菲律宾蛤仔大连群体不同世代的遗传多样性

采用12对有效微卫星引物对大连群体菲律宾蛤仔连续4个选育世代(F₁、F₂、F₃、F₄)的144个个体进行了遗传多样性分析。结果表明:共获121个等位基因,每个位点的等位基因数在2-6个不等,其大小在101-273 bp之间;各个世代平均等位基因数在3.75-4.58,平均观测杂合度在0.3391-0.3860之间。从F-检验结果上看,所有世代内有2个位点遗传分化较弱,8个位点遗传分化中等,2个位点遗传分化较大;配对比较F_st值(0.05-0.15)表明4个世代群体间遗传分化程度中等。F_is值表明有2个世代位点杂合度处于过剩状态;但对连续4个世代而言,每个世代均表现出一定程度的杂合子缺失。随着世代连续选育的进行,Nei氏遗传相似性逐渐减小(0.8203-0.8107-0.8031);遗传距离逐渐增大(0.1918-0.2099-0.2129);不同世代群体间遗传相似性系数为0.7873-0.8685,遗传距离为0.141-0.2391。4个世代平均PIC值为0.5055,表明选育后代遗传多样性较好,还有较大的选育潜力,可以继续进行上选。     

中国板栗自然居群微卫星（SSR）遗传多样性

采用8对微卫星分子标记对中国板栗(Castanea mollissima)的28个自然居群进行了遗传多样性与遗传结构分析。在849个个体上扩增得到128个等位基因, 每位点平均等位基因数(A)为16。中国板栗居群的平均预期杂合度(H_E)为0.678, 平均观察杂合度(H_O)为0.590。华中地区的中国板栗居群遗传多样性最高(A = 8.112, H_E = 0.705, H_O = 0.618), 其次为西北地区和华东地区, 而西南地区遗传多样性最低(A = 6.611, H_E = 0.640, H_O = 0.559)。基于无限等位基因模型(IAM)和基于逐步突变模型(SMM)的遗传分化系数分别为F_ST = 0.120和R_ST = 0.208。分子方差分析(AMOVA)结果表明中国板栗野生居群的遗传变异主要存在于居群内(87.16%)。Mantel检测揭示遗传距离与地理距离之间无显著相关性, 表明基因流不是主导中国板栗居群遗传结构的关键因素。华中地区(尤其是神农架及其周边地区)是中国板栗遗传多样性的现代分布中心, 因而应该得到优先保护, 同时该区域的野生板栗居群可优先作为栽培板栗遗传育种的材料和基因库。     

栲树微卫星分子标记的开发

采用基因组DNA富集法FIASCO对我国典型常绿阔叶林建群种栲树(Castanopsis fargesii Franch.)进行了微卫星分子标记的开发。从栲树基因组中分离和筛选了15个微卫星位点,并对江西九连山栲树自然分布居群的遗传多样性进行了分析。结果表明,栲树具有较高水平的遗传多样性,每个位点在28株栲树个体上的平均等位基因数(A)为6.7(4～8个),平均观察杂合度(HO)为0.690(0.250～1.000),平均预期杂合度(HE)为0.698(0.293～0.867)。每个位点的第一排除概率值Pr(Ex1)为0.043～0.527,位点综合值为0.9972。单个位点的第二排除概率Pr(EX2)为0.159～0.694,位点综合值为0.9999。这些微卫星标记可为研究栲树的遗传多样性及居群遗传结构提供有效的遗传工具。     

千岛湖社鼠种群遗传现状及与生境面积的关系

以千岛湖地区13个岛屿上的社鼠(Niviventer confucianus)种群为研究对象,利用13个微卫星位点分析了13个社鼠种群的遗传现状,并探讨了种群遗传现状与岛屿面积大小之间的关系。研究结果显示,13个社鼠种群的平均观测等位基因数(Na)与平均有效等位基因数(Ne)分别为7.385,5.952,平均期望杂合度(He)与平均观测杂合度(Ho)分别为0.819,0.930,平均多态信息含量(PIC)为0.760,说明13个社鼠种群均具有较高的遗传多样性。13个种群间的分化系数(Fst)为0.053,表明种群间的遗传分化较小。3个面积较大且相近岛屿上社鼠种群,即高仙阁种群 (Gaoxiange Island,G);乌石T岛种群 (Wushi T Island,WT);东门岛种群 (Dongmen Island,DM)间的Fst值均小于0.05,表明种群间无分化,而小岛种群与大岛种群间的分化却比较明显。此外,一元回归结果显示,多态信息含量(PIC)和Shannon多样性指数(I)与岛屿面积大小之间均存在显著地正相关关系。以上结果说明,在社鼠种群进化过程中,生境面积的缩小可能使种群的遗传结构发生改变,并有可能导致种群的快速进化。     

