利用SSR标记分析海南普通野生稻的遗传多样性

选用平均分布于水稻基因组的28对SSR引物,对海南不同纬度5个普通野生稻居群的163份材料进行遗传多样性和遗传结构研究。结果表明:(1)海南普通野生稻具有较高的遗传多样性,28个位点共检测到227个等位变异,平均等位变异数A=8.1071,有效等位变异数Ae=4.4190,平均期望杂合度He=0.4004,实际观察杂合度Ho=0.7062,香农指数I=1.6048;(2)居群的遗传分化系数较大,总的遗传变异中有46.40%存在于居群间(Fst=0.4640);(3)居群内杂合体较高(F is=-0.7069),根据固定指数(F=0.0588)计算出的异交率t=0.8889,说明海南普通野生稻的繁育系统属于一种较高的异交混合交配类型。     

细叶云南松天然种源林遗传多样性的SSR分析

利用12对SSR引物对三个不同种源的细叶云南松群体遗传多样性进行研究。结果表明:共检测到13个位点37个等位基因,每个位点平均观察等位基因数(A)为2.85,多态率为100%;平均有效等位基因数(Ne)1.45。各群体内的有效等位基因数平均为1.447,观察杂合度平均为0.341,期望杂合度平均为0.281。三个群体的Nei’s基因多样度指标的变化范围为0.256~0.297,Shannon多样性指数变化范围为0.448~0.484,各群体间的多态性水平差异不大。细叶云南松群体间的基因分化系数(Gst)为0.089,群体间的遗传分化水平较低,大部分变异均存在群体内。细叶云南松群体间的基因流(Nm)在不同位点的变化范围从4.693~122.189,平均为11.17。说明细叶云南松群体间存在比较充分的基因交流。     

大鳞副泥鳅5个野生群体的遗传多样性分析

利用微卫星分子标记分析了天津地区于桥水库、大黄堡湿地、七里海湿地、团泊水库和潮白新河5个野生大鳞副泥鳅群体的遗传多样性。5个群体在12个微卫星位点共检测到98个等位基因,平均等位基因数为8.500;有效等位基因数为2.713;平均观测杂合度为0.526;平均期望杂合度为0.544。5个群体间的遗传分化指数介于0.021~0.106之间,平均遗传分化指数为0.059,属中低水平的遗传分化。AMOVA分析结果显示,在总的变异中,94.1%的遗传变异来自群体内,5.90%的遗传变异来自于群体间。根据Nei’s遗传距离所绘制的系统树显示,于桥水库、团泊水库、七里海湿地和大黄堡湿地4个群体的遗传距离相对较小聚为一支,潮白新河群体单独为一支。遗传瓶颈效应分析表明,该5个群体近期未经受遗传瓶颈效应,处于突变-漂移平衡。总体来看,天津地区5个野生大鳞副泥鳅群体的遗传多样性较高,可作为品种选育的基础群体。     

我国育成小麦品种的遗传多样性演变

对我国小麦育成品种初选核心种质(1680份)的78个微卫星标记(SSR)位点进行了扫描,并就此对50年来育成品种的遗传多样性进行了评价和分析,得到以下结果和结论:(ⅰ)74对SSR荧光引物共检测到1336个等位变异,其中1253个等位变异可以定位在71个位点上.这71个位点上检测到的每个位点等位变异数为4~44个,平均17.6个;多态性信息指数(PIC)为0.19~0.89,平均为0.69.(ⅱ)三个基因组的平均等位变异丰富度为B>A>D,遗传多样性指数为B>D>A.(ⅲ)7个部分同源群的平均等位变异丰富度为2=7>3>4>6>5>1,遗传多样性指数为7>3>2>4>6>5>1.结合两个指标分析,第7部分同源群具有最高的多样性,而1,5群多样性最低.(ⅳ)21条染色体中,7A,3B和2D三条染色体遗传多样性较高,而2A,1B,4D,5D和1D的遗传多样性偏低.(ⅴ)育成品种遗传多样性指数以50年代的最高,以后越来越低,但年代间变化较平缓;品种间平均遗传距离以50年代最高(0.731),以后逐渐减小,各年代依次为0.711,0.706,0.696和0.695.品种遗传基础狭窄化问题日趋突出,应引起有关部门和育种家的关注.     

