长江江豚MHC-DRB基因第二外显子的分离鉴定

主要组织相容性复合体(Major histocompatibility complex,MHC)在脊椎动物的免疫系统中起着重要的作用,常作为适应性遗传标记应用于保护遗传学研究.长江江豚(Neophocaena phocaenoides asiaeorientalis)是惟一生活于淡水环境中的江豚种群,且已处于濒危状况.为了开发适用于长江江豚保护遗传学研究的MHC遗传标记,首次采用北象海豹(Mirounga angustirostris)的一对DRB基因引物对长江江豚的基因组进行扩增,从5个个体中成功扩增并测序得到5条MHC DRB基因第二外显子188 bp的核苷酸序列.BLAST结果表明这5条DRB特异序列与Gen-Bank中白鲸(Delphinapterus leucas)的DRB2序列具有较高的同源性,从而证实得到了预期扩增位点.进一步分析发现:这5条序列在4个核苷酸位点上产生替代,翻译后氨基酸序列在3个位点上发生替代;均具有完整的开放阅读框;且核苷酸的非同义替代率远远高于同义替代率;此外,从同一个体分离到两种以上不同DRB核苷酸序列,暗示着长江江豚在DRB座位上可能存在基因重复现象.初步分析结果表明长江江豚的DRB基因具有核苷酸多态性和氨基酸多态性及潜在功能性,并经受着强烈的自然选择.因此,该DRB座位可以作为适应性遗传标记进一步用于长江江豚遗传多样性以及种群适应能力评估等保护遗传学研究.     

DNA 池结合DHPLC 和直接测序技术在江豚SNPs 检测中的应用

选取江豚基因组中的2 个已知单核苷酸多态性(single nucleotide polymorphisms,SNPs)位点,通过PCR 扩增,将PCR 产物按基因频率不同制备成0 ～ 50% 的11 个DNA 池(DNA pool),用于变性高效液相色谱(denaturing high performance liquid chromatography,DHPLC)和直接测序分析,以探讨DNA 池中基因频率的最低要求。结果显示,当稀有等位基因的基因频率不少于5% 时可在DHPLC 检测过程中明显分辨;而利用DNA 池进行直接测序时的基因频率则需达到10% 。这提示,为保证DHPLC 分析的准确性和可靠性,制备DNA 池时等摩尔DNA 混合的个体数最好不超过10 个。DNA 池结合DHPLC 技术的高效性与准确性可在大规模的SNPs 位点筛选中发挥作用。     

日本沼虾ITS1序列分析及SNPs位点的筛选

研究采用直接测序法,分析日本沼虾(Macrobrachium nipponense)rDNA基因内转录间隔区ITS1的DNA序列,以筛选日本沼虾SNPs位点。共分析了32个太湖水域野生日本沼虾样本,结果表明,日本沼虾ITS1序列平均长度为1749.8bp,是迄今已报道的最长的ITS1序列,A、G、T和C的平均含量分别为29.9%、28.3%、27.7%、14.0%,G+C的含量平均为42.3%。通过序列比对,共筛选出22个SNPs位点,SNPs位点出现频率为0.0126,其中9个为C/T转换(占40.91%),4个为A/G转换(占18.18%),2个为A/T颠换(占9.09%),5个为T/G颠换(占22.73%),1个为A/C颠换(占4.55%),1个A/T或C颠换(占4.55%)。日本沼虾ITS1序列的22个SNP位点中,21个位点为2个等位基因,1个位点出现了3个等位基因,为复等位基因位点。日本沼虾ITS1序列中还发现3个具有多态性的微卫星位点、1个高度变异区以及大量的缺失、插入。研究首次对日本沼虾ITS1序列进行了分析,并发现了大量的SNP位点,为日本沼虾遗传育种研究提供了新的分子标记。       