野生罗汉果遗传多样性的ISSR分析

应用ISSR分子标记方法对采自广西和广东的7个罗汉果（Siraitia grosvenorii）野生居群共130个个体进行了遗传多样性分析。15个ISSR引物共扩增到了111个位点,其中91个是多态性位点,占82.0%。Nei′s基因多样性指数(H_e)为 0.248,Shannon 信息多样性指数（I） 为0.354。罗汉果不同居群的遗传多样性水平差异较大,居群多态位点百分率在 28.2%－55.6%之间,Nei′s基因多样性指数为0.080－0.209,Shannon 信息多样性指数为0.123－0.310。永福居群（YF）和金秀居群（JX）的遗传多样性水平较高,其周边居群的遗传多样性水平逐渐降低,居群间产生了较大的遗传分化（G_st = 0.569）。居群间的遗传距离与地理距离相关性不明显（r =0.369,P = 0.115）。UPGMA聚类图中,7个居群的个体按居群各自聚在一起。     

板栗和锥栗同域居群的空间遗传结构

采用微卫星技术研究了板栗(Castanea mollissima)和锥栗(C. henryi)同域分布居群的空间遗传结构, 探讨了它们的遗传变异空间分布特征及其形成机制。结果表明,采用的7个微卫星在两物种中共扩增出173个等位基因,两物种都具有较高的遗传多样性且种间遗传分化水平较低(F_ST=0.051), 但空间自相关分析揭示板栗和锥栗在同域居群中具有不同的空间遗传结构,锥栗在100 m内有空间遗传结构,而板栗没有;同时,基于亲缘关系系数F_ij的Sp统计值也显示锥栗具有比板栗更强的空间遗传结构(板栗的Sp=0.002;锥栗的Sp=0.018)。居群遗传变异的空间结构是其传粉和种子散播及生境共同作用的结果,其中种子的近距离散播和居群密度可能是主要的因素。板栗和锥栗居群在小尺度上空间遗传结构的差异可能反映了它们种子的大小及扩散过程的差异。     

昆仑山北坡不同海拔塔里木沙拐枣的光合生理生态特性

在2008年7月25日-8月6日的连续晴天中,选择昆仑山北坡塔里木沙拐枣自然分布区3个海拔高度(2100,2300,2500m),利用便携式光合测定仪LI-6400测定塔里木沙拐枣的光合生理生态特性。结果表明:2100m处塔里木沙拐枣的光补偿点(LCP)和光饱和点(LSP)与2300m,2500m处差异分别达到显著,而3者间的最大净光合速率(P_max)差异均达显著。表观量子效率(AQY)在3个海拔之间差异均不显著,但在2100m处的羧化效率(CE)分别与2300m和2500m处的差异显著。相同海拔下塔里木沙拐枣的暗呼吸速率值(R_day)要高于光呼吸速率值(R_p),且2500m处的暗呼吸速率分别与2100m和2300m处的有显著的差异,2100m处的光呼吸速率分别与2300m和2500m差异显著。3个海拔塔里木沙拐枣的净光合速率(P_n)、蒸腾速率(T_r)和气孔导度(G_s)的日变化均为单峰曲线。随着海拔的升高,塔里木沙拐枣P_n,T_r,G_s和L_s的日均值降低,但光能利用率(LUE)和水分利用效率(WUE)却显著增加。塔里木沙拐枣的P_n与叶温(T_l)、大气温度(T_a)和光照强度(PPFD)具有极显著的正相关关系,与海拔呈显著负相关,与空气相对湿度(RH)和大气CO₂浓度(C_a)之间均不具有显著相关性。T_r与T_a,T_l和PPFD具有极显著的正相关性,与RH之间存在显著的负相关。G_s只与C_a之间呈极显著的负相关。P_n与T_r,L_s,G_s,WUE和V_pdl分别具有极显著的正相关性,与C_i呈极显著的负相关。通过对不同海拔高度塔里木沙拐枣光合生理参数与光、温等生态因子关系的对比分析表明:塔里木沙拐枣对山地荒漠草地自然环境变化的温度和光照有很好的生态适应性。     