青鱼野生与养殖群体遗传变异的微卫星分析

研究利用自主开发的12个微卫星标记, 对来自于长江水系4个野生群体(湖北石首、湖南湘江、江苏邗江、浙江嘉兴)和1个养殖群体(江苏吴江)青鱼(Mylopharyngodon piceus)进行遗传多样性和遗传结构分析。遗传多样性分析结果显示这12个位点多态信息含量(PIC)介于0.660—0.923, 表明这12个位点均具有高度多态性(PIC>0.5)。5个群体的平均等位基因数(N_a)介于7.917—11.667, 平均有效等位基因数(N_e)介于4.837—6.035; 平均观测杂合度介于0.713—0.861; 平均期望杂合度介于0.749—0.819; 平均多态信息含量介于0.711—0.788, 表明这5个群体均具有较高的遗传多样性。遗传距离分析结果表明4个野生群体之间遗传距离较近, 养殖群体与这4个野生群体遗传距离均较远。UPGMA系统进化树显示, 湘江群体和石首群体首先聚为一支, 然后与邗江群体和嘉兴群体聚为一支, 最后与吴江养殖群体聚为一支。这12个微卫星位点具有较为丰富的遗传多样性特征, 可以用于青鱼不同群体的种质资源的评估和遗传多样性的分析。     

稀有鮈鲫近交系微卫星多态性分析

利用17对微卫星引物对稀有鮈鲫（Gobiocypris rarus）野生群体和近交系F20和F22进行了遗传分析。结果表明在野生群体中17个微卫星位点均为多态位点,但在F20中仅有6个多态位点,F22中则仅有4个多态位点。在野生群体中共检测到64个等位基因,F20、F22分别为26、21个。近交系的平均基因纯合率均较高,其中F20为86.18%,F22达91.96%,而野生群体平均基因纯合率为46.84%。近交系平均杂合度和平均多态信息含量均较野生群体低。在近交系F20和F22中,群体间遗传相似性指数最大,其遗传距离最小,说明二者之间的亲缘关系最近。HAN系遗传多样性明显降低,已具有较高的遗传纯度。     

福建武夷山甜槠不同世代种群遗传多样性的SSR分析

按胸径将福建武夷山大安源样地的甜槠(Castanopsis eyrei)群体划分为成体、小树、幼苗3个世代,利用SSR分子标记对不同世代的甜槠遗传多样性及遗传分化进行分析,旨在揭示其不同世代间的遗传变异规律,为甜槠资源的保护与利用提供科学依据。14对SSR引物共检测到92个等位基因,平均每位点的等位基因数A=6.571 4,居群的平均有效等位基因数Ae=3.905 4,平均期望杂合度He=0.722 9,表明甜槠群体具有丰富的遗传变异。SSR分析显示3个世代的Ae、He、Nei指数(h)、Shannon信息指数(I)均以幼苗最高,小树次之,成体最低,幼苗的遗传多样性指数高于成体及小树,且幼苗中出现最多的稀有等位基因数,表明甜槠种群世代间的遗传多样性呈稳定上升趋势。分子方差分析(AMOVA)表明甜槠群体不同世代内、世代间均存在遗传变异,但遗传变异主要存在于世代内。SSR分析显示,甜槠不同世代间的遗传分化系数Fst=0.074 3,基因流Nm=3.115 4。甜槠不同世代间的遗传相似度以成体与幼苗最小,遗传距离以成体与幼苗间最大。基于甜槠群体SSR的研究结果,认为自然保护区的建立对物种遗传多样性的保护具有重要作用,并提出在遗传多样性保护中应注重保护成体和幼苗中稀有的等位变异。     

运用微卫星DNA标记分析我国野生鹌鹑遗传多样性

运用微卫星DNA标记对我国境内分布的两种野生鹌鹁（野生日本鸣鹁、野生普通鹌鹑）和家鹑群体的遗传多样性进行分析。通过计算反映群体变异的多态信息含量（PIC）、固定指数、平均杂合度、基因分化系数等相关指标,结果表明：野生普通鹌鹑群体遗传多样性更为丰富,每个座位平均检测出4．67个等位基因,群体多态信息含量和平均杂合度亦为最高,分别为0．5732和0．6621;家鹁最低,分别为0．5467和0．5933;野生日本鸣鹑介于两者之间;在3个鹌鹑群体中,野生日本鸣鹑与家鹑群体遗传多样性差异程度较小。以标准遗传距离为基础的模糊聚类分析发现：家鹑与野生日本鸣鹑群体模糊等价矩阵系数为0．937,而与野生普通鹌鹑的系数为0．738,这也表明家鹑与野生日本鸣鹁有更近的亲缘关系,进一步从分子水平上证实家鹑起源于野生日本鸣鹁。     

