利用SSR标记鉴定香菇单核体及杂交后代

【目的】研究简单重复序列(Simple sequence repeat,SSR)分子标记方法用于香菇原生质体单核体、孢子单核体及其杂交后代的分离和鉴定。【方法】利用基于香菇全基因组序列信息开发的SSR标记,分析由香菇品种"L808"双核菌丝制备的原生质体单核体、孢子单核体及其杂交后代的SSR指纹。【结果】对制备的原生质体单核体的鉴定中,在不经过杂交配对的情况下,鉴定出"L808"的两种不同极性的原生质体单核体,其分离比例为191:1,该鉴定结果得到SSR标记、随机扩增多态性DNA(Random amplified polymorphismic DNA,RAPD)标记及传统方法的验证。另外,开发的香菇SSR标记还能以多位点组合的方式,用于对孢子单核体及其杂交后代的鉴定。【结论】应用SSR标记可加快香菇单核体的制备进程,并提高鉴定单核体及相关杂交菌株的准确性,促进香菇遗传育种研究。     

利用荧光SSR标记鉴定茶树自然杂交后代遗传背景

为研究茶树自然杂交后代遗传背景,分析不同茶树自然杂交后代遗传差异,本研究利用24对EST-SSR标记对82个茶树自然杂交后代和34个福建主要栽培品种进行分子标记,分析了茶树自然杂交后代的亲缘关系、群体遗传多样性、亲本模拟分析。结果表明：(1)24对SSR标记共检测到157个多态性位点,平均等位位点数为6.542个,Nei’s多样性指数平均为0.588,Shannon’s 信息指数平均为1.182,平均观测杂合度和期望杂合度分别为0.577和 0.591。(2)遗传距离聚类将个供试样品划分为4类,群体1主要为‘丹桂’及其自然杂交后代;群体2主要为‘丹桂’、‘黄观音’自然杂交后代与福建省乌龙茶品种;群体3主要为‘白鸡冠’及其自然杂交后代;群体4主要为福建省绿茶品种。(3)‘丹桂’、‘白鸡冠’、‘黄观音’自然杂交后代群体与福建主要栽培品种的遗传距离分别为0.079、0.117、0.107。(4)群体1亚群b内‘丹桂’自然杂交后代模拟亲本准确率为77.8%,模拟父本主要为福建乌龙茶品种,与群体2(亚群a)的遗传相似度、遗传分化系数、基因流分别为0.899、0.043、5.480。(5)AMOVA分析结果显示,有88.52%的遗传变异来自群体内部的个体间,表明遗传变异主要发生在群体内。     

SSR分子标记鉴定山葡萄和河岸葡萄种间杂种

利用SSR分子标记技术,对山葡萄和河岸葡萄种间杂交后代的真伪性进行鉴别。从12对多态性SSR引物中筛选出能扩增出父本特异性条带的7对引物,作为杂种鉴定的标记。用这7对引物对239株山葡萄和河岸葡萄的杂交后代进行鉴定。结果表明,有161株后代具有父本的特异性条带,结合田间形态学分析,确认为真杂种。另外,后代中还出现了新的条带,表明杂交后代产生了丰富的变异。因此,SSR标记可以有效地对葡萄属种间杂交后代进行真实性鉴定,可作为葡萄种质创新的有效辅助手段。     

绥农14及其系谱亲本的遗传多样性及重组分析

以绥农14及其系谱中的亲本品种为实验材料, 对14个农艺性状及分布在20个大豆连锁群上139对SSR引物进行分析, 揭示品种间遗传多样性和遗传重组关系, 为大豆新品种选育提供理论依据。聚类分析结果与品种间的亲缘关系相似, 每个SSR位点Shannon-Weaver指数的分布范围为0~1.677; 品种间的相似系数平均值为0.6380, 变化范围为0.5380~0.7990。筛选出区分这些品种的最少SSR位点数为3个; 如Satt543、Sat_130、Satt218。研究发现, 连锁群中间区段重组率与两个末端区段重组率无显著性差异, 说明连锁群上各区段的遗传重组是随机分布的。在139对引物中有39对引物在绥农14及其8个亲本间没有多态性, 表明这些位点可能对品种改良具有重要作用; 位于B2连锁群的Satt168是从祖先亲本紫花4号保留给绥农14的唯一的多态性位点, 可见, 经过5个世代的杂交重组和遗传改良, 绥农14的遗传组成与紫花4号相比已经发生了很大的变化。     

