广东高州7个普通野生稻居群遗传结构的SSR分析

利用32对SSR引物对来自全部7个自然居群的217份广东高州普通野生稻（简称＂高野＂）材料进行遗传结构、多样性和遗传聚类分析。结果表明,高野各居群因遗传结构存在差异而相对独立,但各居群之间由于存在基因渗透又具有一定的相似性。高野总体多样性指数（Ht）为0.65,居群内的多样性（HS=0.431）略大于居群间的多样性（DS=0.392）,二者差异并不显著。居群间的遗传分化系数（GST）为0.611,说明高野群体的遗传差异是由居群内和居群间的遗传分化共同作用的结果。其中A、B、E居群间,D、F、G居群间遗传相似性较高,C居群与其它居群之间存在较大差异。根据7个居群的遗传结构,结合其地理分布状况,认为遗传多样性最大的B和E居群以及遗传分化最小的C居群应作为重点对象进行保护。     

SSR 在琼海和三亚两普通野生稻居群中的遗传变异

通过分析37个SSR座位在琼海与三亚两普通野生稻(Oryza rufipogon)居群中的遗传变异, 结果表明, SSR座位在三亚普通野生稻居群中的变异高于其在琼海普通野生稻居群中的变异。根据遗传相似性和遗传距离公式得到琼海与三亚普通野生稻居群间的遗传相似性为0.6385, 遗传距离为0.4486 cM。Wright的FST检验结果表明, 这37个SSR座位在两居群之间存在着中等程度的遗传分化, FST=0.3909。此分化结果主要是由两居群间弱的基因漂移导致的(Nm=0.3895)。     

野生毛樱桃SSR遗传多样性和遗传结构分析

利用11对SSR多态性引物对秦岭山脉5个居群11个亚居群104份野生毛樱桃材料进行遗传多样性和遗传结构分析,以明确中国樱桃的种质资源,为樱桃育种以及生产中改良樱桃砧木提供理论依据。结果显示:(1)11对引物共检测出110个等位位点,各引物扩增的多态性条带在5~13个之间;观察到的平均等位基因数(A)为10,有效等位基因数(Ae)为7.586 3。(2)秦岭山脉天水居群的多态性比率(PPB)为69.55%、长安居群为76.53%、太白居群为81.36%、华阴居群为85.00%、眉县居群为92.17%,5个居群总的多态性比率为81.62%,各位点平均期望杂合度(He)为0.864 0。(3)秦岭山脉野生毛樱桃各居群的基因分化系数(Gst)为0.081 2,居群内的遗传分化占91.88%,居群间的遗传分化占8.12%;基于Gst测得基因流(Nm)为2.827 3,秦岭山脉Nei遗传距离为0.489 7,香农信息指数为2.101 9。研究认为,秦岭山脉野生毛樱桃的遗传多样性水平较高,遗传分化主要存在于居群内,且基因交流没有受到阻碍,居群内现存的遗传多样性水平对遗传漂变不敏感,但居群间存在适中的基因交流可能会降低整个种群的再分化。     

武陵山区蛇足石杉遗传多样性的AFLP分析

采用AFLP分子标记对武陵山区蛇足石杉(Huperzia serrata)4个居群进行遗传多样性的研究,结果表明:(1)7对引物组合共扩增出条带615条,其中549条为多态性条带;在物种水平上,多态性条带百分率PPB=89.27%,有效等位基因数Ne=1.257,Nei’s基因多样度指数H=0.178,Shannon多样性信息指数Isp=0.298;在居群水平上,PPB=71.42%,Ne=1.235,H=0.154,Shannon多样性信息指数Ipop=0.251;遗传多样性在居群间有明显的差别,其中坪坝营(PBY)居群最高(PPB=81.95%),而铁峰山(TFS)居群最低(PPB=64.55%)。(2)居群间的遗传分化较低,基于Nei’s基因多样性分析结果显示,居群间遗传分化系数GST=0.159;Shannon’s居群分化系数[(Isp-Ipop)/Isp]为0.16;WINAMOVA分析显示,武陵山区蛇足石杉的遗传变异主要存在于居群内,居群内的遗传变异分量为65.057,占总变异的75.77%,而居群间的遗传变异分量为20.804,占总变异的24.23%;居群内存在极显著的遗传分化(ΦST=0.242,P0.001)。(3)由遗传分化系数(GST)估计,武陵山区蛇足石杉居群间的基因流Nm=2.647,表明蛇足石杉属于异交种。(4)两两居群间的Nei’s遗传一致度(IN)范围为0.031 0~0.969 4;Mantel检测结果显示,居群间的遗传距离与地理距离之间不存在显著的正相关关系(r=0.269,P=0.887)。研究认为,遗传多样性与遗传结构主要决定于居群历史,较少干扰而稳定的居群偏向克隆生殖,遗传多样性较低,而新建居群的遗传多样性则较高;克隆生长、生态位选择、异交,以及有效的孢子风媒传播等可能是其维持较高遗传多样性水平的因素,而过度采挖等人类活动和生境片断化是导致蛇足石杉濒危的主要因素。     

