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。     

高黎贡山自然保护区长蕊木兰遗传多样性的ISSR分析

长蕊木兰是具有重要分类和观赏价值的国家一级保护植物。采用ISSR分子标记技术,对云南省高黎贡山自然保护区长蕊木兰3个居群62株个体的遗传多样性进行了研究。结果表明:15个引物共检测到187个有效位点,其中多样性位点171条,在物种水平上多态位点百分率(PPB)为91.44%,居群水平上整顶(ZD)居群PPB最高(66.30%),大蒿坪(DHP)居群PPB最低(21.93%);居群间的基因分化系数(Gst=0.2294)、Shannon居群分化系数(0.27)和分子遗传变异分析(AMOVA)的变异百分率(居群间的变异百分率为27%,居群内的变异百分率为73%)均表明,长蕊木兰遗传变异主要存在于居群内部;聚类结果显示,最大的一类中涵盖了3个居群的绝大多数个体;Mantel检测遗传距离与地理距离之间不存在明显相关性(r=-0.519,P=0.323)。这些结果表明,长蕊木兰具有较大的遗传多样性,但居群间有较大的遗传分化。文章分析了长蕊木兰的濒危原因并提出保护策略,即通过加强已建自然保护区的管理,实施就地保护是最佳选择。     

濒危植物毛瓣金花茶遗传多样性的ISSR分析

采用ISSR分子标记对毛瓣金花茶6个自然居群的遗传多样性进行了分析。利用11个引物对150个个体进行了扩增,共扩增出92条条带,其中多态性条带74条。毛瓣金花茶在物种水平和居群水平都表现出相对较高的遗传多样性,在物种水平上,多态位点百分率(PPB)为80.43%,Nei’s基因多样性指数(h)为0.245 1,Shannon多样性指数(I)为0.377 6;在居群水平上,PPB为58.70%~66.30%,h为0.199 7~0.229 3,I为0.300 9~0.343 8。Nei’s遗传多样性分析和AMOVA分析表明,毛瓣金花茶的遗传变异主要存在于居群内,居群间的遗传分化程度较低(Gst=0.126 6,Φst=11.37%),基因流(Nm)为3.448 0。Mantel检测表明,居群间的遗传距离和地理距离之间存在显著的相关关系(r=0.755 1,P0.05)。研究认为,毛瓣金花茶较高的遗传多样性和较低的遗传分化可能与其异交型繁育系统和鸟类传粉有关。     

基于RAPD标记的皖南山核桃野生居群遗传多样性分析

应用随机扩增多态性DNA(RAPD)分子标记方法分析了皖南山区4个山核桃(Carya cathayensis)野生居群的遗传多样性及其分化程度。由POPGENE软件分析表明,15条随机引物共检测出139个扩增条带,其中多态性条带87个,多态性位点百分比(PPB)为62.59%,各居群平均多态性位点百分比(PPB)为43.35%。物种水平Shannon信息多样性指数(I)为0.208,Nei基因多样性指数(H)为0.124,多样性水平较低。由于受到地理隔离的影响,居群间的基因流较低(Nm=0.700),遗传分化程度相对较高(Gst=0.417)。     

濒危植物山白树遗传多样性及亲缘关系的ISSR分析

利用ISSR分子标记,对我国特有种金缕梅科(Hamamelidaceae)濒危植物山白树(Sinowilsonia fienryi Hemsl)6个野生居群和2个栽培居群75份试验材料的遗传多样性进行研究,以期为该物种种质资源的保护和合理利用提供科学依据。试验结果显示:(1)10条引物共检测到89条清晰的谱带,其中多态性条带85条,多态位点百分率(PPB)为95.5%,说明山白树在物种水平上遗传多样性较高;(2)Nei's基因多样度指数(H)为0.283 3,Shannon's多样性信息指数(I)为0.4034;Nei's遗传分化系数(G_(st))为0.3507,居群间与居群内变异百分率分别是25.49%,74.51%,说明山白树居群内与居群间都存在遗传分化,且主要遗传分化来自居群内部;(3)聚类分析(UPGMA法)得到,在阈值0.87处,山白树8个调查居群分为三类,分类结果与其地域分布存在一定规律。     

