Free Access
Reprod. Nutr. Dev.
Volume 43, Number 5, September-October 2003
Page(s) 459 - 469
References of  Reprod. Nutr. Dev. 43 (2003) 459-469
  1. Martin P, Grosclaude F. Improvement of milk protein quality by gene technology. Livest Prod Sci 1993, 35: 95-115.
  2. O Donnell JA. Future of milk fat modification by production or processing: integration of nutrition, food science, and animal science. J Dairy Sci 1993, 76: 1797-1801.
  3. White SL, Bertrand JA, Wade MR, Washburn SP, Green JT, Jenkins TC. Comparison of Fatty Acid Content of Milk from Jersey and Holstein Cows Consuming Pasture or a Total Mixed Ration. J Dairy Sci 2001, 84: 2295-2301.
  4. Grosclaude F, Ricordeau G, Martin P, Remeuf F, Vassal L, Bouillon J. Du gène au fromage: le polymorphisme de la caséine $\alpha_{s1}$ caprine, ses effets, son évolution. INRA Prod Anim 1994, 7: 3-19.
  5. Coulon JB, Hurtaud C, Rémond B, Vérité R. Factors contributing to variation in the proportion of casein in cows' milk true protein: a review of recent INRA experiments. J Dairy Res 1998, 65: 375-387.
  6. Doreau M. Le lait de jument. INRA Prod Anim 1991, 4: 297-302.
  7. Oftedal OT. Use of maternal reserves as a lactation strategy in large mammals. Proc Nutr Soc 2000, 59: 99-106.
  8. ChilliardY, Lamberet G. Biochemical characteristics of goat milk lipids and lipolytic system. A comparison with cow and human milk. Effects of lipid supplementation. In: ITPLC (Ed), Recent advances on goat milk quality, raw material for cheesemaking, ISBN 2-95114868-1-2, 2001, p 71-114.
  9. Coppieters W, Riquet J, Arranz JJ, Berzi P, Cambisano N, Grisart B, Karim L, Marcq F, Moreau L, Nezer C, Simon P, Vanmanshoven P, Wagenaar D, Georges M. A QTL with major effect on milk yield and composition maps to bovine chromosome. Mamm Genome 1998, 9: 540-544.
  10. Riquet J, Coppieters W, Cambisano N, Arranz JJ, Berzi P, Davis SK, Grisart B, Farnir F, Karim L, MniM, Simon P, Taylor JF, Vanmanshoven P, Wagenaar D, Womack JE, Georges M. Finemapping of quantitative trait loci by identity by descent in outbred populations: application to milk production in dairy cattle. Proc Natl Acad Sci USA 1999, 96: 9252-9257.
  11. Looft C, Reinsch N, Karall-Albrecht C, Paul S, Brink M, Thomsen H, Brockmann G, Kuhn C, Schwerin M, Kalm E. A mammary gland EST showing linkage disequilibrium to a milk production QTL on bovine Chromosome 14. Mamm Genome 2001, 12: 646-650.
  12. Grisart B, CoppietersW, Farnir F, Karim L, Ford C,Berzi P, CambisanoN,MniM, Reid S, Simon P, Spelman R, Georges M, Snell R. Positional candidate cloning of a QTL in dairy cattle: identification of a missense mutation in the bovine DGAT1 gene with major effect on milk yield and composition. Genome Res 2002, 12: 222-231.
  13. Bevilacqua C, Ferranti P, Garro G, Veltri C, Lagonigro R, Leroux C, Pietrola E, Addeo F, Pilla F, Chianese L, Martin P. Interallelic recombination is probably responsible for the occurrence of a new alpha(s1)-casein variant found in the goat species. Eur J Biochem 2002, 269: 1293-1303.
  14. Boulanger A, Grosclaude F, Mahé MF. Polymorphisme des caséines $\alpha_{s1}$ et $\alpha_{s2}$ de la chèvre (Capra hircus). Génét Sél Évol 1984, 16: 157-176.
  15. Brignon G, Mahé MF, Ribadeau Dumas B, Mercier JC, Grosclaude F. Two of the three genetic variants of goat $\alpha_{s1}$-casein which are synthesized at a reduced level have an internal deletion possibly due to altered RNA splicing. Eur J Biochem 1990, 193: 237-241 [PubMed].
