我国水稻主栽品种SSR多样性的比较分析

采用40个SSR标记,比较分析了151份20世纪50年代(78份）和近10年（73份）我国常规稻主栽品种的遗传差异,发现有39个标记具有多态性,多态性位点共检测到213个等位基因,每个位点2～11个,平均5.5个;平均Nei基因多样性指数(He)为0.649,范围在0.309（RM174）～0.869（RM418）。籼粳亚种间SSR多样性差异明显,籼稻平均等位基因数（Na）和Nei基因多样性指数（Na = 4.4,He = 0.458）均高于粳稻品种（Na = 4.0,He = 0.395）。比较了78份20世纪50年代与73份近10年水稻主栽品种的遗传多样性,籼、粳亚种表现出相近的变化趋势,即Nei多样性指数和等位基因数20世纪50年代主栽品种高于近10年的。虽然Nei基因多样性指数的变化并不显著（籼稻：z= 1.471,P=0.141;粳稻：z= 1.932,P=0.053）,但等位基因数目的变化达到显著水平（籼稻：z= 2.677,P=0.007;粳稻：z= 3.441,P=0.001）。分子方差分析(AMOVA)表明,遗传变异绝大部分存在于两时期内,尽管时期间平均贡献的遗传变异仅占1.9％,但仍然达到5％的显著水平;籼、粳亚种两时期间平均贡献的遗传变异高于整个分析样本,分别为5.0％和8.2％;籼、粳亚种不同位点的遗传分化程度也各不相同,籼稻和粳稻品种分别有13个（占33.3％）和11个（占28.2％）SSR位点的等位基因在两时期间差异显著,而其余位点的遗传变异则是因时期内品种间的差异引起的。研究表明近10年我国常规稻主栽品种丢失了一部分等位基因,水稻育种仍应加强更广泛的种质亲本的选择。     

云南省不同地理位置水稻品种遗传多样性分析

在云南省的6个试验点收集了160个生产上使用的水稻(Oryzasativa)品种,用24对SSR引物对其进行遗传多样性分析,结果显示,24个标记都具有多态性,共检测到324个等位基因,每个多态位点检测到的等位基因数为7～20个,平均13.46个,总群体平均香农指数为2.0356,平均期望杂合度为0.8353。160个品种在相似系数0.101～0.996之间存在显著的遗传变异。AMOVA分析表明,水稻的遗传变异主要存在于地区内品种间(54%),只有7%遗传变异存在于地区间,品种内的遗传变异占39%。各试验点水稻品种遗传多样性分布不均匀,由高到低依次为:永德>元阳>石屏>保山>玉溪>石林。本研究结果表明,云南省水稻品种具有丰富的遗传多样性,但不同地理位置的水稻品种遗传多样性差异较大,这也为有效进行水稻种质资源的收集保存和利用模式提供了理论基础。     

我国常规稻主栽品种的遗传变异分析

 采用40个SSR标记,分析了329份我国近50年来常规稻主栽品种的遗传变异。结果显示,39个SSR标记具有多态性,在多态性位点共检测到223个等位基因,每个位点2～11个,平均57个;平均Nei基因多样性指数（He）为0632。籼粳亚种间的SSR变异差异明显,籼稻平均等位基因数（Na）和Nei基因多样性指数（Na = 54,He = 0440）均高于粳稻品种（Na = 44,He = 0397）。Nei遗传相似系数表明总体样本具有较小的遗传相似度（I = 0366）,而骨干亲本具有较高的遗传相似度（籼:I = 0590;粳:I = 0590）。这导致了籼粳亚种内较高的遗传一致性（籼:I = 0558;粳:I = 0600）。早、中、晚稻各类型遗传相似度差异明显,晚籼和早粳类型具有较高的遗传变异。籼粳稻品种尤其是粳稻的聚类结果显示出较强的季节型和地域特征。这些均提示育种家应选择更广泛的亲本源以拓宽选育品种的遗传基础。     

云南陆稻品种抗瘟性鉴定及其与抗旱性的相关分析

为了明确陆稻在不同逆境胁迫下的抗性表现,利用云南省4个稻瘟病菌优势小种对30个云南陆稻品种进行抗稻瘟病鉴定,并对其进行抗旱性评价及SSR多样性分析。结果表明:抗病能力中等以上品种占所检测品种的60%,抗旱能力中等以上品种占所有供试品种的66.7%,平均有效等位基因数为1.097 5、Nei’s基因多样性指数(H)平均为0.077 8;相关分析结果显示,供试品种的抗瘟性与抗旱性间存在显著的相关关系。本研究结果表明,供试品种间存在丰富的遗传多样性变异,且在面临不同逆境胁迫时具有相近的抗性表现,使得育种过程中培育兼具较好抗瘟、抗旱能力的栽培稻新品种成为可能。     

