大规模单核苷酸多态性分析与肿瘤易感性

单核苷酸多态性(SNPs)是人类基因组中最常见的变异形式。作为第三代遗传标记,SNP在基因定位、克隆、遗传多态性方面具有广泛应用,特别是作为基因诊断标记在预防医学中具有十分重要的作用。近年来,随着人类基因组计划的发展,数以百万计的SNP被陆续发现,并可在公共数据库中免费获得。SNP数量的快速增加和SNP检测方法的发展,为其在肿瘤易感性领城的应用提供了可能。在本综述中,我们介绍了几种高通量检测SNP的分析方法,总结了大规模SNP分析技术在肿瘤易感性中的应用,介绍了目前人们对于不同人群中的SNP分析、肿瘤易感基因、个体肿瘤易感性的理解,以及研究SNP标记与肿瘤易感性关系时存在的难点。     

单核苷酸多态性与甜瓜抗枯萎病分子育种研究

目的:结合单核苷酸多态性标记技术,利用甜瓜本身的抗病性以解决新疆甜瓜病害问题。方法:对新疆甜瓜抗枯萎病基因Fom-2基因进行克隆分析,并根据Fom-2基因在不同抗性甜瓜亲本的单核苷酸多态性,设计检测SNP标记的PCR扩增引物,验证其多态性;并利用F2代分析该标记与筛选获得的甜瓜抗枯萎病基因连锁的SSR标记的遗传关系。结果:在抗病与感病甜瓜品种中均扩增获得PCR条带,试验中设计单核苷酸多态性分子标记在抗病品种为显性,与筛选的和抗枯萎病基因紧密连锁的共显性标记SSR430共分离。结论:不同抗性甜瓜品种均含有Fom-2基因或其高度同源序列,SNP显性标记和共显性标记SSR430均可用于甜瓜抗枯萎病分子标记辅助育种。     

基于珙桐SNP位点的dCAPS标记开发

本研究收集了珙桐、喜树等19份植物材料,运用分子生物学和生物信息学手段比对分析了rpoB,rpoC,matK等8个基因碱基序列上的单核苷酸多态性(SNP)位点,在atpF-atpH基因上找到了合适的SNP位点并设计了dCAPS引物,经PCR扩增和酶切验证后,将SNP转化为衍生型酶切扩增多态性序列(dCAPS)标记,可促进SNP标记在珙桐的遗传图谱构建、基因定位、种质资源鉴定、遗传多样性研究等领域的应用。     

等位基因特异PCR技术的研究与应用

生物的单核苷酸多态性(Single-nucleotide polymorphism,SNP)具有数量多、分布广、易于分型、稳定性强等优点,很适合于用做分子标记.等位基因特异PCR(Allele-specific PCR,AS-PCR)是根据SNP位点设计3'末端与SNP位点碱基互补或错配的特异PCR引物,通过凝胶电泳等方法检测PCR扩增产物的有或无,从而检测基因型中SNP的一种技术.经过不断地改进与完善,基于SNP的等位基因特异PCR标记已逐渐成为一种快速、简便、低成本、可靠、高通量的检测基因型SNP的方法.本文应用等位基因特异PCR技术,根据小麦TaDREB1基因在旱选10和鲁麦14的120(C→A)SNP成功地开发了一个SNP分子标记,证明了该方法的有效性和可行性.     

分子标记技术的发展及应用

介绍了几种应用前景较广的分子标记,如基于DNA杂交技术的分子标记:限制性片段长度多态性(RFLP)和DNA可变串联重复数标记(VNRT);基于PCR技术的分子标记:随机扩增多态性 DNA(RAPD)、酶切扩增多态性(CAPS)、扩增片段长度多态性(AFLP)、微卫星DNA(SSR)和DNA单链构象多态性(SSCP);以及新兴的第3代分子标记,即基于DNA芯片技术的分子标记:单核苷酸多态性(SNP)等。分别阐述了它们的原理、方法步骤与优缺点、应用注意事项和适用范围,同时概述了它们在生物学研究中的应用和进展。     

