References

Ankra-Badu, G.A., E. Le Bihan-Duval, S. Mignon-Grasteau, F. Pitel and C. Beaumont et al., 2010. Mapping QTL for growth and shank traits in chickens divergently selected for high or low body weight. Anim. Genet, 41: 400-405.
PubMed  |  Direct Link  |  

Atzmon, G., S. Blum, M. Feldman, A. Cahaner, U. Lavi and J. Hillel, 2008. QTLs detected in a multigenerational resource chicken population. J. Heredity, 99: 528-538.
Direct Link  |  

Cai, S., Y. Liu, C. Zhang, W. Fu and Y. Gong et al., 2011. Mapping of quantitative trait loci for hematological traits on pig chromosome 10. Asian J. Anim. Vet. Adv., 6: 469-475.
CrossRef  |  

Carborg, O., S. Kerje, K. Schutz, L. Jacobsson, P. Jensen and L. Anderson, 2003. A global search reveals epistatic interaction between QTL for early growth in the chicken. Genome Res., 13: 413-421.
CrossRef  |  Direct Link  |  

Chambers, G.K., 1990. The genetics of human alcohol metabolism. Gen. Pharmacol., 21: 267-272.
PubMed  |  Direct Link  |  

Churchill, G.A. and R.W. Doerge, 1994. Empirical threshold values for quantitative trait mapping. Genetics, 138: 963-971.
Direct Link  |  

Deeb, N. and S.J. Lamont, 2002. Genetic architecture of growth and body composition in unique chicken populations. J. Heredity, 93: 107-118.
CrossRef  |  Direct Link  |  

Gholizadeh, M., G.R. Mianji and H.S. Zadeh, 2008. Potential use of molecular markers in the genetic improvement of livestock. Am. J. Anim. Vet. Adv., 3: 120-128.
CrossRef  |  Direct Link  |  

Goldstein, D.B., A.R. Linares, L.L. Cavalli-Sforza and M.W. Feldman, 1995. An evaluation of genetic distances for use with microsatellite loci. Genetics, 139: 463-471.
Direct Link  |  

Han, R.L., X.Y. Lan, L.Z. Zhang, G. Ren and Y.J. Jing et al., 2010. A novel single-nucleotide polymorphism of the visfatin gene and its associations with performance traits in the chicken. J. Applied Genet., 51: 59-65.
PubMed  |  Direct Link  |  

Han, R.L., Z.J. Li, M.J. Li, J.Q. Li and X.Y. Lan et al., 2011. Novel 9-bp indel in visfatin gene and its associations with chicken growth. Br. Poult. Sci., 52: 52-57.
PubMed  |  

Ikeobi, C.O., J.A. Woolliams, D.R. Morrice, A. Law, D. Windsor, D.W. Burt and P.M. Hocking. 2002. Quantitative trait loci affecting fatness in the chicken. Anim. Genet., 33: 428-435.
PubMed  |  

Jacobsson, L., H.B. Park, P. Wahlberg, R. Fredriksson, M. Perez-Enciso, P.B. Siegel and L. Andersson, 2005. Many QTLs with minor additive effects are associated with a large difference in growth between two selection lines in chickens. Genet. Res., 86: 115-125.

Kerje, S., O. Carlborg, L. Jacobsson, K. Schutz, C. Hartmann, P. Jensen and L. Andersson, 2003. The twofold difference in adult size between the red junglefowl and White Leghorn chickens is largely explained by a limited number of QTLs. Anim. Genet., 34: 264-274.
PubMed  |  

Knott, S.A., L. Marklund, C.S. Haley, K. Andersson and W. Davis et al., 1998. Multiple marker mapping of quantitative trait loci in a cross between outbred wild boar and large white pigs. Genetics, 149: 1069-1080.
PubMed  |  Direct Link  |  

Lander, E. and L. Kruglyak, 1995. Genetic dissection of complex traits: Guidelines for interpreting and reporting linkage results. Nat. Genet., 11: 241-247.
PubMed  |  

Marklund, L., P.E. Nystrom, S. Stern, L. Andersson-Eklund and L. Andersson, 1999. Confirmed quantitative trait loci for fatness and growth on pig chromosome 4. Heredity, 82: 134-141.
PubMed  |  

McElroy, J.P., J.J. Kim, D.E. Harry, S.R. Brown, J.C. Dekkers and S.J. Lamont, 2006. Identification of trait loci affecting white meat percentage and other growth and carcass traits in commercial broiler chickens. Poult. Sci., 85: 593-605.
Direct Link  |  

McQueen, H.A., J. Fantes, S.H. Cross, V.H. Clark, A.L. Archibald and A.P. Bird, 1996. CpG islands of chicken are concentrated on microchromosomes. Nat. Genet., 12: 321-324.
PubMed  |  

Nadaf, J., F. Pitel, H. Gilbert, M.J. Duclos and F. Vignoles et al., 2009. QTL for several metabolic traits map to loci controlling growth and body composition in an F2 intercross between high-and low-growth chicken lines. Physiol. Genomics, 38: 241-249.
PubMed  |  

Rabie, T.S., R.P. Crooijmans, H. Bovenhuis, A.L. Vereijken and T. Veenendaal et al., 2005. Genetic mapping of quantitative trait loci affecting susceptibility in chicken to develop pulmonary hypertension syndrome. Anim. Genet., 36: 468-476.

Schreiweis, M.A., P.Y. Hester and D.E. Moody, 2005. Identification of quantitative trait loci associated with bone traits and body weight in an F2 resource population of chickens. Genet. Sel. Evol., 37: 677-698.
PubMed  |  

Smith, J., C.K. Bruley, I.R. Paton, I. Dunn and C.T. Jones et al., 2000. Differences in gene density on chicken macrochromosomes and microchromosomes. Anim. Genet., 31: 96-103.

Takezaki, N. and M. Nei, 1996. Genetic distances and reconstruction of phylogenetic trees from microsatellite DNA. Genetics, 144: 389-399.
Direct Link  |  

Torkamanzehi, A. and U. Kuhnlein, 2007. Restriction fragment length and single strand conformational polymorphisms in chicken mitochondrial phosphoenol-pyruate carboxykinase gene and its association with egg production. Pak. J. Biol. Sci., 10: 4075-4080.
CrossRef  |  PubMed  |  Direct Link  |  

Tsudzuki, M., S. Onitsuka, R. Akiyama, M. Iwamizu and N. Goto et al., 2007. Identification of quantitative trait loci affecting shank length, body weight and carcass weight from the Japanese cockfighting chicken breed, Oh-Shamo (Japanese large game). Cytogenet. Genome Res., 117: 288-295.
CrossRef  |  PubMed  |  Direct Link  |  

Visscher, P.M., R. Thompson and C.S. Haley, 1996. Confidence intervals in QTL mapping by bootstrapping. Genetics, 143: 1013-1020.
Direct Link  |  

Wang, Q., H. Li, N. Li, L. Leng, Y. Wang and Z. Tang, 2006. Identification of single nucleotide polymorphism of adipocyte fatty acid-binding protein gene and its association with fatness traits in the chicken. Poult. Sci., 85: 429-434.
Direct Link  |  

Zhou, H., N. Deeb, C.M. Evock-Clover, C.M. Ashwell and S.J. Lamont, 2006. Genome-wide linkage analysis to identify chromosomal regions affecting phenotypic traits in the chicken. II. Body composition. Poult. Sci., 85: 1712-1721.
CrossRef  |  Direct Link  |