Free Access
Issue
Genet. Sel. Evol.
Volume 33, Number 1, January-February 2001
Page(s) 17 - 38
DOI https://doi.org/10.1051/gse:2001100

References

1
Albers G., Vereijken A., Important QTL... and then what?, Proc. Poultry Genet. Symp., 6-8 October 1999, Mariensee, pp. 48-49.
2
Bidanel J.P., Milan D., Iannuccelli N., Amigues Y., Boscher M.Y., Bourgeois F., Caritez J.C., Gruand J., Le Roy P., Lagant H., Bonneau M., Lefaucheur L., Mourot J., Prunier A., Désautés C., Mormède P., Renard C., Vaiman M., Robic A., Gellin J., Ollivier L., Chevalet C., Détection de locus à effets quantitatifs dans le croisement entre les races porcines Large White et Meishan : résultats et perspectives, Journées de la Recherche Porcine en France 32 (2000) 369-383.
3
Boichard D., Grohs C., Bourgeois F., Cerqueira F., Faugeras R., Neau A., Milan D., Rupp R., Amigues Y., Boscher M.Y., Levéziel H., Détection de gènes influençant les caractères d'importance économique en races bovines Prim'Holstein, Normande et Montbéliarde, Renc. Rech. Ruminants 6 (1999) 225-229.
4
Bulmer M.G., The effect of selection on genetic variability, Am. Nat. 105 (1971) 201-211.
5
Caballero A., Santiago E., Survival rates of major genes in selection programmes, in: Proceedings of the 6th World Congress on Genetics Applied to Livestock Production, 1998, Vol. 26, pp. 5-12.
6
Colleau J.J., Le BLUP modèle animal : rappel de quelques problèmes encore en suspens, in: Foulley J.L., Molénat M. (Eds.), Séminaire modèle animal, 26-29 septembre 1994, La-Colle-sur-Loup, pp. 1-12.
7
Colleau J.J., Relative economic efficiency of embryo transfer and marker assisted selection in dairy cattle selection nuclei, in: Proceedings of the 6th World Congress on Genetics Applied to Livestock Production, 1998, Vol. 25, pp. 419-422.
8
Colleau J.J., Phocas F., Introducing secondary traits in MOETs for dairy cattle. EAAP 46th annual meeting, Prague, 4-7 September 1995, paper G.3.3.
9
Dekkers J.C.M., van Arendonk J.A.M., Optimizing selection for quantitative traits with information on an identified locus in outbred populations, Genet. Res. 71 (1998) 257-275.
10
Elsen J.M., Sélection et introgression assistées par marqueurs, in: Éléments de génétique moléculaire et application aux populations animales, INRA Prod. Anim. hors série (2000) 233-237.
11
Falconer D.S., Introduction to quantitative genetics, 2nd edn., Longman, London and New-York, 1983.
12
Fernando R.L., Statistical problems in marker assisted selection for QTL, in: Proceedings of the 4th World Congress on Genetics Applied to Livestock Production, 1990, Vol. 13, pp. 433-436.
13
Fernando R.L., Grossmann M., Marker assisted selection using best linear unbiased predictor, Genet. Sel. Evol. 21 (1989) 467-477.
14
Foulley J.L., Chevalet C., Méthode de prise en compte de la consanguinité dans un modèle simple de simulation des performances, Ann. Génét. Sél. Anim. 12 (1981) 189-196.
15
Georges M., Towards marker assisted selection in livestock, Reprod. Nutr. Dev. 39 (1999) 555-561.
16
Gibson J.P., Short term gain at the expense of long term response with selection of identified loci, in: Proceedings of the 5th World Congress on Genetics Applied to Livestock Production 1994, Vol. 21, pp. 201-204.
17
Goddard M.E., Gene based models for genetic evaluation - an alternative to BLUP? in: Proceedings of the 6th World Congress on Genetics Applied to Livestock Production, 1998, Vol. 26, pp. 33-36.
18
Gomez-Raya L., Klemetsdal G., Two-stage selection strategies utilizing marker-quantitative trait locus information and individual performance, J. Anim. Sci. 77 (1999) 2008-2018.
19
Hill W.G., Fixation probabilities of mutants genes with artificial selection, Génét. Sél. Evol. 17 (1985) 351-358.
20