19个枇杷杂交新品种(系)的SSR鉴定和指纹图谱构建

为探究枇杷(Eriobotryajaponica)杂交品种真实性和DNA指纹图谱,对新育成的19个枇杷杂交品种(系)进行SSR标记鉴定分析。结果表明,从已发表的89对SSR引物中筛选出扩增条带清晰稳定的多态性引物19对,在24份枇杷材料中共扩增到83条带,每对引物平均扩增4.37条,PIC值为0.234～0.983,平均为0.764。经12对具有父本特征带多态性引物鉴定, 19个杂交新品种(系)全部为真杂种,真杂种率为100%。UPGMA聚类分析表明,19个杂交新品种(系)的遗传相似系数为0.728～0.969,与杂交亲本‘新白2号’和‘贵妃’聚为同一个大类,并可细分为4个亚类,红肉与白肉的枇杷品种(系)间无明显划分。同时利用8对多态性SSR引物组合,构建了19个枇杷杂交新品种(系)的分子指纹图谱。这为枇杷品种鉴定、新品种权保护和杂交育种提供重要参考依据。     

利用SSR标记构建枸杞品种分子身份证

以16个枸杞品种为材料,利用SSR标记构建枸杞分子身份证,为枸杞品种鉴定和保护提供参考。从600对SSR引物中筛选出多态性高、稳定性好、均匀分布在枸杞12条染色体上的24对引物,对16个枸杞品种进行扩增,共检测到等位基因155个,每对引物检测到等位基因数在3-10,平均为6.5个;共检测到基因型208个,每对引物检测到基因型在3-14个,平均为8.7个;多态信息含量(PIC)变幅在0.461-0.848,平均为0.682;Shannon’s信息指数变幅在0.939-2.055,平均为1.487。基于最少引物鉴定最多种质的原则,筛选出等位基因数、基因型数和PIC值均大于平均值,且Shannon’s信息指数 1.7引物,最终确定出引物LBSSR0052和LBSSR0423组合可区分全部供试品种。根据这两对引物对所有品种扩增获得等位基因按照由小到大排序,然后将每个品种在这两个SSR位点的赋值依次组合,构建16个枸杞品种的分子身份证。结果表明SSR标记技术可以作为枸杞品种鉴定和分子身份证构建的有效技术手段。     

甘蔗野生种滇蔗茅种质创新利用研究 Ⅰ. 甘蔗与滇蔗茅远缘杂交F1群体构建与SSR分子标记鉴定

利用光周期调控技术诱导甘蔗热带种路打士开花,并与滇蔗茅云南95-19进行远缘杂交,培育实生苗76株,大田移栽成活62株,成活率81.6%;选用4对引物对获得的62份杂交后代进行SSR分子标记鉴定,结果表明,62份杂交后代全部为真杂种,所选SSR引物对滇蔗茅后代群体具有较高的鉴定效率。该杂交组合后代杂种真实率为100%,是目前数量最大的滇蔗茅F1群体。     

甘蔗与斑茅割手密复合体杂交后代的分子标记鉴定

为有效利用甘蔗野生种质拓宽甘蔗遗传基础,本研究利用甘蔗与斑茅割手密复合体进行杂交,同时应用序列相关扩增多态性(SRAP)和微卫星(SSR)分子标记技术鉴定其后代。两种分子标记鉴定结果相互印证表明:3个杂交组合的后代中,经表型鉴定含斑茅血缘的34个后代为真杂种。该真杂种后代为进一步综合利用斑茅、割手密的优异基因改良甘蔗品种提供了优良的创新种质。     

小麦体细胞无性系SSR位点的遗传变异特性分析

研究结果表明:(1)小麦体细胞无性系SSR位点变异类型有:扩增片段迁移率的变大或变小、扩增片段缺失以及新的扩增片段;(2)变异特点为:变异频率与基因型有关,不同染色体组上的SSR位点变异频率不同,而不同无性系后代的SSR位点变异频率也不同;(3)同一SSR位点的变异类型在同一基因型的无性系后代中变异表现一致,在不同基因型无性系后代中的变异表现不同,有的SSR位点在无性系后代中表现出一致的变异,而有的则不一致。     

