Population and Family Studies of the CAG Repeats in the IT-15Gene

A simple and effective method for typing of CAG repeats in the IT-15gene has been suggested. This method was applied for examination of the CAG allele distribution in Huntington's disease (HD) patients in five different populations from the Commonwealth of Independent States. A total of 21 normal alleles with the sizes ranging from 9 to 32 triplet repeats units were revealed. Moreover, alleles with the sizes ranging from 16 to 20 repeats predominated constituting from 54.4 to 74.6% of all alleles in different populations. The number of repeats in one allele in HD patients exceeded 38 units (43 triplets on average). In two families an increase in the CAG repeat units number in the mutant allele upon its paternal transmission was recorded.     

不同群体中ATXN2基因编码区CAG重复的变异研究

在中国6个生活环境差异较大的少数民族群体中进行ATXN2基因编码区CAG重复的变异研究,以衡量其是否受到正选择的作用以及寻找推动选择作用的因素。采集6个民族群体共291个健康无关个体,对其进行STR分型,直接计数其等位基因及等位基因型频率,计算其线性Fst值,构建针对该基因的系统进化树,并对各群体进行MDS分析。线性Fst值结果显示:回族和彝族群体间ATXN2基因STR位点进化的差异具有显著性,其他4个群体相互间无显著性差异。结合已报道的其他群体进一步分析,回族、哈尼族、云南蒙古族以及内蒙古自治区蒙古族每个人群都与日本人群有显著性差异;回族、内蒙古自治区蒙古族与汉族具有显著性差异。6个群体中ATXN2基因STR的等位基因频率有各自的分布特点,稀有等位基因频率变化产生的原因可能是选择作用的结果。     

中国五个民族STR位点遗传多态性（2）

通过对我国汉回蒙藏维５个民族的５０个家系和５００份样本的ＳＴＲ基因扫描、基因分型和遗传结构分析,获得了ＳＴＲ基因传递方式及遗传特征的大量科学数据。研究结果表明在９个ＳＴＲ位点上汉族有６０种ＳＴＲ等位基因,１４９种基因型;回族有６３种ＳＴＲ等位基因,１４４种基因型;蒙古族有６９种ＳＴＲ等位基因,１７３种基因型;藏族有７７种等位基因,１６８种基因型;维吾尔族有７０种ＳＴＲ等位基因,１４８种基因型。中国     

提高SCA2编码区CAG三核苷酸重复的PCR扩增效率

以遗传性脊髓小脑共济失调Ⅱ型基因（ｓｐｉｎｏｃｅｒｅｂｅｌｌａｒ ａｔａｘｉａ ｔｙｐｅⅡｇｅｎｅＳＣＡ２）编码区内的ＣＡＧ三核苷酸重复为研究对象（Ｇ＋Ｃ含量为６９．２％）,比较了热启动ＰＣＲ、碱基替代ＰＣＲ、添加增效剂（１％－１２．５％二甲亚砜、１％－２５％甘油、１％－１２．５％甲酰胺）与常规ＰＣＲ的扩增效率,发现热启动ＰＣＲ、碱基替代ＰＣＲ及添加增效剂（１％－１０％二甲亚砜、５％－２０％甘油、     

CAG Repeats in Various Organisms Studied by Southern Blot Analysis

A 90-nucleotide (CAG)₃₀,single-stranded DNA was used to probe Southern blots inorder to indicate the quantity and distribution of longCAG repeats in selected genomes. Bovine and rat genomeswere found to contain a particularly high content of CAGrepeats, while the repeats were comparatively rare inthe human genome. A particularly strong signal in thebovine genome was due to a CAG repeat associatedwith the 1.709 satellite. A similar element wasfound in goat and musk, but not in the otherartiodactyls tested, suggesting that this particular CAGrepeat developed some 10-20 million years ago withina 3.8-kb unit presently belonging to thesatellite element and that this unit has latermultiplied in the genome. Single-copy repeats could bediscerned in yeast, but not in mammals. Thus the probedid not detect specific repeats in patients withCAG repeat diseases.     

