A new standard genetic map for the laboratory mouse.

Authors

A Cox
Bicknell C. Ackert
B L. DumontFollow
Y Ding
J T. Bell
G A. Brockmann
J E. Wergedal
C BultFollow
B PaigenFollow
J Flint
S W. Tsaih
G A. ChurchillFollow
K W. Broman

Document Type

Article

Publication Date

2009

First Page

1335

Last Page

1344

JAX Source

Genetics 2009 Aug; 182(4):1335-44.

Abstract

Genetic maps provide a means to estimate the probability of the co-inheritance of linked loci as they are transmitted across generations in both experimental and natural populations. However, in the age of whole-genome sequences, physical distances measured in base pairs of DNA provide the standard coordinates for navigating the myriad features of genomes. Although genetic and physical maps are colinear, there are well-characterized and sometimes dramatic heterogeneities in the average frequency of meiotic recombination events that occur along the physical extent of chromosomes. There also are documented differences in the recombination landscape between the two sexes. We have revisited high-resolution genetic map data from a large heterogeneous mouse population and have constructed a revised genetic map of the mouse genome, incorporating 10,195 single nucleotide polymorphisms using a set of 47 families comprising 3546 meioses. The revised map provides a different picture of recombination in the mouse from that reported previously. We have further integrated the genetic and physical maps of the genome and incorporated SSLP markers from other genetic maps into this new framework. We demonstrate that utilization of the revised genetic map improves QTL mapping, partially due to the resolution of previously undetected errors in marker ordering along the chromosome.

Recommended Citation

Cox A, Ackert BC, Dumont BL, Ding Y, Bell JT, Brockmann GA, Wergedal JE, Bult C, Paigen B, Flint J, Tsaih SW, Churchill GA, Broman KW. A new standard genetic map for the laboratory mouse. Genetics 2009 Aug; 182(4):1335-44.