利用双重PCR技术研究长爪沙鼠的微卫星结构

目的为了建立快速检测长爪沙鼠群体遗传多样性的方法及获得Z：ZCLA长爪沙鼠封闭群现用微卫星位点的结构。方法利用17个微卫星位点（9个来自长爪沙鼠,8个来自大小鼠）进行了PCR反应体系及反应条件的优化,组合了6组双重PCR及两个复合式点样,用上述8个组合对普通级Z：ZCLA长爪沙鼠封闭群43、444、5三个世代核心群各100只种鼠进行遗传检测。结果三个世代的300只种鼠的检测结果表明,9个长爪沙鼠位点均为微卫星,其中7个位点为完全型的微卫星,1个为复合型,1个为不完全型,多态性主要表现在核心序列的重复;来自大小鼠的8个微卫星位点,有7个在Z：ZCLA长爪沙鼠核心群中得到有效扩增,只有3个位点在三个世代中均有出现,对测序结果分析后发现,其核心序列均为小卫星。结论来自长爪沙鼠的位点,无论结构还是遗传方式均符合微卫星遗传标记的特点,可用作检测长爪沙鼠的群体遗传多样性。     

Analysis of 22 heterologous microsatellite markers for genetic variability in Indian goats

The genetic variability of 22 heterologous microsatellite markers was analyzed in two Indian goat breeds, namely Bengal and Chegu. The heterozygosity, polymorphism information content (PIC), and probability of identity of two individuals were calculated for all microsatellite loci in both the breeds. The observed number of alleles varied between 4 and 13 at the studied microsatellite loci. The evaluated microsatellite loci exhibited high mean heterozygosity of 0.69 +/- 0.11 and 0.66 +/- 0.07 in Bengal and Chegu goats, respectively. The mean PIC values of the studied loci in these breeds were 0.79 +/- 0.08 and 0.78 +/- 0.05, respectively. The probability of identity of two random individuals from different breeds, taking into account, all the 22 microsatellite loci was as low as 5.523 x 10(-40). On the basis of these results, we propose that these microsatellite markers may be used with reliability for studying genetic diversity and for identification of individuals in Indian goat breeds.     

微卫星DNA与生化标记分析对长爪沙鼠群体遗传分析的比较

目的比较生化标记和微卫星DNA标记方法对长爪沙鼠群体遗传分析的可靠性。方法应用27个生化位点和13个微卫星DNA位点,采用已建立的生化标记和微卫星DNA标记分析方法对国内2个长爪沙鼠群体进行遗传分析,计算并比较两种方法测得的各群体遗传参数。结果生化基因位点中有13个位点在整体中呈现遗传多态性,多态率为48.1%;微卫星位点中有11个位点在整体中表现出多态性,多态率均为84.6%。两种方法测得的平均有效等位基因数趋于一致,微卫星DNA的多态位点百分率和平均杂合度均明显高于生化标记方法。但生化标记和微卫星DNA检测对两个长爪沙鼠群体的遗传多样性差异反映一致,所反映的群体平衡状况也基本一致。结论生化标记分析和微卫星DNA方法均可较好地反映长爪沙鼠群体遗传结构。     

Isolation and characterization of 16 novel microsatellite loci in two inbred strains of the Chinese hamster (Cricetulus griseus)

The Shanyi inbred A and E strains of the Chinese hamster are widely used in biomedical research, but detailed genetic characterization has been lacking. We developed microsatellite markers that could be used for genetic diversity analysis and linkage map construction. We isolated and characterized 16 novel microsatellite loci from a microsatellite-enriched genomic DNA library. These loci were genotyped in 48 animals from the two strains, and the polymorphic information content was determined. In the Shanyi A and E populations, 14 and 15 loci were found to be polymorphic, respectively, with polymorphic information content ranging from 0.1393 to 0.8082 and from 0.1109 to 0.7397, respectively. A total of 115 alleles were found for the 16 microsatellite loci in the two populations; the mean observed heterozygosity (H(O)) was 0.5191 and 0.4333 for the A and E populations, respectively, indicating marked genetic variation within the two populations. Correspondingly, the F(ST) values ranged from 0.002 to 0.9253, with an overall mean of 0.1935, indicating significant genetic difference between the two strains. The population differentiation levels were substantiated by Nei's genetic distance and full Bayesian analyses computed with STRUCTURE. Despite the genetic diversity and differentiation within and between the two inbred populations, the 48 individuals were correctly allocated into their original populations with high statistical confidence based on these 16 microsatellite loci. These novel microsatellite loci should be useful genetic markers for these two Chinese hamster inbred strains.     

