Go to the content. | Move to the navigation | Go to the site search | Go to the menu | Contacts | Accessibility

| Create Account

Soattin, Marica (2008) The use of molecular markers for analyzing genes and genomes of livestock. [Ph.D. thesis]

Full text disponibile come:

Documento PDF

Abstract (english)

The present thesis has been developed considering three different livestock species such as chicken, cattle and sheep. The aim of the study was the evaluation of the application of molecular makers in order to assay the genetic population structure on seven local breeds of chicken, to evaluate the applicability of candidate genes as support of conventional breeding on Piedmontese cattle breed and to detect new SNPs on a sheep population. The first two researchs were carried out at Department of Animal Science of University of Padova while the last one at Reprogen (Faculty of Veterinary Science, University of Sydney, NSW, AUS).

Statistiche Download - Aggiungi a RefWorks
EPrint type:Ph.D. thesis
Tutor:Bittante, Giovanni
Data di deposito della tesi:30 January 2008
Anno di Pubblicazione:30 January 2008
Key Words:DNA fingerprints, local populations, SNP, genetic variability marker-assisted selection.
Settori scientifico-disciplinari MIUR:Area 07 - Scienze agrarie e veterinarie > AGR/07 Genetica agraria
Struttura di riferimento:Dipartimenti > pre 2012 - Dipartimento di Scienze Animali
Codice ID:816
Depositato il:31 Oct 2008
Simple Metadata
Full Metadata
EndNote Format


I riferimenti della bibliografia possono essere cercati con Cerca la citazione di AIRE, copiando il titolo dell'articolo (o del libro) e la rivista (se presente) nei campi appositi di "Cerca la Citazione di AIRE".
Le url contenute in alcuni riferimenti sono raggiungibili cliccando sul link alla fine della citazione (Vai!) e tramite Google (Ricerca con Google). Il risultato dipende dalla formattazione della citazione.

1. Andersson L. (2001). Genetic dissection of phenotypic diversity in farm animals. Nature Revs. Genet 2:130-138. Cerca con Google

2. Andersson, L, C. S. Haley, H. Ellegren, S. A. Knott, M. Johansson, K. Andersson, L. Andersson-Eklund, I. Edfors-Lilja, M. Fredholm, I. Hansson, et al, (1994). Genetic mapping of quantitative trait loci for growth and fatness in pigs. Science 263: 1771–1774. Cerca con Google

3. Band M. R. et al. (2000). An ordered comparative map of the cattle and human genomes. Genome Res. 10, 1359–1368 Cerca con Google

4. Barcaccia G. and M. Falcinelli (2007). Analisi genomica Vol. III. Genetica e genomica- Ed. Liguori, Napoli (Italy). Cerca con Google

5. Barton N. H. and P. D. Keightley (2002). Understanding quantitative genetic variation. Nature 2:11-21. Cerca con Google

6. Beavis W. D. (1994). Corn and Sorghum Industry Res. Proc. of the 49th Ann. Conf. ASTA, Washington, DC (USA). pp. 250–266. Cerca con Google

7. Bost B., D. De Vienne, F. Hospital, L. Moreau and Dillmann C. (2001). Genetic and non-genetic bases for the L-shaped distribution of quantitative trait loci effects. Genetics, 157: 1773–1787. Cerca con Google

8. Brascamp E.W., J. A. M. Van Arendonk and A.F. Groen (1993). Economic appraisal of the utilization of genetic markers in dairy cattle breeding. J. Dairy Science, 76: 1204–1214. Cerca con Google

9. Brenneman R. A. et al. (1996). The polled locus maps to BTA1 in a Bos indicus x Bos taurus cross. J. Hered. 87, 156–161. Cerca con Google

10. Burt D. W. et al. (1999). The dynamics of chromosome evolution in birds and mammals. Nature 402, 411–413. Cerca con Google

11. Charcosset A. and Essioux L. (1994). The effect of population structure on the relationship between heterosis and heterozygosity at marker loci. Theor. Appl. Genet. 89, 3336–3343. Cerca con Google

12. Charmet G., N.Robert, M. R. Perretant, G. Gay, P. Sourdille, C. Groos, S. Bernard and M. Bernard (1999). Marker-assisted recurrent selection for cumulating additive and interactive QTLs in recombinant inbred lines. Theor. Appl. Genet. 99, 1143– 1148. Cerca con Google

13. Chowdhary B. P., T. Raudsepp, L. Fronicke and H. Scherthan (1998). Emerging patterns of comparative genome organization in some mammalian species as revealed by Zoo-FISH. Genome Res. 8: 577–589. Cerca con Google

