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Developmental and genetic origins of murine long bone length variation
Thomas J. Sanger
, Elizabeth A. Norgard
, L. Susan Pletscher
, Michael Bevilacqua
, Victoria R. Brooks
, Linda J. Sandell
, James M. Cheverud
Department of Orthopedic Surgery
Research output
:
Contribution to journal
›
Article
›
peer-review
40
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Scopus citations
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Keyphrases
Genetic Origin
100%
Developmental Origins
100%
Length Variation
100%
Long Bone Length
100%
Cellular Processes
66%
Growth Plate
66%
Growth Rate
66%
Elongation Rate
66%
Adult Morphology
66%
Cell Division
33%
Embryonic Development
33%
Chondrocyte Hypertrophy
33%
Genetic Correlation
33%
Intercross
33%
Early Development
33%
Developmental Processes
33%
Molecular Processes
33%
Rate Difference
33%
Age-specific
33%
Body Size
33%
Cellular Dynamics
33%
Quantitative Variation
33%
Morphological Evolution
33%
Specific Traits
33%
Adult Form
33%
Maximum Time
33%
Allometry
33%
Recombinant Inbred Strains
33%
Morphological Variation
33%
Complex Morphology
33%
Long Bone Growth
33%
Maximum Elongation
33%
Juvenile Growth
33%
Biochemistry, Genetics and Molecular Biology
Genetics
100%
Morphology
100%
Dynamics
50%
Cell Division
50%
Chondrocyte
50%
Embryogenesis
50%
Bone Growth
50%
Genetic Correlation
50%
Body Size
50%
Recombinant Inbred Strain
50%
Immunology and Microbiology
Morphology
100%
Cell Division
50%
Embryo Development
50%
Genetic Correlation
50%
Chondrocyte
50%
Dynamics
50%
Bone Growth
50%
Body Size
50%
Recombinant Inbred Strain
50%
Neuroscience
Cell Division
100%
Allometry
100%