SSR标记分析种子老化及繁殖世代对大豆种质遗传完整性的影响

选取大豆品种中黄18为试验材料,利用60对SSR核心引物对经过不同老化时间处理的群体及其繁殖后代群体进行遗传完整性分析。经过老化处理的群体及其繁殖子代群体与未经老化处理的对照群体相比,等位基因频率、有效等位基因数没有显著差异,结果表明经过老化处理种子及其繁殖子代群体的等位基因频率变化不大。未经老化处理、发芽率为98%的对照群体(G_0-1)与其繁殖一代、繁殖二代群体相比,等位变异数、遗传多样性指数、香农指数和稀有等位基因数没有显著差异,且遗传一致度相对较高;而经过老化处理、发芽率低于85%的群体(G_0-3和G_0-4)及其后代繁殖群体与对照群体相比,等位变异数、遗传多样性指数、香农指数和稀有等位基因数显著或极显著降低,且遗传一致度相对较低。因此,种子老化较繁殖世代对大豆种质群体的遗传结构影响更大。     

应用SSR标记对61个国家大麦遗传多样性的研究

使用全自动基因分析仪(ABI-3700 DNA Analyzer),用35对SSR荧光标记引物对来自61个国家的2625份大麦种质资源的遗传多样性进行了分析,得出如下结果(1)35对引物在2625份大麦种质资源中共检测到2063个等位变异,每个位点的等位变异数为30～79个,平均为58.94;多样性指数为1.60～3.66,平均为2.80;(2)在大麦的7条染色体中,每条染色体的等位变异数不等,染色体等位变异数从多到少排序为5、7、2、6、3、4、1,遗传多样性指数从高到低依次为2、6、7、3、5、4、1,综合这两项指标,第2、7条染色体遗传多样性较高,第1条染色体的遗传多样性最低;(3)约旦、伊朗、叙利亚和利比亚等国家大麦的遗传多样性指数最高,分别为2.58、2.53、2.50和2.38;而埃塞俄比亚、叙利亚、伊朗和约旦等国家的大麦资源则具有较多的等位变异,分别为29.03、25.57、25.11和24.60,综合分析,约旦、伊朗、叙利亚和土耳其大麦遗传多样性较高.     

Allozyme variation and population genetic structure of common wild rice Oryza rufipogon Griff. in China

In order to determine the genetic diversity and genetic structure of populations in common wild rice Oryza rufipogon, an endangered species, allozyme diversity was analyzed using 22 loci in 607 individuals of 21 natural populations from the Guangxi, Guangdong, Hainan, Yunnan, Hunan, Jiangxi and Fujian provinces in China. The populations studied showed a moderate allozyme variability (A=1.33, P=22.7%, Ho=0.033 and He=0.068), which was relatively high for the genus Oryza. The levels of genetic diversity for Guangxi and Guangdong were significantly higher than those for the other regions, and thus South China appeared to be the center of genetic diversity of O. rufipogon in China. A moderate genetic differentiation (F_ST=0.310, I=0.964) was found among the populations studied. Interestingly, the pattern of population differentiation does not correspond to geographic distance. An estimate of the outcrossing rate (t=0.324) suggests that the species has a typical mixed-mating system. The deficit of heterozygotes (F=0.511) indicates that some inbreeding may have taken place in outcrossing asexual populations because of intra-clone outcrossing events and ”isolation by distance” as a result of human disturbance. In order to predict the long-term genetic survival of fragmented populations, further studies on gene flow among the remaining populations and the genetic effects of fragmentation are proposed. Finally, some implications for the conservation of endangered species are suggested. Received: 22 June 1999 / Accepted: 20 December 1999     

Genetic diversity in the northernmost<Emphasis Type="Italic"> Oryza rufipogon</Emphasis> populations estimated by SSR markers

To estimate genetic diversity of the residual northern populations of Oryza rufipogon, a total of 232 individuals from six populations were analyzed using microsatellites (SSRs). The O. rufipogon populations with different status included three from Dongxiang (Jiangxi Province) and three from Chaling (Hunan Province) in China. The 23 rice SSR primer pairs selected from the RiceGenes Database detected a total of 115 alleles, indicating that all the SSR loci were polymorphic in this study. The total gene diversity was 0.919 in the six O. rufipogon populations, and the Donxiang populations showed higher diversity than the Chaling populations. More significant genetic differentiation and less gene flow were found among the Dongxiang populations than those from Chaling. The two putative introgressed populations showed relatively high genetic variation. One in situ conserved population from Dongxiang had the lowest level of genetic diversity. The re-introduced population from Chaling restored about 90% of the genetic variation, compared with the original source population. It is concluded from these results that a relatively high level of genetic variation resided in the northern O. rufipogon populations and continued efforts of conservation of these populations are needed; and that the conservation of some Chaling and Dongxiang populations has been effective in preventing gene flow from cultivated rice. Introgression of cultivated rice demonstrated significant impacts on genetic variability of the O. rufipogon populations, and should be carefully considered in conserving this wild rice. This study also suggested that re-introduction to its original habitats is an effective approach to restore O. rufipogon populations.Communicated by J.S. Heslop-Harrison     