14. Comai L., K. Young, B. J. Till, S. H. Reynolds, E. A. Greene, C. A. Codomo, L. C. Enns, J. E. Johnson, C. Burtner, A. R. Odden, S. Henikoff (2004). Efficient discovery of DNA polymorphisms in natural populations by Ecotilling. Plant J. 37: 778–786. Cerca con Google

15. Darvasi A. (1998). Experimental strategies for the genetic dissection of complex traits in animal models. Nature Genet. 18: 19–24. Cerca con Google

16. Darvasi A. and M. Soller (1995). Advanced intercross lines, an experimental population for fine genetic-mapping. Genetics 141: 1199–1207. Cerca con Google

17. Davis G. P. and S. K. DeNise (1998). The impact of genetic markers on selection. J. Animal Science 76:2331–2339. Cerca con Google

18. de Koning D. J., L. L. G. Janss, A. P. Rattink, P. A. M. van Oers, B. J. de Vries, M. A. M. Groenen, J. J. van der Poel, P. N. de Groot, E. W. Brascamp and J. A. M. van Arendonk (1999). Detection of quantitative trait loci for backfat thickness and intramuscular fat content in pigs (Sus scrofa). Genetics 152, 1679–1690 Cerca con Google

19. Dekkers J.C.M and J.H.J van der Werf (2007). Strategies, limitations and opportunities for marker-assisted selection in livestock. In: Marker-Assisted Selection. Food and Agriculture organization of the United Nations (FAO), Rome Cerca con Google

20. Dekkers J.C.M. (2004). Commercial application of marker- and gene-assisted selection in livestock: Strategies and lessons. J. Anim. Sci. 82(E. Suppl.):E313–E328. Cerca con Google

21. Dekkers J.C.M. and F. Hospital (2002). The use of molecular genetics in the improvement of agricultural populations. Nature Revs. Genet. 3: 22–32. Cerca con Google

22. Dekkers J.C.M. and J.A.M. Van Arendonk (1998). Optimum selection for quantitative traits with information on an identified locus in outbred populations. Genet. Res., 71: 257–275. Cerca con Google

23. Edwards J.D. and S.R. McCouch (2007). Molecular markers for use in plant molecular breeding and germplasm evaluation. In: Marker-Assisted Selection. Food and Agriculture organization of the United Nations (FAO), Rome. Cerca con Google

24. Edwards J.D., V.M. Lee, and McCouch, S.R. (2004). Sources and predictors of resolvable indel polymorphism assessed using rice as a model. Mol. Genet. Genomics 271: 298–307. Cerca con Google

25. Eshed Y. and D. Zamir (1995). An introgression line population of Lycopersicon pennellii in the cultivated tomato enables the identification and fine mapping of yield-associated QTL. Genetics, 141: 1147–1162. Cerca con Google

26. Fernando R.L. and M. Grossman (1989). Marker-assisted selection using best linear unbiased prediction. Genet. Sel. Evol. 21: 467–477. Cerca con Google

27. Flint-Garcia, S. A; J. M Thornsberry, ESS.A. Buckler (2003). Structure of linkage disequilibrium in plants. Annu. Rev. Plant Biol. 54, 357–374 Cerca con Google

28. Georges M. et al. (1995). Mapping quantitative trait loci controlling milk production in dairy cattle by exploiting progeny testing. Genetics 139, 907–920. Cerca con Google

29. Gibson J.P. (1994). Short-term gain at the expense of long-term response with selection of identified loci. Proc. 5th World Congr. Genet. Appl. Livestock Prod. 21: 201– 204. Cerca con Google

30. Gupta P. K., R. K. Varshney, P.C. Sharma, B. Ramesh (1999). Molecular markers and their applications in wheat breeding. Plant breeding 118:369-390. Cerca con Google

31. Gupta P.K., S. Rustgi, S. Sharma, R. Singh, N. Kumar and H.S. Balyan (2003). Transferable ESTSSR markers for the study of polymorphism and genetic diversity in bread wheat. Mol. Genet.Genomics 270: 315–323. Cerca con Google

32. Hawken R. J. et al. (1999). A first-generation porcine whole genome radiation hybrid map. Mamm. Genome 10:824–830. Cerca con Google

33. Hospital F., I. Goldringer and S. Openshaw (2000). Efficient markerbased recurrent selection for multiple quantitative trait loci. Genet. Res. 75, 357–368. Cerca con Google

34. Hospital F., L. Moreau, F. Lacoudre, A. Charcosset and A. Gallais (1997). More on the efficiency of marker assisted selection. Theor. Appl. Genet. 95: 1181–1189. Cerca con Google

35. Jaccoud D., K. Peng, D. Feinstein, A. Kilian (2001). Diversity arrays: a solid state technology for sequence information independent genotyping. Nucl. Acids Res. 29: E25. Cerca con Google