  16. Leroux C, Mazure N, Martin P. Mutation away from splice site recognition sequences might cismodulate alternative splicing of goat $\alpha_{s1}$-casein transcript. Structural organization of the relevant gene. J Biol Chem 1992, 267: 6147-6157.
  17. Ferranti P, Addeo F, Malorni A, Chianese L, Leroux C, Martin P. Differential splicing of premessenger RNA produces multiple forms of goat $\alpha_{s1}$-casein. Eur J Biochem 1997, 249: 1-7 [PubMed].
  18. Remeuf F. Influence du polymorphisme génétique de la caséine $\alpha_{s1}$ caprine sur les caractéristiques physico-chimiques et technologiques du lait. Lait 1993, 73: 549-557.
  19. Barbieri M, Manfredi E, Elsen JM, Ricordeau G, Bouillon J, Grosclaude F, Mahé MF, Bibé B. Influence du locus de la caséine $\alpha_{s1}$ sur les performances laitières et les paramètres génétiques des chèvres de race Alpine.Genet Sel Evol 1995, 27: 437-450.
  20. ChilliardY, Ferlay A, Rouel J, LamberetG.Areview of nutritional and physiological factors affecting goat milk lipid synthesis and lipolysis. J Dairy Sci 2003, 83: 1751-1770.
  21. Neveu C, Riaublanc A, Miranda G, Chich JF, Martin P. Is the apocrine milk secretion process observed in the goat species rooted in the perturbation of the intracellular transport mechanism induced by defective alleles at the alpha(s1)-Cn locus? Reprod Nutr Dev 2002, 42: 163-172.
  22. Chanat E, Leroux C, Martin P, Ollivier-Bousquet M. $\alpha_{s1}$-casein polymorphism in goat: perturbation of the intracellular transport of milk proteins. In: Blum JW, Bruckmaier RM. Switzerland Berne: Proceedings of the Symposium on milk synthesis, secretion and removal in ruminants. 1996, p 31.
  23. Chanat E, Martin P, Ollivier-BousquetM. $\alpha_{s1}$-casein is required for the efficient transport of $\beta$- and $\kappa$-casein from the endoplasmic reticulum to the Golgi apparatus of mammary epithelial cells. J Cell Sci 1999, 112: 3399-3412 [PubMed].
  24. Barber MC, Travers MT. Cloning and characterisation of multiple acetyl-CoA carboxylase transcripts in ovine adipose tissue. Gene 1995, 154: 271-275.
  25. Jayakumar A, Tai MH, Huang WY, al-Feel W, Hsu M, Abu-Elheiga L, Chirala SS, Wakil SJ. Human fatty acid synthase: properties and molecular cloning. Proc Natl Acad Sci USA 1995, 92: 8695-8699.
  26. Hillgartner FB, Salati LM, GoodridgeAG. Physiological and molecular mechanisms involved in nutritional regulation of fatty acid synthesis. Physiol Rev 1995, 75: 47-76.
  27. Bonnet M, Faulconnier Y, Flechet J, Hocquette JF, Leroux C, Langin D, Martin P, Chilliard Y. Messenger RNAs encoding lipoprotein lipase, fatty acid synthase and hormone-sensitive lipase in the adipose tissue of underfed-refed ewes and cows. Reprod Nutr Dev 1998, 38: 297-307 [PubMed].
  28. Leroux C, Bonnet M, Giraud-Delville C, Degas C, Manfredi E, Furet JP, Le Provost F,Delacroix- Buchet A, Chilliard Y, Martin P. Analyse génétique de la lipogénèse dans le tissu mammaire des ruminants laitiers. Compte-rendu d activité "Action Incitative Programmée : Lipogénèse chez les espèces d intérêt zootechnique". 1996, p 1-12.
  29. Beswick NS, Kennelly JJ. Influence of bovine growth hormone and growth hormone-releasing factor on messenger RNA abundance of lipoprotein lipase and stearoyl-CoA desaturase in the bovine mammary gland and adipose tissue. J Anim Sci 2000, 78: 412-419.
  30. Bonnet M, Leroux C, Faulconnier Y, Hocquette JF, Bocquier F, Martin P, Chilliard Y. Lipoprotein lipase activity and mRNA are up-regulated by refeeding in adipose tissue and cardiac muscle of sheep. J Nutr 2000, 130: 749-756.