Genetic erosion in northern marginal population of the common wild rice Oryza rufipogon Griff. and its conservation, revealed by the change of population genetic structure

In order to monitor genetic erosion within the northern marginal population of common wild rice Oryza rufipogon Griff. from Dongxiang, Jiangxi Province, China, allozyme diversity encoded by 22 loci was analyzed electrophoretically from all the existing subpopulations in 1980, 1985 and 1994. The sample collected from the nine large subpopulations in 1980 showed the highest levels of genetic diversity (A = 1.27, P = 18.20%, Ho = 0.042 and He = 0.049) and a slight deviation from Hardy-Weinberg expectation (F = 0.143), the sample from five moderate ones in 1985 displayed medium levels of genetic diversity (A = 1.14, P = 13.60%, Ho = 0.008 and He = 0.049) and a great deviation from Hardy-Weinberg expectation (F = 0.837), and the sample from two small ones in 1994 demonstrated the lowest levels of genetic diversity (A = 1.09, P = 9.10%, Ho = 0.000 and He = 0.043) and the largest deviation from Hardy-Weinberg expectation (F = 1.000). The results not only documented the genetic erosion stemmed from the extinction of the subpopulations, but also revealed the drastic change of the population genetic structure due to the reduction of the population. Finally, some conservation strategies for the population are proposed.     

普遍野生稻和亚洲栽培稻遗传多样性的研究

用 ４４个 ＲＦＬＰ标记对来自中国、印度、泰国等亚洲 １０个国家的普通野生稻（简称普野,下同）和来自多个国家的７５个栽培稻品种,从多态位点的比率、等位基因数、基因型数、平均杂合度及平均基因多样性等多个方面,比较了不同国家和不同地区的普通野生稻、栽培稻籼粳亚种及栽培稻与普野之间遗传多样性的差异。结果表明：中国普野的遗传多样性最大;其次是印度普野;南亚普野的平均基因多样性大于东南亚普野,而多态位点的比率、等位基因数及基因型数等却低于东南亚普野;栽培稻的遗传多样性明显小于普通野生稻。在所检测的４４个位点中,栽培稻的多态位点数仅为野生稻的３／４,等位基因数约为野生稻的６０％,基因型种类约为野生稻的１／２。栽培稻中籼稻的遗传多样性高于粳稻。在平均每个位点的实际杂合度上,以中国普野杂合度最高,普通野生稻是栽培稻的２倍。说明从野生稻演化成栽培稻的过程中,经过自然选择和人工选择,杂合度降低,等位基因减少,基因多样性下降。     

Genetic diversity and origin of weedy rice (Oryza sativa f. spontanea) populations found in North-eastern China revealed by simple sequence repeat (SSR) markers

BACKGROUND AND AIMS: Weedy rice (Oryza sativa f. spontanea) is one of the most notorious weeds occurring in rice-planting areas worldwide. The objectives of this study are to determine the genetic diversity and differentiation of weedy rice populations from Liaoning Province in North-eastern China and to explore the possible origin of these weedy populations by comparing their genetic relationships with rice varieties (O. sativa) and wild rice (O. rufipogon) from different sources. METHODS: Simple sequence repeat (SSR) markers were used to estimate the genetic diversity of 30 weedy rice populations from Liaoning, each containing about 30 individuals, selected rice varieties and wild O. rufipogon. Genetic differentiation and the relationships of weedy rice populations were analysed using cluster analysis (UPGMA) and principle component analysis (PCA). KEY RESULTS: The overall genetic diversity of weedy rice populations from Liaoning was relatively high (H(e) = 0.313, I = 0.572), with about 35 % of the genetic variation found among regions. The Liaoning weedy rice populations were closely related to rice varieties from Liaoning and japonica varieties from other regions but distantly related to indica rice varieties and wild O. rufipogon. CONCLUSIONS: Weedy rice populations from Liaoning are considerably variable genetically and most probably originated from Liaoning rice varieties by mutation and intervarietal hybrids. Recent changes in farming practices and cultivation methods along with less weed management may have promoted the re-emergence and divergence of weedy rice in North-eastern China.     