SSR标记在宁波地区水稻品种DNA指纹图谱构建及纯度鉴定中的应用

利用农业行业标准NY/T-1433-2007、NY/T-1433-2014中推荐的53对SSR引物,对宁波地区34个水稻品种进行DNA指纹图谱构建和遗传多样性分析。53对引物在研究材料中共获得183个等位基因,每对引物得到的等位基因数为1～7个,平均每对引物可获得3.5个等位基因。遗传相似性和聚类分析结果表明,34份水稻品种在遗传相似系数为0.5处可分为籼粳两个类群,其中,甬优系列籼粳杂交组合、6个常规粳稻及3个糯稻归为粳稻类群,6个常规籼稻和5个杂交籼稻归为籼稻类群。用RM590和RM3331对19个甬优杂交稻系列品种进行100粒种子的纯度鉴定,仅甬优2640和甬优50检测到1个单株的混杂。结果为SSR标记在宁波水稻品种的纯度和真伪鉴定方面的应用提供了一定的技术支撑。     

江淮稻区不同生态型粳稻品种的籼粳分化度和遗传多样性

 摘要： 利用25对籼粳特异性SSR标记分析81份江淮稻区不同生态型粳稻品种籼粳分化程度,品种TDj值变异幅度为0773~0962,以中熟中粳类型品种最高,晚粳类型品种最低。49对多态性SSR引物共检测到131个等位基因,每个位点为2~5个,平均为267个; 多态性信息量（PIC）为0068~0657,平均为0362,第11染色体平均位点等位基因数和平均PIC值最高。在三个生态型粳稻品种群体中,中熟中粳品种检测出的等位基因数最多,而迟熟中粳品种的平均位点PIC值和Nei基因多样性指数（He）均高于中熟中粳和晚粳品种,表明在DNA水平上迟熟中粳品种的遗传多样性高于中熟中粳和晚粳品种。中熟中粳与迟熟中粳群体之间的遗传相似性最高,遗传距离最近,而中熟中粳与晚粳群体之间的遗传相似性最低,遗传距离最远。UPGMA聚类结果表明,同一育种单位育成品种的品种间遗传距离较小,亲缘关系较近。     

太湖流域粳稻地方品种的微卫星分析

 采用45对SSR引物对224份太湖流域粳稻地方品种进行遗传多样性分析,共检测到162个等位变异,每个位点等位基因数的变幅为2～7,平均为3.6。各位点Nei基因多样性指数变异较大,为0.009（RM169）～0.663（RM444）,平均为0.197。青稻、黄稻、红稻和白稻各传统生态型均具较低的遗传多样性。分子方差分析表明,SSR遗传变异绝大部分存在于传统生态型内。青稻与红稻间、青稻与白稻、红稻与白稻、红稻与黄稻间遗传分化显著。太湖流域粳稻地方品种SSR多样性较低,稀有类型等位基因较多。这对科学制定太湖粳稻地方资源的保护和利用策略具有指导意义。     

贵州地方水稻品种的SSR遗传多样性分析

利用21对SSR引物对74份贵州"禾"水稻品种及6份国际上常用的典型籼稻和粳稻品种进行遗传多样性研究。共检测到92个等位基因,每个位点的等位基因数变幅为2~9个,平均4.381个;平均Shannon信息指数为0.935,变幅为0·2793~1.8732;期望杂合度为0.5145,范围在0.0988~0.8313;品种间遗传相似系数为0.64~0.98。UPGMA聚类分析表明,在相似系数为0.682处可将"禾"品种分为4大类,大部分材料被聚类到典型粳稻的附近,品种间的亲缘关系与地理来源关系不大;主坐标分析结果与UPGMA聚类结果基本吻合。SSR检测结果表明,贵州省水稻地方品种——"禾"的多样性程度较低,且大多数属于粳稻。     

沙生冰草遗传多样性的SSR分析

为给进一步保护、收集和利用沙生冰草种质资源提供依据,采用26个多态性小麦SSR引物对采集自中国不同生态环境的18个沙生冰草居群进行遗传多样性的SSR分析.结果表明,26个SSR引物多态性带纹数目变化为2～27条,平均每个引物在沙生冰草居群中扩增出了9.384条多态性带纹;不同引物间总遗传多样性指数最高为0.944(引物Xgwm544),最低为0.375(引物Xgwm257),平均遗传多样性指数为0.745;SSR检测到地区内遗传多样性占总体的82.2%,地区间为17.8%;在Nei遗传距离0.67处,18个沙生冰草居群被分为3个类群;UPGMA聚类和PCA分析表明,采集地生态环境相似的沙生冰草居群遗传距离较近.沙生冰草遗传多样性与居群的遗传和生态环境相关,在沙生冰草的有效保护和持续利用中,对其主要生态环境居群保护和利用基础上还需进一步加强不同生态环境中特异类型居群的保护和研究.     

