!------------------------------------------------------------------------------ ! Program GIN4IMPRINT ! ! Auxiliary program for WOMBAT to set up inverse of gametic relationship matrix ! ! Files written out allow imprinting effects to be fitted with a GIN covariance ! structure: ! 1. The .gin file -> default name: imprint.gin ! 2. The corresponding .codes file -> default name: imprint.codes ! Gametes are coded as: animal ID * 10 + 1 (paternal) and ! animal ID * 10 + 2 (maternal) ! => need to add corresponding column to data file! ! Input required: ! Pedigree file (after pruning) with animal, sire and dam ID recoded in ! running order and animals' inbreeding coefficients; ! this can easily be generated by WOMBAT by running a set-up step for a ! corresponding model without the imprinting effect(s) fitted ! ! Code for gametic relationship matrix written by Bruce Tier !-------------------------------------------------------------km----02/2011-----
WOMBAT readily allows for models fitting imprinting effects. These are best fitted as gametic effects, setting up the inverse of the gametic relationship matrix externally and supplying it to the analysis as .gin
file.
To make this task simpler, a FORTRAN program – written by Bruce Tier – is available:
Details on its use are given as comments at the beginning of the source code and in the box on the right; an example analysis can be found in Example4/D. In brief:
PrunedPedFile1.dat
Gin4Imprint
. This will use the pedigree list and inbreeding coefficients from PrunedPedFile1.dat
to:imprint.gin
. Note that this matrix has twice the number of rows and columns than there are animals in the pedigree, corresponding to the two gametes for eacg individual.imprint.codes
Gin4Imprint
will stop with an error message if this occurs).imprint.gin
and imprint.codes
are the same for both cases.imprint
, RAN imprint GIN
to the model block, and PED pedigree.dat DAT impdata.dat fixeff 2 animal record imprint end ANAL UNI MODEL RAN animal NRM RAN imprint GIN FIX fixeff TR record END VAR animal 1 16 VAR imprint 1 2 VAR error 1 20
Ready!
N.B. The above shows how to fit a gametic effect in addition to animals' additive genetic effects. Other models can be fitted analogously, e.g. we may wish to fit both maternal and paternal gametic effects and allow for a correlation between them, but exclude additive genetic effects.
@ARTICLE{cbruce11, author = {Tier, B. and Meyer, K.}, title = {The effect of imprinted genes on carcass traits in Australian Angus and Hereford cattle}, journal = {Proc. Ass. Advan. Anim. Breed. Genet.}, volume = {19}, year = {2011}, pages = {63--66} } @article{tier2010, author = {Tier, B. and Meyer, K.}, title = {On the analysis of parent-of-origin effects with examples from ultrasonic measures of carcass traits in Australian beef cattle}, journal = {Journal of Animal Breeding and Genetics}, year = 2012, volume = 129, number = 5, pages = {359--368}, url = {http://dx.doi.org/10.1111/j.1439-0388.2012.00996.x}, } @Article{km11b, author = {Meyer, K. and Tier, B.}, title = {Estimates of variances due to parent of origin effects for weights of Australian beef cattle}, journal = {Animal Production Science}, year = 2012, volume = {52}, pages = {215--224}, url = {http://dx.doi.org/10.1071/AN11195} }