Repeat Associated Non-AUG Translation (RAN Translation) Dependent on Sequence Downstream of the ATXN2 CAG Repeat

Spinocerebellar ataxia type 2 (SCA2) is a progressive autosomal dominant disorder caused by the expansion of a CAG tract in the ATXN2 gene. The SCA2 disease phenotype is characterized by cerebellar atrophy, gait ataxia, and slow saccades. ATXN2 mutation causes gains of toxic and normal functions of the ATXN2 gene product, ataxin-2, and abnormally slow Purkinje cell firing frequency. Previously we investigated features of ATXN2 controlling expression and noted expression differences for ATXN2 constructs with varying CAG lengths, suggestive of repeat associated non-AUG translation (RAN translation). To determine whether RAN translation occurs for ATXN2 we assembled various ATXN2 constructs with ATXN2 tagged by luciferase, HA or FLAG tags, driven by the CMV promoter or the ATXN2 promoter. Luciferase expression from ATXN2-luciferase constructs lacking the ATXN2 start codon was weak vs AUG translation, regardless of promoter type, and did not increase with longer CAG repeat lengths. RAN translation was detected on western blots by the anti-polyglutamine antibody 1C2 for constructs driven by the CMV promoter but not the ATXN2 promoter, and was weaker than AUG translation. Strong RAN translation was also observed when driving the ATXN2 sequence with the CMV promoter with ATXN2 sequence downstream of the CAG repeat truncated to 18 bp in the polyglutamine frame but not in the polyserine or polyalanine frames. Our data demonstrate that ATXN2 RAN translation is weak compared to AUG translation and is dependent on ATXN2 sequences flanking the CAG repeat.     

Positive Selection of the Bat Interferon Alpha Gene Family

Type I interferons (IFNs) are produced by leukocytes in reaction to pathogenic infection and function as positive mediators in antiviral pathways. Among IFNs, IFN alpha (IFNA) has the largest number of family members and plays an important role against the invasion of pathogens. Bats are putative and proven vectors for numerous viruses; however, the evolution of the IFNA family in bats has not been addressed. Here, we construct a phylogeny of IFNA families, including one fruit bat (Dobsonia viridis), with other vertebrates as references. Site-model estimation reveals that positive selection has shaped bat IFNA genes, showing that positive selection drives the evolution of bat IFNA genes.     

Population Genetics and New Insight into Range of CAG Repeats of Spinocerebellar Ataxia Type 3 in the Han Chinese Population

Spinocerebellar ataxia type 3 (SCA3), also called Machado-Joseph disease (MJD), is one of the most common SCAs worldwide and caused by a CAG repeat expansion located in ATXN3 gene. Based on the CAG repeat numbers, alleles of ATXN3 can be divided into normal alleles (ANs), intermediate alleles (AIs) and expanded alleles (AEs). It was controversial whether the frequency of large normal alleles (large ANs) is related to the prevalence of SCA3 or not. And there were huge chaos in the comprehension of the specific numbers of the range of CAG repeats which is fundamental for genetic analysis of SCA3. To illustrate these issues, we made a novel CAG repeat ladder to detect CAG repeats of ATXN3 in 1003 unrelated Chinese normal individuals and studied haplotypes defined by three single nucleotide polymorphisms (SNPs) closed to ATXN3. We found that the number of CAG repeats ranged from 13 to 49, among them, 14 was the most common number. Positive skew, the highest frequency of large ANs and 4 AIs which had never been reported before were found. Also, AEs and large ANs shared the same haplotypes defined by the SNPs. Based on these data and other related studies, we presumed that de novo mutations of ATXN3 emerging from large ANs are at least one survival mechanisms of mutational ATXN3 and we can redefine the range of CAG repeats as: ANs≤44, 45 ≤AIs ≤49 and AEs≥50.     