双向等位基因特异性PCR与限制性片段长度多态性基因分型方法比较

目的:比较双向等位基因特异性PCR(Bi-PASA)法与聚合酶链式反应-限制性片段长度多态性(RFLP)法对EZH2基因单核苷酸多态性(SNPs)位点rs887569基因分型结果有无差异,并用Bi-PASA法对EZH2基因rs17171119位点基因分型后分析与结直肠癌(CRC)易感性的相关性。方法:提取96名CRC患者与100名体检健康者的外周血DNA,分别用Bi-PASA法与聚合PCR-RFLP法检测EZH2基因单核苷酸多态性(SNPs)位点rs887569基因型,对两种分型结果进行比较;使用Bi-PASA法对EZH2基因rs17171119位点进行基因分型后用病例-对照方法分析该SNPs在中国人群中的分布。结果:Bi-PASA与PCR-RFLP对EZH2基因rs887569位点基因分型的准确率分别为99.5%和100%;EZH2基因的rs17171119 SNPs位点多态性与结直肠癌易感性无显著相关性(P=0.938,OR=0.846,95%CI:0.586-1.221)。结论:Bi-PASA是一种简单有效检测SNPs的方法,分型结果较为可靠;rs17171119 SNPs位点多态性与结直肠癌易感性无关,但本结论还有待更大样本量基因分型的验证。     

七种蝽mtDNA-16S rRNA基因序列多态性的研究(半翅目:蝽科)

测定蝽亚科2族4属7个种(宽碧蝽,辉蝽,凹肩辉蝽,角肩真蝽,褐真蝽,斑真蝽,全蝽)9个个体线粒体DNA(mtDNA)的16SrRNA基因片段,分析了其遗传多态性。通过测定该基因片段的序列发现,不同种群存在丰富的DNA序列多态性,同一种的不同个体差异较小,9个个体具有9种基因型。在扩增的长为400bp的基因片段中,通过排序,有338个碱基可用于这9个个体的比较。在这一基因片段中,共检测到122个多态性核苷酸位点(约36．1％)。NJ法构建的分子系统树表明碧蝽属归于短中片族,全蝽属的分化较其它属要早。     

单核苷酸多态性(SNPs)原理及其在植物功能基因组学中的应用前景

近缘种群或同种个体之间的单核苷酸多态性(SNPs)是存在于生物基因组上由单个核苷酸的变异所引起的一种DNA序列多态性.它具有高丰度、高信息量和良好稳定性的特点,而且比较适合自动化操作.SNPs将会在植物功能基因组学研究中得到广泛应用,并加强功能基因学与种群遗传学的联系.本文就SNPs及其在植物功能基因组学中的应用前景作一下探讨.     

基于毛干蛋白质组的族群推断技术的建立与验证

毛干是一种案件现场常见的生物物证,由于核DNA含量极少且高度降解,难以采用现有的短串联重复序列(short tandem repeat,STR)检验方法进行个人识别鉴定,目前仅使用线粒体DNA检验进行母系亲缘关系的判定,利用率非常低.毛干中蛋白质非常稳定,而且具有遗传多态性,表现为基因组中的非同义单核苷酸多态性(non-synonymous single nucleotide polymorphisms,ns SNPs),转录翻译后形成蛋白质序列中的单氨基酸多态性(single amino acid polymorphisms,SAPs).充分利用毛干蛋白质中蕴含的遗传信息,为案件提供线索和证据,是实际公安业务的迫切需求,具有重要的应用价值.本文选取了104份中国汉族的毛干样本进行蛋白质组的检测,共获得了703个SAP位点,位于460个蛋白质上,共推导出552个nsSNP位点.进一步筛选在所有样本中检出率超过15%的位点,获得了88个nsSNP位点,使用毛干样本对应的口腔拭子DNA对88个ns SNP位点进行一代测序验证.为评估发现的nsSNP位点对于人群的区分能力,以千人数据库(1 000 Genome Project)为参考数据库,采用聚类分析和群体匹配概率等方法对检测的19份毛干样本进行人群来源推断.结果显示,通过检测毛干蛋白质组中的ns SNP可以实现东亚、欧洲、非洲三大洲际人群的区分.     