36. Konieczny A. and F.M. Ausubel (1993). A procedure for mapping Arabidopsis mutations using co-dominant ecotype-specific PCR-based markers. Plant J. 4: 403–410. Cerca con Google

37. Kwok P.Y. (2001). Methods for genotyping single nucleotide polymorphisms. Ann. Rev. Genomics Hum. Genet. 2: 235–258. Cerca con Google

38. Kwok, C. et al. (1998). Characterization of whole genome radiation hybrid mapping resources for non-mammalian vertebrates. Nucleic Acids Res. 26, 3562–3566. Cerca con Google

39. La Rota M., R. V. Kantety, J. K. Yu and M. E. Sorrells, (2005). Non-random distribution and frequencies of genomic and EST-derived microsatellite markers in rice, wheat, and barley. BMC Genomics 6: 23. Cerca con Google

40. Lander E. and L. Kruglyak (1995). Genetic dissection of complex traits: guidelines for interpreting and reporting linkage results. Nature Genetics, 11: 241–247. Cerca con Google

41. Larzul C., E. Manfredi and J.M. Elsen (1997). Potential gain from including major gene information in breeding value estimation. Genet. Sel. Evol., 29: 161–184. Cerca con Google

42. Manfredi E., M. Barbieri, F. Fournet and J.M. Elsen (1998). A dynamic deterministic model to evaluate breeding strategies under mixed inheritance. Genet. Sel. Evol., 30: 127–148. Cerca con Google

43. McCouch S.R., G Kochert, Z.H.Yu, Z.Y.Wang, G.S. Khush, W.R. Coffman and S.D. Tanksley. (1988). Molecular mapping of rice chromosomes. Theor. Appl. Genet. 76: 815–829. Cerca con Google

44. McCouch S.R., X. Chen, O. Panaud, S. Temnykh, Y. Xu, Y.G. Cho, N. Huang, T. Ishii, and M. Blair (1997). Microsatellite marker development, mapping and applications in rice genetics and breeding. Plant Mol. Biol. 35: 89–99. Cerca con Google

45. Melchinger A. E.(1999) in The Genetics and Exploitation of Heterosis in Crops (eds Coors, J. G. & Pandey, S.) 99–118 (Crop Science Society of America, Madison, Wisconsin). Cerca con Google

46. Melchinger A.E., H. F. Utz and C.C. Schon (1998). Quantitative trait locus (QTL) mapping using different testers and independent population samples in maize reveals low power of QTL detection and large bias in estimates of QTL effects. Genetics, 149: 383–403. Cerca con Google

47. Meuwissen T.H., B.J. Hayes and M.E. Goddard (2001). Prediction of total genetic value using genome-wide dense marker maps. Genetics, 157: 1819–1829. Cerca con Google

48. Moreau L., A. Charcosset, F. Hospital and A. Gallais (1998). Marker-assisted selection efficiency in populations of finite size. Genetics, 148: 1353–1365. Cerca con Google

49. Nielsen R. (2000). Estimation of population parameters and recombination rates from single nucleotide polymorphisms. Genetics 154: 931–942. Cerca con Google

50. Paran I. and R.W. Michelmore (1993). Development of reliable PCR-based markers linked to downy mildew resistance genes in lettuce. Genetics 85: 985–993. Cerca con Google

51. Powell W., M. Morgante, C. Andre, M. Hanafey, J. Vogel, S. Tingey and A. Rafalsky (1996). The comparison of RFLP, RAPD, AFLP and SSR (microsatellite) markers for germplasm analysis. Mol. Breed. 2: 225–238. Cerca con Google

52. Raadsma H. W., K. R. Zenger, C. Cavanagh, M. K. Lam, P. C Thomson, M. Jones, G. Attard, D. Palmer and F. W. Nicholas (1999). The mapping of economically important quantitative trait loci in sheep I: male distance framework map and QTL for growth rate and body weight. Proc. Assoc. Advmt. Anim. Breed. Gen., 13: 361-364. Cerca con Google

53. Rafalsky A. and M. Morgante (2004). Corn and humans: recombination and linkage disequilibrium in two genomes of similar size. TRENDS in Genetics Vol.20 No.2. Cerca con Google

54. Rafalsky A., M. Morgante, W. Powell, J. M. Vogel, S. V. Tingey (1996). Generating and using DNA markers in plants. In: B. Birren and E. Lai (eds), Analysis of Nonmammalian Genomes: a Practical Guide, 75-134. Academic Press, Boca Raton. Cerca con Google

55. Rohrer G. A. and Keele, J. W (1998). Identification of quantitative trait loci affecting carcass composition in swine: I. Fat deposition traits. J. Anim. Sci. 76, 2247– 2254. Cerca con Google