澳大利亚引进甘蔗花穗在中国育种潜力评价

为深入了解澳大利亚引进甘蔗杂交花穗在中国培育优良甘蔗新品种的潜力,以12个引进花穗和15个中国花穗为材料,采用家系评价法对有性杂交后代蔗茎产量、糖产量、株高、茎径、有效茎数和锤度6个重要性状的方差、遗传力、父母本一般配合力及组合特殊配合力进行研究。分析结果表明:(1)参试组合内中国杂交组合间多数性状差异不显著,且遗传力低;澳大利亚杂交组合间多数性状差异均较显著,且遗传力高;(2)澳大利亚杂交组合新植蔗与宿根蔗的糖产量、蔗茎产量、株高、有效茎数和锤度这5个性状父母本一般配合力及组合特殊配合力高于中国组合,但茎径配合力低于中国组合,12个组合中新植蔗有9个组合宿根蔗有10个组合的茎径特殊配合力为负值,多数属于细茎;(3)澳大利亚杂交组合后代材料产量及糖分较高,但茎径较细,不适合中国目前的种植制度,不能作为生产品种使用;(4)通过引进国外杂交组合花穗在国内培育出优良后代作亲本使用,为国内亲本融入新的优异血缘,有利于培育突破性甘蔗新品种。     

Genetic diversity in basmati rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.) germplasm as revealed by microsatellite (SSR) markers

Genetic diversity among rice genotypes, including 15 indica basmati advance lines and 5 basmati improved varieties were investigated by 28 SSR markers including one indel marker. The SSRs covered all the 12 chromosomes that distributed across the rice genomes. The mean number of alleles per locus was 3.60, showing average number of polymorphism information content was 0.48. A total of 101 alleles were also identified from the microsatellite marker loci. A number of SSR markers were also identified that could be utilized to differentiate between rice genotypes. Pair wise Nei’s genetic distance between rice genotypes ranged from 0.07 to 0.95. The dendrogram based on cluster analysis by using SSR polymorphism that grouped the 20 genotypes of rice in to five clusters based on their genetic similarity. The result could be useful for the identification and selection of the diverse genotypes for the future cross breeding program and development of new rice varieties.     

Genetic diversity in basmati rice (Oryza sativa L.) germplasm as revealed by microsatellite (SSR) markers

Genetic diversity among rice genotypes, including 15 indica basmati advance lines and 5 basmati improved varieties were investigated by 28 SSR markets including one indel marker. The SSRs covered all the 12 chromosomes that distributed across the rice genomes. The mean number of alleles per locus was 3.60, showing average number of polymorphism information content was 0.48. A total of 101 alleles were also identified from the microsatellite marker loci. A number of SSR markers were also identified that could be utilized to differentiate between rice genotypes. Pair wise Nei,s genetic distance between rice genotypes ranged from 0.07 to 0.95. The dendrogram based on cluster analysis by using SSR polymorphism that grouped the 20 genotypes of rice in to five clusters based on their genetic similarity. The result could be useful for the identification and selection of the diverse genotypes for the future cross breeding program and development of new rice varieties.     

Selection of high heterozygosity popcorn varieties in Brazil based on SSR markers

We analyzed genetic structure and diversity among eight populations of popcorn, using SSR loci as genetic markers. Our objectives were to select SSR loci that could be used to estimate genetic diversity within popcorn populations, and to analyze the genetic structure of promising populations with high levels of heterozygosity that could be used in breeding programs. Fifty-seven alleles (3.7 alleles per locus) were detected; the highest effective number of alleles (4.21) and the highest gene diversity (0.763) were found for the Umc2226 locus. A very high level of population differentiation was found (F(ST) = 0.3664), with F(ST) for each locus ranging from 0.1029 (Umc1664) to 0.6010 (Umc2350). This analysis allowed us to identify SSR loci with high levels of heterozygosity and heterozygous varieties, which could be selected for production of inbred lines and for developing new cultivars.     

