Microsatellite DNA typing for assessment of genetic variability in Tharparkar breed of Indian zebu (Bos indicus) cattle, a major breed of Rajasthan

The present study estimates genetic variability with a set of 25 microsatellite markers in a random sample of 50 animals of Tharparkar breed of Indian zebu (Bos indicus) cattle. Tharparkar is a dual-purpose breed, valued for its milk as well as draught utility, and is adapted to the inhospitable Thar desert conditions of Rajasthan typified by summer temperature hovering above 50 degrees C, sparse rainfall and vegetation, and scarcity of even drinking water. The observed number of alleles ranged from 4 (ETH3, ILSTS030, INRA5, INRA63 and MM8) to 11 (HEL9 and ILSTS034), with allelic diversity (average number of observed alleles per locus) of 6.20. Observed and expected heterozygosity ranged from 0.25 (INRA63) to 0.77 (ETH10), and from 0.51 (HEL5 and HAUT27) to 0.88 (HEL9) respectively. Wide range of genetic variability supported the utility of these microsatellite loci in measurement of genetic diversity indices in other Indian cattle breeds too. Various average genetic variability measures, namely allele diversity (6.20), observed heterozygosity (0.57), expected heterozygosity (0.67) and mean polymorphism information content (0.60) values showed substantial within-breed genetic variability in this major breed of Rajasthan, despite accumulated inbreeding as reflected by high average inbreeding coefficient (F(IS) = 0.39). The Tharparkar population has not experienced a bottleneck in the recent past.     

Genetic diversity and bottleneck studies in the Marwari horse breed

Genetic diversity within the Marwari breed of horses was evaluated using 26 different microsatellite pairs with 48 DNA samples from unrelated horses. This molecular characterisation was undertaken to evaluate the problem of genetic bottlenecks also, if any, in this breed. The estimated mean (± s.e.) allelic diversity was 5.9 (± 2.24), with a total of 133 alleles. A high level of genetic variability within this breed was observed in terms of high values of mean (±s.e.) effective number of alleles (3.3 ± 1.27), observed heterozygosity (0.5306 ± 0.22), expected Levene’s heterozygosity (0.6612 ± 0.15), expected Nei’s heterozygosity (0.6535 ± 0.14), and polymorphism information content (0.6120 ± 0.03). Low values of Wright’s fixation index, F_IS (0.2433 ± 0.05) indicated low levels of inbreeding. This basic study indicated the existence of substantial genetic diversity in the Marwari horse population. No significant genotypic linkage disequilibrium was detected across the population, suggesting no evidence of linkage between loci. A normal ‘L’ shaped distribution of mode-shift test, non-significant heterozygote excess on the basis of different models, as revealed from Sign, Standardized differences and Wilcoxon sign rank tests as well as non-significantM ratio value suggested that there was no recent bottleneck in the existing Marwari breed population, which is important information for equine breeders. This study also revealed that the Marwari breed can be differentiated from some other exotic breeds of horses on the basis of three microsatellite primers.     

Short tandem repeat based analysis of genetic variability in Kanarese buffalo of South India

The goal of the present study was assessing genetic diversity within Kanarese buffalo, the dual purpose breed of South India. A total of 48 unrelated animals were genotyped at 23 short tandem repeat (STR markers)loci. The total number of observed alleles was 180 with a mean of 7.83 per locus, which varied from 3 to 12 across different loci. The mean observed and expected heterozygosity in South Kanara buffaloes was estimated to be 0.518 and 0.712 respectively. Within population inbreeding estimate (F _IS) was significantly positive in most of the investigated loci which resulted in significant deviation from Hardy-Weinberg equilibrium at 19 of 23 loci analyzed. Evaluation of South Kanara buffalo population for mutation drift equilibrium revealed no significant heterozygosity excess under three different models of evolution viz. infinite alleles model (IAM), step-wise mutation model (SMM) and two phase model (TPM), thus indicating the absence of any recent genetic bottleneck. The results of the present study will help in formulating rational breeding strategies as well as conservation of this important germplasm.     

