Heterozygosity excess at the cattle DRB locus revealed by large scale genotyping of two closely linked microsatellites

A method for MHC DRB typing in cattle based on two closely linked and highly polymorphic microsatellites is described. The two microsatellites DRBP1ms and DRB3ms are located in intron 2 of the corresponding DRB gene. The very strong linkage disequilibrium between the two loci made it possible to establish DRB microsatellite haplotypes. The typing results with this method on reference samples followed closely that obtained with RFLP and direct sequence analysis of DRB3 exon 2. The method is well suited for large scale genotyping and was successfully applied for typing more than 600 unrelated animals representing 23 breeds. The data were used to test whether the observed DRB allele frequency distributions were consistent with that expected for selectively neutral alleles in populations at mutation-drift equilibrium. A significant heterozygosity excess was detected and there was an obvious trend across breeds towards a more even allele frequency distribution than expected. The deviation may be due to balancing selection acting on the DRB locus or by recent population bottlenecks.     

Microsatellite Evolution: Testing the Ascertainment Bias Hypothesis

Previous studies suggest the median allele length of microsatellites is longest in the species from which the markers were derived, suggesting that an ascertainment bias was operating. We have examined whether the size distribution of microsatellite alleles between sheep and cattle is source dependent using a set of 472 microsatellites that can be amplified in both species. For those markers that were polymorphic in both species we report a significantly greater number of markers (P < 0.001) with longer median allele sizes in sheep, regardless of microsatellite origin. This finding suggests that any ascertainment bias operating during microsatellite selection is only a minor contributor to the variation observed. Received: 6 January 1997 / Accepted: 19 May 1997     

Identification of equine major histocompatibility complex haplotypes using polymorphic microsatellites

A system for identifying equine major histocompatibility complex (MHC) haplotypes was developed based on five polymorphic microsatellites located within the MHC region on ECA 20. Molecular signatures for 50 microsatellite haplotypes were recognized from typing 353 horses. Of these, 23 microsatellite haplotypes were associated with 12 established equine leucocyte antigen (ELA) haplotypes in Thoroughbreds and Standardbreds. Five ELA serotypes were associated with multiple microsatellite subhaplotypes, expanding the estimates of diversity in the equine MHC. The strong correlations between serological and microsatellite typing demonstrated a linkage to known MHC class I protein polymorphisms and validated this assay as a useful supplement to ELA serotyping, and in some applications, a feasible alternative method for MHC genotyping in horse families and in population studies.     

Genotyping systems for Eucalyptus based on tetra-, penta-, and hexanucleotide repeat EST microsatellites and their use for individual fingerprinting and assignment tests

Eucalypts are keystone species in their natural ranges and are extensively planted worldwide for high-quality woody biomass. A novel set of 21 polymorphic and interspecifically transferable microsatellite markers based on tetra-, penta- and hexanucleotide repeats were developed and tested for high-precision genotyping of species of Eucalyptus. These microsatellites were characterized in population samples of four species, Eucalyptus grandis, Eucalyptus globulus, Eucalyptus urophylla, and Eucalyptus camaldulensis, representing three phylogenetic sections of subgenus Symphyomyrtus. These markers provide a clear advantage for accurate allele calling due to their larger allele size difference. Two multiplexed microsatellite combinations, a 14-locus/four-dye and an 18-locus/five-dye set, analyzable in single lanes were designed, providing resolution and throughput analogous to those routinely used in human DNA profiling. This set of microsatellites was shown to have high resolution for clone fingerprinting, inter-individual genetic distance estimation, species distinction, and assignment of hybrid individuals to their most likely ancestral species. These systems will be particularly useful for comparative population genetics and molecular breeding applications that require consistent allele calling across different points in time or laboratories.     