多叶重楼遗传多样性的ISSR分析

采用ISSR分子标记对多叶重楼种下3个变种的8个居群共208份样品的遗传多样性进行了分析。l4条引物共检测到251个清晰的扩增位点,其中多态位点235个。在物种水平上,多态位点百分率(PPB)达93.63%,Nei′s基因多样性指数(HE)为0.2204、Shannon′s信息指数(HO)为0.3532。在居群水平上,多态位点百分率(PPB)为50.45%,Nei′s基因多样性指数(HE)为0.1405,Shannon′s信息指数(HO)为0.2194,这些均表明多叶重楼的遗传多样性水平较高。此外,还用NTSYS软件对样品进行了UPGMA聚类分析,结果显示滇重楼的6个居群聚为一支,滇重楼与狭叶重楼有较近的亲缘关系,而与长药隔重楼之间的遗传分化较大。本研究提出了合理保护重楼植物资源的若干措施,为进一步开展滇重楼优质种质引种驯化,实现种质资源多样性的合理保护和可持续利用提供参考。     

雅鲁藏布江河谷丝须蒟蒻薯遗传多样性的初步研究

分布于雅鲁藏布江河谷的丝须蒟蒻薯(Taccaintegrifolia)与其在东南亚的主要分布区具有明显的间断分布格局。为了探讨地理隔离对其居群遗传结构和遗传多样性的影响,我们应用ISSR分子标记方法对采自西藏墨脱的3个丝须蒟蒻薯居群共65个个体进行了遗传多样性和居群遗传结构分析,并与马来西亚Seremban的1个居群(19个个体)进行了比较。19个ISSR引物共扩增到165个位点,其中111个为多态位点,占67.68%。丝须蒟蒻薯在物种水平上的遗传多样性虽然不低(PPB=67.68%,HT=0.185,Hsp=0.292),但在居群内的遗传多样性却非常低(PPB=12.81%,HE=0.065,Hpop=0.044)。与马来西亚居群(Ma)(PPB=31.71%)相比,墨脱的3个居群遗传多样性极低(PPB分别为3.66%,8.54%,7.32%)。Ma居群与墨脱居群相隔2000km以上,两个地区间的遗传分化程度很大(GST=0.777,FST=0.9206),而墨脱的3个居群间(0.28%)及居群内(7.94%)的遗传分化却非常低(P<0.001)。居群间极其有限的基因流(Nm=0.1435)可能是由于该物种是以自交为主的种类、种子散布很困难、居群间的隔离、生境的破碎化等原因所致。总之,雅鲁藏布江河谷地区特殊的地形和地貌以及与其他热带地区的地理隔离是造成丝须蒟蒻薯在这一地区遗传多样性极低的可能原因。     

中华水韭遗传多样性的RAPD分析

采用RAPD方法对珍稀濒危植物中华水韭(Isoetes sinensis)4个自然居群的48个样品进行了DNA多态性分析。从60个随机引物中筛选出14个有效引物,共产生124条DNA片段,其中72条为多态性条带,总的多态位点百分率(PPB)为58．06％。各居群间多态位点百分率差异显著(0．81％-12．90％)。AMOVA分析结果表明,4个居群间基因分化系数Фst=0．5894,即遗传变异中有相当一部分来源于群体间(58．94％)。日益缩小的种群规模而导致的居群内近交和遗传漂变的发生以及居群间有限的基因交流可能是中华水韭目前遗传结构的主要成因。鉴于目前中华水韭居群内个体数偏少、遗传多样性较低的现状,建议对其进行就地保护并保护尽可能多的生境,对不同自然居群内的个体进行植株相互移栽和育苗移栽,以提高不同居群间的基因交流,尽可能地保护中华水韭的遗传多样性。     

多叶重楼遗传多样性的RAPD分析

应用RAPD技术检测了多叶重楼(Paris polyphyfzo)2个变种4个居群的遗传多样性,并与1个凌云重楼(P．cronquistii)居群进行了比较。选择的16个随机引物在5个居群中共检测到246个多态位点。在居群水平上,滇重楼2个居群的多态位点百分比(PP鳓分别为57．43％和54．67%,Shannon指数分别为0．3080和0．2830;七叶一枝花2个居群的PPB分别为56．33％和57．75%,Shannon指数分别为0、3080和0．3293。在变种水平上,滇重楼的PPB为75．14％,Shannon指数为0．3922,遗传分化系数(Gst)为0．3085;七叶一枝花的PPB为80．31％,Shannon指数为0．3992,遗传分化系数(Gst)为0．3726;在种的水平PPB达92．05%,遗传分化系数Gst达0．5151。聚类分析显示滇重楼和七叶一枝花有较近的亲缘关系,而与凌云重楼遗传距离较远。此结果从分子水平上支持了过去将滇重楼和七叶一枝花划分为1个种下2个变种的形态分类观点。     

