other agronomic traits in tropical environments. Thirteen exotic yellow maize inbred lines were crossed to an adapted orange line (KUSR) and the F₁s were backcrossed to KUSR to generate the first backcrosses. Fifty BC₁F₄ lines derived from these backcrosses and the recurrent parent were crossed to a common inbred tester (L4001) to form testcrosses, which were evaluated at eight environments in Nigeria. Testcrosses of the BC-derived lines differed significantly for grain yield and other agronomic traits. Only two testcrosses yielded significantly less than L4001 × KUSR, with the best 15 testcrosses producing between 289 and 1,056 kg/ha more grain yield than L4001 × KUSR. The best testcrosses were similar to or better than L4001 × KUSR for other agronomic traits. The second objective of this study was to assess the extent of genetic diversity present among the BC-derived lines. We genotyped 46 BC-derived lines including KUSR and L4001 with 10 AFLP primer pairs and found 491 polymorphic fragments. The average allelic diversity of the lines was 0.30 ± 0.01. The genetic distance of each BC-derived line from KUSR ranged between 0.49 and 0.91. The average genetic distance for all pairs of the BC-derived lines was 0.68 ± 0.004, varying from 0.34 to 0.92. The increased grain yield and genetic diversity observed in these studies provide evidence that exotic germplasm can contribute new alleles to expand the genetic base of tropical maize and develop high-yielding hybrids.     

Detection and verification of quantitative trait loci for resistance to Fusarium ear rot in maize

Fusarium ear rot caused by Fusarium verticillioides is a prevalent disease in maize which can severely reduce grain yields and quality. Identification of stable quantitative trait loci (QTL) for resistance to Fusarium ear rot is a basic prerequisite for understanding the genetic mechanism of resistance and for the use of marker-assisted selection. In this study, two hundred and ten F _2:3 families were developed from a cross between resistant inbred line BT-1 and susceptible inbred line Xi502, and were genotyped with 178 simple sequence repeat markers. The resistance of each line was evaluated in two environments by artificial inoculation using the nail-punch method. The resistance QTL were detected using the composite interval mapping method. Three QTL were detected on chromosomes 4, 5 and 10. Of them, the QTL on chromosome 4 (bin 4.05/06) had the largest resistance to Fusarium ear rot, and could explain 17.95?% of the phenotypic variation. For further verification of the QTL effect, we developed near-isogenic lines (NILs) carrying the QTL region on chromosome 4 using parental line Xi502 as the recurrent parent. In the NIL background, this QTL can increase the resistance by 33.7?C35.2?% if the resistance region is homozygous, and by 17.8?C26.5?% if the resistance region contains the heterozygous allele. The stable and significant resistance effect of the QTL on chromosome 4 lays the foundation for further marker-assisted selection and map-based cloning in maize.     

吉林省部分玉米种质资源抗玉米弯孢菌叶斑病鉴定研究

玉米弯孢菌叶斑病主要是由弯孢菌（Curvularia lunata）引起的侵染性病害。近年来,该病害在我国玉米主产区发生面积逐年扩大,已成为玉米重要病害之一。本文研究了吉林省主要玉米杂交种和自交系抗病性差异,结果表明：玉米杂交种间以及自交系间抗病性差异明显;吉63、黄早4、自330、丹9046、丹9041、铁7922、掖478、沈5003、丹340和E28等一批应用多年的种质资源均为感病类型（MS-HS）;而新选育的各类群一些种质和具有热带、亚热带血缘的78599等一些外来种质资源均为抗病类型（R～HR）。杂交种的抗病性与双亲的抗病性有密切关系;玉米杂交种苗期较抗病,抽丝期极为感病,这表明杂交种抗性随植株生长而递减。