基于SSR标记的云南地方稻种群体内遗传多样性分析

 用20对SSR引物对原产于云南的16份地方稻种和2份选育品种进行单个品种群体内的遗传多样性分析。结果表明,87.5%的地方品种群体内SSR多态性高于选育品种,而12.5%的地方品种群体内SSR标记多态性与选育品种相近。81.2%的地方稻种群体内的等位基因数(Na)和Nei基因遗传多样性指数(He)高于选育品种,而18.8%的地方品种群体内Na和He与选育品种相同或略小。水稻地方稻种群体内He的差异较大,其变异范围为0.0146～0.5117,其中,黄板所 1（1980年收集）、黄板所 2（2007年收集）、麻线谷 1（1980年收集）、麻线谷 2（2007年收集）的群体内遗传多样性较高,分别为0.2327、0.4214、0.5117和0.4489。87.5%地方品种的杂合度(Ho)明显高于选育品种;地方品种群体间遗传多样性差异很大,其中1/4的遗传差异来源于地方稻种群体内,差异极显著。RM333、RM257和RM180在供试云南地方稻种群体内的多态性、等位基因数、多样性指数和变异百分率均较高,适用于云南地方稻种群体内遗传多样性检测。     

Genetic Diversity of Rice Landraces from Lowland and Upland Accessions of China

Genetic diversity of rice landraces from lowland and upland accessions of China was investigated using 66 polymorphic simple sequence repeat (SSR) markers.The total number of alleles detected from all 324 tested accessions was 555 with an average allele number (Na) of 8.409 per locus,the average effective number of alleles (Ne) of 3.574 and the average Shannon’s information index (I) of 1.378.The genetic diversity was higher for the indica landraces compared to the japonica landraces,and the upland landraces were more genetically diverse than the lowland landraces.The SSR markers,RM72,RM232,RM219,RM241,RM224 and RM3 showed the highest rates of polymorphism and these SSR markers were suitable to assess the genetic diversity of rice germplasm resources.A dendrogram of 324 accessions of lowland and upland landraces showed that all rice accessions were mainly subdivided into two groups,japonica and indica,with some being intermediate.The distribution of lowland and upland landraces among the japonica and indica rice groups was distinct,with obvious differentiation between the lowland and upland landraces in japonica rice,but no such clear distinction in indica rice.     

A Comparative Study of SSR Diversity in Chinese Major Rice Varieties Planted in 1950s and in the Recent Ten Years （1995-2004）

Forty pairs of SSR markers were used to compare the genetic diversity changes in 151 Chinese major rice varieties planted in 1950s and in the recent ten years. Of 40 SSR loci, 39 were found to be polymorphic while one locus (RM479) monomorphic. A total of 213 alleles were identified from the 39 polymorphic loci. The average number of alleles per locus (Na) was of 5.5, ranging from 2 to 11. Nei’s gene diversity index (He) varied drastically among loci from 0.309 at RM174 to 0.869 at RM418, with an average value of 0.649. There existed significant difference in SSR allelic diversity between indica and japonica subspecies, and indica had more variation than japonica both in Na and He. By comparison with the genetic changes in Na and He, it was revealed that the varieties planted in 1950s had more alleles and higher He than those in the recent ten years both for indica and japonica rices. The difference between two subspecies for Na was significant in a tendency over time (indica: z = 2.677, P = 0.007; japonica: z = 3.441, P = 0.001), but not significant for He (indica: z = 1.471, P = 0.141; japonica: z = 1.932, P = 0.053). Analysis of molecular variance (AMOVA) indicated that there existed significant difference (P < 0.05) in genetic variation between the two periods, of which more genetic variation was contributed by indica (Fst = 0.050) and japonica (Fst = 0.082) subsets. Using locus-by-locus AMOVA procedure, significant genetic differentiations were observed in 13 loci (RM21, RM128, RM147, RM169, RM190, RM221, RM231, RM251, RM253, RM317, RM341, RM418, and RM478) for indica varieties and 11 loci (RM101, RM135, RM152, RM159, RM169, RM190, RM251, RM253, RM311, RM418, and RM478) for japonica ones between the two periods. It was found some alleles had been lost in current major rice varieties as comparing with those in 1950s. Therefore, it should be necessary to exploit more alien elite genetic resources for extension of genetic background in current rice breeding program.     