西双版纳地区流苏石斛遗传多样性的ISSR 分析

采用ISSR 分子标记技术, 对西双版纳分布的兰科濒危植物流苏石斛( Dendrobium fimbriatum) 5 个居群共114 个个体的遗传多样性进行了研究。从100 条引物中筛选出了12 条用于扩增, 共检测到117 个位点, 其中105 个为多态位点。分析结果表明, 流苏石斛居群水平遗传多样性较低。在物种水平上, 流苏石斛多态位点百分率PPB 为89 .74% , Nei′s 基因多样性指数H 为0 . 3227 , Shannon′s 多样性信息指数Hsp 为0 . 4779 ; 在居群水平上, 各个居群的多态位点百分率PPB 差异较大( 6.84% ～ 39.32% ) , 平均值为23.93% , Nei′s 基因多样性指数H 为0 . 0871 , 各个居群的Shannon′s 多样性信息指数Ho 平均为0.1290。AMOVA 分析的结果显示, 流苏石斛的遗传变异大多数存在于居群间, 占总遗传变异的74 . 79%。基于Nei′s遗传多样性分析得出的居群间遗传分化系数Gst = 0 . 7443。各居群间的Nei′s 遗传一致度( I) 范围为0 . 5882～0 . 8331。Mantel 检测发现, 居群间的遗传距离和地理距离之间无显著的正相关关系( r= 0.2419, P=0.2416) 。鉴于流苏石斛的遗传多样性现状和居群遗传结构, 我们建议对流苏石斛居群所有个体实施及时的就地保护, 同时建立迁地保护居群, 促进基因交流。     

Characteristics of<Emphasis Type="Italic">Staphylococcus aureus</Emphasis> isolated from rabbits

The occurrence of Staphylococcus aureus in rabbit feces, cecum and meat and its enterotoxin production, susceptibility to antibiotics and its sensitivity or resistance to bacteriocins produced by enterococci with probiotic properties were determined. Isolates were resistant to ampicillin, penicillin, phosphomycin and methicillin; a high percentage of susceptibility was also recorded to vancomycin, chloramphenicol, tetracycline and tobramycin. S. aureus isolates did not produce enterotoxins and were sensitive to partially purified enterocins (PPB) EK13, AL41 and EF2019 in the range of 100 to 12800 AU/mL; all S. aureus isolates, except the strain SA 2A/3, exhibited the highest sensitivity to PPB EK13. On the other hand, all strains were resistant to PPB CCM4231.     

长筒石蒜居群遗传多样性RAPD分析

利用RAPD标记对长筒石蒜3个居群的遗传多样性及分化程度进行了研究。12条随机引物扩增出94个可分析位点,多态位点比率(PPB)为65.96%,表明长筒石蒜具有比较高的遗传多样性。经POP-GENE32分析表明:Nei’s基因多样性指数(h)为0.1897,香农多样性指数(Ⅰ)为0.2945,基因分化系数(GST)为0.1191,基因流(Nm)为3.6980。经WINAMOVA分析表明:居群内遗传变异占71.75%,而居群间只占28.25%。遗传多样性分析表明,各居群的遗传多样性水平由高到低为琅琊山居群>宝华山居群>盱眙居群。遗传分化表明:长筒石蒜各居群间遗传分化程度较低;大部分遗传变异存在于居群内部,表明其具有较强的进化潜力,自然情况下不会处于濒危状态,野生种质资源的破坏,主要来自于人为干扰。     

Genetic structure of the endangered plant Neolitsea sericea (Lauraceae) from the Zhoushan archipelago using RAPD markers