Genetic diversity and structure in a natural Elymus caninus population from Denmark based on microsatellite and isozyme analyses

 Genetic diversity in a natural Elymus caninus population from Denmark was assessed using isozyme and microsatellite markers. A total of 119 individuals from 46 maternal plants were assayed. Microsatellite loci are shown to display higher levels of variation than isozyme loci. The mean number of alleles per locus was 1.04 for isozymes and 1.38 for microsatellites. The percentage of polymorphic loci for isozymes and microsatellites was 4.7% and 23.6% across the maternal plant, respectively. The genetic diversity at population level was 0.1 for isozymes, and 0.63 for microsatellites. The mean genetic diversity at maternal plant level was 0.027 for isozyme loci and 0.117 for microsatellite loci. The average of total allozyme diversity (H_T) was 0.22. The average of total microsatellite diversity was 0.56. Isozyme and microsatellite variation showed the same pattern of differentiation between maternal plants. More than 75% total genetic diversity was found among maternal plants. About 25% total genetic diversity was detected within maternal plants. Ten (22.7%) maternal plants produced heterozygous offspring at allozyme loci, and 30 (68.2%) maternal plants gave heterozygous offspring at microsatellite loci. Both types of markers revealed a relatively high genetic diversity in this population. Received November 7, 2000 Accepted February 15, 2001     

Isolation,characterization and cross‐species amplification of eight microsatellite DNA loci in the migratory locust (Locusta migratoria)

Eight polymorphic di‐ and trinucleotide microsatellite loci suitable for population genetic analysis were developed in Locusta migratoria from a partial phagemid genomic library enriched for microsatellite inserts. The expected heterozygosity at these loci ranges from 0.45 to 0.97, with the observed allele numbers varying between nine and 45. The overall microsatellite cloning efficiency in L. migratoria is 14%, suggesting that in migratory locusts, microsatellite sequences are abundant and should provide a valuable and easily accessible source of nuclear markers for genetic studies. These microsatellite loci were highly Locusta‐specific, with only very limited cross‐species applicability.     

Development of microsatellite genetic markers in Siberian stone pine (<Emphasis Type="Italic">Pinus sibirica</Emphasis> Du Tour) based on the <Emphasis Type="Italic">de novo</Emphasis> whole genome sequencing

Siberian stone pine, Pinus sibirica Du Tour is one of the most economically and environmentally important forest-forming species of conifers in Russia. To study these forests a large number of highly polymorphic molecular genetic markers, such as microsatellite loci, are required. Prior to the new high-throughput next generation sequencing (NGS) methods, discovery of microsatellite loci and development of micro-satellite markers were very time consuming and laborious. The recently developed draft assembly of the Siberian stone pine genome, sequenced using the NGS methods, allowed us to identify a large number of microsatellite loci in the Siberian stone pine genome and to develop species-specific PCR primers for amplification and genotyping of 70 microsatellite loci. The primers were designed using contigs containing short simple sequence tandem repeats from the Siberian stone pine whole genome draft assembly. Based on the testing of primers for 70 microsatellite loci with tri-, tetra- or pentanucleotide repeats, 18 most promising, reliable and polymorphic loci were selected that can be used further as molecular genetic markers in population genetic studies of Siberian stone pine.     

Comparison of genetic diversity at microsatellite loci and quantitative traits in hatchery populations of Japanese flounder Paralichthys olivaceus