北京地区野生大豆种群SSR标记的遗传多样性评价

 使用40对SSR引物分析了北京地区野生大豆(Glycine soja)天然种群的遗传结构与遗传多样性。10个种群共检测到526个等位变异, 平均每对引物等位基因数为13.15个, 种群平均Shannon指数(I)为0.658, 群体平均位点预期杂合度(H_e)为0.369, 群体平均位点杂合度(H_o)为1.29 %。平均种群内遗传多样度(H_s)为0.362, 平均种群间遗传多样度(D_ST)为0.446, 基因分化程度(G_ST)为0.544。该研究显示, 中-西部生态区种群比北部和东部山区种群有较高的遗传多样性。在地理上, 环绕北京地区的太行山和燕山两大余脉区域野生大豆种群遗传分化表现出地理差异。可能是经过干旱选择而形成的有抗旱潜力的种群在遗传上表现单一化。期待该种群提供耐旱基因。     

跨种扩增筛选大鳄龟微卫星标记及遗传多样性分析

跨种扩增是一种能够快速、有效地获得物种微卫星标记的方法。本研究利用在近缘种中已发表的微卫星DNA引物,对大鳄龟（Macroclemys temminckii）进行跨种PCR扩增,在合成的69对引物中获得8对具有多态性的微卫星位点。对PCR扩增产物进行统计,得出观测杂合度（H_o）的范围是0.041 7~0.954 5,平均为0.384 8;期望杂合度（H_E）的范围为0.041 7~0.811 8,平均为0.479 1;多态信息含量范围为0.040 0~0.759 2,平均为0.423 2;经过卡方检验后,部分微卫星位点符合哈迪-温伯格平衡。总体来说,这些位点是研究大鳄龟遗传结构的良好分子标记。     

濒危物种巴东木莲的等位酶遗传多样性及其保护策略

为了确定中国特有濒危植物巴东木莲(Manglietia patungensis)的就地保护优先单元和制定迁地保护的取样策略,采用超薄平板聚丙烯酰胺等电聚焦电泳技术对巴东木莲的7个野生居群的等位酶遗传多样性及遗传结构进行了分析。通过对8个酶系统19个酶位点的分析结果来看,巴东木莲具有较高的遗传多样性和一定程度的遗传分化。每位点平均等位基因数（A）为1.57,多态位点百分率（P）为48.1%,平均预期杂合度（H_e）为0.192。巴东木莲居群间的遗传分化系数（G_ST）为0.165,说明其16.5％的遗传变异存在于居群间;基于遗传分化系数计算的基因流（N_m）为1.27,说明居群间存在适度的基因流;固定指数(F)为-0.191,显示巴东木莲居群杂合体轻微过量,纯合体略显不足。本研究表明,目前巴东木莲仍具有较高的遗传多样性并且在其适宜生境中可以完成自然更新,因此应采取以就地保护为主的综合保育策略。     

Isolation and characterization of polymorphic microsatellite markers for the endangered tree <Emphasis Type="Italic">Handeliodendron bodinieri</Emphasis> (Sapindaceae)

Nine polymorphic microsatellite loci were developed and characterized for Handeliodendron bodinieri, an endangered tree endemic to karst forest in southwest China. Each locus displayed between 4 and 11 alleles. The observed heterozygosity ranged from 0.345 to 0.931 and expected heterozygosity varied from 0.414 to 0.824. The combined probabilities of paternity exclusion over all loci were 0.931 for P _r(Ex₁) and 0.993 for P _r(Ex₂), respectively. These loci represent a powerful tool in investigating gene flow and population structure in natural populations of H. bodinieri.     

Genetic variability of the tokay gecko based on microsatellite analysis

The black-spotted tokay gecko and red-spotted tokay gecko have different distribution areas and are significantly different in appearance but are classified into the same species Gekko gecko. Twelve microsatellite loci were isolated, characterized and evaluated from wild black-spotted tokay geckos for the first time. Of them, nine loci were successfully amplified in red-spotted tokay geckos using multiplex polymerase chain reactions (PCRs). A total of 208 different alleles were observed in the 70 wild black-spotted and red-spotted tokays, and the average number of alleles per locus was 17.3. The average values for observed heterozygosity, expected heterozygosity and polymorphism information content were 0.762, 0.891 and 0.871, respectively, which showed that the wild G. gecko population had a high level of genetic variability. Both black-spotted tokays and red-spotted tokays showed a significant (P < 0.001) deficit of heterozygotes. The red-spotted tokay (H_E = 0.881, A = 16.4) had a higher level of genetic variability than black-spotted tokay (H_E = 0.804, A = 10.7). The pairwise F_ST (P < 0.001) estimates of the two types of tokay were 0.143, which indicated that there was a significant level of genetic differentiation between the two.     