Kashi Y., Hallerman E., Soller M., Marker-assisted selection of candidates bulls for progeny testing programmes, Anim. Prod. 51 (1990) 63-74.
21
Keightley P.D., Bulfield G., Detection of quantitative trait loci from frequency changes of marker alleles under selection, Genet. Res. 62 (1993) 195-203.
22
Koning J. de, Weller J., Efficiency of direct selection on quantitative trait loci for a two-trait breeding objective, Theor. Appl. Genet. 88 (1994) 669-677.
23
Lande R., Thompson R., Efficiency of marker assisted selection in the improvement of quantitative traits, Genetics 124 (1990) 743-756.
24
Manfredi E., Barbieri M., Fournet F., Elsen J.M., A dynamic deterministic model to evaluate breeding strategies under mixed inheritance, Genet. Sel. Evol. 30 (1998) 127-148.
25
Meuwissen T.H.E., Goddard M., The use of marker haplotypes in animal breeding schemes, Genet. Sel. Evol. 28 (1996) 161-176.
26
Moreau L., Charcosset A., Hospital F., Gallais A., Marker-assisted selection efficiency in populations of finite size, Genetics 148 (1998) 1353-1365.
27
Robertson A., Inbreeding in selection programmes, Genet. Res. 2 (1961) 189-194.
28
Ruane J., Colleau J.J., Marker assisted selection for genetic improvement of animal populations when a single QTL is marked, Genet. Res. 66 (1995) 71-83.
29
Ruane J., Colleau J.J., Marker assisted selection for a sex-limited trait in a nucleus breeding population, J. Dairy Sci. 79 (1996) 1666-1678.
30
Sather A.P., Swiger L.A., Harvey W.R., Genetic drift and the response to selection in simulated populations: the situation model and gene and genotype responses, J. Anim. Sci. 44 (1977) 343-351.
31
Spelman R.J., Garrick D.J., Genetic and economic responses for within-family marker-assisted selection in dairy cattle breeding schemes, J. Dairy Sci. 81 (1998) 2942-2950.
32
Toro M., Silió L., Rodrigá nez J., Rodriguez C., The use of molecular markers in conservation programmes of live animals, Genet. Sel. Evol. 30 (1998) 585-600.
33
Toro M., Silió L., Rodrigá nez J., Rodriguez C., Fernández J., Optimal use of molecular markers in conservation programmes, Genet. Sel. Evol. 31 (1999) 255-261.
34
Vand der Beek S., van Arendonk J.A.M., Marker assisted selection in an outbred poultry breeding nucleus, Anim. Sci. 62 (1996) 171-180.
35
Verrier E., Colleau J.J., Foulley J.L., Methods for predicting cumulated response to selection under additive models: a review, Livest. Prod. Sci. 29 (1991) 171-180.
36
Verrier E., Colleau J.J., Foulley J.L., Long term effects of selection based on the animal model BLUP in a finite population, Theor. Appl. Genet. 87 (1993) 446-454.
37
Verrier E., Colleau J.J., Foulley J.L., Marker assisted selection for increasing the sum of two antagonistic traits under mixed inheritence, 46th annual meeting, Prague, 4-7 September 1995, paper G.3.7.
38
Wang T., Fernando R.L., van der Beek S., Grossman M., van Arendonk J.A.M., Covariance between relatives for a marked quantitative trait locus, Genet. Sel. Evol. 27 (1995) 251-274.
39
Wray N.R., Woolliams J.A., Thompson R., Methods for predicting rates of inbreeding in selected populations, Theor. Appl. Genet. 80 (1990) 513-521.
40
Xie C., Xu S., Efficiency of multistage marker-assisted selection in the improvement of multiple quantitative traits, Heredity 80 (1998) 489-498.
41
Zhang Q., Boichard D., Hoeschele I., Ernst C., Eggen A., Murkve B., Pfister-Genskow M., Witte L.A., Fernando E., Grignola E., Uimari P., Thaller G., Bip M., Mapping quantitative trait loci for milk production and health of dairy cattle in a large outbred pedigree, Genetics 149 (1998) 1959-1973.
42
Zhang W., Smith C., Computer simulation of marker assisted selection utilizing linkage disequilibrium, Theor. Appl. Genet. 83 (1992) 813-820.

Abstract

Copyright INRA, EDP Sciences