Genetic Diversity and Allelic Frequency of Selected Thai and Exotic Rice Germplasm Using SSR Markers

A collection of 167 Thai and exotic rice accessions was subjected for evaluation of genetic diversity and assessment of relationship by simple sequence repeat(SSR) markers. Among a total of 49 SSR markers, 13 markers distributing over 12 rice chromosomes showed clear polymorphic band patterns, and they were selected for genetic assessment. A total of 110 alleles were detected with an average of 8.46 alleles per locus. The averages of gene diversity, heterozygosity and polymorphic information content were 0.59, 0.02 and 0.56, respectively. The unweighted-pair group method with arithmetic averages(UPGMA) clustering analysis was performed for genetic distance, and phylogenetic tree was constructed. The result showed that this rice collection was divided into two major groups, classified as japonica and indica subspecies. Within the japonica group, temperate japonica and tropical japonica subgroups can be clearly separated. Three-dimensional principal component analysis projection and model-based population structure analysis showed consistent clustering results with two major groups of UPGMA analysis, supporting the classification of japonica and indica subspecies. The indica allelic frequency was also investigated to provide an indicative guide for breeders to overcome the practical problems on sterility of inter-subspecies hybrid offspring. This rice collection and information obtained in this study will be useful for rice breeding programs.     

云南地方水稻品种抗稻瘟病基因Pita功能区段序列变异分析

稻瘟病抗性基因序列变异的分析与认识是挖掘水稻抗稻瘟病基因资源的基础。对来源于云南省56个县(市)的218份地方稻品种稻瘟病抗性基因Pita第二编码区功能位点区段的609个碱基进行了测序分析。结果表明,所有供试品种在此序列上有18个变异位点,存在46种DNA单倍型和28种蛋白类型,其中DNA单倍型Pita-H1、Pita-H2、Pita-H6频率较高,三者比例分别为17.89%、29.82%、20.18%,合计67.89%,是云南的优势单倍型,而其他单倍型频率较低,频率0.46%~3.67%。携带Pita抗性基因(编码区第2752位功能位点碱基为G)的品种共61个,占供试材料的27.98%,其中39个品种(占63.93%)与越南抗性品种Tetep序列一致。Pita抗性基因在水稻各亚种和生态型中的分布是不平衡的,籼稻中的频率为35.06%,粳稻中为24.11%,水稻中31.03%,陆稻中21.92%,黏稻中30.77%,糯稻中18.37%。Pita抗性基因在云南省广泛分布,36县(市)检测到了Pita抗性基因,但南部地区频率高于其他地区,且有的县频率较高,呈小集中的特点,海拔2200m以上的7个品种未能检测到Pita抗性基因。     

Genetic Characterization of Indigenous Rice Varieties in Eastern Himalayan Region of Northeast India

The eastern Himalayan region of Northeast （NE） India is home to a large number of indigenous rice varieties, which are traditionally classified as Oryza sativa subspecies indica, japonica or intermediate types. The classification based on traditional Cheng’s index is often inconclusive due to phenotypic plasticity of morphological characters, which are influenced by environmental conditions. We used molecular markers specific for indica and japonica subspecies to assess the degree of genetic relatedness of indigenous rice varieties in NE India. The results revealed that majority of upland （jum） and glutinous rice varieties, traditionally considered as japonica, were genetically close to the subspecies indica. All varieties of boro ecotype were found to be indica type, and only a few varieties cultivated in lowland and upland areas were japonica type. Some of the lowland varieties of the sali ecotype were intermediate between indica and japonica, and they showed a closer genetic affinity to O. rufipogon.     

云南地方稻种Wx基因第一内含子供体+1位碱基变异与直链淀粉含量的关系

应用PCR一步法对来自云南省14个地州、55个市/县的220个籼、粳地方稻种Wx基因第一内含子供体+1位碱基G/T进行了检测,同时用PCR Acc I酶切法对其中的101份进行验证,结果表明两种方法检测结果一致。根据G/T碱基将220个供试材料分为GG、TT两种基因型。云南地方稻种以GG型占优势,有164个,占74.5%;TT型有56个,占255%;籼稻中80.5%属GG型,粳稻中67.0%属GG型。GG型直链淀粉含量较高,平均18.97%,TT型较低,均低于16%, GG、TT基因型之间的平均直链淀粉含量差异极显著。G/T与直链淀粉含量存在密切的联系,其相关系数为0733**。GG型品种中有33个直链淀粉含量较低（3.91%～15.93%）,多数为来源于云南西南部傣族地区的品种。籼稻中的GG型或TT型品种与粳稻中的GG型或TT型品种间平均直链淀粉含量无显著差异,表明GG/TT基因型在籼粳不同遗传背景下直链淀粉表达无显著差异。