Genetic diversity within Oryza rufipogon germplasms preserved in Chinese field gene banks of wild rice as revealed by microsatellite markers

Nineteen microsatellite markers were employed to evaluate the genetic diversity of 92 accessions of common wild rice Oryza rufipogon Griff., which represent a significant portion of the distribution range from field gene banks of China. In comparison, a total of 57 varieties from most of the rice growing areas in China were also analyzed. The microsatellite analysis revealed a considerable amount of genetic diversity resided within the preserved wild rice germplasms. In all, the nineteen microsatellites revealed 328 alleles. The number of alleles per locus varied widely among these markers, ranging from 6 at RM242 to 30 at RM206. A comparison of the genetic parameters showed that wild rice strains preserved in the field gene banks (na = 17.27; R _S = 15.66; H _S = 0.86; H _T = 0.852; H _O = 0.307) possess much higher genetic diversity than cultivated rice varieties (na = 8.27; R _S = 8.14; H _S = 0.75; H _T = 0.758; H _O = 0.051). A total of 196 alleles detected in the wild rice could not be found in cultivated rice, suggesting that about 60% of the alleles of wild rice might be lost during the process of rice domestication. This result shows that these ex situ preserved wild rice strains are of great importance for the discovery and utilization of novel genes in the future rice breeding practices. Considerably abundant genetic variability detected within the studied wild rice germplasms could be comparable to that previously found in a wide sampling of 47 natural populations (na = 16.17; H _S = 0.67; H _O = 0.229), demonstrating that developing field gene banks of wild rice is a necessary and efficient way for preserving genetic diversity of wild rice resources. To determine minimum microsatellites that could distinguish these wild rice accessions, the phylogenetic trees constructed by means of the combinations of different microsatellites suggested that the five highly polymorphic microsatellites could clearly identify these samples. High polymorphisms of rice microsatellite loci and their great resolving power will be particularly helpful for germplasm evaluation and evolutionary studies for better strengthening the conservation and utilization of genetic diversity of wild rice in the field gene banks.     

侯晨曦：附表1-附表2

本研究基于7个叶绿体DNA片段（cpDNA）和2个核DNA片段（ITS和PZ8）的测序数据,对龙血树柴胡（Bupleurum dracaenoides Huan C.Wang,Z.R.He&H.Sun）8个居群的153个样本进行了遗传多样性和分布式样研究。cpDNA片段分析结果显示：龙血树柴胡在物种水平具有较高的遗传多样性（H_d=0.862;P_i=0.00567）,但居群内遗传多样性低,遗传变异主要存在于居群间,遗传分化显著（F_st=0.959）;而核DNA片段ITS和PZ8的数据分析结果显示,其遗传多样性较低（H_d=0.532,P_i =0.00121和H_d=0.349,P_i=0.00060）,遗传变异主要存在于居群内,居群间仅存在一定程度的遗传分化。中性检验和失配分布分析结果发现龙血树柴胡没有经历过近期种群扩张事件,8个居群的153个样本从遗传成份上可被分为两组。研究结果将为龙血树柴胡的资源保护和发掘提供参考。     

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。     

永泰青云山风景区蝶类多样性研究

本文应用Shannon - -Wiener多样性指数 ,均匀度 ,优势度指数指标 ,分析青云山风景区不同耕作类型蝶类的多样性。结果表明 :青云山蝶类多样性较高 ,种类较丰富。耕作类型蝶类多样性指数变化趋势为 :森林类型〉栽培景观类型 ;耕作分类型蝶类多样性指数变化趋势为 :阔叶林〉针叶林〉果园〉竹林〉菜地〉田地。蝶类多样性指数不受均匀度影响 ,但受季节影响明显     

湖北星斗山台湾杉居群的遗传多样性研究

采用随机扩增多态性DNA(RAPD)方法对孑遗植物台湾杉分布于湖北星斗山的野生和栽培居群共42个个体进行了遗传多样性分析。从60个随机引物中筛选出13个引物,共扩增出155条清晰谱带,多态位点百分率为72.9%。野生居群和栽培居群的多态位点百分率分别为65.81%和59.35%;Nei’s基因多样性分别为0.2001和0.1911;Shannon’s信息指数分别为0.3120和0.2946。野生居群的遗传多样性高于栽培居群,表明这些原生古树的后代出现了一定程度的遗传衰退。用UPGMA方法对42个单株聚类可知,来自野生群体的个体和来自栽培群体的个体明显地各聚为一类。尽管孑遗物种台湾杉在湖北仅有一个野生群体,且为零星分布,总个体数40多株,但仍保持较高的遗传多样性水平,这说明遗传多样性不是导致其种群濒危的主要原因,导致台湾杉种群濒危的原因可能与台湾杉自然种群及群落所处生境的直接破坏及其本身生物学和生态学特性所导致的自然更新不良有着密切的联系。