MaCH
MaCH (MArkov Chain Haplotyping), mostly known as a software for genotype imputation, is a Hidden Markov Model (HMM) based haplotyper can that reconstruct haplotypes from genotypes of unrelated individuals. Three primary uses of MaCH are (1) to resolve haplotypes from diploid genotypes; (2) impute missing genotypes; and (3) perform disease mapping analysis.
Input Files
Mach takes unphased genotypes of unrelated individuals as input. Two input files are mandatory: a pedigree file and a marker information file. The pedigree file stores five key pieces of information and genotypes for each individual, with missing genotypes accepted and additional phenotypes allowed. The marker information file provides the list of marker names. Note that the list must be in order according to physical positions of the markers along the chromosomes. For more details, refer to http://www.sph.umich.edu/csg/abecasis/Merlin/tour/input_files.html.
Pedigree File (mandatory)
Each person contributes to one line in a pedigree file. Required fields are (1) the first five fixed fields corresponding to five key pieces of information (namely: family person father mother sex), and (2) genotype fields. Phenotype fields are allowed inbetween but will not be used by the program.
<sample.ped>
fam1 indiv1 0 0 1 0/0 2/3 ./. fam2 indiv2 0 0 2 1/2 2/2 1/4
<EOF sample.ped>
This sample.ped contains 2 individuals. The first individual is from family fam1 with person ID indiv1 and no parental information available (father = 0, mother = 0). This person is a male (sex = 1). His genotypes are missing at the first and third markers (0/0 and ./.), and is 2/3 (C/G) at the second marker. Similarly, the second individual is from family fam2 with person ID indiv2 and no parental information available (father = 0, mother = 0). This person is a female (sex = 2). Her genotypes are 1/2 (A/C) at the first locus, 2/2 (Homozygous for C) at the second locus and 1/4 (A/T) at the third locus.
Marker Information File (mandatory)
<sample.dat>
M SNP1 M SNP2 M SNP3
<EOF sample.dat>
This file tells us that fields 6-8 in the pedigree file store genotypes for SNP1-3 correspondingly. Note again that the list of SNPs must be in their physical order along the chromosomes.
Optional Input files
External/reference files
External/reference (e.g., HapMap) input files (snp and haplotype files) are optional. Mach 1.0 accepts two different formats: MACH format or HapMap format.
MACH format SNP File
One line per SNP and one field (marker name) only.
For example:
marker1 marker2 ...
MACH format Haplotype File
One line per haplotype.
Heading identification fields are optional.
Each non-haplotype/heading field shall not start with a numeric digit.
For example:
H_0001->H_0001 HAPLO1 2332323244332 H_0001->H_0001 HAPLO2 2332323422132 H_0002->H_0002 HAPLO1 3332323244332 H_0002->H_0002 HAPLO2 3311321242332 ...
HapMap format reference files
HapMap format files can be downloaded from http://hapmap.org/downloads/phasing/2006-07_phaseII/phased/ or http://hapmap.org/downloads/phasing/2007-08_rel22/phased/
HapMap format SNP File: legend file downloaded from HapMap website
HapMap format Haplotype File: phase file downloaded from HapMap website
When using HapMap format files, turn on --hapmapFormat option.
mach1 -d sample.dat -p sample.ped -s genotypes_chr14_CEU_r21_nr_fwd_legend.txt -h genotypes_chr14_CEU_r21_nr_fwd_phased.gz --hapmapFormat ...
Physical position file
Parameter files
Options
Input Files: --datfile Marker information file for subjects under study. --pedfile Pedigree file for subjects under study.
FAQ
Q: Why and how to perform a 2-step imputation?
A: When one has a large number of individuals (>1000), we recommend a 2-step imputation to speed up.
A 2-step imputation contains the following 2 steps:
(step 1) a representative subset of >= 200 unrelated individuals are used to calibrate model parameters; and
(step 2) actual genotype imputation is performed for every person using parameters inferred in step 1.
Example command lines for a 2-step imputation:
#step 1: mach1 -d sample.dat -p subset.ped -s chr20.snps -h chr20.hap --compact --greedy --autoFlip -r 100 -o par_infer > mach.infer.log
# step 2: mach1 -d sample.dat -p sample.ped -s chr20.snps -h chr20.hap --compact --greedy --autoFlip --errorMap par_infer.erate --crossoverMap par_infer.rec --mle --mldetails > mach.imp.log
Q: Where can I find combined HapMap reference files?
A: http://www.sph.umich.edu/csg/yli/mach/download/HapMap-r21.html
Q: Where can I find HapMap III reference files?
Q: Where can I find 1000 Genomes reference files?
A: http://www.sph.umich.edu/csg/yli/mach/download/
Q: Does --mle overwrite fed-in genotypes?
A: Yes. But rarely. --mle outputs the most likely genotype guesses by integrating over the probabilities of all possible configurations based on the reference haplotypes. The overwriting happens when the most likely guess differs from the experimental counterpart.
Q: How do I get imputation quality estimates?
A: A simple approach is to use --mask option. For example, --mask 0.02 masks 2% of the genotypes at random, impute them and compare with the masked original to estimate genotypic and allelic error rates. Messages like the following will be generated to stdout:
Comparing 948352 masked genotypes with MLE estimates ...
Estimated per genotype error rate is 0.0568
Estimated per allele error rate is 0.0293
Q: How do I get reference files for an region of interest?
A: (1) For HapMapII format, download http://www.sph.umich.edu/csg/ylwtx/HapMapForMach.tgz
(2) For MACH format, you can do the following:
(2-1) First, find the first and last SNP in the region you are interested in. Say "rsFIRST" and "rsLAST", defined according to position.
(2-2) Then:
@ first = `grep -n rsFIRST orig.snps | cut -f1 -d ':'` @ last = `grep -n rsLAST orig.snps | cut -f1 -d ':'`
(2-3) Finally (assuming the third field contains the actual haplotypes, where alleles are separated by nothing):
awk '{print $3}' orig.hap | cut -c${first}-${last} > region.hap
Q: Do I have to sort the pedigree file by physical positions?
A: If you use external reference, you do not have to as long as the external reference is in correct order. **HOWEVER**, we strongly recommend sorting the pedigree files.
Q: What if I specified --states R where R exceeds the maximum possible (2*number diploid individuals - 2 + number_haplotypes)?
A: mach automatically resets it to maximum possible value.
Q: Can I used unphased reference?
A: Yes. You simply need a combined pedigree (.ped) and marker information file (.dat).
For example, if you have:
ref.hap
ACGGA
CCGAA
ref.snps
SNP1
SNP2
SNP3
SNP4
SNP5
sample.ped
1 1 0 0 1 A/A G/G
sample.dat
M SNP1
M SNP4
The combined files should look like:
comb.ped
r1 r1 0 0 1 A/C C/C G/G G/A A/A
1 1 0 0 1 A/A ./. ./. G/G ./.
comb.dat
M SNP1
M SNP2
M SNP3
M SNP4
M SNP5
Examples
Imputation
mach1 -d sample.dat -p sample.ped -s hapmap.snps -h hapmap.hap -r 100 -o phase
