GWAS,SNP,和疾病

作者: Ternq8 | 来源:发表于2017-11-15 14:36 被阅读297次

    三种方法如何获取snp信息

    引用: http://www.bio-info-trainee.com/2100.html#more-2100

    有研究表明STAT4上的rs7574865和HLA-DQ的 rs9275319是人群中乙型肝炎病毒(HBV)相关肝细胞癌(HCC)遗传易感基因

    意思是,某两个位点变异导致乙型肝炎病毒和相关肝细胞癌发生的关键原因。rsID分别代表两个变异位点 (发现变异位点后通过vep/snpEFF对变异位点进行的注释)。所以根据rsID能够找到这个位点在基因组的位置。可以用dnSNP来查看rsID的基因坐标。

    方法一:
    下载All_20160601.vcf.gz 这个文件(很大数据):

    mkdir -p ~/annotation/variation/human/dbSNP
    cd ~/annotation/variation/human/dbSNP
    ## https://www.ncbi.nlm.nih.gov/projects/SNP/
    ## ftp://ftp.ncbi.nih.gov/snp/organisms/human_9606_b147_GRCh38p2/
    ## ftp://ftp.ncbi.nih.gov/snp/organisms/human_9606_b147_GRCh37p13/
    nohup wget ftp://ftp.ncbi.nih.gov/snp/organisms/human_9606_b147_GRCh37p13/VCF/All_20160601.vcf.gz &
    wget ftp://ftp.ncbi.nih.gov/snp/organisms/human_9606_b147_GRCh37p13/VCF/All_20160601.vcf.gz.tbi
    

    运行的时候有报错:No such directory ‘snp/organisms/human_9606_b147_GRCh37p13/VCF’.

    方法二:
    也可以登录网页版本数据库,直接修改 url(小量搜索):
    https://www.ncbi.nlm.nih.gov/SNP/snp_ref.cgi?rs=7574865
    https://www.ncbi.nlm.nih.gov/SNP/snp_ref.cgi?rs=rs9275319

    方法三:
    SNPedia,直接修改url (优点,搜集了非常多的其它数据库的链接)
    https://www.snpedia.com/index.php/Rs7574865
    https://www.snpedia.com/index.php/Rs9275319


    拓展:如何进行GWAS分析

    方法一:
    plink进行分析
    这里是plink的官网:https://www.cog-genomics.org/plink2/
    plink做SNP筛选和GWAS
    plink进行GWAS分析

    方法二:
    R包分析 (绘制曼哈顿图)
    Postgwas: Advanced GWAS Interpretation in R
    http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0071775


    如何call SNP and indels

    参考: http://blog.sina.com.cn/s/blog_83f77c940102w2eb.html


    如何SNP过滤

    引用: http://blog.sina.com.cn/s/blog_83f77c940102w2eg.html

    1. 缺失比例 (Missing rates)
      GENO>0.05

    Shortly we will apply more stringent criteria, such that GENO > 0.05. In this case, 0.05*89 = 4.45 samples, meaning that if a SNP is missing in 4.45 more more samples, that SNP will be removed from the dataset.

    89是全部sample数,89xGENO得到的阀值是4.45,所以某个call的SNP在4样品(或以下)里没有出现,保留;在5个样本以上没出现则删掉。

    1. 最小等位基因频率 (Minor Allele frequencies)
      提示: MAF< 0.03 如果SNP较多可以设置为MAF<0.05

    MAF is the Minor Allele Frequency. It can be used to exclude SNPs which are not informative because they show little variation in the sample set being analyzed. For instance, if a SNP shows variation in only 1 of the 89 individuals, it is not useful statistically and should be removed.

    意思是,如果某一个SNP只出现在很少数样品(< MAF x Total Number of samples)的时候,就需要移除

    1. Removing SNPs out of Hardy-Weinberg equilibrium(p-value > 10^6 - 10^4 ) 哈迪温伯格平衡

    Population genetic theory suggests that under ‘normal’ conditions, there is a predictable relationship between allele frequencies and genotype frequencies. In cases where the genotype distribution is different from what one would expect based on the allele frequencies, one potential explanation for this is genotyping error. Natural selection is another explanation. For this reason, we typically check for deviation from Hardy-Weinberg equilibrium in the controls for a case- control study. For a quantitative trait, PLINK just uses everyone. The following command generates p-values for deviation from HWE for each SNP. Low p-values indicate that a SNP is out of HWE.