动物种群遗传多态性研究中的PCR技术

基因组DNA的变异是种群遗传多态性研究的基础。PCR技术可以在反应管内经济快速地扩增特定DNA序列,在动物种群遗传多态性研究中的应用主要包括三个方面：(1)种群遗传多态位点的检测;(2)基因定位或利用已经定位的单拷贝基因设计染色体位点特异的分子标记;(3)与DNA测序技术相结合,高效经济地获取特定基因座位的全部遗传变异。     

鄱阳湖长江江豚的微卫星遗传多样性及发展预测

为了科学评估鄱阳湖长江江豚(Neophocaena asiaeorientalis asiaeorientalis)的遗传多样性并预测其发展趋势,研究基于124头活体长江江豚的血液样本及42头搁浅死亡长江江豚的组织样本,利用微卫星遗传标记对该种群的遗传多样性进行了评估,并利用BottleSim软件对该种群遗传多样性的发展趋势进行了模拟预测。研究结果显示,鄱阳湖长江江豚种群10个微卫星位点的平均等位基因数(N_a)为5.80、平均观察杂合度(H_o)为0.653、期望杂合度(H_e)为0.664,表现出中等程度的核DNA遗传多样性;在剔除死亡个体后,平均等位基因数下降至5.50,并且死亡个体在3个微卫星位点上具有3个稀有等位基因,表明非正常死亡将导致鄱阳湖种群遗传多样性下降。此外,模拟结果表明,如果保持当前有效种群(N_e=62)和雌雄性比(0.87:1),鄱阳湖长江江豚种群的遗传多样性将快速下降;而要实现100年内保存90%以上遗传多样性的目标,则其有效种群至少需要200头或者实际种群数量超过1000头。研...     

SNPs在水生动物遗传多样性分析的应用

Lander于1996年提出的单核苷酸多态性(single nucleotide polymorphisms,SNPs)被认为是第三代理想的遗传标记.SNPs是基因组水平上由单个碱基变异引起的DNA序列多态性,广泛应用于生物的遗传多样性研究.本文就SNPs定义、特性,及其在水生动物遗传多样性分析的应用进行综述.     

Effective selection of informative SNPs and classification on the HapMap genotype data

Background  

Since the single nucleotide polymorphisms (SNPs) are genetic variations which determine the difference between any two unrelated individuals, the SNPs can be used to identify the correct source population of an individual. For efficient population identification with the HapMap genotype data, as few informative SNPs as possible are required from the original 4 million SNPs. Recently, Park et al. (2006) adopted the nearest shrunken centroid method to classify the three populations, i.e., Utah residents with ancestry from Northern and Western Europe (CEU), Yoruba in Ibadan, Nigeria in West Africa (YRI), and Han Chinese in Beijing together with Japanese in Tokyo (CHB+JPT), from which 100,736 SNPs were obtained and the top 82 SNPs could completely classify the three populations.     

SNP-finding in pig mitochondrial ESTs

The Sino-Danish pig genome project produced 685 851 ESTs ( Gorodkin et al. 2007 ), of which 41 499 originated from the mitochondrial genome. In this study, the mitochondrial ESTs were assembled, and 374 putative SNPs were found. Chromatograms for the ESTs containing SNPs were manually inspected, and 112 total (52 non-synonymous) SNPs were found to be of high confidence (five of them are close to disease-causing SNPs in humans). Nine of the high-confidence SNPs were tested experimentally, and eight were confirmed. The SNPs can be accessed online at http://pigest.ku.dk/more/mito .     

Using the dog genome to find single nucleotide polymorphisms in red foxes and other distantly related members of the Canidae

Single nucleotide polymorphisms (SNP) are the ideal marker for characterizing genomic variation but can be difficult to find in nonmodel species. We explored the usefulness of the dog genome for finding SNPs in distantly related nonmodel canids and evaluated so-ascertained SNPs. Using 40 primer pairs designed from randomly selected bacterial artificial chromosome clones from the dog genome, we successfully sequenced 80-88% of loci in a coyote (Canis latrans), grey fox (Urocyon cinereoargenteus), and red fox (Vulpes vulpes), which compared favourably to a 60% success rate for each species using 10 primer pairs conserved across mammals. Loci were minimally heterogeneous with respect to SNP density, which was similar, overall, in a discovery panel of nine red foxes to that previously reported for a panel of eight wolves (Canis lupus). Additionally, individual heterozygosity was similar across the three canids in this study. However, the proportion of SNP sites shared with the dog decreased with phylogenetic divergence, with no SNPs shared between red foxes and dogs. Density of interspecific SNPs increased approximately linearly with divergence time between species. Using red foxes from three populations, we estimated F(ST) based on each of 42 SNPs and 14 microsatellites and simulated null distributions conditioned on each marker type. Relative to SNPs, microsatellites systematically underestimated F(ST) and produced biased null distributions, indicating that SNPs are superior markers for these functions. By reconstituting the frequency spectrum of SNPs discovered in nine red foxes, we discovered an estimated 77-89% of all SNPs (within the region screened) present in North American red foxes. In sum, these findings indicate that information from the dog genome enables easy ascertainment of random and gene-linked SNPs throughout the Canidae and illustrate the value of SNPs in ecological and evolutionary genetics.     