Variation of 18 STR loci in Shahabadi sheep of India

Shahabadi sheep represent an important but uninvestigated source of genetic diversity. Eighteen microsatellite markers were employed to analyze the genetic diversity of Shahabadi sheep population found in Bihar, India within fifty samples. Microsatellites were highly polymorphic with a mean allelic number 5.56 ± 1.79. The observed heterozygosity, expected heterozygosity and observed and effective number of alleles were used to estimate the genetic variation of this breed. The observed heterozygosity in the population varied from 0.279–0.739 with the mean of 0.501 ± 0.151, reflecting substantial genetic variation in this population. Population was observed to be heterozygote deficient (21.5%). The results of this study indicated that conservation of genetic variation in Shahabadi population should be considered by breeders, in the interest of long term future of the breed in its native tract.     

Genetic Polymorphism and Bottleneck Analysis of Balkhi,Hashtnagri, and Michni Sheep Populations Using Microsatellite Markers

Pakistan is rich in sheep genetic resources. Balkhi, Hashtnagri, and Michni are neighboring sheep populations found in Khyber Pakhtunkhwa province of Pakistan. In this study, we analyzed the genetic structures and bottleneck incidents within these sheep populations using 31 microsatellite DNA markers. Total numbers of 116, 100, and 95 alleles, with average numbers of 3.20, 3.26, and 3.74 alleles per locus were observed, respectively, in Balkhi, Hashtnagri, and Michni population. Mean observed heterozygosity was 0.402 in Balkhi, 0.416 in Hashtnagri, and 0.522 in Michni population. All the three sheep populations showed significantly high inbreeding. Michni population was found to be in mutation drift equilibrium, showing the absence of genetic bottleneck. The data of Balkhi and Hashtnagri indicated the presence of genetic bottleneck in these populations. These results suggest a moderate level of genetic diversity within Michni population that may be useful for breed improvement programs. Hashtnagri and Balkhi populations having low within breed genetic variability may contain some valuable characteristics that need to be conserved.     

Genetic variability and bottleneck studies in Zalawadi, Gohilwadi and Surti goat breeds of Gujarat (India) using microsatellites

Indian goat breeds are recognized as an invaluable component of the world's goat genetic resources. Microsatellite pairs were chosen from the list suggested by International Society for Animal Genetics (ISAG) and amplified in two multiplexes (Set-I: 7 microsatellites and Set-II: 11 microsatellites) for automated fluorescence genotyping to assess bottleneck and analyze genetic variability and genetic distances within and between three goat breeds viz. Zalawadi, Gohilwadi and Surti. The observed number of alleles ranged from 4 (Oar JMP-29) to 15 (ILSTS-030 and -034) with a total of 178 alleles and mean of 9.89 alleles across the three breeds. The overall heterozygosity, PIC and Shannon index values were 0.61, 0.60 and 1.50 indicating high genetic diversity. The maximum observed heterozygosity was found in Gohilwadi and minimum in Surti goat breed. The Nei's standard genetic distance was minimum between Zalawadi and Gohilwadi, and maximum between Gohilwadi and Surti. Non-significant heterozygote excess on the basis of IAM, TPM and SMM models, as revealed from Wilcoxon sign-rank tests, along with a normal ‘L’-shaped distribution of mode-shift test, indicated no bottleneck in Zalawadi and Gohilwadi goat populations, whereas mild bottleneck in the recent past for Surti breed. This research on goat genetic diversity in Gujarat state provides valuable information on Zalawadi, Gohilwadi and Surti goat genetic resources, and will assist in developing a national plan for the conservation and utilization of indigenous goat breeds.     