Microsatellites in Cassava (Manihot esculenta Crantz): discovery, inheritance and variability

 Fourteen microsatellites containing GA-repeats were isolated and characterized in cassava (Manihot esculenta Crantz, Euphorbiaceae). Microsatellite heterozygosity (h) was estimated in 48 accessions using (³²P)-end-labeled primers and in more than 500 accessions using fluorescence-based genotyping. Heterozygosity values ranged from 0.00 to 0.88 and the number of alleles detected varied from 1 to 15. The reproducibility of allele sizing was also assessed using fluorescence-based genotyping. The average inter-gel size difference was 1.03 nucleotides. Chi-square tests (χ²) were performed to analyse segregation distortion and the linkage between alleles segregating from either or both parents in an F₁ mapping population. Most microsatellite loci segregated in the expected 1 : 1, 1 : 2 : 1 or 1 : 1 : 1 : 1 ratio. Linkage was detected between loci segregating from either parent, and segregation distortion from the male parent was detected for locus GA-131. Approximately 80% of the microsatellites detected one or two alleles per accession, suggesting a low degree of microsatellite locus duplication, an unexpected finding for a putative allopolyploid, highly heterozygous species. The high h values of most microsatellites, their amplification in other Manihot taxa and their suitability for high-throughput, fluorescence-based genotyping, make microsatellites the marker of choice for germplasm characterization and saturation of the cassava map. Received: 4 September 1997 / Accepted 16 March 1998     

New genomic region for Wegener’s granulomatosis as revealed by an extended association screen with 202 apoptosis-related genes

Wegeners granulomatosis (WG) is a systemic disease with complex genetic background. It is characterized by necrotizing granulomatous inflammation of the upper and lower respiratory tract, glomerulonephritis, vasculitis and the presence of antineutrophil cytoplasmatic autoantibodies (C-ANCAs) in sera of patients. Here, we report on an extended association screen (EAS) with 202 microsatellite markers, representing apoptosis-related genes and further genes down-regulated in apoptotic neutrophils, using pooled DNA of 150 Northern German patients suffering from WG and 100 healthy Northern German controls. Six microsatellite allele patterns were found significantly associated with WG, three of which could be confirmed by individual genotyping. One marker remained significantly associated after multiple corrections. This marker representing the retinoid X receptor ß gene (RXRB, P=7.60×10^–6, distance to gene: ~5.3 kb) is localised in the major histocompatibility complex (MHC) region between the HLA-DPB1 and DAXX genes. HLA-DPB1 typing and fine mapping of the region with additional microsatellites and single-nucleotide polymorphisms (SNPs) revealed a strong association of WG with the significantly over-represented DPB1*0401 (P=1.51×10^–10, OR=3.91) allele compared with the control cohort. In addition, an extended haplotype DPB1*0401/RXRB03 was identified showing an even stronger association with WG (P=7.13×10^–17, OR=6.41). These results represent the strongest association of a genomic region with WG, suggesting a major genetic contribution in the aetiology of the disease. Thus, our data demonstrate that EAS may be a valuable alternative approach for determining genetic predisposition factors in multifactorial diseases.P. Jagiello and M. Gencik contributed equally to this work     

Microsatellite typing of the rhesus macaque MHC region

To improve the results gained by serotyping rhesus macaque major histocompatibility complex (MHC) antigens, molecular typing techniques have been established for class I and II genes. Like the rhesus macaque Mamu-DRB loci, the Mamu-A and -B are not only polymorphic but also polygenic. As a consequence, sequence-based typing of these genes is time-consuming. Therefore, eight MHC-linked microsatellites, or short tandem repeats (STRs), were evaluated for their use in haplotype characterization. Polymorphism analyses in rhesus macaques of Indian and Chinese origin showed high STR allelic diversity in both populations but different patterns of allele frequency distribution between the groups. Pedigree data for class I and II loci and the eight STRs allowed us to determine extended MHC haplotypes in rhesus macaque breeding groups. STR sequencing and comparisons with the complete rhesus macaque MHC genomic map allowed the exact positioning of the markers. Strong linkage disequilibria were observed between Mamu-DR and -DQ loci and adjacent STRs. Microsatellite typing provides an efficient, robust, and quick method of genotyping and deriving MHC haplotypes for rhesus macaques regardless of their geographical origin. The incorporation of MHC-linked STRs into routine genetic tests will contribute to efforts to improve the genetic characterization of the rhesus macaque for biomedical research and can provide comparative information about the evolution of the MHC region.     

