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Michael Hammer, John Schimenti, Lee Silver (1989)
Evolution of mouse chromosome 17 and the origin of inversions associated with t haplotypes.Proceedings of the National Academy of Sciences of the United States of America, 86 9
(1998)
Mouse Chromosome 17 Committee Report, http://www.jax.org
W. Dietrich, Joyce Miller, R. Steen, Mark Merchant, Deborah Damron-Boles, Z. Husain, R. Dredge, M. Daly, Kimberly Ingalls, Tara O'Connor, C. Evans, M. DeAngelis, David Levinson, L. Kruglyak, N. Goodman, N. Copeland, N. Jenkins, T. Hawkins, L. Stein, D. Page, E. Lander (1996)
A comprehensive genetic map of the mouse genomeNature, 381
H. Jones (1997)
Estimating physical distances from radiation hybrid mapping data.Genomics, 43 3
Michael McClelland, J. Hanish, M. Nelson, Y. Patel (1988)
KGB: a single buffer for all restriction endonucleasesNucleic acids research, 16 1
H. Himmelbauer, L. Silver (1993)
High-resolution comparative mapping of mouse chromosome 17.Genomics, 17 1
L. McCarthy, J. Terrett, Maria Davis, Catherine Knights, Angela Smith, R. Critcher, K. Schmitt, J. Hudson, N. Spurr, P. Goodfellow (1997)
A first-generation whole genome-radiation hybrid map spanning the mouse genome.Genome research, 7 12
M. Breen, Lisa Deakln, B. Macdonald, Steven Miller, R. Sibson, Emma Tarttelln, P. Avner, Franck Bourgade, J. Guénet, X. Montagutelli, Christophe Polrier, D. Simon, D. Tailor, M. Bishop, M. Kelly, F. Rysavy, S. Rastan, D. Norris, D. Shepherd, C. Abbott, Alison Pllz, Sarah Hodge, I. Jackson, Y. Boyd, H. Blair, G. Maslen, J. Todd, P. Reed, J. Stoye, A. Ashworth, L. McCarthy, R. Cox, L. Schalkwyk, H. Lehrach, J. Klose, U. Gangadharan, Steve Brown (1994)
Towards high resolution maps of the mouse and human genomes--a facility for ordering markers to 0.1 cM resolution. European Backcross Collaborative Group.Human molecular genetics, 3 4
We have made a radiation hybrid map of mouse Chromosome (Chr) 17 with 75 microsatellite markers, including those from McCarthy et al. (Genome Res 7, 1153–1161, 1997). Seventy-four of the markers are linked at LOD > 9, and all link at LOD > 5. A LOD 3 framework of 18 markers was used to construct a placement map. The order obtained is in good agreement with genetic maps, and distance estimates give an idea of how recombination rates vary across the chromosome. Recombination is remarkably low with respect to RH break frequency in the region from the centromere to the end of H2. This is similar in interspecific and intersubspecific crosses despite the inversion of a substantial part of this region in Mus spretus with respect to Mus musculus.
Mammalian Genome – Springer Journals
Published: Oct 1, 1998
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