白木香遗传多样性研究

用ISSR分子标记技术对白木香(Aquilaria sinensis(Lour.)Gilg)的遗传多样性进行分析.结果表明,白木香物种水平的遗传多样性较高,而居群水平的遗传多样性相对较低,其中广东茂名居群的遗传多样性最高.白木香居群间存在较大的遗传分化,遗传分化系数G_(ST)=0.4425,表明居群内遗传分化大于居群间的分化.UPGMA聚类分析表明白木香分化为两个谱系,其中谱系Ⅰ由广东、福建、海南的5居群组成,谱系Ⅱ由广西、云南的3个居群组成.居群间的基因交流受到阻碍(Nm=0.6633<1),阻碍主要产生于两个谱系间,而谱系内部的居群间在较近的历史时期基因交流频繁(Nm分别为1.4382和1.2333),谱系分化的原因主要是地理因素,两谱系交界处有云开山脉等形成的天然屏障,阻碍物种的扩展和基因交流.     

SSR在琼海和三亚两普通野生稻居群中的遗传变异

通过分析37个SSR座位在琼海与三亚两普通野生稻（Oryza rufipogon）居群中的遗传变异,结果表明,SSR座位在三亚普通野生稻居群中的变异高于其在琼海普通野生稻居群中的变异。根据遗传相似性和遗传距离公式得到琼海与三亚普通野生稻居群间的遗传相似性为0．6385,遗传距离为0．4486cM。Wright的啪验结果表明,这37个SSR座位在两居群之间存在着中等程度的遗传分化,FST=0．3909。此分化结果主要是由两居群间弱的基因漂移导致的（Nm=0．3895）。     

基于RAPD标记的南苍术居群遗传多样性分析

采用RAPD标记技术对分布于江苏小九华山、小汤山和湖山,安徽金寨和芜湖以及湖北保康和英山的7个南苍术〔Atractylodes lancea(Thunb.)DC.〕野生居群的28个单株基因组总DNA进行PCR扩增,在此基础上分析居群的遗传多样性及遗传分化,并采用聚类分析法对居群的遗传关系进行分析。结果表明:用18条RAPD引物共扩增出193条带,其中多态性条带111条,多态性条带百分率(PPB)为57.51%;平均每条引物扩增出10.72条带,其中多态性条带6.17条。从省级水平看,安徽居群的PPB、有效等位基因数(Ne)、Nei’s基因多样性指数(H)和Shannon信息指数(I)均最低,而湖北居群的Ne、H和I均最高,但江苏居群的PPB最高;从居群水平看,湖北保康居群的PPB、Ne、H和I均最高,而安徽金寨居群均最低。7个居群的基因分化系数和基因流分别为0.206 5和1.921 5,说明7个居群总遗传变异的20.65%存在于居群间、79.35%存在于居群内。7个居群间的遗传距离为0.150 7～0.252 1,其中,安徽金寨和芜湖居群间最小(0.150 7),江苏湖山和安徽芜湖居群间最大(0.252 1)。基于遗传距离的聚类分析结果表明:7个居群可分为2组,湖北保康居群单独成组,其他6个居群聚为另一组;来自同一居群的单株均聚在一起。研究结果提示:南苍术居群间的遗传多样性较低,居群间无明显的遗传分化。     

白檀自然居群遗传结构与遗传多样性研究

采用ISSR分子标记技术分析了湖南省5个地区6个居群白檀的遗传多样性水平和遗传结构。结果表明,9条ISSR引物对6个居群的149份白檀样品PCR扩增检测到122个扩增位点,其中多态性位点113个,多态性比率高达92.62%。Nei's基因多样性指数(He)为0.3264,Shannon多样性指数(I)为0.4873,居群之间产生较大的遗传变异(Gst=0.5215,Nm=0.4588),AMOVA分子差异分析表明白檀居群间遗传分化程度高,51.07%的变异存在于居群间,48.93%的变异存在于居群内;UPGMA聚类分析将6个白檀居群分为3大类:大围山和龙山居群为一类,岳阳和道县居群组成另一类;衡山居群单独成一类,聚类原则跟地理位置不一致,与海拔高度有一定的相关性。     