杂交兰转录组SSR信息分析及EST-SSR标记开发应用

该研究主要开发筛选适用于杂交兰的EST-SSR引物,为杂交兰种质资源评价和遗传变异研究等提供可靠的分子标记。该研究对杂交兰进行转录组高通量测序,挖掘SSR位点和开发EST-SSR标记,并对不同种质的遗传多样性进行分析。结果表明,从31724条杂交兰Unigene中检测出18603个SSR位点,SSR出现频率为58.64%;SSR位点中的主导类型是单核苷酸重复,占总SSR的65.10%,其次是二核苷酸(23.56%)和三核苷酸(10.76%)重复;优势重复基元为A/T、AG/CT、AT/AT和AAG/CTT,分别占总位点的64.72%、13.74%、8.19%和2.51%。利用Primer Premier 5.0共设计了565对SSR引物,从筛选出的64对有效扩增引物中随机选择28对引物,对40份杂交兰种质进行多态性验证与遗传关系分析,其中16对(占57.14%)引物表现出可重复的高多态性,平均多态信息量(PIC)达0.789。基于扩增的多态性SSR信息,40份种质资源可聚为4类,聚类结果与其遗传背景基本一致。该研究印证了转录组测序获得的Unigene是SSR标记开发的有效来源,开发的EST-SSR引物可为杂交兰及近缘种的良种鉴别、遗传图谱构建、分子标记辅助育种及功能基因挖掘等提供有价值的候选标记。     

Evaluation of SSR Markers for the Assessment of Genetic Diversity and Fingerprinting of Gossypium hirsutum Accessions

A total 177 simple sequence repeat (SSR) markers were screened using a set of 47 Upland cotton genotypes comprising 14 commercial varieties, 14 germplasm accessions and 19 advanced breeding lines to identify informative markers for genetic diversity assessment and fingerprinting in G. hirsutum. Only 21% (381177) of SSR markers tested showed polymorphism with a mean of 2.18 alleles per locus and with average polymorphism information content (PIC) of 0.32. The SSR markers revealed a Jaccard’ similarity coefficient ranging between 0.43 and 0.89, with an average of 0.67 among accessions. Cluster analysis using unweighted pair group method with arithmetic averages (UPGMA) and principal component analysis (PCA) indicated that majority of the genotypes were very closely related. All the 47 genotypes showed heterorygosity for at least one of the SSR loci. We discovered 19 rare and 6 unique alleles among the tested genotypes of cotton. Fingerprint based on all the 38 loci revealed a probability of identical match by chance of 3.98x10. A set of ten SSR markers was identified which could distinguish all the 47 genotypes with a moderate probability of identical match by chance (X?_D ⁿ = 0.01).     

应用微卫星标记鉴别水稻籼粳亚种

应用70个微卫星标记分析了3个籼稻测验种和3个粳稻测验种的多态性,发现其中36个标记可以区分籼粳测验种。再以18个籼粳品种进一步筛选,找到了分布于12条染色体的21个籼粳特异性微卫星标记。在这21个标记中,20个在籼粳亚种间带型相异,其中7个在亚种内带型一致,13个在亚种内带型不一致;1个标记在12个籼稻品种和1个粳稻品种检测到相同的带型,其余11个粳稻品种具有另一种带型。微卫星标记和RFLP标记检测籼粳亚种不仅具有一致性,而且还有互补性。 Abstract:Six indica and japonica testers were assayed using 70 microsatellite markers.Thirty-six markers distinguishing indicas from japonicas were detected.By further-screening among 18 indica and japonica varieties,21 markers distributed on 12 rice chromosomes were found to be indica-japonica differentiated.No indica varieties shared same patterns with any japonica varieties at 20 marker loci,of which identical patterns were observed within subspecies at 7 loci while within-subspecies variations were observed at 13 loci.At the remaining locus,12 indica and 1 japonica varieties had the same allele,while other 11 japonica varieties had another allele.It also showed that SSLP was not only consistent,but also complementary,to RFLP for the subspecies identification.     