海洋生物单核苷酸多态性基因分型技术的研究进展

单核苷酸多态性(single nucleotide polymorphism,SNP)是一类广泛分布于基因组中由单个碱基差异引起的DNA序列变异,SNP标记是第三代分子标记的代表。随着大规模测序技术的快速发展,大量的候选SNP位点被发现,候选SNP位点的发掘需要合适的分型技术。从等位基因分型机制、反应方式和检测等位基因方法等方面介绍当前海洋生物SNP分型技术的研究进展,以期为不同试验目的的研究选择合适的SNP分型技术提供参考。     

利用SNP进行遗传病致病基因搜寻的策略

SNP是一类基于单碱基变异引起的DNA多态性,被遗传学界称为第三代遗传标记。由于SNP的诸多优点,如位点丰富和与DNA芯片等技术上的结合,它将对人类致病基因的搜寻工作起到革命性的作用。本文综合了目前SNP领域的一些进展,对这一新的标记系统在人类遗传病研究中的应用策略进行了初步概括。     

人类基因组中单核苷酸多态性的检测技术

随着人类基因组测序工作的完成,单核苷酸多态性作为继限制性片段长度多态性和微卫星多态性这2种遗传标记之后的第3代遗传标记,已成为人类后基因组时代的主要研究内容之一。系统地介绍了人类基因组中单核苷酸多态性的传统检测方法、新的方法以及基于生物信息学的方法,并对SNP检测技术的发展进行了展望。     

单核苷酸多态性在医学领域的应用

作为第三代DNA遗传标记,单核苷酸多态性(SNP)标记已经成为基因功能研究、寻找疾病基因和基因型鉴定、药物基因组学的主要研究手段,在高危群体的发现、疾病相关基因的鉴定、药物的设计和测试以及分子生物学的基础研究等方面发挥了重要作用。近年来SNP在法医鉴定等领域也有广泛应用。     

小鼠SNP与Car2、Gpi1基因多态性的关联性

目的研究单核苷酸多态性(single nucleotide polymorphism,SNP)与小鼠生化标记基因Car2、Gpi1多态性间的关联性。方法从DNA、cDNA和蛋白多肽3个方面分析研究Car2与Gpi1基因的多态性。结果 Car2基因DNA和cDNA中有3个SNP与Car2a/b多态性相关,分别为外显子2中的C(T)、G(C)和外显子7中的A(G);蛋白多肽中发现第38位Gln/His与Car2a/b多态性相关,对应于外显子2中的G(C)。Gpi1基因DNA中没有发现与Gpi1a/b多态性相关的SNP;cDNA水平有2个SNP与Gpi1a/b多态性相关,分别为外显子9中的T(C)和18中的A(G);蛋白多肽中发现第247位Phe/Leu与Gpi1a/b多态性相关,对应于外显子9中的T(C)。结论 Gln/His(38)、Phe/Leu(247)间的转换可能分别是近交系小鼠形成Car2a/b,Gpi1a/b多态性的原因。     

Novel single nucleotide polymorphism identification in interleukin-6 gene of Pakistani sheep

The present study aimed to identify single-nucleotide polymorphism (SNP) in coding and non-coding regions of interleukin-6 (IL-6) gene of Pakistani sheep. The IL-6 gene of 205 animals from nine sheep breeds were sequenced for screening of SNP. Characterizing the IL-6 gene revealed thirteen SNP sites within the intronic region of IL-6 gene. The novel SNPs found in the present study can serve as genetic marker for association studies with susceptibility/resistance to parasite infection in sheep. This is first report of SNP polymorphism of IL-6 gene of Pakistani sheep.     

单核苷酸多态性检测技术的研究进展

单核苷酸多态性是指在基因组水平上单个核苷酸变异引起的一种DNA序列多态性。因其具有密度高,遗传稳定,易于进行自动化、规模化分析等优势它已成为第三代分子标记,因此其检测技术也在近几年得到了快速的发展。将对未知单核苷酸突变位点的检测方法和已知单核苷酸突变位点的检测方法这两部分的研究进展作一综述。     

单核苷酸多态性及其在鸡QTL定位上的应用

单核苷酸多态性是指DNA序列上的单个碱基变异,它具有分布广、多态信息含量大、易于检测和统计分析等优点,能较好用于基因图谱构建和数量性状QTL定位研究,被称为继RFLP和微卫星标记之后的第3代基因遗传标记。本文综述了单核苷酸多态性的性质及检测技术、利用候选基因SNP进行鸡QTL定位研究的现状,并对未来SNP的应用前景进行了展望。Abstract:Single nucleotide polymorphism (SNP) refers to the change of single nucleotide in DNA sequence.Because of its high density in genomes and easy in detection and analysis statistically,SNP can be used in genetic linkage map construction and QTL mapping.Here,the characters and detecting technology of SNP,as well as the status and foreground of the use of candidate gene SNP in chicken QTL mapping are introduced.     