Relationships of genetic diversity at microsatellite loci and quantitative traits were examined in hatchery-produced populations of Japanese flounder using a relatively straightforward experiment. Five hatchery populations produced by wild-caught and domesticated broodstocks were used to examine the effects of different levels (one to three generations) of domestication on the genetic characteristics of hatchery populations. Allelic richness at seven microsatellite loci in all hatchery populations was lower than that in a wild population. Genetic variation measured by allelic richness and heterozygosity tended to decrease with an increase in generations of domestication. In addition, the degree of genetic differentiation from a wild population increased with an increase in generations of domestication. Significant differences in three morphometric traits (dorsal and anal fin ray counts and vertebral counts) and three physiological traits (high temperature, salinity and formalin tolerance) were observed among the hatchery populations. The degree of phenotypic difference among populations was larger in morphometric traits than in physiological traits. The divergence pattern of some quantitative traits was similar to that observed at microsatellite loci, suggesting that domestication causes the decrease of genetic variation and the increase of genetic differentiation for some quantitative traits concomitantly with those for microsatellite loci. Significant positive correlation was observed between F _ST and the degree of phenotypic difference in the three morphometric traits and formalin tolerance, indicating that genetic variation at microsatellite loci predicts the degree of phenotypic divergence in some quantitative traits.     

Development and standardization of disomic microsatellite markers for lake sturgeon genetic studies

Lake sturgeon (Acipenser fulvescens) are of conservation concern in North America. To facilitate the recovery of this fish species, an understanding of their population genetic structure is necessary to develop and implement spatially and temporally appropriate management actions. Until recently, few genetic data using nuclear loci have been collected, primarily due to the paucity of suitable genetic markers because most microsatellite loci in lake sturgeon appeared to be tetrasomic. The authors identified nine microsatellite loci (from 254 examined) that were putative polymorphic disomic loci and tested their conformance to a disomic mode of inheritance using three lake sturgeon families. The objectives of the study were to: (i) confirm the disomic status of the nine loci through inheritance testing, and (ii) standardize the genetic markers among participating laboratories. At all nine loci, disomic inheritance were confirmed, and all nine loci segregated independently in the 26 of 36 loci pairs possible to test. One of the nine loci showed non‐Mendelian segregation, possibly due to meiotic drive and/or selection. Three progeny had peak patterns inconsistent with disomy at one or more loci. The nine loci when combined with four microsatellite loci previously confirmed in other studies as disomic in lake sturgeon now yield a suite of 13 microsatellite markers. These 13 markers have been standardized among four other laboratories to facilitate building an inter‐laboratory genetic database for lake sturgeon.     

基于转录组测序的大熊猫多态性微卫星标记筛选

结合已公布的大熊猫Ailuropoda melanoleuca基因组和本实验室所测6只大熊猫的转录组数据,筛选多态性微卫星位点并分析其组成及特征。结果显示:共获得326个多态性微卫星位点,其中二碱基多态性微卫星最多,共228个,占69.93%;三、四、五、六碱基所占比例分别为9.51%、14.11%、5.21%、1.22%。根据分析结果中缺失率与标准差2项指标以及位点序列长度,选取20个多态性二碱基微卫星位点,用于25只大熊猫个体血液DNA进行PCR验证并做后续分析。结果表明:不同位点的等位基因数为2~8,平均等位基因数为3.70,观测杂合度、期望杂合度分别为0~1.000、0.280~0.784,平均值分别为0.472和0.532。在Bonferroni校正后,证实4个位点显著偏离哈迪-温伯格平衡,所有位点未观察到显著连锁不平衡(P>0.01)。20个位点多态信息含量(PIC)在0.246~0.734,其中具有高度多态性的位点9个(PIC>0.50),11个位点呈中度多态性(0.25相似文献   

Detection of microsatellite instability during somatic embryogenesis of oak (Quercus robur L.)

Five microsatellite loci (QpZAG1/5, QpZAG9, QpZAG36, MSQ4, MSQ13) were used to test for genetic stability of three somatic embryogenic culture lines of Quercus robur L. and plantlets derived therefrom. DNA variation was detected among somatic embryos within all embryogenic lines, whereas no genetic instability was found among the regenerated plants. Two microsatellite loci revealed variation, and a locus-dependent instability was observed. The most polymorphic and useful microsatellite locus for detecting genetic variation was QpZAG9, with 28.5% of the investigated loci being variable.     

