W. R. Atchley, Genetic and developmental aspects of variability in the mammalian mandible, pp.207-247, 1993.

W. R. Atchley and B. K. Hall, A model for development and evolution of complex morphological structures, Biol. Rev. Camb. Philos. Soc, vol.66, pp.101-157, 1991.

W. R. Atchley, A. A. Plummer, and B. Riska, Genetics of mandible form in the mouse, Genetics, vol.111, pp.555-577, 1985.

D. W. Bailey, Genes that affect the shape of the murine mandible. Congenic strain analysis, J. Hered, vol.76, pp.107-114, 1985.

L. Boell, S. Gregorova, J. Forejt, and D. Tautz, A comparative assessment of mandible shape in a consomic strain panel of the house mouse (Mus musculus)-implications for epistasis and evolvability of quantitative traits, BMC Evol. Biol, vol.11, p.309, 2011.

F. L. Bookstein, M. Marcus, A. Corti, G. J. Lov, D. E. Naylor et al., Combining the tools of geometric morphometrics, Advances in Morphometrics, pp.131-151, 1996.

F. L. Bookstein, P. Gunz, P. Mitteroecker, H. Prossinger, and K. Schaefer, Cranial integration in Homo: singular warps analysis of the midsagittal plane in ontogeny and evolution, J. Hum. Evol, vol.44, pp.167-187, 2003.

G. Burgio, M. Szatanik, J. Guenet, M. Arnau, and J. Panthier, Interspecific recombinant congenic strains between C57BL/6 and mice of the Mus spretus species: a powerful tool to dissect genetic control of complex traits, Genetics, vol.177, pp.2321-2333, 2007.
URL : https://hal.archives-ouvertes.fr/pasteur-02552795

G. Burgio, M. Baylac, E. Heyer, and X. Montagutelli, Genetic analysis of skull shape variation and morphological integration in the mouse using interspecific recombinant congenic strains between C57BL/6 and mice of the mus spretus species, Evolution, vol.63, pp.2668-2686, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00434926

G. Burgio, M. Baylac, E. Heyer, and X. Montagutelli, Nasal bone shape is under complex epistatic genetic control in mouse interspecific recombinant congenic strains, PLoS ONE, vol.7, p.377721, 2012.

Y. Chai and R. E. Maxson, Recent advances in craniofacial morphogenesis, Dev. Dyn, vol.235, pp.2353-2375, 2006.

B. Chernoff and P. M. Magwene, Morphological integration: forty years later, pp.319-353, 1999.

J. M. Cheverud, Developmental integration and the evolution of pleiotropy, Am. Zool, vol.36, pp.44-50, 1996.

J. M. Cheverud, E. J. Routman, and D. J. Irschick, Pleiotropic effects of individual gene loci on mandibular morphology, Evolution, vol.51, pp.2006-2016, 1997.

J. M. Cheverud, T. H. Ehrich, T. T. Vaughn, S. F. Koreishi, and R. B. Linsey, Pleiotropic effects on mandibular morphology II: differential epistasis and genetic variation in morphological integration, J. Exp. Zoolog. B Mol. Dev. Evol, vol.302, pp.424-435, 2004.

C. Cross-consortium, The genome architecture of the Collaborative Cross mouse genetic reference population, Genetics, vol.190, pp.389-401, 2012.

L. Dejager, C. Libert, and X. Montagutelli, Thirty years of Mus spretus: a promising future, Trends Genet, vol.25, pp.234-241, 2009.

M. J. Depew, C. A. Simpson, M. Morasso, and J. L. Rubenstein, Reassessing the Dlx code: the genetic regulation of branchial arch skeletal pattern and development, J. Anat, vol.207, pp.501-561, 2005.

A. Dohmoto, K. Shimizu, Y. Asada, and T. Maeda, Quantitative trait loci on chromosomes 10 and 11 influencing mandible size of SMXA RI mouse strains, J. Dent. Res, vol.81, pp.501-504, 2002.