Polymorphism attribution of cSNPs in cancer-related genes located in loss regions with a high frequency of HCC between HBV and health groups

Cancer-related genes harbored in the loss regions containing a high frequency of hepatocellular carcinoma (HCC) were selected.Related information was gathered and the coding single nucleotide polymorphism (cSNP) sequences were obtained from the single nucleotide polymorphism (SNP) database.The appropriate primers and oligonucleotide probes were then designed in accordance with the SNP sites,and subsequently,the gene chips for detecting SNPs were constructed.Genomic DNA was extracted from blood samples of healthy controls and from patients with HBV infection.The sequences,including the SNPs,were amplified via polymerase chain reaction (PCR) and labeled using digoxigenin deoxyuridine tri-phosphate (Dig-dUTP).The labeled products were then hybridized with the SNP chips.Results confirmed that the differences in allele frequencies of three SNPs EGFL3 (rs947345),Caspase9 (rs2308950),and E2F2 (rs3218171) were distinct between HBV-infected patients and controls,suggesting that these SNPs ocuring in high frequency in HBV-infected individuals may be associated with susceptibility to HCC.     

Single step genome-wide association studies based on genotyping by sequence data reveals novel loci for the litter traits of domestic pigs

In this study, data genotyping by sequence (GBS) was used to perform single step GWAS (ssGWAS) to identify SNPs associated with the litter traits in domestic pigs and search for candidate genes in the region of significant SNPs. After quality control, 167,355 high-quality SNPs from 532 pigs were obtained. Phenotypic traits on 2112 gilt litters from 532 pigs were recorded including total number born (TNB), number born alive (NBA), and litter weight born alive (LWB). A single-step genomic BLUP approach (ssGBLUP) was used to implement the genome-wide association analysis at a 5% genome-wide significance level. A total of 8, 23 and 20 significant SNPs were associated with TNB, NBA, and LWB, respectively, and these significant SNPs accounted for 62.78%, 79.75%, and 58.79% of genetic variance. Furthermore, 1 (SSC14: 16314857), 4 (SSC1: 81986236, SSC1: 66599775, SSC1: 161999013, and SSC1: 267883107), and 5 (SSC9: 29030061, SSC2: 32368561, SSC5: 110375350, SSC13: 45619882 and SSC13: 45647829) significant SNPs for TNB, NBA, and LWB were inferred to be novel loci. At SSC1, the AIM1 and FOXO3 genes were found to be associated with NBA; these genes increase ovarian reproductive capacity and follicle number and decrease gonadotropin levels. The genes SLC36A4 and INTU are involved in cell growth, cytogenesis and development were found to be associated with LWB. These significant SNPs can be used as an indication for regions in the Sus scrofa genome for variability in litter traits, but further studies are expected to confirm causative mutations.     

Identification and Validation of Single Nucleotide Polymorphisms in Poplar Using Publicly Expressed Sequence Tags

By using assembled expressed sequence tags （ESTs） from 14 different eDNA libraries that contain 84 132 sequences reads, 556 Populus candidate single nucleotide polymorphisms （SNPs） were identified. Because traces were not available from dbEST （http：//www.ncbi.nlm.nih.gov/dbEST/index.html）, stringent filters were used to identify reliable candidate SNPs. Sequences analysis indicated that the main types of substitutions among candidate SNPs were A/G and T/C transitions, which accounted for 22.0% and 30.8%, respectively. One hundred and ten candidate SNPs were tested. As a result, 38 candidate SNPs were confirmed by directed sequencing of PCR products amplified from six different individuals. Thirteen new SNPs in intron regions were found and multiple SNPs were found to be located in both intron and exon regions of four contigs. Heterozygosis was found in all 47 candidate sites and five SNP sites were heterozygous in all six samples. This is the first report of SNP identification in a tree species which reveals that assembled ESTs from multiple libraries of the public database may provide a rich source of comparative sequences for an SNP search in the poplar genome.     

