Merlin exercise Copy the files from f:\stacey\2001\merlin : merlin.ped - pedigree file containing mother, father, and 3 offspring merlin.dat - QTDT format file specifying what is in the ped file merlin.map - map file specifying distances between loci sparse.map - map file specifying distances between loci sample.ped - anonymous genome scan for a common disease sample2.ped - anonymous genome scan for a common disease (cut in half) First look for pedigree errors: Start GRR (Start menu->Genetics->GRR) and load in sample2.ped Use all-pairs ====================================================================== Compute singlepoint ibds and save them to merlin.ibd: Start a DOS Window cd into where you copied the files merlin --single --ibd For each marker, look at the ibd sharing at each locus among the offspring (sibs), who are individuals 3, 4, and 5 in the pedigree: grep "1 3 4" merlin.ibd > sib.ibd Compute multipoint ibds and haplotypes, saved to merlin.ibd & merlin.chr: merlin --ibd --error --best Re-examine (using grep) merlin.ibd to see how multipoint ibd estimates differ from singlepoint. Look at merlin.chr to see the estimated haplotypes for the family. What happens if there is a possible genotype error? merlin -p double.ped --error --best Would this error have been detected if we used a sparse map? Modify merlin.map to change it to a 10cM map. copy merlin.map sparse.map and modify merlin -p double.ped -m sparse.map --error ====================================================================== As an exercise to be done before Thursday, Copy the Keavney data from f:\stacey\2001\ace pedstats -p merlin.ped -d merlin.dat merlin --ibd --error --one Examine the various output files