Robust and highly informative microsatellite-based genetic identity kit for potato

The fingerprinting of 742 potato landraces with 51 simple sequence repeat (SSR, or microsatellite) markers resulted in improving a previously constructed potato genetic identity kit. All SSR marker loci were assayed with a collection of highly diverse landraces of all species of cultivated potato with ploidies ranging from diploid to pentaploid. Loci number, amplification reproducibility, and polymorphic information content were recorded. Out of 148 SSR markers of which 30 are new, we identified 58 new SSR marker locations on at least one of three potato genetic linkage maps. These results permitted the selection of a new potato genetic identity kit based on 24 SSR markers with two per chromosome separated by at least 10 cM, single locus, high polymorphic information content, and high quality of amplicons as determined by clarity and reproducibility. The comparison of a similarity matrix of 742 landraces obtained with the 24 SSR markers of the new kit and with the entire dataset of 51 SSR markers showed a high correlation (r = 0.94) by a Mantel test and even higher correlations (r = 0.99) regarding topological comparisons of major branches of a neighbor joining tree. This new potato genetic identity kit is able to discriminate 93.5% of the 742 landraces compared to 98.8% with 51 SSR markers. In addition, we made a marker-specific set of allele size standards that conveniently and unambiguously provide accurate sizing of all alleles of the 24 SSR markers across laboratories and platforms. The new potato genetic identity kit will be of particular utility to standardize the choice and allele sizing of microsatellites in potato and aid in collaborative projects by allowing cumulative analysis of independently generated data. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Onion microsatellites for germplasm analysis and their use in assessing intra- and interspecific relatedness within the subgenus Rhizirideum

We have identified a set of informative STMS markers in onion (Allium cepa L.) and report on their application for genotyping and for determining genetic relationships. The markers have been developed from a genomic library enriched for microsatellites. Integrity of the microsatellite polymorphism was confirmed by amplicon sequencing. The microsatellite genotypes of 83 onion accessions and landraces from living onion collections were compared. As few as four primer pairs were sufficient to assign unique microsatellite patterns to the 83 accessions. Some of the microsatellite markers can be used for interspecific taxonomic analyses among close relatives of Allium cepa. Generally, our data support and extend results obtained from recently performed analyses using ITS, RAPD and morphology. Received: 8 October 1999 / Accepted: 3 November 1999     

Isolation and characterization of microsatellites in trembling aspen (Populus tremuloides)

 We have identified, isolated, and characterized microsatellite/simple sequence repeat (SSR) loci in trembling aspen (Populus tremuloides) by screening partial genomic libraries. We have also examined the compatibility and use of the P. tremuloides SSR primers to resolve microsatellites in other Populus species. Fourteen microsatellites were identified from 1600 clones screened. The TC/AG microsatellites were the most abundant. A total of 29 alleles were detected in 36 P. tremuloides individuals at the four SSR loci (two each of di- and tri-nucleotide repeats) characterized. The number of alleles at the SSR loci ranged from 5 to 11, with an average of 7.25 alleles per locus, and the observed heterozygosity ranged from 0.19 to 0.82, with a mean of 0.46 per locus. Although the highest polymorphism was observed for a dinucleotide SSR locus, the trinucleotide SSR loci showed substantial polymorphism. There were 34 unique multilocus genotypes among the 36 P. tremuloides individuals examined, and 89% of the individuals had unique multilocus genotypes. Two pairs of SSR primers were successful in PCR, amplifying genomic DNA and resolving microsatellites of comparable size from Populus deltoides, P. nigra, P.×canadensis, and P. maximowiczii. The microsatellite DNA markers developed could be used for clonal fingerprinting, certification of controlled crosses, genome mapping, marker-assisted early selection, genetic diversity assessments, and conservation and sustainable management of poplar genetic resources. Received: 14 November 1997 / Accepted: 17 November 1997     