I. L. Dryden and K. V. Mardia, Statistical Shape Analysis, 1998.

T. H. Ehrich, T. T. Vaughn, S. F. Koreishi, R. B. Linsey, and L. S. Pletscher, Pleiotropic effects on mandibular morphology I. Developmental morphological integration and differential dominance, J. Exp. Zoolog. B Mol. Dev. Evol, vol.296, pp.58-79, 2003.

Y. Escoufier, Le traitement des variables vectorielles, vol.29, pp.751-760, 1973.

M. Festing, A multivariate analysis of subline divergence in the shape of the mandible in C57BL-Gr mice, Genet. Res, vol.21, pp.121-132, 1973.

J. Flint and T. F. Mackay, Genetic architecture of quantitative traits in mice, flies, and humans, Genome Res, vol.19, pp.723-733, 2009.

M. Friess and M. Baylac, Exploring artificial cranial deformation using elliptic Fourier analysis of Procrustes aligned outlines, Am. J. Phys. Anthropol, vol.122, pp.11-22, 2003.

A. Goswami and P. D. Polly, Methods for studying morphological integration and modularity, The Paleontological Society Papers, vol.16, pp.213-244, 2010.

J. L. Guenet and F. Bonhomme, Wild mice: an ever-increasing contribution to a popular mammalian model, Trends Genet, vol.19, pp.24-31, 2003.

J. W. Hooper, Simultaneous equations and canonical correlation theory, Econometrica, vol.27, pp.245-256, 1959.

C. P. Klingenberg, Morphological integration and developmental modularity, Annu. Rev. Ecol. Syst, vol.39, pp.115-132, 2008.

C. P. Klingenberg, Morphometric integration and modularity in configurations of landmarks: tools for evaluating a priori hypotheses, Evol. Dev, vol.11, pp.405-421, 2009.

C. P. Klingenberg, Evolution and development of shape: integrating quantitative approaches, Nat. Rev. Genet, vol.11, pp.623-635, 2010.

C. P. Klingenberg, MorphoJ: an integrated software package for geometric morphometrics, Mol Ecol Resour, vol.11, pp.353-357, 2011.

C. P. Klingenberg and G. S. Mcintyre, Geometric morphometrics of developmental instability: analyzing patterns of fluctuating asymmetry with Procrustes methods, Evolution, vol.52, pp.1363-1375, 1998.

C. P. Klingenberg, L. J. Leamy, E. J. Routman, and J. M. Cheverud, Genetic architecture of mandible shape in mice: effects of quantitative trait loci analyzed by geometric morphometrics, Genetics, vol.157, pp.785-802, 2001.

C. P. Klingenberg, L. J. Leamy, and J. M. Cheverud, Integration and modularity of quantitative trait locus effects on geometric shape in the mouse mandible, Genetics, vol.166, pp.1909-1921, 2004.

C. P. Klingenberg, V. Debat, and D. A. Roff, Quantitative genetics of shape in cricket wings: developmental integration in a functional structure, Evolution, vol.64, pp.2935-2951, 2010.

D. L'hote, C. Serres, P. Laissue, A. Oulmouden, and C. Rogel-gaillard, Centimorgan-range one-step mapping of fertility traits using interspecific recombinant congenic mice, Genetics, vol.176, pp.1907-1921, 2007.

D. L'hote, C. Serres, R. A. Veitia, X. Montagutelli, and A. Oulmouden, Gene expression regulation in the context of mouse interspecific mosaic genomes, Genome Biol, vol.9, p.133, 2008.

D. L'hote, P. Laissue, C. Serres, X. Montagutelli, and R. A. Veitia, Interspecific resources: a major tool for quantitative trait locus cloning and speciation research, Bioessays, vol.32, pp.132-142, 2010.

D. L'hote, M. Vatin, J. Auer, J. Castille, and B. Passet, Fidgetin-like1 is a strong candidate for a dynamic impairment of male meiosis leading to reduced testis weight in mice, PLoS ONE, vol.6, p.27582, 2011.

P. A. Lachenbruch and M. R. Michey, Estimation of error rates in discriminant analysis, Technometrics, vol.10, pp.1-10, 1968.