Phosphodiesterase 4D (<Emphasis Type="Italic">PDE4D</Emphasis>) gene polymorphism in patients with acute stroke from Moscow

Two PDE4D gene polymorphisms [SNP41 (rs152312 and SNP87 (rs2910829)] were studied in patients with acute stroke (n = 577) and in control sample (n = 270). Significant differences in the genotype and allele frequency distribution were found between these samples for polymorphism SNP41. We showed that the AA and AG genotypes of SNP41 polymorphism were associated with higher risk of acute stroke development in the Moscow population (OR = 1.6). No association of SNP87 polymorphism with the disease was observed.     

Variations in the human Th2-specific chemokine TARC gene

Th2-specific chemokine thymus and activation-regulated chemokine (TARC)/CC chemokine ligand (CCL)17 is highly implicated in the pathogenesis of Th-2-dominated allergic diseases such as bronchial asthma (BA) and atopic dermatitis (AD). We performed polymorphism screening of the coding and promoter regions of the TARC gene. We found two rare variations in the coding region of exon 3 (2134C>T and 2037G>A) and a single nucleotide polymorphism (SNP) in the 5'-flanking region (-431C>T). Individuals carrying the 431T allele showed significantly increased serum levels of TARC compared with those not carrying the 431T allele, suggesting that this SNP has functional significance. However, when the genotypes at the SNP site were determined for 158 healthy individuals, 105 patients with BA and 148 patients with AD, we observed no significant association of the SNP with susceptibility to BA or AD.     

单核苷酸多态性在作物遗传及改良中的应用

单核苷酸多态性（single nucleotide polymorphism,SNP）是等位基因间序列差异最为普遍的类型,可作为一种高通量的遗传标记。已建立了PCR扩增目标序列及其产物测序和电子SNP（eSNP）等多种发现和检测SNP的方法。玉米和大豆等作物也已开展了SNP分析。一些栽培作物种质的多样性不断减少,其结果使连锁不平衡（linkage disequilibrium,LD）增加,这有利于目的基因座上SNP单元型（haplotype）与表型的相关性分析。SNP已在作物基因作图及其整合、分子标记辅助育种和功能基因组学等领域展示了广泛的应用价值。 Abstract:Single nucleotide polymorphism(SNP) is the most common type of sequence difference between alleles,which can be used as a kind of high-throughput genetic marker.Several different routes have been developed to discover and identify SNP.These include the direct sequencing of PCR amplicons,electronic SNP(eSNP) and so on.SNP assays have been made in many crop species such as maize and soybean.The elite germplasm of some crops have been narrowed in genetic diversity,increasing the amount of linkage disequilibrium(LD) present and facilitating the association of SNP haplotypes at candidate gene loci with phenotypes.SNP analysis has been broadly used in the field of plant gene mapping,integration of genetic and physical maps,DNA marker-assisted breeding and functional genomics.     

Selection at linked sites in the partial selfer Caenorhabditis elegans

Natural selection can produce a correlation between local recombination rates and levels of neutral DNA polymorphism as a consequence of genetic hitchhiking and background selection. Theory suggests that selection at linked sites should affect patterns of neutral variation in partially selfing populations more dramatically than in outcrossing populations. However, empirical investigations of selection at linked sites have focused primarily on outcrossing species. To assess the potential role of selection as a determinant of neutral polymorphism in the context of partial self-fertilization, we conducted a multivariate analysis of single-nucleotide polymorphism (SNP) density throughout the genome of the nematode Caenorhabditis elegans. We based the analysis on a published SNP data set and partitioned the genome into windows to calculate SNP densities, recombination rates, and gene densities across all six chromosomes. Our analyses identify a strong, positive correlation between recombination rate and neutral polymorphism (as estimated by noncoding SNP density) across the genome of C. elegans. Furthermore, we find that levels of neutral polymorphism are lower in gene-dense regions than in gene-poor regions in some analyses. Analyses incorporating local estimates of divergence between C. elegans and C. briggsae indicate that a mutational explanation alone is unlikely to explain the observed patterns. Consequently, we interpret these findings as evidence that natural selection shapes genome-wide patterns of neutral polymorphism in C. elegans. Our study provides the first demonstration of such an effect in a partially selfing animal. Explicit models of genetic hitchhiking and background selection can each adequately describe the relationship between recombination rate and SNP density, but only when they incorporate selfing rate. Clarification of the relative roles of genetic hitchhiking and background selection in C. elegans awaits the development of specific theoretical predictions that account for partial self-fertilization and biased sex ratios.     