BACKGROUND AND AIMS: The Zhoushan archipelago is the largest archipelago in China. It separated from the mainland about 9000 years ago due to rising sea levels and climate change. Because of the long-term influences of human activities, the original forest vegetation on the large islands has been badly damaged and its plant diversity reduced. METHODS: Levels and patterns of genetic diversity in 114 individuals from six natural populations and four cultivated populations of the insular endangered plant Neolitsea sericea (Lauraceae) on the Zhoushan archipelago were assessed using random amplified polymorphic DNA (RAPD) markers. KEY RESULTS: A total of 99 discernible loci were obtained for all populations using ten primers, 50.5 % of which were polymorphic [percentage of polymorphic bands (PPB)=50.5 %]. Despite being a woody, long-lived, perennial, outcrossing and insect-pollinated plant, N. sericea exhibited low levels of genetic variation. The cultivated populations (PPB=18.9 %, HE=0.060, S=0.092) were genetically less diverse than the natural populations (PPB=23.1 %, HE=0.082, S=0.123). Based on analysis of molecular variance, a high degree of among-population differentiation was revealed for both natural (0.387) and cultivated populations (0.598). CONCLUSIONS: Removal of plants from the wild for horticulture purposes has eroded the level of genetic variation of N. sericea. Low levels of genetic diversity and a high degree of population differentiation indicate that management strategies should include conservation of natural habitats occupied by all six wild populations, and sampling of germplasm resources from multiple seed sources.     

AFLP analysis of genetic diversity of the endangered species Sinopodophyllum hexandrum in the Tibetan region of Sichuan Province, China

Amplified fragment length polymorphism (AFLP) markers were used to estimate the genetic diversity of seven wild populations of Sinopodophyllum hexandrum (Royle) Ying from the Tibetan region of Sichuan Province, China. Six primer combinations generated a total of 428 discernible DNA fragments, of which 111 were polymorphic. The percentage of polymorphic bands (PPB) was 25.93 at the species level, and PPB within population ranged from 4.91 to 12.38%. Genetic diversity (H(E)) within populations varied from 0.01 to 0.04, averaging 0.05 at the species level. As revealed by the results of AMOVA analysis, 58.8% of the genetic differentiation occurred between populations, and 41.2% within populations. The genetic differentiation was, perhaps, due to the limited gene flow (Nm = 0.43) of the species. The correlation coefficient (r) between genetic and geographical distance using Mantel's test for all populations was 0.698 (P = 0.014). The UPGMA cluster analysis revealed a similar result in that the genetic distances among the populations show, to a certain extent, a spatial pattern corresponding to their geographic locations. On the basis of the genetic and ecological information, we propose some appropriate strategies for conserving the endangered S. hexandrum in this region.     

Genetic diversity of Sinojackia dolichocarpa (Styracaceae), a species endangered and endemic to China,detected by inter-simple sequence repeat (ISSR)

Sinojackia dolichocarpa, a species endangered and endemic to China, is distributed only in the regional area of Shimen and Sangzhi in Hunan Province. Inter-simple sequence repeat (ISSR) markers were used to investigate the genetic diversity within and among the four natural populations of S. dolichocarpa. Leaf samples were collected from 84 individuals. Thirteen ISSR primers selected from 80 primers gave rise to 137 discernible DNA bands of which 100 (72.99%) were polymorphic. On average each primer gave rise to 10.5 bands including 7.7 bands with polymorphic profile. At the species level, high genetic diversity was detected (PPB: 72.99%; H_E: 0.2255; Ho: 0.3453). However, relatively low genetic diversity existed within populations. Population in Maozhuhe (MZH) exhibits the greatest level of variability (PPB: 40.38%, H_E: 0.1566, Ho: 0.2330), whereas the population in Jingguanmen (JGM) finds its own variability at the lowest level (PPB: 30.66%; H_E: 0.1078; Ho: 0.1601). A high level of genetic differentiation among populations was revealed by Nei's gene diversity statistics (45.30%), Shannon's information measure (45.24%) and analysis of molecular variance (AMOVA) (52.88%). The main factors responsible for the high level of differentiation among populations are probably related to the selfing reproductive system and the isolation of populations. The strong genetic differentiation among populations indicates that the management for the conservation of genetic variability in S. dolichocarpa should aim to preserve every population.     