P. Laissue, G. Burgio, D. L'hote, G. Renault, and C. Marchiol-fournigault, Identification of quantitative trait loci responsible for embryonic lethality in mice assessed by ultrasonography, Int. J. Dev. Biol, vol.53, pp.623-629, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01370041

L. J. Leamy, E. J. Routman, and J. M. Cheverud, An epistatic genetic basis for fluctuating asymmetry of mandible size in mice, Evolution, vol.56, pp.642-653, 2002.

, | QTL Mapping for Mouse Mandible Shape | 1267, vol.2, 2012.

L. J. Leamy, C. P. Klingenberg, E. Sherratt, J. B. Wolf, and J. M. Cheverud, A search for quantitative trait loci exhibiting imprinting effects on mouse mandible size and shape, Heredity (Edinb.), vol.101, pp.518-526, 2008.

M. Macholan, Mus spretus, The Atlas of European Mammals, pp.290-291, 1999.

L. R. Monteiro and M. R. Nogueira, Adaptive radiations, ecological specialization, and the evolutionary integration of complex morphological structures, Evolution, vol.64, pp.724-744, 2010.

L. R. Monteiro, V. Bonato, and S. F. Reis, Evolutionary integration and morphological diversification in complex morphological structures: mandible shape divergence in spiny rats (Rodentia, Echimyidae), Evol. Dev, vol.7, pp.429-439, 2005.

L. Monti, M. Baylac, and B. Lalanne-cassou, , 2001.

, Elliptic Fourier analysis of the form of genitalia in two Spodoptera species and their hybrids (Lepidoptera: Noctuidae), Biol. J. Linn. Soc. Lond, vol.72, pp.391-400

N. Navarro, C. Klingenberg, ;. S. Barber, P. D. Baxter, and K. V. Mardia, Mapping multiple QTLs of geometric shape of the mouse mandible, Systems Biology and Statistical Bioinformatics, pp.125-128, 2007.

M. A. Noor, A. L. Cunningham, and J. C. Larkin, Consequences of recombination rate variation on quantitative trait locus mapping studies. Simulations based on the Drosophila melanogaster genome, Genetics, vol.159, pp.581-588, 2001.

E. C. Olson and R. L. Miller, Morphological Integration, 1958.

L. J. Palomo, E. R. Justo, and J. R. Vargas, Mus spretus (Rodentia: Muridae), Mamm. Species, vol.840, pp.1-10, 2009.

F. J. Rohlf and M. Corti, Use of two-block partial least-squares to study covariation in shape, Syst. Biol, vol.49, pp.740-753, 2000.

J. Santos, L. Gonzalez-sanchez, M. Matabuena-deyzaguirre, M. Villa-morales, and P. Cozar, A role for stroma-derived annexin A1 as mediator in the control of genetic susceptibility to T-cell lymphoblastic malignancies through prostaglandin E2 secretion, Cancer Res, vol.69, pp.2577-2587, 2009.

J. Santos, L. Gonzalez-sanchez, M. Villa-morales, I. Ors, and P. Lopez-nieva, The stromal gene encoding the CD274 antigen as a genetic modifier controlling survival of mice with gamma-radiation-induced Tcell lymphoblastic lymphomas, Oncogene, vol.29, pp.5265-5273, 2010.

R. R. Sokal and F. J. Rohlf, Biometry:The Principles and Practices of Statistics in Biological Research, 1995.

J. Suto, Identification of multiple quantitative trait loci affecting the size and shape of the mandible in mice, Mamm. Genome, vol.20, pp.1-13, 2009.

G. P. Wagner and L. Altenberg, Complex adaptations and the evolution of evolvability, Evolution, vol.50, pp.967-976, 1996.

G. P. Wagner, M. Pavlicev, and J. M. Cheverud, The road to modularity, Nat. Rev. Genet, vol.8, pp.921-931, 2007.

J. B. Wolf, L. J. Leamy, E. J. Routman, and J. M. Cheverud, Epistatic pleiotropy and the genetic architecture of covariation within early and late-developing skull trait complexes in mice, Genetics, vol.171, pp.683-694, 2005.

M. L. Zelditch, A. R. Wood, R. M. Bonett, and D. L. Swiderski, Modularity of the rodent mandible: integrating bones, muscles, and teeth, Evol. Dev, vol.10, pp.756-768, 2008.