Multipoint identity-by-descent computations for single-point polymorphism and microsatellite maps

We used the LOKI software to generate multipoint identity-by-descent matrices for a microsatellite map (with 31 markers) and two single-nucleotide polymorphism (SNP) maps to examine information content across chromosome 7 in the Collaborative Study on the Genetics of Alcoholism dataset. Despite the lower information provided by a single SNP, SNP maps overall had higher and more uniform information content across the chromosome. The Affymetrix map (578 SNPs) and the Illumina map (271 SNPs) provided almost identical information. However, increased information has a computational cost: SNP maps require 100 times as many iterations as microsatellites to produce stable estimates.     

SNP marker diversity in common bean (<Emphasis Type="Italic">Phaseolus vulgaris</Emphasis> L.)

Single nucleotide polymorphism (SNP) markers have become a genetic technology of choice because of their automation and high precision of allele calls. In this study, our goal was to develop 94 SNPs and test them across well-chosen common bean (Phaseolus vulgaris L.) germplasm. We validated and accessed SNP diversity at 84 gene-based and 10 non-genic loci using KASPar technology in a panel of 70 genotypes that have been used as parents of mapping populations and have been previously evaluated for SSRs. SNPs exhibited high levels of genetic diversity, an excess of middle frequency polymorphism, and a within-genepool mismatch distribution as expected for populations affected by sudden demographic expansions after domestication bottlenecks. This set of markers was useful for distinguishing Andean and Mesoamerican genotypes but less useful for distinguishing within each gene pool. In summary, slightly greater polymorphism and race structure was found within the Andean gene pool than within the Mesoamerican gene pool but polymorphism rate between genotypes was consistent with genepool and race identity. Our survey results represent a baseline for the choice of SNP markers for future applications because gene-associated SNPs could themselves be causative SNPs for traits. Finally, we discuss that the ideal genetic marker combination with which to carry out diversity, mapping and association studies in common bean should consider a mix of both SNP and SSR markers.     

A high-throughput SNP marker system for parental polymorphism screening, and diversity analysis in common bean (Phaseolus vulgaris L.)

Single nucleotide polymorphism (SNP) detection has become a marker system of choice, because of the high abundance of source polymorphisms and the ease with which allele calls are automated. Various technologies exist for the evaluation of SNP loci and previously we validated two medium throughput technologies. In this study, our goal was to utilize a 768 feature, Illumina GoldenGate assay for common bean (Phaseolus vulgaris L.) developed from conserved legume gene sequences and to use the new technology for (1) the evaluation of parental polymorphisms in a mini-core set of common bean accessions and (2) the analysis of genetic diversity in the crop. A total of 736 SNPs were scored on 236 diverse common bean genotypes with the GoldenGate array. Missing data and heterozygosity levels were low and 94 % of the SNPs were scorable. With the evaluation of the parental polymorphism genotypes, we estimated the utility of the SNP markers in mapping for inter-genepool and intra-genepool populations, the latter being of lower polymorphism than the former. When we performed the diversity analysis with the diverse genotypes, we found Illumina GoldenGate SNPs to provide equivalent evaluations as previous gene-based SNP markers, but less fine-distinctions than with previous microsatellite marker analysis. We did find, however, that the gene-based SNPs in the GoldenGate array had some utility in race structure analysis despite the low polymorphism. Furthermore the SNPs detected high heterozygosity in wild accessions which was probably a reflection of ascertainment bias. The Illumina SNPs were shown to be effective in distinguishing between the genepools, and therefore were most useful in saturation of inter-genepool genetic maps. The implications of these results for breeding in common bean are discussed as well as the advantages and disadvantages of the GoldenGate system for SNP detection.