    1. 由vcf文件进行SNP过滤
      运用vcftools转换为plink的输入形式,输出 bed文件 (或者map文件),然后作为输入进行过滤
    vcftools --vcf my.vcf --plink --out plink
    
    plink --noweb --file plink --geno 0.05 --maf 0.05 --hwe 0.0001 --make-bed --out QC
    

    如果还不知道什么是GWAS?什么是SNP?这里是定义:

    引用: http://www.biotrainee.com:8080/thread-1487-1-1.html
    Genome-wide association studies (GWAS) 是指在人類全基因組範圍內利用存在的序列變異,即單核苷酸多型性(SNP),並從中篩選出與疾病相關的SNPs。

    • 哪些疾病与SNP有关呢?
      近些年,全基因组关联分析方法(Genome-Wide Association Study,简称GWAS)利用大群体和高密度SNP(Single Nucleotide Polymorphism,单核苷酸多态)分子标记已经定位到了上千个与复杂疾病关联的SNP位点,而且这些关联信号在多次试验中有很高的可重复性。比如人类常见疾病肥胖,糖尿病,精神分裂等。
    • SNP的误差因素?
      由于随机采样带来到抽样误差(这在现实中无法避免)以及SNP之间复杂的连锁不平衡(linkage disequilibrium, 简称LD),GWAS定位到的SNP位点通常不是致病位点。

    2016年发表在PLOS-one上的文章,介绍SNP与骨关节炎。
    虽然不是很牛的杂志,但是文章质量很好。

    Functional Characterization of the Osteoarthritis Susceptibility Mapping to CHST11—A Bioinformatics and Molecular Study

    根据标题可以知道,是对Osteoarthritis疾病的研究,针对的目标基因是CHST11,Carbohydrate sulfotransferase 11 is an enzyme that in humans is encoded by the CHST11 糖-磺基转移酶 (不知道具体翻译,请(生)化学大神指教)。基因位置 是 chr12: 104,455,295-104,762,014 (GRCh38)。CHST11的功能研究,英国剑桥的桑格研究所有做过该基因敲除的小鼠,Chst11^tm1a(KOMP)Wtsi 。这个基因主要与骨头和软骨的表型phenotyping有关系。小鼠的表型研究里发现异常:Homozygous viability at P14

    2012年柳叶刀里也有文章说这个基因突变会导致,骨关节炎,这个杂志就不用说有多厉害了。

    Identification of new susceptibility loci for osteoarthritis (arcOGEN): a genome-wide association

    接下来分别看一下这两篇文章,和这个基因,以及这个基因的SNP,以及对其功能分析上的研究与阐述。

    (一) 骨关节炎的背景:

    什么是OA?

    (1)Osteoarthritis (OA) is a common disease of older individuals that is characterized by the focal(病灶点) loss of articular cartilage. This loss usually occurs gradually over many years and typically results in chronic pain and severely impaired joint function by the sixth or seventh decade of life.

    (2)Osteoarthritis is the most common form of arthritis worldwide and is a major cause of pain and disability in elderly people.

    genetics上OA的特点?

    (1)OA is polygenic and unlike many other common arthritic diseases, there are no OA risk- conferring loci of large singular impact
    (2)It is a complex disease of the musculoskeletal system with both genetic and environmental risk factors. From the results of heritability studies in twins, sibling pairs, and families, genetic factors are estimated to account for about 50% of the risk of developing osteoarthritis in the hip or knee, although precise estimates vary according to sex, affected site, and severity of disease.

    (二)研究方法:

    (1)偏重功能分析

    • Identification of SNPs in LD with rs835487
    • Identification of Sequences Homologous to the Enhancer in Non-Human Mammals
    • Cloning of pGL3-Promoter Luciferase Reporter Plasmids
    • Transfection of Cell Lines
    • Electrophoretic Mobility Shift Assays (EMSAs)
    • Ethics Statement, Cartilage Collection and Nucleic Acid Extraction
    • Gene Expression, Genotyping and AEI Analysis
    • Chondrogenic Differentiation of MSCs

    (2)偏重分析

    • We undertook a large genome-wide association study (GWAS) in 7,410 unrelated and retrospectively and prospectively selected patients with severe osteoarthritis in the arcOGEN study, 80% of whom had undergone total joint replacement, and 11,009 unrelated controls from the UK. We replicated the most promising signals in an independent set of up to 7,473 cases and 42,938 controls, from studies in Iceland, Estonia, the Netherlands, and the UK. All patients and controls were of European descent.

    (三)结论

    (1)rs835487 (allele G; THR) located within intron two of CHST11 is associated with hip OA

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        本文标题:GWAS,SNP,和疾病

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