野生杏和栽培杏的遗传多样性和遗传结构分析

利用SSR分子标记结合荧光毛细管电泳检测技术,研究了野生杏和栽培杏的遗传多样性和遗传结构,结果显示:27个SSR位点,平均每个位点检测到17.82个等位基因(Na)和7.44个有效等位基因(Ne),平均Shannon's信息指数(I)为2.23,平均期望杂合度(He)和观察杂合度(Ho)分别为0.70和0.52。基于SSR位点,群体水平上平均等位基因数、有效等位基因数、期望杂合度、观察杂合度和Shannon's信息指数分别为6.59、4.15、0.70、0.53和1.50,说明我国杏种质资源遗传多样性丰富,其中野生杏资源遗传多样性明显高于栽培杏资源,野生杏中西伯利亚杏种质遗传多样性最高且具有较多的特异等位基因,而栽培杏中仁用杏遗传多样性最低,特有等位基因较少。聚类分析将供试159份种质分为4组。群体遗传结构分析将159份种质划分为5个类群,分类情况与传统形态指标划分基本一致。通过本研究可知,我国杏资源遗传多样性丰富,遗传结构较为复杂;西伯利亚杏与栽培杏亲缘关系较远;野生普通杏与栽培杏具有类似的遗传结构,推测野生普通杏为栽培杏原始种;仁用杏遗传多样性较低,遗传背景狭窄。本研究结果可为杏资源新品种选育及持续利用提供重要的理论依据。     

Genetic diversity and bottleneck analysis of Indian bellary sheep by microsatellite markers

Bellary sheep population variability and structure was investigated genetically utilizing FAO recommended microsatellite markers. Genetic variation at 20 microsatellite loci, population structure, and genetic bottleneck hypothesis were examined. Estimates of genetic variability such as effective number of alleles and gene diversities revealed substantial genetic variation frequently displayed by microsatellite markers. A total of 133 alleles were detected. Average polymorphism across the studied loci and expected gene diversity in the population were 1.419 ± 0.405 and 0.684 ± 0.140, respectively. No significant genotypic linkage disequilibrium was detected across population, suggesting no evidence of linkage between loci. The population was observed to be significantly differentiated into different groups, showed fairly high level of inbreeding (f = 0.253 ± 0.050) and global heterozygote deficit. Population structure analysis indicated the intermixing/introduction of unique/rare alleles in these migrating flocks. A normal L-shaped distribution of mode-shift test, non-significant heterozygosity excess on the basis of different models, as revealed from sign, standardized differences and Wilcoxon sign rank tests suggested that there was no recent bottleneck. The study revealed that even a breed with increasing population trend needs genetic management for the conservation and improvement. The text was submitted by the authors in English.     

Population Bottlenecks and Nonequilibrium Models in Population Genetics. II. Number of Alleles in a Small Population That Was Formed by a Recent Bottleneck

A model is presented in which a large population in mutation/drift equilibrium undergoes a severe restriction in size and subsequently remains at the small size. The rate of loss of genetic variability has been studied. Allelic loss occurs more rapidly than loss of genic heterozygosity. Rare alleles are lost especially rapidly. The result is a transient deficiency in the total number of alleles observed in samples taken from the reduced population when compared with the number expected in a sample from a steady-state population having the same observed heterozygosity. Alternatively, the population can be considered to possess excess gene diversity if the number of alleles is used as the statistical estimator of mutation rate. The deficit in allele number arises principally from a lack of those alleles that are expected to appear only once or twice in the sample. The magnitude of the allelic deficiency is less, however, than the excess that an earlier study predicted to follow a rapid population expansion. This suggests that populations that have undergone a single bottleneck event, followed by rapid population growth, should have an apparent excess number of alleles, given the observed level of genic heterozygosity and provided that the bottleneck has not occurred very recently. Conversely, such populations will be deficient for observed heterozygosity if allele number is used as the sufficient statistic for the estimation of 4Nev. Populations that have undergone very recent restrictions in size should show the opposite tendencies.     

Genetic diversity and bottleneck analysis of Indian bellary sheep by microsatellite markers

Bellary sheep population variability and structure was investigated genetically utilizing FAO recommended microsatellite markers. Genetic variation at 20 microsatellite loci, population structure, and genetic bottleneck hypothesis were examined. Estimates of genetic variability such as effective number of alleles and gene diversities revealed substantial genetic variation frequently displayed by microsatellite markers. A total of 133 alleles were detected. Average polymorphism across the studied loci and expected gene diversity in the population were 1.419 +/- 0.405 and 0.684 +/- 0.140, respectively. No significant genotypic linkage disequilibrium was detected across population, suggesting no evidence of linkage between loci. The population was observed to be significantly differentiated into different groups, showed fairly high level of inbreeding (f = 0.253 +/- 0.050) and global heterozygote deficit. Population structure analysis indicated the intermixing/introduction of unique/rare alleles in these migrating flocks. A normal L-shaped distribution of mode-shift test, non-significant heterozygosity excess on the basis of different models, as revealed from Sign, Standardized differences and Wilcoxon sign rank tests suggested that there was no recent bottleneck. The study revealed that even breed with increasing population trend needs genetic management for the conservation and improvement.     