中华民族基因组多态性数据库的构建

为配合总体的实验研究构建了中华民族基因组多态性(Genomic Polymorphism of Chinese Ethnic Groups,简称GPCEG)数据库,现已初步建成包括民族名称、基本情况介绍、体态特征、基因多态性数据、永生细胞株系、参考文献、国际相关数据库连接等内容的数据库,并完成了其可视化浏览及查询系统的建立,为建成具有中国特色的国家自有数据库奠定了基础,也可为从事相关研究的科学工作者提供信息服务。     

Positive selection of a pre-expansion CAG repeat of the human SCA2 gene

A region of approximately one megabase of human Chromosome 12 shows extensive linkage disequilibrium in Utah residents with ancestry from northern and western Europe. This strikingly large linkage disequilibrium block was analyzed with statistical and experimental methods to determine whether natural selection could be implicated in shaping the current genome structure. Extended Haplotype Homozygosity and Relative Extended Haplotype Homozygosity analyses on this region mapped a core region of the strongest conserved haplotype to the exon 1 of the Spinocerebellar ataxia type 2 gene (SCA2). Direct DNA sequencing of this region of the SCA2 gene revealed a significant association between a pre-expanded allele [(CAG)₈CAA(CAG)₄CAA(CAG)₈] of CAG repeats within exon 1 and the selected haplotype of the SCA2 gene. A significantly negative Tajima's D value (−2.20, p < 0.01) on this site consistently suggested selection on the CAG repeat. This region was also investigated in the three other populations, none of which showed signs of selection. These results suggest that a recent positive selection of the pre-expansion SCA2 CAG repeat has occurred in Utah residents with European ancestry.     

Dermatoglyphics from All Chinese Ethnic Groups Reveal Geographic Patterning

Completion of a survey of dermatoglyphic variables for all ethnic groups in an ethnically diverse country like China is a huge research project, and an achievement that anthropological and dermatoglyphic scholars in the country could once only dream of. However, through the endeavors of scientists in China over the last 30 years, the dream has become reality. This paper reports the results of a comprehensive analysis of dermatoglyphics from all ethnic groups in China. Using cluster analysis and principal component analysis of dermatoglyphics, it has been found that Chinese populations can be generally divided into a southern group and a northern group. Furthermore, there has been considerable debate about the origins of many Chinese populations and about proper assignment of these peoples to larger ethnic groups. In this paper, we suggest that dermatoglyphic data can inform these debates by helping to classify a Chinese population as a northern or southern group, using selected reference populations and quantitative methods. This study is the first to assemble and investigate dermatoglyphics from all 56 Chinese ethnic groups. It is fortunate that data on population dermatoglyphics, a field of physical anthropology, have now been collected for all 56 Chinese ethnic groups, because intermarriage between individuals from different Chinese ethnic groups occurs more frequently in recent times, making population dermatoglyphic research an ever more challenging field of inquiry.     

Gene Duplication and Positive Selection Explains Unusual Physiological Roles of the Relaxin Gene in the European Rabbit

The relaxin gene family is a group of genes involved in different physiological roles, most of them related to reproduction. In vertebrates the genes in this family are located in three separate chromosomal locations, and have been called relaxin family locus (RFL) A, B, and C. Among mammals the RFLA and RFLC are the most conserved as no gene copy-number variation has been observed thus far. The RFLB locus is also conserved on most mammals other than primates, where there are several gene gains and losses. Interestingly, the relaxin gene found on the RFLB locus in the European rabbit has acquired a novel role. In addition to the classical reproductive roles, this gene is expressed in tracheobronchial epithelial cells and its expression has been linked to squamous differentiation. We reconstructed the evolutionary history of the European rabbit RFLB locus using the tools of comparative genomics and molecular evolution. We found that the European rabbit possess a RFLB locus which is unique among mammals in that there are five tandemly arranged relaxin gene copies, which contrast with the single relaxin copy gene found in most mammals. In addition we also found that the ancestral pre-duplication gene was subject to the action of positive selection, and several amino acid sites were identified under the action of natural selection including the sites B12 and B13 which are part of the receptor recognition and binding site.     