Detection of sequence polymorphisms in red junglefowl and White Leghorn ESTs

Over 16,000 high quality expressed sequence tags (ESTs) from red junglefowl (RJ) and White Leghorn (WL) brain and testis cDNA libraries were generated. Here, we have used this resource for detection of single nucleotide polymorphisms (SNPs), and also completed full-length sequencing of 46 pairs of clones, representing the same gene from both the RJ and WL libraries. From the main set of ESTs, which were assembled using Phrap, 746 putative SNPs were identified, of which 76% were transitions and 24% were transversions. A subset of SNPs was evaluated by sequence analysis of five RJ and five WL birds. Nine of 12 SNPs were verified in this limited sample, suggesting that a majority of the putative polymorphisms documented in this study represent real SNPs. During full-length sequencing of the 46 RJ/WL clones 100 SNPs were identified, which translated to a frequency of 1.90 SNPs/1000 bp. The number of transitions and transversions were 77% and 23%, respectively, and the proportion of non-synonymous vs. synonymous SNPs was 20% and 80%, respectively. Four large insertions/deletions were identified between the RJ and WL full-length sequences, and they appear to represent different splice variants.     

Analysis of 17,576 potentially functional SNPs in three case-control studies of myocardial infarction

Myocardial infarction (MI) is a common complex disease with a genetic component. While several single nucleotide polymorphisms (SNPs) have been reported to be associated with risk of MI, they do not fully explain the observed genetic component of MI. We have been investigating the association between MI and SNPs that are located in genes and have the potential to affect gene function or expression. We have previously published studies that tested about 12,000 SNPs for association with risk of MI, early-onset MI, or coronary stenosis. In the current study we tested 17,576 SNPs that could affect gene function or expression. In order to use genotyping resources efficiently, we staged the testing of these SNPs in three case-control studies of MI. In the first study (762 cases, 857 controls) we tested 17,576 SNPs and found 1,949 SNPs that were associated with MI (P<0.05). We tested these 1,949 SNPs in a second study (579 cases and 1159 controls) and found that 24 SNPs were associated with MI (1-sided P<0.05) and had the same risk alleles in the first and second study. Finally, we tested these 24 SNPs in a third study (475 cases and 619 controls) and found that 5 SNPs in 4 genes (ENO1, FXN (2 SNPs), HLA-DPB2, and LPA) were associated with MI in the third study (1-sided P<0.05), and had the same risk alleles in all three studies. The false discovery rate for this group of 5 SNPs was 0.23. Thus, we have identified 5 SNPs that merit further examination for their potential association with MI. One of these SNPs (in LPA), has been previously shown to be associated with risk of cardiovascular disease in other studies.     

Species-specific nuclear and chloroplast single nucleotide polymorphisms to distinguish Picea glauca, P. mariana and P. rubens

 Picea rubens (red spruce) and P. mariana (black spruce) are closely related species which are difficult to differentiate morphologically. They are sympatric with P. glauca (white spruce) in the northern portion of their ranges. In order to identify potential interspecific polymorphisms, the chloroplast trnK intron and rpl33-psaJ-trnP region were sequenced, and the nuclear-encoded ITS region of the rDNA repeat was partially sequenced. Thirteen chloroplast and 12 nuclear candidate interspecific single nucleotide polymorphisms (SNPs) were identified. The species-specificity of several SNPs was determined by surveying DNAs amplified from trees representing range-wide provenance tests; these included 46 red spruce from 11 provenances, 84 black spruce from 30 provenances and 90 white spruce from 22 provenances. Two SNPs (1 chloroplast and 1 nuclear), which distinguish black spruce from red and white spruce, were consistent among 96–100% of the trees surveyed. Five SNPs (4 chloroplast and 1 nuclear), which distinguish white spruce from red and black spruce, were consistent among 100% of surveyed trees. These species-specific SNPs were used to identify anonymous spruce samples in a blind test, and their utility for small amounts of tissue, as little as single needles, was demonstrated. Scoring these SNPs is much less labor intensive than previous molecular methods for taxa differentiation (restriction fragment length polymorphisms or random amplified polymorphic DNAs), therefore they can be applied to large population studies. Received: 16 December 1998 / Accepted: 5 January 1999