Microsatellite analysis of a population crash and bottleneck in the Mauna Kea silversword, Argyroxiphium sandwicense ssp. sandwicense (Asteraceae), and its implications for reintroduction

The Mauna Kea silversword, Argyroxiphium sandwicense ssp. sandwicense, has experienced both a severe population crash associated with an increase in alien ungulate populations on Mauna Kea, and a population bottleneck associated with reintroduction. In this paper, we address the genetic consequences of both demographic events using eight microsatellite loci. The population crash was not accompanied by a significant reduction in number of alleles or heterozygosity. However, the population bottleneck was accompanied by significant reductions in observed number of alleles, effective number of alleles, and expected heterozygosity, though not in observed heterozygosity. The effective size of the population bottleneck was calculated using both observed heterozygosities and allele frequency variances. Both methods corroborated the historical census size of the population bottleneck of at most three individuals. The results suggest that: (i) small populations, even those that result from severe reductions in historical population size and extent, are not necessarily genetically depauperate; and (ii) species reintroduction plans need to be conceived and implemented carefully, with due consideration to the genetic impact of sampling for reintroduction.     

蒙新区子午沙鼠种群的遗传多样性和遗传结构

为了探讨蒙新干旱区景观和环境因素对子午沙鼠种群遗传结构的影响,我们利用8 个多态性的微卫星位点,对子午沙鼠14 个局域种群的160 个个体进行了种群遗传多样性和遗传结构的分析。微卫星结果显示种群具有高的遗传多样性,微卫星位点的等位基因数(A)为22. 50 ±3.02 (19 ～ 28),多态信息含量(PIC)为0.912 ±0. 02 (0.872 ～ 0. 929);种群观测杂合度(HO )为0.68 ± 0. 19 (0. 52 ～0.85),期望杂合度(HE )为0.79 ± 0. 08(0. 71 ～ 0.85)。分子变异分析(AMOVA)结果显示,所得到的3 个组之间已发生显著的遗传分化(P < 0. 001)。
Mantel 检测结果表明,子午沙鼠种群遗传结构与地理距离无显著的相关性(P = 0.270 0),而在多元线性模型中,蒙新干旱区的海拔高度是影响种群遗传结构的关键因素。     

Genetic diversity studies of Kherigarh cattle based on microsatellite markers

We report a genetic diversity study of Kherigarh cattle, a utility draught-purpose breed of India, currently declining at a startling rate, by use of microsatellite markers recommended by the Food and Agriculture Organization. Microsatellite genotypes were derived, and allelic and genotypic frequencies, heterozygosities and gene diversity were estimated. A total of 131 alleles were distinguished by the 21 microsatellite markers used. All the microsatellites were highly polymorphic, with mean (±s.e.) allelic number of 6.24 ±1.7, ranging 4–10 per locus. The observed heterozygosity in the population ranged between 0.261 and 0.809, with mean (±s.e.) of 0.574 ±0.131, indicating considerable genetic variation in this population. Genetic bottleneck hypotheses were also explored. Our data suggest that the Kherigarh breed has not experienced a genetic bottleneck in the recent past.     

Estimation of genetic diversity in Siri cattle from India

Siri cattle, a dual-purpose breed of India is currently showing declining population trend. Siri animals have been developed through natural selection and show high adaptation to wide range of hilly terrain (altitudes 150–2500 m). The present work evaluated the genetic diversity of 23 FAO recommended microsatellite loci in a sample of 50 animals. The allele and genotype frequencies, heterozygosities and gene diversity were estimated. A total of 141 alleles were detected by the 23 microsatellite markers investigated. Microsatellites were highly polymorphic with mean allelic number 6.13 ± 1.63 (ranging from 3–10 per locus). The observed heterozygosity in the population varied from 0.26–0.80 with the mean of 0.53 ± 0.16, indicating substantial genetic variation in this population. Heterozygote deficiency and mutation-drift equilibrium hypothesis were also examined. Population exhibited heterozygote deficit of 22.1%. Population was found to be in mutation-drift equilibrium. Substantial genetic variability verified in Siri cattle despite its reducing population size suggests that this breed has a rich reservoir of genetic diversity. This fact and its marked environmental adaptation reinforce the importance of its preservation as a pure breed, and (or) its use in agricultural exploitation.     

