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UMR Moulon

Teachings :

Statistical modelling

Mathematics and Biology

Research :

Team GQF

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I am interested in understanding the causes of phenotypic variation within populations, and the (co)evolution of genetic polymorphism and phenotypic variation. The french government is now undergoing a deep reform of our research and university system, which I feel dangerous. Behind this link, my plea for the defence of the university (in french).

Research interests and publications

Phenotypic diversity for life-history traits

Sabarly V, Bouvet O, Glodt J, Clermont O, Skurnik D, Diancourt L, De Vienne D, Denamur E, Dillmann C. (2011) The decoupling between genetic structure and metabolic phenotypes in Escherichia coli leads to continuous phenotypic diversity. J Evol Biol. doi: 10.1111/j.1420-9101.2011.02287.x.

Spor A., C. Dillmann, S. Wang, D. de Vienne, D. Sicard, E. Parent (2010) Hierarchical Bayesian Modelling for Saccharomyces cerevisiae population dynamics. International Journal of Food Microbiology, 142(1-2):25-35.

Johannes F., Porcher E., Teixeira F. K., Saliba-Colombani V., Simon M., Agier N., Bulski A., Albuisson J., Heredia F., Audigier P., Bouchez D., Dillmann C., Guerche P., Hospital F., Colot V. (2009). Assessing the impact of transgenerational epigenetic variation on complex traits. PLoS Genet, 5(6), e1000530.

Spor,A. Wang,S. Dillmann,C. de Vienne,D. Sicard,D. 2008. "Ant" and "grasshopper" life-history strategies in Saccharomyces cerevisiae. PLoS ONE 3 : e1579.

Modelling the relationship between genes and complex traits

Wang S, Spor A, Nidelet T, Montalent P, Dillmann C, de Vienne D, Sicard D. (2011) Switch between life history strategies due to changes in glycolytic enzyme gene dosage in Saccharomyces cerevisiae. Appl Environ Microbiol. 2011 Jan;77(2):452-9.

Julie B. Fiévet, Christine Dillmann, Dominique de Vienne (2010) Systemic properties of metabolic networks lead to an epistasis-based model for heterosis. Theor Appl Genet 120:463-473.

Fiévet J, Dillmann C, Curien G, and de Vienne D, 2006 Simplified modelling of metabolic pathways for flux prediction and optimization : lessons from an in vitro reconstruction of the upper part of glycolysis. Biochem. J. 396: 17-26.

Lion S, Gabriel F, Bost B, Fiévet J, Dillmann C and de Vienne D, 2004 An extension to the metabolic control theory taking into account correlations between enzyme concentrations. Eur. J. Biochem 271 :1-17.

FIEVET, J., LAGNIEL, G., DILLMANN C., DAVANTURE, M., ,LABARRE J., and de VIENNE D., 2004 Assessing factors for reliable quantitative proteomics based on two-dimensional electrophoresis. Proteomics, 4, 1939-1949.

de Vienne D., Bost B., Fiévet J., Zivy M., and Dillmann C.,2001 Variabilité d'expression du proteome et heterosis. C.R. Acad. Agric. Fr. 87: 27-38

De VIENNE D., B. BOST, J. FIEVET and C. DILLMANN, 2001 Optimization of enzyme concentrations for unbranched reaction chains: the concept of combined response coefficient. Acta Biotheoretica 49: 341-350.

De VIENNE D., B. BOST, J. FIEVET, M. ZIVY and C. DILLMANN, 2001 Genetic variability of proteome expression and metabolic control. Plant Physiol. Biochem. 39:1-13.

BOST B., D. DE VIENNE, F. HOSPITAL, L. MOREAU, and C. DILLMANN, 2001 Genetic and non genetic bases for the L-shaped distribution of QTL effects. Genetics 157 :1773-1787.

BOST B., C. DILLMANN and D. DE VIENNE, 1999 Fluxes and metabolic pools as model traits for quantitative genetics. I The L-shaped distribution of gene effects. Genetics 153: 2001-2012.

DILLMANN C. and J.L. FOULLEY, 1998 Another look at multiplicative models in quantitative genetics. Gen. Sel. Evol. 30:543-564.

Neutral versus selected diversity within and between populations

Durand E., M.I. Tenaillon, C. Ridel, D. Coubriche, P. Jamin, S. Jouanne, A. Ressayre, A. Charcosset, C. Dillmann (2010) Standing variation and new mutations both contribute to a fast response to selection for flowering time in maize inbreds. BMC Evolutionary Biology 10:2.

Albertin W., Marullo P., Aigle M., Bourgais A., Bely M., Dillmann C., de Vienne D. and Sicard D. (2009) Evidence for autotetraploidy associated with reproductive isolation in Saccharomyces cerevisiae: towards a new domesticated species. J. Evol. Biol. 22(11):2157-70.

Edelist C., Raffoux X., Falque M., Dillmann C., Sicard D., Rieseberg L. H., Karrenberg S. (2009) Differential expression of candidate salt-tolerance genes in the halophyte Helianthus paradoxus and its glycophyte progenitors H. annuus and H. petiolaris (Asteraceae). Am. J. Bot. 96 1830-1838.

EDELIST C, LEXER C, DILLMANN C, SICARD D, RIESEBERG LH (2006) Microsatellite signature of ecological selection for salt tolerance in a wild sunflower hybrid species, Helianthus paradoxus. Molecular Ecology 15(14): 4623

DEGEN T., C. DILLMANN, F. MARION-POLL and T. TURLINGS, 2004 High genetic variability of herbivore-induced volatile emission within a broad range of maize inbred lines. Plant Physiology 135 :1928-1938.

ROLDAN-RUIZ I., F.A. VAN EUWIJK, T.J. GILLILAND, P. DUBREUIL, C. DILLMANN, J. LALLEMAND, M. De LOOSE, C.P. BARIL, 2001 A comparative study of molecular and morphological methods of describing relationships between perennial ryegrass (Lolium perenne L.) varieties. Theoretical and Applied Genetics 103 : 1138-1150.

DILLMANN C. and D. GUERIN, 1998 Comparison between maize inbred lines : genetic distances in the expert�s eye. Agronomie 18:659-667.

DILLMANN C., A. BAR-HEN, D. GUERIN, A. MURIGNEUX and A. CHARCOSSET, 1997 Comparison of RFLP and morphological distances between maize inbreds. Consequences for germplasm protection purposes. Theor. Appl. Genet. 95:92-102.

CIAMPOLINI R., GOUDARZI K., VAIMAN D., DILLMANN C., MAZZANTI E., FOULLEY JL., LEVEZIEL H., CIANCI D., 1995 Individual multilocus genotypes using microsatellite polymorphism to permit the analysis of genetic variability. J. Anim. Sci. 73:3259-3268.

GARNIER P. and C. DILLMANN, 1992 A computer program for testing pairwise linkage disequilibria in subdivided populations. Journal of Heredity 83:3.

Multilocus genotype frequencies

SERVIN B, DILLMANN C, DECOUX G and F. HOSPITAL , 2002 MDM : a program to compute fully informative genotype frequencies in complex breeding schemes. J Hered 93: 227-228

HOSPITAL F., C. DILLMANN and A. E. MELCHINGER, 1996 A general algorithm to compute multilocus genotype frequencies under various mating systems. Comput. Appl. Biosci. 12(6):455-462.