Isolation and characterization of polymorphic microsatellite loci in Castanopsis chinensis Hance (Fagaceae)

Twelve novel microsatellite loci were isolated and characterized from enriched genomic libraries of Castanopsis chinensis. Four previously reported microsatellites from Castanopsis cuspidata were cross-amplified in C. chinensis. Forty-two sample trees from a wild population were tested for polymorphism using a set of the 16 polymorphic microsatellites. The average allele number of these microsatellites was 4.6 per locus, ranging from 2 to 7. The ranges of observed and expected heterozygosity were 0.262–1.000 and 0.238–0.818, respectively. Significant deviations from Hardy–Weinberg equilibrium were detected at five loci and no linkage disequilibrium was observed.     

A standard panel of microsatellites for Asian seabass (Lates calcarifer)

Microsatellites are the most popular markers for parentage assignment and population genetic studies. To meet the demand for international comparability for genetic studies of Asian seabass, a standard panel of 28 microsatellites has been selected and characterized using the DNA of 24 individuals from Thailand, Malaysia, Indonesia and Australia. The average allele number of these markers was 10.82 ± 0.71 (range: 6–19), and the expected heterozygosity averaged 0.76 ± 0.02 (range: 0.63–1.00). All microsatellites showed Mendelian inheritance. In addition, eight standard size controls have been developed by cloning a set of microsatellite alleles into a pGEM‐T vector to calibrate allele sizes determined by different laboratories, and are available upon request. Seven multiplex PCRs, each amplifying 3–5 markers, were optimized to accurately and rapidly genotype microsatellites. Parentage assignment using 10 microsatellites in two crosses (10 × 10 and 20 × 20) demonstrated a high power of these markers for revealing parent‐sibling connections. This standard set of microsatellites will standardize genetic diversity studies of Asian seabass, and the multiplex PCR sets will facilitate parentage assignment.     

Microsatellite allele ladders in two species of Pacific salmon: preparation and field‐test results

To support microsatellite data communication, we have developed a convenient method for creating locus‐specific microsatellite allele ladders used to align data from different laboratories. The ladders were constructed by pooling polymerase chain reaction (PCR) products to create a template for amplification. Four ladders were field‐tested in six different laboratories using different genotyping platforms. Despite substantial differences in absolute size estimates of DNA fragments, each laboratory correctly scored unknown sample genotypes according to the ladder designations. The results indicate that our simple preparation method provides reliable allele ladders in a time‐efficient manner for verifying microsatellite genotypes across platforms.     

Characterization of seven genomic and one dbEST-derived microsatellite loci in the river mangrove<Emphasis Type="Italic"> Aegiceras corniculatum</Emphasis> (Myrsinaceae)

We developed seven microsatellite markers from the genome of Aegiceras corniculatum using the FIASCO protocol and one dbEST-derived microsatellite marker. Polymorphism of each locus was assessed in 45 individuals from China, Thailand and Australia. The average allele number of these microsatellites was 4.4 per locus, ranging from 2 to 8. The observed (H _O ) and expected (H _E ) heterozygosity were from 0.178 to 1.000 and from 0.164 to 0.828, respectively. These microsatellite markers would provide a useful tool for genetic and conservation studies of A. corniculatum.     