红色原鸡群体遗传多样性

为了阐明红色原鸡的群体遗传结构,以对其有效保护提供遗传学依据,采用33个微卫星标记对其群体中56个个体进行了PCR-聚丙烯酰胺多态性电泳检测。33个微卫星座位共检测到140个等位基因,所有座位都呈现出多态性,每个座位的等位基因数在2～8个之间,平均每个座位等位基因数4.24个,有效等位基因数3.30个。根据等位基因频率,计算出的群体表观杂合度、期望杂合度及多态信息含量分别为0.7980、0.6506和0.5948。结果表明,红色原鸡群体遗传多样性较丰富。     

黑龙江省张广才岭北部小飞鼠的遗传多样性与种群历史动态

小飞鼠 (Pteromys volans) 为树栖夜行滑行类啮齿动物,在森林种子传播和维持生态系统平衡等方面发挥着重要的生态学作用。本研究利用mtDNA Cytb、控制区和nDNA微卫星3种分子标记,对黑龙江省张广才岭北部的小飞鼠种群进行遗传多样性与历史动态分析。检测出Cytb全序列 (1 140 bp) 的平均单倍型多样性为0.909,平均核苷酸多样性为0.616%;控制区全序列 (1 066 bp) 的平均单倍型多样性为0.945,平均核苷酸多样性为1.698%;微卫星检测出种群平均等位基因数13.167个,观测杂合度0.727,期望杂合度0.864,近交系数0.159。结果表明,小飞鼠种群遗传多样性丰富,但存在一定程度的杂合度不足和近亲繁殖;未检测到种群近期遗传瓶颈效应,种群内无遗传分化。高比例的稀有单倍型 (≥ 60%) 、低频率等位基因与近亲繁殖,提示未来种群面临遗传多样性下降的风险,建议加大对该物种的关注和保护力度。基于Cyt b基因的系统进化关系结果表明,小飞鼠存在3个明显的遗传谱系：远东、欧亚大陆北部和日本北海道,本研究中张广才岭和大兴安岭的样本单倍型归属为远东谱系。     

基于SSR标记的不同优势等级云南松遗传多样性分析

基于SSR分子标记技术,按树高和胸径（地径）因子将样地内的植株分为优势木、中等木和劣势木3类,对不同生长优势等级云南松林木的遗传多样性变异特征进行了研究。结果表明：在林冠层,优势木的有效等位基因数、Shannon's信息指数、观测杂合度和期望杂合度分别为2.083、0.762、0.290和0.423,略高于中等木和劣势木;在更新层,有效等位基因数、Shannon's信息指数、观测杂合度和期望杂合度分别为2.063、0.774、0.272和0.410,除观测杂合度外,其余3个指标也均表现为优势木略高于中等木和劣势木。从差异显著性检验来看,不同生长优势等级云南松林木间的遗传多样性差异不显著,即林木生长分化对遗传多样性的影响不明显。     

Clonal diversity of a lizard malaria parasite, Plasmodium mexicanum, in its vertebrate host, the western fence lizard: role of variation in transmission intensity over time and space