苏云金杆菌Vip蛋白经历正向达尔文选择的证据

营养期杀虫蛋白(Vip)是苏云金杆菌在营养期所产生的一类新型杀虫蛋白,代表了第二代转基因杀虫蛋白,它能在一定程度上克服许多害虫对δ-内毒素低敏感或者不敏感的缺陷。但是,目前和已经深入研究的δ-内毒素相比较,有关Vip蛋白结构和功能关系方面的报道还甚少。本文采用最大似然方法和基于最大简约的滑窗分析对Vip蛋白的分子进化机制进行了评价。结果发现Vip蛋白在进化过程当中经历了正选择,并采用贝叶斯方法确定了16个正选择氨基酸残基。有意思的是所有这些正选择残基都位于Vip蛋白C端从705到809的区域。当把这些正选择残基定位到二级结构和三级结构时,发现绝大部分正选择残基都暴露在Vip蛋白空间结构的表面并且聚集在环的区域。推测Vip蛋白分子进化的机制应该是受到了正选择压力而不是功能约束的松弛。导致Vip蛋白C端多样性的潜在正选择压力可能是Vip蛋白为了在和目标昆虫之间竞争取得优势,或者是为了扩大Vip蛋白的杀虫范围。文中确定的经历了正选择残基很有可能是和昆虫宿主范围有关,因此可以为今后研究Vip蛋白的结构和功能提供相应的靶点。     

Positive Selection and Functional Divergence After Melanopsin Gene Duplication

A newly discovered melanopsin gene (Opn4) encodes a member of the opsins, melanopsin. Two melanopsin genes, mammalian-like Opn4m and Xenopus-like Opn4x, have been described in nonmammalian vertebrates, but the underlying evolutionary mechanisms behind the duplication of melanopsin genes remain unclear. We conducted a comprehensive evolutionary analysis within a phylogenetic framework. In our phylogenetic tree, the duplication of Opn4m and Opn4x probably occurred prior to the emergence of vertebrates, and subsequently Opn4x disappeared in the lineages leading to mammalian species. Evolutionary analyses show strong purifying selection during melanopsin evolution. We also provide evidence that Opn4x underwent positive selection after the early gene duplication events. It has been indicated that functional divergence and altered functional constraints occurred between Opn4m and Opn4x duplicates with the identification of positively selected amino acids. Our findings highlight the evolutionary malleability in vertebrate melanopsin genes and provide a genetic basis for comparative studies of functional properties of these two melanopsins.     

Molecular Evolution and Positive Selection of the Symbiotic Gene NORK in Medicago truncatula

Understanding the selective constraints of partner specificity in mutually beneficial symbiosis is a significant, yet largely unexplored, prospect of evolutionary biology. These selective constraints can be explored through the study of nucleotide polymorphism at loci controlling specificity. The membrane-anchored receptor NORK (nodulation receptor kinase) of the legume Medicago truncatula controls early steps of root infection by two symbiotic microorganisms: nitrogen-fixing bacteria (rhizobia) and endomycorrhizal fungi (Glomales). We analyzed the diversity of the gene NORK by sequencing 4 kilobases in 28 inbred lines sampled from natural populations. We detected 33 polymorphic sites with only one nonsynonymous change. Analysis based on Tajima’s D and Fay and Wu’s H summary statistics revealed no departure from the neutral model. We analyzed divergence using sequences from the closely related species M. coerulea. The McDonald-Kreitman test indicated a significant excess of nonsynonymous changes contributing to this divergence. Furthermore, maximum-likelihood analysis of a molecular phylogeny of a few legume species indicated that a number of amino acid sites, likely located in the receptor domain of the protein, evolved under the regime of positive selection. Further research should focus on the rate and direction of molecular coevolution between microorganisms’ signaling molecules and legumes’ receptors. [Reviewing Editor: Dr. Deborah Charlesworth] Sequence data were deposited in the GenBank database under accession nos. AY676428 to AY676457 and AJ884582.     

Positive Selection and Horizontal Gene Transfer in the Genome of a Male-Killing Wolbachia