黑龙江省近年审定水稻品种基于SSR标记的遗传多样性分析

为评估黑龙江省水稻品种的遗传基础,利用24个用于水稻DNA指纹图谱构建的SSR标记以及其他均匀分布于水稻12条染色体的38个SSR标记,对黑龙江省近年审定的73个水稻常规稻品种进行遗传多样性分析。结果表明,在62个SSR标记位点中,共检测到142个等位基因,平均每个标记2.3个,多态性比率平均为71.0%,多态性频率变幅为0~0.775,平均值为0.246。供试品种间两两遗传相似系数的平均值为0.759,变幅为0.622~0.966,且96.4%的品种间遗传相似系数在0.66~0.86之间,表明供试的73个品种亲缘关系较近。通过SSR标记基因型聚类分析将这些品种划分为6个类群,与系谱分析趋势一致,类群间的差异主要表现在生育期和米质方面。综上所述,黑龙江省近年审定的水稻品种遗传基础狭窄,在育种中需要导入新的种质资源,加强种质资源创新,以期丰富水稻品种的遗传多样性,进一步提高水稻产量和抗性。     

Grapevine Phenological Quantitative Trait SSR Genotyping Using High-Throughput HRM-PCR Analysis

Discrimination among grapevine varieties based on quantitative traits, such as flowering, veraison and ripening dates is crucial for variety selection in the context of climate change and in breeding programs. These traits are under complex genetic control for which 6 linked SSR loci (VVS2, VVIn16, VMC7G3, VrZAG29, VMC5G7, and VVIB23) have been identified. Using these markers in HRM-PCR analysis, we assessed genetic diversity among a large collection of 192 grapevine varieties. The grapevine germplasm used encompasses the majority of Greek vineyard with 181 varieties, 3 prominent foreign varieties and 11 varieties of Palestinian origin. The SSR markers used were highly polymorphic, displaying unique melting curves for unusually higher number of samples than generally observed in SSR analysis. This prompted us to examine sequence composition for selected samples and found that variation present as SNPs in the flanking sequences of SSR motifs was responsible for the observed polymorphism. Hence, HRM-PCR proved to be a tool of higher analytical power to distinguish genotypes surpassing the discrimination power of conventional gel-based SSR analysis. The study provides a better understanding of genetic variation of SSR marker loci associated to phenological traits in grapevine varieties, signifying an analytical methodology that may be of higher discrimination power in detection of polymorphism for utilization in breeding programs.     

A genetic map constructed using a doubled haploid population derived from two elite Chinese common wheat varieties

Genetic mapping provides a powerful tool for the analysis of quantitative trait loci (QTLs) at the genomic level.Herein,we report a new genetic linkage map developed from an F1-derived doubled haploid (DH) population of 168 lines,which was generated from the cross between two elite Chinese common wheat (Triticum aestivum L.) varieties,Huapei 3 and Yumai 57.The map contained 305 loci,represented by 283 simple sequence repeat (SSR) and 22 expressed sequence tag (EST)-SSR markers,which covered a total length of 2141.7 cM with an average distance of 7.02 cM between adjacent markers on the map.The chromosomal locations and map positions of 22 new SSR markers were determined,and were found to distribute on 14 linkage groups.Twenty SSR loci showed different chromosomal locations from those reported in other maps.Therefore,this map offers new information on the SSR markers of wheat.This genetic map provides new opportunities to detect and map QTLs controlling agronomically important traits.The unique features of this map are discussed.     

SSR allelic variation in almond (Prunus dulcis Mill.)

Sixteen SSR markers including eight EST-SSR and eight genomic SSRs were used for genetic diversity analysis of 23 Chinese and 15 international almond cultivars. EST- and genomic SSR markers previously reported in species of Prunus, mainly peach, proved to be useful for almond genetic analysis. DNA sequences of 117 alleles of six of the 16 SSR loci were analysed to reveal sequence variation among the 38 almond accessions. For the four SSR loci with AG/CT repeats, no insertions or deletions were observed in the flanking regions of the 98 alleles sequenced. Allelic size variation of these loci resulted exclusively from differences in the structures of repeat motifs, which involved interruptions or occurrences of new motif repeats in addition to varying number of AG/CT repeats. Some alleles had a high number of uninterrupted repeat motifs, indicating that SSR mutational patterns differ among alleles at a given SSR locus within the almond species. Allelic homoplasy was observed in the SSR loci because of base substitutions, interruptions or compound repeat motifs. Substitutions in the repeat regions were found at two SSR loci, suggesting that point mutations operate on SSRs and hinder the further SSR expansion by introducing repeat interruptions to stabilize SSR loci. Furthermore, it was shown that some potential point mutations in the flanking regions are linked with new SSR repeat motif variation in almond and peach. Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.