  31. Ntambi JM. The regulation of stearoyl-CoA desaturase (SCD). Prog Lipid Res 1995, 34: 139-150.
  32. Ntambi JM. Regulation of stearoyl-CoA desaturase by polyunsaturated fatty acids and cholesterol. J Lipid Res 1999, 40: 1549-1558.
  33. Bernard L, Leroux C, Hayes H, Gautier M, Chilliard Y, Martin P. Characterization of the caprine stearoyl-CoA desaturase gene and its mRNA showing an unusually long 3'-UTR sequence arising from a single exon. Gene 2001, 281: 53-61.
  34. Bernard L, Leroux C, Chilliard Y, Martin P. Characterisation of the caprine Stearoyl-CoA Desaturase gene and its mammary transcript. Development of a method of mRNA quantification by real time RT-PCR. Reprod Nutr Dev 2002, 42: 499-500.
  35. Bonnet M, Leroux C, Chilliard Y, Martin P. A fluorescent reverse transcription-polymerase chain reaction assay to quantify the lipoprotein lipase messenger RNA. Mol Cell Probes 2001, 15: 187-194.
  36. Perou CM, Jeffrey SS, van de Rijn M, Rees CA, Eisen MB, Ross DT, Pergamenschikov A, Williams CF, Zhu SX, Lee JC, Lashkari D, Shalon D, Brown PO, Botstein D. Distinctive gene expression patterns in human mammary epithelial cells and breast cancers. Proc Natl Acad Sci USA 1999, 96: 9212-9217.
  37. Golub TR, Slonim DK, Tamayo P, Huard C, Gaasenbeek M, Mesirov JP, Coller H, Loh ML, Downing JR, Caligiuri MA, Bloomfield CD, Lander ES. Molecular classification of cancer: class discovery and class prediction by gene expression monitoring. Science 1999, 15: 531-537.
  38. Bertucci F, Houlgatte R, Benziane A, Granjeaud S, Adelaide J, Tagett R, Loriod B, Jacquemier J, Viens P, Jordan B, Birnbaum D, Nguyen C.Gene expression profiling of primary breast carcinomas using arrays of candidate genes. HumMol Genet 2000, 9: 2981-2991.
  39. Master SR, Hartman JL, D Cruz CM, Moody SE, Keiper EA, Ha SI, Cox JD, Belka GK, Chodosh LA. Functional microarray analysis of mammary organogenesis reveals a developmental role in adaptive thermogenesis. Mol Endocrinol 2002, 16: 1185-1203.
  40. Lemkin PF, Thornwall GC, Walton KD, Hennighausen L. The microarray explorer tool for data mining of cDNA microarrays: application for the mammary gland. Nucleic Acids Res 2000, 28: 4452-4459.
  41. Miyoshi K, Meyer B, Gruss P, Cui Y, Renou JP, Morgan FV, Smith GH, Reichenstein M, Shani M, Hennighausen L, Robinson GW. Mammary epithelial cells are not able to undergo pregnancy- dependent differentiation in the absence of the helix-loop-helix inhibitor Id2. Mol Endocrinol 2002, 16: 2892-2901.
  42. Soukas A, Cohen P, Socci ND, Friedman JM. Leptin-specific patterns of gene expression in white adipose tissue. Genes Dev 2000, 14: 963-980.
  43. Le Provost F, Lepingle A, Martin P. A survey of the goat genome transcribed in the lactating mammary gland. Mamm Genome 1996, 7: 657-666.
  44. Piétu G, Decraene C. Expression profiling using quantitative hybridization on macroarrays. Method Mol Biol 2002, 185: 425-432.
  45. Flint DJ, Tonner E, Knight CH, Whitelaw CB, Webster J, Barber M, Allan G. Control of mammary involution by insulin-like growth factor binding proteins: role of prolactin. Livest Prod Sci 2000, 70: 115-120.
  46. Pitel G, Delacroix-Buchet A. Compte-rendu d activité, Station de Recherches Laitières, INRA, Centre de Jouy, France, 1994.
  47. Delacroix-Buchet A, Degas C, LamberetG,Vassal L. Influence des variants AA et FF de la caséine $\alpha{s1}$ caprine sur le rendement fromager et les caractéristiques des fromages. Lait 1996, 76: 217-241.
  48. Chilliard Y, Ferlay A, Mansbridge RM, Doreau M. Ruminant milk fat plasticity: nutritional control of satured, polyunsatured, trans and conjugated fatty acids. Ann Zootech 2000, 49: 181-205 [CrossRef].