苹果属山荆子遗传多样性的RAPD分析

采用RAPD分子标记对东北、华北地区山荆子8个天然居群的137株个体进行了遗传多样性研究,10个引物共得到72个扩增位点,其中多态性位点63个.多态位点百分率为87.50%,有效等位基因数(Ne)为1.602 1,Nei's基因多样性(H)为0.338 6,Shannon信息指数(J)为0.496 1,表明山荆子遗传多样性水平较高.基因流(Nm)为1.735 3,说明山荆子各居群间存在一定的基因交流.居群间基因分化系数(Gst)值为0.223 7,说明虽然山荆子居群的遗传变异主要存在于居群内,但各居群间也存在着较高的遗传分化.     

采用RAPD和ISSR标记探讨中国疣粒野生稻的遗传多样性

Random amplified polymorphic DNA (RAPD) and inter-simple sequence repeat (ISSR) methods were applied to detect genetic variation of 20 bulking samples and two individually sampled populations of Oryza granulata (Nees et Arn. ex Watt.) from China (M5 from Hainan Province and M27 from Yunnan Province). For the bulking sampled populations, 20 RAPD and 12 ISSR primers generated 209 and 122 bands, of which 134 (64.11%) and 89 (72.95%) were polymorphic respectively. For population M5, 146 and 95 bands were generated with 21.48% and 34.78% being polymorphic (PPB). For population M27, 151 (PPB = 17.22%) and 94 (PPB = 19.15%) bands of RAPD and ISSR were obtained. The results indicated that the level of genetic variation of O． granulata was lower than other species detected in the genus Oryza. UPGMA cluster based on genetic similarity and principle component analyses (PCA) based on band patterns divided the populations into two groups corresponding to their sources, which revealed that the majority of genetic variation of O. granulata occurred between Hainan and Yunnan. Consequently, more populations of the species should be considered for a reasonable conservation management. Comparison between the two marker systems showed that ISSR was better than RAPD in terms of reproducibility and ability of detecting genetic polymorphism. Mantel test revealed that the goodness of fit between them was significant (r=0.917, t=12.718) when detecting genetic diversity at species level, but was poor at population level (r<0.200). The discrepancy was considered as the facts that different fragments were targeted by RAPD and ISSR, and that evolutionary process of O. granulata varied at different hierarchical levels.     

四川西部濒危植物桃儿七遗传多样性的RAPD分析

桃儿七是一种具有重要药用价值的珍稀濒危植物。采用RAPD分子标记技术,对在四川西部地区的桃儿七7个自然种群的遗传多样性水平和遗传结构进行了分析。用12个RAPD引物对7个种群共140个样品进行了扩增,共得到111条清晰带,其中32条具有多态性,在物种水平上多态位点百分率(PPB)为28.83%,在种群内的多态位点百分率变动幅度为4.50%至16.22%。同其它一些濒危植物相比,桃儿七种群具有较低的遗传多样性(He=0.0622,Ho=0.0987)。7个自然种群间出现了很强的遗传分化,分化指数接近70%。种群间的基因流低(Nm=0.2240)。造成上述结果的可能原因是与桃儿七的繁育方式和有限的基因流等因素有关。应将遗传多样性相对较高的松潘县牟尼沟种群作为原位保护的核心种群进行保护,尽量保护所有现有种群。     

AFLP Analysis of Genetic Diversity of the Endangered Species Sinopodophyllum hexandrum in the Tibetan Region of Sichuan Province,China

Amplified fragment length polymorphism (AFLP) markers were used to estimate the genetic diversity of seven wild populations of Sinopodophyllum hexandrum (Royle) Ying from the Tibetan region of Sichuan Province, China. Six primer combinations generated a total of 428 discernible DNA fragments, of which 111 were polymorphic. The percentage of polymorphic bands (PPB) was 25.93 at the species level, and PPB within population ranged from 4.91 to 12.38%. Genetic diversity (H _E) within populations varied from 0.01 to 0.04, averaging 0.05 at the species level. As revealed by the results of AMOVA analysis, 58.8% of the genetic differentiation occurred between populations, and 41.2% within populations. The genetic differentiation was, perhaps, due to the limited gene flow (N _m=0.43) of the species. The correlation coefficient (r) between genetic and geographical distance using Mantel's test for all populations was 0.698 (P=0.014). The UPGMA cluster analysis revealed a similar result in that the genetic distances among the populations show, to a certain extent, a spatial pattern corresponding to their geographic locations. On the basis of the genetic and ecological information, we propose some appropriate strategies for conserving the endangered S. hexandrum in this region.