利用微卫星技术分析不同类群鸡的遗传多样性

利用8个微卫星标记分析了6个生产类群鸡的遗传多样性。计算了各群体在各位点上的等位基因频率,并据此计算出各群体的平均遗传杂合度(h)、多态信息含量(PIC)和有效等位基因数(Ne)。结果表明:6个鸡群在8个微卫星座位上的基因频率存在明显的差异,其平均基因杂合度为0.7317,平均多态信息含量为0.6815。其中,群体平均杂合度最高的是安卡红鸡,为0.7716;平均杂合度最低的是新罗曼鸡,为0.7073。所选的8个微卫星座位均为高度多态,可作为有效的遗传标记用于鸡群体遗传多样性的分析。     

Detected microsatellite polymorphisms in genetically altered inbred mouse strains

Microsatellites are 50–200 repetitive DNA sequences composed of 1- to 6-base-pair-long reiterative motifs within the genome. They are vulnerable to DNA modifications, such as recombination and/or integration, and are recognized as “sentinel” DNA. Our previous report indicated that the genotypes of the microsatellite loci could change from mono- to poly-morphisms (CMP) in gene knockout (KO) mice, implying that genetic modification induces microsatellite mutation. However, it is still unclear whether the random insertion of DNA fragments into mice genomes produced via transgene (Tg) or N-ethyl-N-nitrosourea (ENU) would also result in microsatellite mutations or microsatellite loci genotypes changes. This study was designed to find possible clues to answer this question. In brief, 198 microsatellite loci that were distributed among almost all of the chromosomes (except for the Y) were examined through polymerase chain reaction to screen possible CMPs in six Tg strains. First, for each strain, the microsatellite sequences of all loci were compared between Tg and the corresponding background strain to exclude genetic interference. Simultaneously, to exclude spontaneous mutation-related CMPs that might exist in the examined six strains, mice from five spontaneously mutated inbred strains were used as the negative controls. Additionally, the sequences of all loci in these spontaneous mutated mice were compared to corresponding genetic background controls. The results showed that 40 of the 198 (20.2 %) loci were identified as having CMPs in the examined Tg mice strains. The CMP genotypes were either homozygous or heterozygous compared to the background controls. Next, we applied the 40 CMP positive loci in ENU-mutated mice and their corresponding background controls. After that, a general comparison of CMPs that exist among Tg, ENU-treated and KO mouse strains was performed. The results indicated that four (D11mit258, D13mit3, D14mit102 and DXmit172) of the 40 (10 %) CMP loci were shared by Tg and KO mice, two (D15mit5 and D14mit102) (5 %) by Tg and ENU-treated mice, and one (D14mit102) (2.5 %) by all three genetic modifications. Collectively, our study implies that genetic modifications by KO, Tg or chemical mutant can trigger microsatellite CMPs in inbred mouse strains. These shared microsatellite loci could be regarded as “hot spots” of microsatellite mutation for genetic monitoring in genetic modified mice.     

Isolation and Characterization of Microsatellite Loci for Striped Bass (Morone saxatilis)

Genetic variation has been difficult to detect in striped bass (Morone saxatilis). Therefore, we identified and characterized 13 microsatellite loci to provide additional genetic markers for striped bass. Microsatellites were identified by screening a striped bass genomic library or by using primers developed for European sea bass (Dicentrarchus labrax) microsatellite loci. We found that 6 of the 13 microsatellite loci were polymorphic in DNA samples obtained from wild populations of striped bass. The number of alleles per locus varied from 3 to 12, and the observed heterozygosities ranged from 0.55 to 0.78. These results indicate that microsatellite loci provide more alleles and higher heterozygosities than other genetic markers developed for striped bass. Received November 9, 1999; accepted February 11, 2000.     

Comparison of genetic diversity at microsatellite loci in near-extinct and non-endangered species of Mexican goodeine fishes and prediction of cross-amplification within the family

The cross-utility of 12 microsatellite loci (including nine newly developed loci) amongst the viviparous subfamily, the Mexican Goodeinae, was assessed, examining both the probability of amplification and the potential incidence of null alleles from tests of F _IS. Genetic diversity was relatively high in comparison to other freshwater species. Amplification success was not correlated with genetic distance between microsatellite source and target species, but taxa that were more distantly related were less likely to be cross-polymorphic for microsatellite loci. On average, species that were cross-polymorphic were separated by a genetic distance of 15% at the cytochrome oxidase I locus, while those that were monomorphic were separated by 19%. There was no evidence that null alleles become more frequent at greater source-target genetic distance.     