不同地理来源头花蓼的遗传多样性与没食子酸含量相关性分析

应用ISSR-PCR和HPLC方法研究了头花蓼的遗传多样性与没食子酸之间的关系。ISSR结果显示居群总的遗传变异较大(Ht=0.2746),居群内的遗传变异较小(Hs=0.0804),居群间的遗传分化大于居群内的遗传分化。没食子酸含量经SPSS17.0分析显示,各居群间和居群内个体的没食子酸含量差异较大,居群间没食子酸含量范围在0.1738%～0.3306%,其中云南腾冲县,贵州台江县、纳雍县、余庆县、晴隆和毕节县居群间没食子酸含量差异均达到显著水平。通过对头花蓼48个地理居群的遗传多样性与没食子酸含量的相关分析,表明云南腾冲,贵州台江、毕节市亮岩镇、晴隆、盘县居群的遗传多样性指数、没食子酸含量较高,不仅可以作为人工育种的选育材料,而且对于头花蓼种植适生地区划研究具有很好的参考价值。     

大叶藻居群微卫星遗传多样性研究

采用4对微卫星引物对大叶藻的7个地理居群进行了遗传多样性与遗传结构分析。扩增148株大叶藻得到57个等位基因, 每个位点平均等位基因数为6, 大叶藻居群的平均期望杂合度(He)为0.687, 平均观测杂合度(Ho)为0.417。青岛湾居群的遗传多样性最高(A=7.750, AR=7.043), 俚岛居群最低(A=4.750, AR=4.543)。从F_st值来看, 7个大叶藻居群间属于中度分化。UPGMA系统发育树显示, 中国4个大叶藻居群聚类到一起, 其遗传分化可能是由于历史大海草场的遗留小片段居群产生, 而中国、韩国、日本和爱尔兰居群间的遗传分化则主要是由于地理隔离造成的。自由交配估计结果支持海草的东亚起源说。青岛湾居群遗传多样性较高, 可优先作为大叶藻移植修复的材料和基因库, 并进行重点保护。     

桂东南地区普通野生稻遗传多样性研究

利用25个微卫星位点对广西壮族自治区贺州、崇左、防城港3市8个居群301份普通野生稻材料的遗传多样性和遗传结构进行研究,结果表明桂东南地区普通野生稻遗传多样性丰富,平均等位基因数A=10.2400,有效等位基因数Ae=5.0221,平均期望杂合度He=0.7641,实际观察杂合度Ho=0.4840.根据固定指数(F=0.5653)计算出的异交率(t=0.2777)表明,普通野生稻的繁育系统是典型的混合繁育系统.对其遗传结构分析表明,总的遗传变异中有34.59%存在于居群间(Fst=0.3459).进一步研究发现大多数居群偏离了Hardy-Weinberg平衡且杂合体不足(Fis=0.2680,Fit=0.4817).最后根据各居群的遗传变异特点和遗传多样性比较,建议居群QT、YJ和TJ需要优先保护.     

云南及周边普通野生稻遗传多样性及其分布特征研究

利用27对SSR标记对云南普通野生稻的2个自然群体进行遗传多样性和起源进化分析,结果发现我国其他省份的材料与东南亚材料的遗传多样性较高,云南元江材料的遗传多样性最低。亲缘关系分析结果表明,云南元江材料与我国其他省份的普通野生稻之间关系较近,云南景洪普通野生稻与缅甸的普通野生稻关系最近,且云南元江和景洪的普通野生稻的遗传结构之间存在明显差异,说明云南普通野生稻属于中国与东南亚普通野生稻的过渡类型,为水稻起源地的"印度阿萨姆——中国云南"学说提供了科学依据。     

Microsatellite analysis of genetic diversity and population genetic structure of a wild rice (<Emphasis Type="Italic">Oryza rufipogon</Emphasis> Griff.) in China