Availability of short microsatellite markers from butterfly museums and private specimens

Knowledge of the temporal changes in genetic diversity and structure is important for identifying factors causing a decline in threatened insect species, and for establishing conservation programs for these species. Thus, there is recently an increasing interest in the restoration of genetic diversity in conservation programs using DNA data from historical museum specimens. For butterfly specimens, we measured the yields and fragment sizes of the extracted DNA and investigated the genotyping success probability of nine short microsatellite markers (allele size 73–191 bp). We used leg samples of specimens of a medium‐sized butterfly species, Melitaea ambigua (Lepidoptera; Nymphalidae), collected from the 1960s to the 2010s. The yields of specimen‐extracted DNA longer than 150 bp decreased with increasing specimen age. There were negative correlations between the genotyping success probability and specimen age for each of all microsatellite markers. A negative correlation was also observed between the genotyping success probability and allele size of each microsatellite marker. We conclude that short microsatellite markers and analysis of recently obtained specimens are particularly suitable for microsatellite analysis of butterfly specimens.     

微卫星复杂结构对分型的影响：以熊UamD116 和UamB1 为例

目的:微卫星是基因组上的短串联重复序列,具有高度多态性,表现为核心序列中重复单位的重复次数的变化,这种变化造成不同等位基因核心序列的长度不同。因此,其基因型主要依靠PCR扩增片段长度来判定。在各类研究中,人们更倾向于使用4碱基重复的微卫星以减少2碱基微卫星的stutter等问题的影响。但是4碱基微卫星核心序列结构复杂时,就会对分型的正确性产生影响,从而影响到下游分析的正确性。在很多野生动物的研究中,这一问题常常被忽略。本文以亚洲黑熊(Ursus thibetanus)的2个四碱基微卫星位点UamD116和UamB1为例,揭示内部结构对分型的影响。方法:我们选用96份亚洲黑熊样品(包括血液、肌肉组织和毛发等样品)进行微卫星分型研究,通过荧光标记的PCR扩增和毛细管电泳分型,比较了基于扩增片段长度的分型和基于序列核心结构的分型效果的差异。结果:UamD116核心序列结构除了含有多种不同的重复单位外,还在重复单位之间有碱基插入,出现单碱基T、二碱基TC和三碱基AAG插入;并在一类等位基因下游侧翼序列有1个GA缺失。基于序列结构的分型中可以将不同的等位基因分开,而在基于片段长度的分型中,容易将不同的等位基因合并为1个等位基因。在位点UamB1共发现两种类型的等位基因,在一类等位基因中出现一个3bp的插入,使等位基因之间的差异不再是4bp,而是1bp。在仅依据片段长度分型时,相差1bp的等位基因被认定为1个。此外,还有不同等位基因核心序列不同,但是二者长度完全一致。依据片段长度分型共发现8个等位基因,而经过序列分型确定的等位基因数为12个,相应地基因频率及其他遗传学参数都发生相应的改变。结论:对于核心序列结构复杂的微卫星必须通过等位基因测序来矫正片段长度分型的结果,才能得到可靠的群体遗传学结论。     

微卫星标记在种群生物学研究中的应用

微卫星是以几个碱基 (一般为 1～ 6个 )为重复单位组成的简单的串联重复序列 ,具有丰度高、多态性高、共显性标记、选择中性、可自动检测等优点。本文着重介绍了微卫星在种群生物学研究中的应用。微卫星位点可以提供具高分辨率的遗传信息 ,这一特点使微卫星既适合于个体水平上的研究 ,又适合于种群水平上的研究。在个体水平上包括个体识别、交配系统和亲本分析、基因流等研究。微卫星是常用的个体识别手段 ,但在克隆植物遗传结构研究方面的应用还很有限 ;微卫星提高了交配系统和亲本分析、基因流等研究的准确性。在种群水平上微卫星可用于遗传结构、有效种群大小、种群的系统发育重建等研究。微卫星在很多物种 (包括珍稀物种 )的遗传结构研究中得到应用 ;利用微卫星标记确定有效种群大小、检测有效种群大小的波动可以促使我们正确理解种群遗传结构动态和种群进化过程 ;微卫星在种群的系统发育重建研究方面有很大的应用潜力。然而微卫星并不是研究所有问题的唯一选择。文中还讨论了在实际工作中应如何正确利用分子标记等问题     

Diversity of microsatellites derived from genomic libraries and GenBank sequences in rice (Oryza sativa L.)