A preliminary microsatellite genetic map of the ostrich (Struthio camelus)

Molecular genetic maps can provide information for the identification and localization of major genes associated with quantitative traits. However, there are currently no published genetic linkage maps for any ratites. Herein, a preliminary genetic map of ostrich was developed using a two-generation ostrich reference family by linkage analysis of 104 polymorphic microsatellite markers, including 40 novel markers reported in this study. A total of 35 microsatellite markers were placed into 13 linkage groups. Five linkage groups are composed of three or more loci, whereas the remaining eight groups each contained two markers. The sex-averaged map spans 365.4 cM. The marker interval of each linkage group ranges from 5.3 to 25.4 cM, and the average interval distance is 16.61 cM. The male map covers 342.7 cM, with an average intermarker distance of 15.58 cM, whereas the female map is 456.7 cM, with the average intermarker spacing of 20.76 cM. In order to screen the orthologous loci between ostrich and chicken, all of the flanking sequences of the 104 polymorphic loci, nine monomorphic loci and a further 12 reported microsatellite loci for ostrich were screened against the chicken genomic sequence using the BLAST algorithm (Altschul et al., 1990), and corresponding orthologs were found for 13 sequences. The microsatellite loci and genetic map developed in this study will be useful for QTL mapping, population genetics and phylogenetic studies in the ratite. In addition, the 13 orthologous loci identified in this study will be advantageous to the construction of a comparative genetic map between chicken and ostrich.     

食蟹猴微卫星DNA标记遗传监测及多态性分析

目的研究国内食蟹猴种群的遗传背景特性,建立食蟹猴种群遗传质量监测方法。方法采用微卫星DNA遗传标记技术对50只食蟹猴种群个体进行遗传质量监测及DNA多态性分析。结果从100个微卫星DNA位点中筛选出20个多态性高的位点,其食蟹猴种群个体的等位基因数目为5-10条,个体间均呈现高度的多态性;其观察等位基因数（Na）为5.0～10.0,有效等位基因数（Ne）为4.6118～8.3404,基因多样性（H）为0.7832～0.8801和香隆信息指数（I）为1.5651～2.1592。结论本实验有效地分析了食蟹猴种群的遗传多态性,为今后筛选特异性微卫星位点来建立食蟹猴种群遗传质量监测方法提供了理论依据。     

Do discrepancies between microsatellite and allozyme variation reveal differential selection between sea and lagoon in the sea bass (Dicentrarchus labrax)?

In the present study the genetic structure of Dicentrarchus labrax (14 samples from the Mediterranean) was analysed at six microsatellite loci, in order to test the hypothesis that some enzymatic loci undergo selection between marine and lagoon habitat. Eight of the 14 samples were analysed at both microsatellite and allozyme markers. The analysis of the genetic variation among the Mediterranean samples showed that (i) &Fcirc;ST values obtained with the six microsatellite loci were much smaller than those obtained with the 28 allozymes and (ii) microsatellite loci seemed to reflect more the geographical proximity than an ecological one. Thirteen enzymatic loci exhibited moderate to high values compared with microsatellites. This was interpreted as evidence that these allozymes are non-neutral. However, only six loci seemed to be implicated in differentiation between marine and lagoon samples, the causes of selection being unknown for the others. A possible scenario of population dynamics of the sea bass between marine and lagoon habitat is suggested.     

A microsatellite-based genetic linkage map for channel catfish, Ictalurus punctatus

Microsatellite loci were identified in channel catfish gene sequences or random clones from a small insert genomic DNA library. Outbred populations of channel catfish contained an average of eight alleles per locus and an average heterozygosity of 0.70. A genetic linkage map of the channel catfish genome (N = 29) was constructed from two reference families. A total of 293 microsatellite loci were polymorphic in one or both families, with an average of 171 informative meioses per locus. Nineteen type I loci, 243 type II loci, and one EST were placed in 32 multipoint linkage groups covering 1958 cM. Nine more type II loci were contained in three two-point linkage groups covering 24.5 cM. Twenty-two type II loci remained unlinked. Multipoint linkage groups ranged in size from 11.9 to 110.5 cM with an average intermarker distance of 8.7 cM. Seven microsatellite loci were closely linked with the sex-determining locus. The microsatellite loci and genetic linkage map will increase the efficiency of selective breeding programs for channel catfish.