1. 协变量文件整理
第一列为FID 第二列为ID 第三列以后为协变量(注意,只能是数字,不能是字符!)
这里协变量文件为:
[dengfei@ny 03_linear_cov]$ head cov.txt
1061 1061 F 3
1062 1062 M 3
1063 1063 F 3
1064 1064 F 3
1065 1065 F 3
1066 1066 F 3
1067 1067 F 3
1068 1068 M 3
1069 1069 M 3
1070 1070 M 3
这里第三列为性别,第四列为世代,这里,将世代作为因子,进行因子协变量的GWAS分析
2. 因子协变量
awk '{print $1,$2,$4}' cov.txt >cov1.txt
数据如下:
1061 1061 3
1062 1062 3
1063 1063 3
1064 1064 3
1065 1065 3
1066 1066 3
1067 1067 3
1068 1068 3
1069 1069 3
1070 1070 3
3. 使用plink的dummy coding转化为虚拟变量
plink --file b --covar cov1.txt --write-covar --dummy-coding
结果生成:
plink.cov
「注意:」这里的协变量,会减少一个水平,比如本来世代是由3,4,5三个世代,这里只有两个水平。plink文档是这样解释的:
That is, for a variable with K categories, K-1 new dummy variables are created. This new file can be used with --linear and --logistic, and a coefficient for each level would now be estimated for the first covariate (otherwise PLINK would have incorrectly treated the first covariate as an ordinal/ratio measure).
5 进行因子协变量GWAS分析LM模型
「代码:」
plink --file b --pheno phe.txt --allow-no-sex --linear --covar plink.cov --out re --hide-covar
「日志:」
PLINK v1.90b5.3 64-bit (21 Feb 2018) www.cog-genomics.org/plink/1.9/
(C) 2005-2018 Shaun Purcell, Christopher Chang GNU General Public License v3
Logging to re.log.
Options in effect:
--allow-no-sex
--covar plink.cov
--file b
--linear
--out re
--pheno phe.txt
515199 MB RAM detected; reserving 257599 MB for main workspace.
.ped scan complete (for binary autoconversion).
Performing single-pass .bed write (10000 variants, 1500 people).
--file: re-temporary.bed + re-temporary.bim + re-temporary.fam written.
10000 variants loaded from .bim file.
1500 people (0 males, 0 females, 1500 ambiguous) loaded from .fam.
Ambiguous sex IDs written to re.nosex .
1500 phenotype values present after --pheno.
Using 1 thread (no multithreaded calculations invoked).
--covar: 2 covariates loaded.
Before main variant filters, 1500 founders and 0 nonfounders present.
Calculating allele frequencies... done.
10000 variants and 1500 people pass filters and QC.
Phenotype data is quantitative.
Writing linear model association results to re.assoc.linear ... done.
「结果文件:」re.assoc.linear
「结果预览:」
4. 使用R语言进行结果比较lm+factor
library(data.table)
geno = fread("c.raw")
geno[1:10,1:10]
phe = fread("phe.txt")
cov = fread("cov.txt")
dd = data.frame(phe$V3,cov$V4,geno[,7:20])
head(dd)
str(dd)
mod_M7 = lm(phe.V3 ~ cov.V4 + M7_1,data=dd)
summary(mod_M7)
mod_M9 = lm(phe.V3 ~ cov.V4 + M9_1,data=dd);summary(mod_M9)
「M7加上因子协变量结果:」
「如果是作为数值协变量的结果为:」
结果是不一样的。
5. 使用R语言进行结果比较lm+plink.cov
结果和上面世代作为因子完全一样。
6. 固定即回归
「所以,怎么理解固定即回归这句话的?」
❝R语言中,所谓的因子,在进行回归分析时,也是将其转化为不通过水平的数字变量进行的分析,所以和你手动转化的虚拟变量结果是一样的。
❞