不同年龄段大连群体菲律宾蛤仔EST-SSR多样性

为查明年龄结构对菲律宾蛤仔同一群体内遗传多样的影响,采用14个SSR分子标记对大连石河不同年龄段的野生蛤仔进行了检测。结果表明:不同年龄段(1龄-Age1、2龄-Age2、3龄-Age3)蛤仔均维持着较高的遗传多样性。根据POPGENE 1.31和SPSS16.0统计分析显示,位点Rp-11、Rp-12、Rp-19对3个年龄段蛤仔的等位基因数差异极显著(P<0.01);位点Rp-20、Rp-24、Rp-27、Rp-30对其差异显著(P<0.05);剩余7个位点表现为差异不显著(P>0.05)。在平均水平上,每位点等位基因数目Na为4.3095,有效等位基因数目Ne为2.3729,多态位点百分数P(%)为14。观察杂合度和期望杂合度都比较高,观察杂合度平均为Ho=0.2335,期望杂合度平均为He=0.5140。而且,Ne和He随年龄的变化表现出Age2>Age3>Age1的趋势。各年龄段蛤仔——Age1、Age2、Age3的平均观察杂合度(Ho)和平均期望杂合度(He)分别为0.2357、0.2546、0.2159和0.4951、0.5286、0.5184。Age2的遗传多样性指数高于Age1及Age3,遗传分化相对较低。其中,Age1与Age3蛤仔遗传距离最小,D为0.0195,即变异很小;而Age1与Age2遗传距离较大,D为0.0437,变化范围不大(0.0195—0.0437)。从遗传一致度的数值上看了3个年龄段蛤仔的遗传相似程度很大,平均为0.9655。Age1与Age3遗传相似程度高达0.9807,而Age1与Age2相似程度较小为0.9572。说明不同年龄段蛤仔相似程度非常高。根据不同年龄段蛤仔的遗传距离,采用UPGMA平均聚类方法对其进行聚类可知,Age3与Age1蛤仔间遗传距离较小,与Age2蛤仔差异较大。通过对等位基因频率进行卡方检验发现,随着年龄结构的变化,部分基因基因频率减小;同时随着年龄的增长,有部分等位基因得到了纯化。大连群体蛤仔总的遗传分化较低,其遗传分化指数Fst为0.0248(Fst<0.05),遗传分化系数为0.02,说明总的遗传变异中有2%来自于不同年龄段的蛤仔之间。遗传距离和遗传一致度均值分别为0.035和0.9655,基因流(Nm=9.8238)相对流畅,进一步表明年龄结构对蛤仔种群内遗传分化的影响较小。     

A new complex polymorphic repeat close to the HLA-A and HLA-E loci

We describe a complex polymorphic repeat discovered analyzing YAC 225B1, which spans the region between the HLA-A and HLA-E loci. The repeat consists of a variable number of the nucleotide A followed by a variable number of the trinucleotide AAG [(A)_n(AAG)_n]. Three different alleles were detected with an observed heterozygosity of 0.30.     

Diurnal, seasonal and sex variations in rectal temperature of African giant rats (Cricetomys gambianus, Waterhouse)

(1)

Rectal temperature (T_r) was measured in captive African giant rats (Cricetomys gambianus, Waterhouse), live-trapped in the Savannah during the harmattan, hot-dry and rainy seasons with the aim of determining diurnal, seasonal and sex patterns.

(2)

Mean (±SEM) T_r in the morning (37.16±0.04 °C) was lower (P<0.001) than the afternoon (37.49±0.03 °C) and evening (37.66±0.03 °C). There was no significant difference (P>0.05) between afternoon and evening T_r during the harmattan and rainy seasons, but the difference was significant (P<0.001) during the hot-dry season. Overall T_r was higher (P<0.001) during the hot-dry (38.03±0.03 °C) than harmattan (37.17±0.03 °C) and rainy (37.21±0.03 °C) seasons. T_r of bucks was lower than that of does (P<0.0001) during the harmattan and rainy seasons, but sex difference during the hot-dry season was not significant (P>0.05).

(3)

Base-line T_r values for the African giant rats are shown for the first time. Season, time of day and sex influence fluctuations in T_rs of African giant rats, and should be considered during diagnostic and clinical evaluations.