Genetic diversity and population genetic structure of natural Oryza rufipogon populations in China were studied based on ten microsatellite loci. For a total of 237 individuals of 12 populations collected from four regions, a moderate to high level of genetic diversity was observed at population levels with the number of alleles per locus ( A) ranging from 2 to 18 (average 10.6), and polymorphic loci ( P) from 40.0% to 100% (average 83.3%). The observed heterozygosity ( H(O)) varied from 0.163 to 0.550 with the mean of 0.332, and the expected heterozygosity ( H(E)) from 0.164 to 0.648 with the mean of 0.413. The level of genetic diversity for Guangxi was the highest. These results are in good agreement with previous allozyme and RAPD studies. However, it was unexpected that high genetic differentiation among populations was found ( R(ST) = 0.5199, theta = 0.491), suggesting that about one-half of the genetic variation existed between the populations. Differentiation (pairwise theta) was positively correlated with geographical distance ( r = 0.464), as expected under the isolation by distance model. The habitat destruction and degradation throughout the geographic range of O. rufipogon may be the main factor attributed to high genetic differentiation among populations of O. rufipogon in China.     

Assessment of population genetic structure in common wild rice Oryza rufipogon Griff. using microsatellite and allozyme markers

The genetic structure of five natural populations of common wild rice Oryza rufipogon Griff. from China, was investigated with 21 microsatellite loci and compared to estimates of genetic diversity and genetic differentiation detected by 22 allozyme loci. Microsatellite loci, as expected, have much higher levels of genetic diversity (mean values of A = 3.1, P = 73.3%, Ho = 0.358 and He = 0.345) than allozyme loci (mean values of A = 1.2, P = 12.7%, Ho = 0.020 and He = 0.030). Genetic differentiation detected by microsatellite loci ( FST = 0.468, mean I = 0.472) was higher than that for allozyme loci ( FST =0.388, mean I = 0.976). However, microsatellite markers showed less deviation from Hardy-Weinberg expectation (Wright's inbreeding coefficient FIS = -0.069) than do allozymes ( FIS = 0.337). These results suggest that microsatellite markers are powerful high-resolution tools for the accurate assessment of important parameters in population biology and conservation genetics of O. rufipogon, and offer advantages over allozyme markers.     

我国北回归线区域普通野生稻遗传多样性和遗传结构研究

选择分布于水稻染色体组的26对SSR引物,对集中分布于广西来宾市北回归线附近的13个普通野生稻居群的342份材料进行遗传多样性和遗传结构研究。结果表明,该地区的野生稻无论在种内(A=9.154,Ae=4.446,I=1.547,He=0.671)还是居群水平上(P=95%,A=4.219,Ae=2.394,I=0.905,He=0.476)遗传多样性都十分丰富,高于同类研究水平。供试居群的遗传分化系数Gst为0.30,表明30%的遗传变异存在于居群间,大部分遗传变异存在于居群内。居群间的遗传一致度变化范围为0.332~0.903,且居群间地理距离越近,遗传一致度越高,说明北回归线附近的普通野生稻居群符合"隔离-距离"模型。综合上述研究结果和我国野生稻保护现状,建议对居群G13和G06实施优先保护。     

广东高州普通野生稻(Oryza rufipogon Griff)的遗传多样性和居群遗传分化研究

利用30对SSR引物对广东高州普通野生稻3个群体进行了遗传多样性分析和居群遗传分化研究.结果表明,30对引物中只有20对表现出多态,多态位点比率P为66.7%;在20个多态位点中共检测出81个等位变异,平均等位变异数(Ap)为4.05 个;3个群体总的遗传多样性(Ht)为0.61,其中,居群内的遗传多样性为居群间的遗传多样性的3倍多,说明总的遗传多样性主要来自居群内;虽然居群间的遗传分化系数(G ST)较低,仅为0.2427,但当遗传相似系数临界值增加时,3个群体在聚类图上相对独立 ,说明3个群体既存在着高度的遗传相似性,又具有一定程度的遗传分化,可以作为3个居群进行原生境保护.     

广西武宣濠江流域普通野生稻居群遗传多样性及保护研究

选用平均分布于水稻基因组的24对SSR引物,对沿河分布最长的广西武宣濠江流域的12个普通野生稻居群343份材料的遗传结构进行研究.结果表明:(1)该地普通野生稻遗传多样性丰富.24个位点共检测到206个等位变异,平均等位变异数A＝8.7083,有效等位变异数Ae＝3.7117;(2)该地普通野生稻居群具有较高的遗传分化和一定频率的基因流.群体遗传分化系数Gst＝0.2659,基因流Nm＝0.6901,表明26.59%的遗传变异存在于居群间;(3)SSR标记使普通野生稻居群中一些稀有等位变异得以显现.206个等位变异中,65个等位变异仅出现在1个或2个居群中,且频率较低,其中12个等位变异只出现在居群B中;(4)通过聚类分析和主坐标分析(PCO),下游居群A和B遗传关系较近,中游居群C比较独特,单独成为一类,中游居群D、E、F和G遗传关系较近,中游居群H、I和J及上游居群K和L遗传关系较近.根据上述分析结果,建议对濠江下游和中游具有代表性的居群(即居群B、D和H)的普通野生稻进行重点保护.     

