Browsing by Author Martin, Ian

Jump to: 0-9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
or enter first few letters:  
Showing results 1 to 9 of 9
Issue DateTitleAuthor(s)Citation
2007Bodyweight QTL on mouse chromosomes 4 and 11 by selective genotyping: regression v. maximum likelihoodBenyamin, B; Martin, Ian; Moran, Christopher; Thomson, Peter; Buckley, M; Cheung, Carol C.; Visscher, Peter M.; REPROGEN; Vet Science Faculty; Vet Science Faculty; Vet Science FacultyBodyweight QTL on mouse chromosomes 4 and 11 by selective genotyping: regression v. maximum likelihood, Australian Journal of Experimental Agriculture, vol.47,(N/A),2007,pp 677-682
2004Development Of A Highly Fecund Inbreed Strain Of MiceHolt, Marte; James, John; Martin, Ian; Moran, Christopher; Nicholas, Frank; REPROGEN; Animal Science; Vet Science Faculty; Vet Science Faculty; Vet Science FacultyDevelopment Of A Highly Fecund Inbreed Strain Of Mice, Mammalian genome, vol.15,(12),2004,pp 951-959
2007Genomewide Analysis of Secretory Activation in Mouse ModelsMartin, Ian; Moran, Christopher; Ramanathan, Palaniappan; Taylor, Rosanne; Thomson, Peter; Williamson, Peter; Vet Science Faculty; Vet Science Faculty; Biological Sciences; Vet Science Faculty; Vet Science Faculty; Vet Science FacultyGenomewide Analysis of Secretory Activation in Mouse Models, Journal of Mammary Gland Biology and Neoplasia, vol.12,(4),2007,pp 305-314
2014An integrated genomics approach to identify genetic regions associated with neonatal growth trait in miceMartin, Ian; Moran, Christopher; Ramanathan, Palaniappan; Taylor, Rosanne; Thomson, Peter; Wei, Jerry; Williamson, Peter; Vet Science Faculty; Vet Science Faculty; Biological Sciences; Vet Science Faculty; Vet Science Faculty; Vet Science Faculty; Vet Science FacultyAn integrated genomics approach to identify genetic regions associated with neonatal growth trait in mice, Animal Biotechnology, vol.25, 2, 2014,pp 85-97
2013An intergrative Genomic Analysis of the Superior fecundity Phenotype in QSi5 MiceMartin, Ian; Moran, Christopher; Ramanathan, Palaniappan; Thomson, Peter; Wei, Jerry; Williamson, Peter; Vet Science Faculty; Vet Science Faculty; Biological Sciences; Vet Science Faculty; Vet Science Faculty; Vet Science FacultyAn intergrative Genomic Analysis of the Superior fecundity Phenotype in QSi5 Mice, Molecular Biotechnology, vol.53, N/A, 2013,pp 217-226
2012QTL mapping of complex binary traits in an advanced intercross lineMartin, Ian; Moran, Christopher; Thomson, Peter; Harvey, R; Kirk, E. P. E.; Marjaneh, Mahdi; Vet Science Faculty; Vet Science Faculty; Vet Science FacultyQTL mapping of complex binary traits in an advanced intercross line, Animal Genetics, vol.43, Suppl. 1, 2012,pp 97-101
2004Quantitative Trait Loci For Steady-State Platelet Count In MiceMartin, Ian; Moran, Christopher; Thomson, Peter; Buckley, Michael; Cheung, Carol; Donald, Jenny; Zenger, Kyall; Vet Science Faculty; Vet Science Faculty; Vet Science FacultyQuantitative Trait Loci For Steady-State Platelet Count In Mice, Mammalian genome, vol.15,(10),2004,pp 784-797
2006Quantitative Trait Loci Modifying Cardiac Atrial Septal Morphology and Risk of Patent Foramen Ovale in the MouseMartin, Ian; Moran, Christopher; Thomson, Peter; Biben, C; Buckley, M; Castro, M; Harvey, Richard P; Hyun, C; Kirk, Edwin P; Lai, D; Vet Science Faculty; Vet Science Faculty; Vet Science FacultyQuantitative Trait Loci Modifying Cardiac Atrial Septal Morphology and Risk of Patent Foramen Ovale in the Mouse, Circulation Research, vol.98,(5),2006,pp 651-658
2008Transcriptome analysis identifies pathways associated with enhanced maternal performance in QSi5 miceGardiner-Garden, Margaret; Martin, Ian; Moran, Christopher; Ormandy, Christopher; Ramanathan, Palaniappan; Taylor, Rosanne; Thomson, Peter; Williamson, Peter; Dairy Research Foundation; Vet Science Faculty; Vet Science Faculty; Medicine Faculty Office; Biological Sciences; Vet Science Faculty; Vet Science Faculty; Vet Science FacultyTranscriptome analysis identifies pathways associated with enhanced maternal performance in QSi5 mice, BMC Genomics, vol.9,(N/A),2008,pp 197: 1 - 13-N/A