Wolbachia are a genus of widespread bacterial endosymbionts in which some strains can hijack or manipulate arthropod host reproduction. Male killing is one such manipulation in which these maternally transmitted bacteria benefit surviving daughters in part by removing competition with the sons for scarce resources. Despite previous findings of interesting genome features of microbial sex ratio distorters, the population genomics of male-killers remain largely uncharacterized. Here, we uncover several unique features of the genome and population genomics of four Arizonan populations of a male-killing Wolbachia strain, wInn, that infects mushroom-feeding Drosophila innubila. We first compared the wInn genome with other closely related Wolbachia genomes of Drosophila hosts in terms of genome content and confirm that the wInn genome is largely similar in overall gene content to the wMel strain infecting D. melanogaster. However, it also contains many unique genes and repetitive genetic elements that indicate lateral gene transfers between wInn and non-Drosophila eukaryotes. We also find that, in line with literature precedent, genes in the Wolbachia prophage and Octomom regions are under positive selection. Of all the genes under positive selection, many also show evidence of recent horizontal transfer among Wolbachia symbiont genomes. These dynamics of selection and horizontal gene transfer across the genomes of several Wolbachia strains and diverse host species may be important underlying factors in Wolbachia’s success as a male-killer of divergent host species.     

Genetic Variance in the Spinocerebellar Ataxia Type 2 (ATXN2) Gene in Children with Severe Early Onset Obesity

Background

Expansion of a CAG repeat in the coding region of exon 1 in the ATXN2 gene located in human chromosome 12q24.1 causes the neurodegenerative disease spinocerebellar ataxia type 2 (SCA2). In contrast to other polyglutamine (polyQ) disorders, the SCA2 repeat is not highly polymorphic in central European (CEU) controls with Q22 representing 90% of alleles, and Q23 contributing between 5–7% of alleles. Recently, the ATXN2 CAG repeat has been identified as a target of adaptive selection in the CEU population. Mouse lines deficient for atxn2 develop marked hyperphagia and obesity raising the possibility that loss-of-function mutations in the ATXN2 gene may be related to energy balance in humans. Some linkage studies of obesity related phenotypes such as antipsychotic induced weight gain have reported significant lod scores on chromosome 12q24. We tested the hypothesis that rare loss-of-function ATXN2 variants cause obesity analogous to rare mutations in the leptin, leptin receptor and MC4R genes.

Methodology/Principal Findings

We sequenced the coding region of ATXN2 including intron-exon boundaries in 92 severely obese children with a body mass index (BMI) >3.2 standard deviations above age- and gender-adjusted means. We confirmed five previously identified single nucleotide polymorphisms (SNPs) and three new SNPs resulting in two synonymous substitutions and one intronic polymorphism. Alleles encoding >Q22 were overrepresented in our sample of obese children and contributed 15% of alleles in children identified by their parents as white. SNP rs695872 closely flanking the CAG repeat showed a greatly increased frequency of C/C homozygotes and G/C heterozygotes compared with reported frequencies in the CEU population.

Conclusions/Significance

Although we did not identify variants leading to novel amino acid substitutions, nonsense or frameshift mutations, this study warrants further examination of variation in the ATXN2 gene in obesity and related phenotypes in a larger case-control study with emphasis on rs695872 and CAG repeat structure.     

ATXN2 and Its Neighbouring Gene SH2B3 Are Associated with Increased ALS Risk in the Turkish Population

Expansions of the polyglutamine (polyQ) domain (≥34) in Ataxin-2 (ATXN2) are the primary cause of spinocerebellar ataxia type 2 (SCA2). Recent studies reported that intermediate-length (27–33) expansions increase the risk of Amyotrophic Lateral Sclerosis (ALS) in 1–4% of cases in diverse populations. This study investigates the Turkish population with respect to ALS risk, genotyping 158 sporadic, 78 familial patients and 420 neurologically healthy controls. We re-assessed the effect of ATXN2 expansions and extended the analysis for the first time to cover the ATXN2 locus with 18 Single Nucleotide Polymorphisms (SNPs) and their haplotypes. In accordance with other studies, our results confirmed that 31–32 polyQ repeats in the ATXN2 gene are associated with risk of developing ALS in 1.7% of the Turkish ALS cohort (p = 0.0172). Additionally, a significant association of a 136 kb haplotype block across the ATXN2 and SH2B3 genes was found in 19.4% of a subset of our ALS cohort and in 10.1% of the controls (p = 0.0057, OR: 2.23). ATXN2 and SH2B3 encode proteins that both interact with growth receptor tyrosine kinases. Our novel observations suggest that genotyping of SNPs at this locus may be useful for the study of ALS risk in a high percentage of individuals and that ATXN2 and SH2B3 variants may interact in modulating the disease pathway.