The growing number of rice microsatellite markers warrants a comprehensive comparison of allelic variability between the markers developed using different methods, with various sequence repeat motifs, and from coding and non-coding portions of the genome. We have performed such a comparison over a set of 323 microsatellite markers; 194 were derived from genomic library screening and 129 were derived from the analysis of rice-expressed sequence tags (ESTs) available in public DNA databases. We have evaluated the frequency of polymorphism between parental pairs of six inter- subspecific crosses and one inter-specific cross widely used for mapping in rice. Microsatellites derived from genomic libraries detected a higher level of polymorphism than those derived from ESTs contained in the GenBank database (83.8% versus 54.0%). Similarly, the other measures of genetic variability [the number of alleles per locus, polymorphism information content (PIC), and allele size ranges] were all higher in genomic library-derived microsatellites than in their EST-database counterparts. The highest overall degree of genetic diversity was seen in GA-containing microsatellites of genomic library origin, while the most conserved markers contained CCG- or CAG-trinucleotide motifs and were developed from GenBank sequences. Preferential location of specific motifs in coding versus non-coding regions of known genes was related to observed levels of microsatellite diversity. A strong positive correlation was observed between the maximum length of a microsatellite motif and the standard deviation of the molecular-weight of amplified fragments. The reliability of molecular weight standard deviation (SDmw) as an indicator of genetic variability of microsatellite loci is discussed. Received: 5 May 1999 / Accepted: 16 August 1999     

A centralized model for creating shared,standardized, microsatellite data that simplifies inter-laboratory collaboration

We demonstrate an efficient model for standardizing microsatellite DNA data among laboratories studying Oncorhynchus mykiss. Eight laboratories standardized 13 microsatellite loci following allele nomenclature of a central laboratory (average inter-laboratory genotyping concordance >98%). Following this central model, we have currently standardized 298 alleles from throughout the species native range. Although we focus here on O. mykiss, our experiences and recommendation apply equally to other broadly distributed species that may benefit from multi-laboratory collaborative data collection.     

Microsatellite variation and evolutionary history of PCDHX/Y gene pair within the Xq21.3/Yp11.2 hominid-specific homology block

To better understand the evolutionary dynamics of repetitive sequences in human sex chromosomes, we have analyzed seven new X/Y homologous microsatellites located within PCDHX/Y, one of the two recently described gene pairs in the Xq21.3/Yp11.2 hominid-specific homology block, in samples from Portugal and Mozambique. Sharp differences were observed on X/Y allele distributions, concerning both the presence of private alleles and a different modal repeat length for X-linked and Y-linked markers, and this difference was statistically significant. Higher diversity was found in X-linked microsatellites than in their Y chromosome counterparts; when comparing populations, Mozambicans showed more allele diversity for the X chromosome, but the contrary was true for the Y chromosome microsatellites. Evolutionary patterns, relying on intragenic PCDHX/Y SNPs, also revealed distinct scenarios for X and Y chromosomes. Greater microsatellite diversity was displayed by African X chromosomes within the most common haplotypes shared by both populations, whereas higher microsatellite diversity was found in Portugal for the ancestral Y chromosome haplotype. The most frequent PCDHY haplotype in Portuguese was the derived one, and it was not found in Mozambicans. TMRCA estimated by the rho parameter resulted in 13,700 years (7,500-20,000 years), which is consistent with a recent, post-Out-of-Africa origin for this haplotype. In conclusion, the newly described microsatellite loci generally displayed greater X-linked to Y-linked diversity and this pattern was also detected with slower evolving markers, with a remarkable differentiation between populations observed for Y chromosome haplotypes and, thus, greater divergence among Y chromosomes in human populations.