     

Development of microsatellite marker loci for European hazelnut (<Emphasis Type="Italic">Corylus avellana</Emphasis> L.) from ISSR fragments

Polymorphic microsatellite markers were developed for European hazelnut (Corylus avellana L.) from the sequences of inter-simple sequence repeat (ISSR) fragments and flanking regions. Twenty-five ISSR primers were used to generate fragments for cloning. Of the 520 unique sequences obtained, 41 contained long internal repeats (≥20 bp) with flanking sequences sufficient for primer design. From these, we developed 23 new polymorphic microsatellite loci. The flanking sequences were obtained for fragment ends by chromosome walking, and an additional 47 polymorphic markers were developed. Two additional polymorphic markers were developed from a GA-enriched library. The 72 new marker loci were characterized using 50 diverse hazelnut accessions. For the internal repeat loci, the number of alleles per locus ranged from 2 to 16, with a mean of 7.52. Mean values for expected heterozygosity (H_e), observed heterozygosity (H_o), and polymorphism information content (PIC) were 0.62, 0.59, and 0.58, respectively. The estimated frequency of null alleles (r) was ≥0.05 at six of the 23 loci. For the 47 marker loci developed from fragment ends, the number of alleles per locus ranged from 2 to 16, with a mean of 7.30. Mean values for H_e, H_o, and PIC were 0.62, 0.47, and 0.58, respectively. The estimated frequency of null alleles (r) was ≥0.10 at 18 of the 47 loci. Of the 70 loci developed from ISSR and flanking sequences, 50 segregated in our mapping population and were assigned to linkage groups.     

Population genetics studies of half-smooth tongue sole Cynoglossus semilaevis using ISSR markers

Inter-simple sequence repeat (ISSR) analysis was performed in order to evaluate the genetic diversity of wild and hatchery samples of half-smooth tongue sole Cynoglossus semilaevis. A group of 200 genotypes belonging to four wild samples, Laizhou (LZ), Weihai (WH), Qingdao (QD), Rizhao (RZ) and one hatchery sample, Mingbo (MB) were screened using 15 different ISSR primers. A total of 137 loci were produced in the five studied samples. 41.80%, 45.26%, 44.27%, 42.86% and 41.59% of these loci were polymorphic over all the genotypes tested in LZ, WH, QD, RZ and MB samples, respectively. The number of polymorphic loci detected by single primer combination ranged from 2 to 7. The average heterozygosity of LZ, WH, QD, RZ and MB samples were 0.0710, 0.0814, 0.0793, 0.0727 and 0.0696, respectively. The WH sample showed a higher genetic diversity including total number of ISSR bands (P < 0.05), total number of polymorphic bands (P < 0.05), average heterozygosity (P < 0.05) and total number of genotypes (P < 0.05) than all the other samples. Among the five studied samples, the hatchery sample (MB) showed the lowest genetic viability.     

Microsatellite variability and heterozygote excess in Elymus trachycaulus populations from British Columbia in Canada

Microsatellite markers were used to assess the genetic diversity and population structure in four populations of Elymus trachycaulus from British Columbia and one population of Elymus alaskanus from Northwest Territories. Fourteen microsatellite loci were used in this study. Our results indicated that E. trachycaulus is highly polymorphic, with an average percentage of polymorphic loci of 96.5% over the four populations. Average expected heterozygosity values (H_E or gene diversity) varied from 0.418 to 0.585 with a mean of 0.497. Most of the genetic variation was found within populations (85%) and the differentiation among populations was found to be 15% (F_st = 0.15). Interpopulation genetic distances corresponded well with the geographic distance between the population sites of origin, as well as morphological characteristics. Tests for Hardy–Weinberg equilibrium (HWE) for all loci and all populations revealed that all loci significantly differ from HWE. Subsequent analysis indicated that departure from HWE at some loci was due to an excess of heterozygotes. Possible explanations for heterozygote excess are discussed. The most likely reason for observed heterozygote excess could be due to the polyploidy nature of the species.     

元江鲤种群遗传多样性

选择12对微卫星标记检测了于2011年采集自元江(红河上游中国江段)5个样点192尾鲤的群体遗传多样性.共检测到201个等位基因,每个位点等位基因2-27个.各群体各位点平均等位基因(NA)12.25-14.67个,平均有效等位基因(NE)8.28-9.73个,平均观察杂合度(Ho)o.7765-0.8037,平均期望杂合度(HE)0.7761-0.8080,平均多态信息含量(PIC)0.7534-0.7843.元江鲤种群192个个体各位点NA、NE、Ho、HE、PIC分别为16.50、11.26、0.7927、0.8049、0.7966,种群遗传多样性水平高.元江鲤群体之间遗传分化小,可作为一个种群管理单元进行管理.增殖放流要防止遗传多样性丧失.