Population structure and conservation genetics of wild rice Oryza rufipogon (Poaceae): a region-wide perspective from microsatellite variation

Oryza rufipogon Griff. is the most agriculturally important but seriously endangered wild rice species. To better estimate how genetic structure can be used to obtained a conservation perspective of the species, genetic variability at six polymorphic microsatellite DNA loci was examined. High levels of genetic variability were detected at six loci in 1245 individuals of 47 natural populations covering most of the species' range in China (overall RS = 3.0740, HO = 0.2290, HS = 0.6700). Partitioning of genetic variability (FST = 0.246) showed that most microsatellite variation was distributed within populations. Significant departures from Hardy-Weinberg expectations and very strong linkage disequilibrium indicate a high degree of inbreeding in the species and severe subdivision within populations. A mean Nm value of 0.7662 suggested a limited gene flow among the assayed populations. Our study suggests that conservation and restoration genetics should focus in particular on the maintenance of historically significant processes such as high levels of outbreeding and gene flow and large effective population size in the species.     

Conservation genetics of the endangered Iberian steppe plant Ferula loscosii (Apiaceae)

Ferula loscosii (Lange) Willk (Apiaceae) is a threatened endemic species native to the Iberian Peninsula. The plant has a narrow and disjunct distribution in three regions, NE, C and SE Spain. Genetic variability within and among 11 populations from its natural distribution was assessed using allozymes. Intermediate levels of genetic diversity were detected in F. loscosii (P(99%) = 36.83; H(E) = 0.125; H(T) = 0.152). However, the highest genetic diversity (58%) corresponded to the threatened populations from SE and C Spain (H(T) = 0.169) rather than the more abundant and larger populations from NE Spain (Ebro valley) (H(T) = 0.122). Low to moderate levels of genetic structure were found among regional ranges (G(ST) = 0.134), and several statistical spatial correlation analyses corroborated substantial genetic differentiation among the three main regional ranges. However, no significant genetic differentiation was found among the NE Spain populations, except for a northernmost population that is geographically isolated. Outcrossing mating and other biological traits of the species could account for the maintenance of the present values of genetic diversity within populations. The existence of an ancestral late Tertiary wider distribution of the species in SE and C Spain, followed by the maintenance of different Quaternary refugia in these warmer areas, together with a more recent and rapid post-glacial expansion towards NE Spain, are arguments that could explain the low genetic variability and structure found in the Ebro valley and the higher levels of diversity in the southern Iberian populations.     

Population genetic structure of wild rice Oryza glumaepatula distributed in the Amazon flood area influenced by its life-history traits

Wild plant species develop their own way of living to adapt to the specific environment of their habitats. Their life-history traits strongly affect the genetic structure of the population. The wild species Oryza glumaepatula Steud. growing in the Amazon basin seems to have characteristic life-history traits suited for the flood condition. At the vegetative growth stage, the culms frequently break at internodes. With no roots anchoring on the ground, plant bodies floating in the water move downriver by water current and wind. To examine the association between the life-history traits and genetic population structure of Amazonian O. glumaepatula , we analysed allozyme variability at 29 loci of 16 enzymes using 37 populations from five regions. Allozymes were not so variable (total gene diversity H _E = 0.044) compared with Asian wild rice, O. rufipogon Griff. The bottleneck effect and rare opportunity of interspecies gene flow may prevent the development of allozyme variability. Population genotypes tended to be differentiated among geographically isolated regions. Observed heterozygosities were much lower than expected heterozygosities, or gene diversity ( H _O = 0.003 for whole population) and F _IS over polymorphic loci was 0.931, indicating that O. glumaepatula has developed an inbreeding system. But, the intrapopulation gene diversity ( H _S) was higher than interpopulation gene diversity ( D _ST), as generally observed in outbreeding populations. The migration ability of O. glumaepatula makes long-distance seed dispersal possible. This might have led to frequent gene flow among populations.