Within the vertebrate host, infections of a malaria parasite (Plasmodium) could include a single genotype of cells (single-clone infections) or two to several genotypes (multiclone infections). Clonal diversity of infection plays an important role in the biology of the parasite, including its life history, virulence, and transmission. We determined the clonal diversity of Plasmodium mexicanum, a lizard malaria parasite at a study region in northern California, using variable microsatellite markers, the first such study for any malaria parasite of lizards or birds (the most common hosts for Plasmodium species). Multiclonal infections are common (50-88% of infections among samples), and measures of genetic diversity for the metapopulation (expected heterozygosity, number of alleles per locus, allele length variation, and effective population size) all indicated a substantial overall genetic diversity. Comparing years with high prevalence (1996-1998 = 25-32% lizards infected), and years with low prevalence (2001-2005 = 6-12%) found fewer alleles in samples taken from the low-prevalence years, but no reduction in overall diversity (H = 0.64-0.90 among loci). In most cases, rare alleles appeared to be lost as prevalence declined. For sites chronically experiencing low transmission intensity (prevalence approximately 1%), overall diversity was also high (H = 0.79-0.91), but there were fewer multiclonal infections. Theory predicts an apparent excess in expected heterozygosity follows a genetic bottleneck. Evidence for such a distortion in genetic diversity was observed after the drop in parasite prevalence under the infinite alleles mutation model but not for the stepwise mutation model. The results are similar to those reported for the human malaria parasite, Plasmodium falciparum, worldwide, and support the conclusion that malaria parasites maintain high genetic diversity in host populations despite the potential for loss in alleles during the transmission cycle or during periods/locations when transmission intensity is low.     

Comparative analysis of Ayrshire and Black Pied cattle breeds by histocompatibility markers

Distribution of BoLA-A antigens and BoLA-DRB3 alleles was studied by means of the microlymphocytotoxic test (BoLA-A) and the PCR-RFLP method (BoLA-DRB3) using restriction endonucleases RSAI, HaeIII, and XhoII in Ayrshire (n = 127) and Black Pied (n = 129) cattle breeds. Comparative analysis of profiles for class I antigens revealed significant differences in the frequencies of antigens W2, W6, W10, W31, W44, W15, and W19 (P > 99%). The studied breeds also differ in the spectrum of BoLA-DRB3 alleles and distribution of their frequencies. Heterogeneous allele frequency profile was detected in Ayrshire cattle: five of 18 detected alleles (DRB3.2*7, *8, *10, *24, and *28) accounted for 77%. Allele DRB3.2*7 (37.6%), which is classed with rare alleles in Black Pied cattle is the most common in Ayrshire cattle. The observed heterozygosity level in the combined sample of Black Pied breed (0.836) is higher than in Ayrshire breed (0.070). In both breeds, the heterozygosity level was studied in the groups of healthy and ill with persistent lymphocytosis (caused by bovine leukemia virus) animals and in the group of virus carriers in Ayrshire breed. In ill animals, a decrease in the observed heterozygosity level was detected, as compared to healthy animals and the expected heterozygosity level. The observed heterozygosity level exceeds the expected one in virus carriers. The detected features of the heterozygosity level in the studied groups allow the heterozygosity level for locus BoLA-DRB3 to be considered a nonspecific factor of resistance to leukemia and are heterozygous animals to have higher resistance to bovine leukemia. The presence of a larger proportion of highly productive animals (the annual productivity of more than 7000 kg) in the group of ill Ayrshire cattle animals, as compared to healthy animals to established. To increase resistance to bovine leukemia, the obtained data indicate the importance of the control of heterozygosity level and genetic diversity for gene BoLA-DRB3 in cattle herds.     

Evaluation of Genetic Diversity,Population Structure,and Relationship Between Legendary Vechur Cattle and Crossbred Cattle of Kerala State,India

The legendary Vechur cattle of Kerala, described as a very short breed, and the crossbred (CB) Sunandini cattle population exhibited great phenotypic variation; hence, the present study attempted to analyze the genetic diversity existing between them. A set of 14 polymorphic microsatellites were chosen from FAO-ISAG panel and amplified from genomic DNA isolated from blood samples of 30 Vechur and 64 unrelated crossbred cattle, using fluorescent labeled primers. Both populations revealed high genetic diversity as evidenced from high observed number of alleles, Polymorphic Information Content and expected heterozygosity. Observed heterozygosity was lesser (0.699) than expected (0.752) in Vechur population which was further supported by positive F_IS value of 0.1149, indicating slight level of inbreeding in Vechur population. Overall, F_ST value was 0.065, which means genetic differentiation between crossbred and Vechur population was 6.5%, indicating that the crossbred cattle must have differentiated into a definite population that is different from the indigenous Vechur cows. Structure analysis indicated that the two populations showed distinct differences, with two underlying clusters. The present study supports the separation between Taurine and Zebu cattle and throws light onto the genetic diversity and relationship between native Vechur and crossbred cattle populations in Kerala state.