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Heredity
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October 1, 1992
A simple regression method for mapping quantitative trait loci in line crosses using flanking markers
C S Haley, S A Knott
Genetics
|
December 1, 1992
Maximum likelihood mapping of quantitative trait loci using full-sib families
S A Knott, C S Haley
Heredity
|
December 1, 1983
The genetical response to natural selection by varied environments. II. Observations on replicate populations in spatially varied laboratory environments
C S Haley, A J Birley
Genetics
|
February 1, 1987
The Genetical Response to Natural Selection by Varied Environments. IV. Gametic Disequilibrium in Spatially Varied Environments
A J Birley, C S Haley
Journal of Dairy Science
|
October 20, 1998
Strategies to utilize marker-quantitative trait loci associations
C S Haley, P M Visscher
Animal Genetics
|
October 1, 1995
Mapping the soluble angiotensin binding protein (ABP1) locus to porcine chromosome 16
W Zhang, C S Haley, C Moran
Heredity
|
April 1, 1992
Methods of segregation analysis for animal breeding data: a comparison of power
S A Knott, C S Haley, R Thompson
Heredity
|
April 1, 1992
Methods of segregation analysis for animal breeding data: parameter estimates
S A Knott, C S Haley, R Thompson
Genetical Research
|
December 6, 2001
Selection and subsequent analysis of sib pair data for QTL detection
D G Chatziplis, H Hamann, C S Haley
Heredity
|
April 1, 1981
The monozygotic twin half-sib method for analysing maternal effects and sex-linkage in humans
C S Haley, J L Jinks, K Last
Page
of 12
Search research articles
Search
Showing results (11-20 of 120) with videos related to
Sort By:
Page
of 12
Heredity
|
October 1, 1992
A simple regression method for mapping quantitative trait loci in line crosses using flanking markers
C S Haley, S A Knott
Genetics
|
December 1, 1992
Maximum likelihood mapping of quantitative trait loci using full-sib families
S A Knott, C S Haley
Heredity
|
December 1, 1983
The genetical response to natural selection by varied environments. II. Observations on replicate populations in spatially varied laboratory environments
C S Haley, A J Birley
Genetics
|
February 1, 1987
The Genetical Response to Natural Selection by Varied Environments. IV. Gametic Disequilibrium in Spatially Varied Environments
A J Birley, C S Haley
Journal of Dairy Science
|
October 20, 1998
Strategies to utilize marker-quantitative trait loci associations
C S Haley, P M Visscher
Animal Genetics
|
October 1, 1995
Mapping the soluble angiotensin binding protein (ABP1) locus to porcine chromosome 16
W Zhang, C S Haley, C Moran
Heredity
|
April 1, 1992
Methods of segregation analysis for animal breeding data: a comparison of power
S A Knott, C S Haley, R Thompson
Heredity
|
April 1, 1992
Methods of segregation analysis for animal breeding data: parameter estimates
S A Knott, C S Haley, R Thompson
Genetical Research
|
December 6, 2001
Selection and subsequent analysis of sib pair data for QTL detection
D G Chatziplis, H Hamann, C S Haley
Heredity
|
April 1, 1981
The monozygotic twin half-sib method for analysing maternal effects and sex-linkage in humans
C S Haley, J L Jinks, K Last
Page
of 12