Ankra-Badu1: QTL analysis of growth, body composition and reproduction in M16i x L6 F2 intercross (2009)

Ankra-Badu GA, Churchill GA   With: Pomp D, Shriner D, Allison DB, Yi N

       
Ankra-Badu1 downloads
QTL projects have several available downloads.
Use the QTL Data Downloads button near the bottom of this page.
Investigators G A Ankra-Badu
Gary A Churchill       The Jackson Laboratory,  Bar Harbor, ME
Participants Pomp D, Shriner D, Allison DB, Yi N
ContactGary A Churchill     gary.churchill@jax.org
Affiliated CenterQTL Archive
AcknowledgementsWork funded by a number of grants, please see the Excel file for complete acknowledgements.
Project type QTL Archive data set
MPD identifiersAnkra-Badu1     MPD:212
Data changelog No updates/corrections.       Initial release date: 04/2010.
To understand the genetic architecture of complex polygenic traits, an F2 intercross between strain M16i (high weight gain) and L6 (low weight gain) were generated to identify the QTLs affecting body weight growth, body composition and reproduction. Mice were fed Purina Mouse Chow 5015 from mating through weaning of pups at 3 weeks, and Purina Laboratory Chow 5001 was provided after weaning. Mice were weighed at 3, 6, and 10 wks of age. The organs were weighed when mice reached 70 days of age. For detailed protocols see Rocha et al 2004.


QTL data set parameters:
Progenitor strains L6     M16i    
Cross direction notation(M16ixL6) x (M16ixL6)
Cross typeF2 intercross
Population size 445 ♀     560 ♂


Measured phenotypes:       To access these data use the QTL Data Downloads button at bottom of page.

Associated genomic features
MGI-curated QTL / genomic features that have been associated with this data set:
Dfq1   Egaq1   Egaq2   Egaq3   Egaq4   Egq1   Egq10   Egq11   Egq12   Egq2   Egq3   Egq4   Egq5   Egq6   Egq7   Egq8   Egq9   Epfpq1   Epfpq2   Epfpq3   Epfpq4   Epfq1   Epfq2   Epfq3   Epfq4   Epfq5   Espq1   Espq2   Espq3   Espq4   Estoq1   Estoq2   Estoq3   Estoq4   Hrtpq1   Hrtq1   Hrtq2   Hrtq3   Kidpq1   Kidpq2   Kidq1   Kidq2   Kidq3   Kidq4   Kidq5   Kidq6   Kidq7   Lfq1   Lfq2   Lfq3   Lgaq1   Lgaq2   Lgaq3   Lgaq4   Lgaq5   Lgq1   Lgq2   Lgq3   Lgq4   Lgq5   Lgq6   Lvrq1   Lvrq10   Lvrq2   Lvrq3   Lvrq4   Lvrq5   Lvrq6   Lvrq7   Lvrq8   Lvrq9   Oriq1   Oriq2   Oriq3   Pwatq1   Scfpq1   Scfq1   Scfq2   Scfq3   Scfq4   Splq1   Splq2   Splq3   Splq4   Splq5   Splq6   Splq7   Splq8   Splq9   Tailaq1   Tailaq2   Tailaq3   Tailaq4   Tailq1   Tailq2   Tailq3   Tailq4   Tailq5   Tailq6   Tesq1   Tesq2   Tesq3   W10q1   W10q10   W10q11   W10q12   W10q13   W10q14   W10q15   W10q16   W10q17   W10q18   W10q2   W10q3   W10q4   W10q5   W10q6   W10q7   W10q8   W10q9   W3q1   W3q10   W3q11   W3q12   w3q13   W3q14   W3q15   W3q16   W3q17   W3q2   W3q3   W3q4   W3q5   W3q6   W3q7   W3q8   W3q9   W6q1   W6q10   W6q11   W6q12   W6q13   W6q14   W6q15   W6q16   W6q17   W6q2   W6q3   W6q4   W6q5   W6q6   W6q7   W6q8   W6q9  


Project / data set:   Ankra-Badu1     a.k.a. Ankra-Badu_2009
Excel file:   ._Data_Description_M16ixL6_Ankra-Badu.xlsx
Excel file:   ._Data_Description_M16ixL6_Ankra-Badu2.xlsx
Excel file:   ._Data_Description_M16ixL6_Ankra-Badu2009.xlsx
Excel file:   Data_Description_M16ixL6_Ankra-Badu2009.xlsx
CSV file:   ._Ankra-Badu2009_M16ixL6_B37_Data.csv
CSV file:   ._M16ixL6_B37_Data.csv
CSV file:   Ankra-Badu2009_M16ixL6_B37_Data.csv
Readme / text file:   ._readme.txt
Readme / text file:   readme_Ankra-Badu2009.txt
QC plots, figures, etc.:   QCReport_Ankra-Badu2009.pdf


References   (chronological)

1.   Rocha JL, Eisen EJ, Van Vleck LD, Pomp D. A large-sample QTL study in mice: I. Growth. Mamm Genome. 2004 Feb;15(2):83-99.   PubMed 15058380  

2.   Rocha JL, Eisen EJ, Van Vleck LD, Pomp D. A large-sample QTL study in mice: II. Body composition. Mamm Genome. 2004 Feb;15(2):100-13.   PubMed 15058381  

3.   Rocha JL, Eisen EJ, Siewerdt F, Van Vleck LD, Pomp D. A large-sample QTL study in mice: III. Reproduction. Mamm Genome. 2004 Nov;15(11):878-86.   PubMed 15672592  

4.   Yi N, Shriner D, Banerjee S, Mehta T, Pomp D, Yandell BS. An efficient Bayesian model selection approach for interacting quantitative trait loci models with many effects. Genetics. 2007 Jul;176(3):1865-77. Epub 2007 May 4.   PubMed 17483424     FullText

5.   Yi N, Banerjee S, Pomp D, Yandell BS. Bayesian mapping of genomewide interacting quantitative trait loci for ordinal traits. Genetics. 2007 Jul;176(3):1855-64. Epub 2007 May 16.   PubMed 17507680     FullText

6.   Ankra-Badu GA, Pomp D, Shriner D, Allison DB, Yi N. Genetic influences on growth and body composition in mice: multilocus interactions. Int J Obes (Lond). 2009 Jan;33(1):89-95. Epub 2008 Nov 4.   PubMed 18982013