56. Rothschild M., C. Jacobson, D. Vaske, C. Tuggle, L. Wang, T. Short, G. Eckardt, S. Sasaki, A. Vincent, D. McLaren, O. Southwood, H. van der Steen, A. Mileham and G. Plastow (1996). The estrogen receptor locus is associated with a major gene influencing litter size in pigs. Proc. Natl Acad. Sci. USA 93, 201–205. Cerca con Google

57. Ruan J. and Sonnino A. (2007). Marker-assisted selection as a tool for genetic improvement of crops, livestock, forestry and fish in developing countries: an overview of the issues. In: Marker-Assisted Selection. Food and Agriculture organization of the United Nations (FAO), Rome. Cerca con Google

58. Servin B. and F. Hospital (2002). Optimal positioning of markers to control genetic background in marker assisted backcrossing. J. Hered. 93: 214-217. Cerca con Google

59. Singh M., M. Lam., D. McGill, P.C. Thomson, J.A. Cavanagh, K.R., Zenger and H.W. Raadsma (2007). High resolution mapping of Quantitative Trait loci on Ovine chromosome 3 and 20 affecting protein yield and lactation persistency. Proceedings of the Association for the Advancement of Animal Breeding and Genetics, Armidale, NSW Australia. 23-26 Sept 2007.17: 565. Cerca con Google

60. Smith C. and D.B. Smith (1993). The need for close linkages in marker-assisted selection for economic merit in livestock. Anim. Breed. Abstr. 61: 197–204. Cerca con Google

61. Southern E. M. (1975). Detection of specific sequences among DNA fragments separated by gel electrophoresis. J. Mol. Biol. 98:503-510. Cerca con Google

62. Spelman R. and H. Bovenhuis (1998). Genetic response from marker assisted selection in an outbred population for differing marker bracket sizes and with two identified quantitative trait loci. Genetics, 148: 1389–1396. Cerca con Google

63. Spelman R.J. and D.J. Garrick (1998). Genetic and economic responses for withinfamily marker-assisted selection in dairy cattle breeding schemes. J. Dairy Science, 81: 2942–2950. Cerca con Google

64. Tanksley S. D. et al. (1989). RFLP mapping in plant breeding: new tools for an old science. Biotechnology 7, 257–264 Cerca con Google

65. Van Berloo R. and Stam P. (1998). Marker-assisted selection in autogamous RIL populations: a simulation study. Theor. Appl. Genet. 96: 147–154. Cerca con Google

66. Visscher P. M. and C. S. Haley (1999). On the efficiency of marker assisted introgression. Anim. Sci. 68: 59–68. Cerca con Google

67. Vos P., R. Hogers, M. Bleeker, M. Reijans, T. van de Lee, M. Hornes, A. Frijters, J. Pot, J. Peleman, M. Kuiper, (1995). AFLP: a new technique for DNA fingerprinting. Nucl. Acids Res. 23: 4407–4414. Cerca con Google

68. Walling G. A., P. M. Visscher, L. Andersson, M. F. Rothschild, L. Wang, G. Moser, M. A. M. Groenen, J. P. Bidanel, S. Cepica, A. L. Archibald, H. Geldermann, D. J. de Koning, D. Milan and C. S. Haley (2000). Combined analyses of data from quantitative trait loci mapping studies. Chromosome 4 effects on porcine growth and fatness. Genetics 155:1369–1378. Cerca con Google

69. Weber J. L. and P. E. May (1989). Abundant class of human DNA polymorphisms which can be typed using the polymerase chain reaction. Am. J. Hum. Genet. 44: 388–396. Cerca con Google

70. Weiss K.M. and A. G. Clark (2002). Linkage disequilibrium and the mapping of complex human traits. Trends Genet. 18:19–24 Cerca con Google

71. Weller J., Y. Kashi and M. Soller (1990). Power of daughter and granddaughter designs for determining linkage between marker loci and quantitative trait loci in dairy cattle. J. Dairy Sci. 73, 2525–2537. Cerca con Google

72. Weller, J.I., Song, J.Z., Heyen, D.W., Lewin, H.A. and Ron, M. (1998). A new approach to the problem of multiple comparisons in the genetic dissection of complex traits. Genetics 150: 1699–1706. Cerca con Google

73. Wenzl P., J. Carling, D. Kudrna, D. Jaccoud, E. Huttner, A. Kleinhofs, A. Kilian (2004). Diversity arrays technology (DArT) for whole-genome profiling of barley. Proc Natl Acad Sci USA 101: 9915–9920. Cerca con Google

74. Yang Y. P. and J. E. Womack (1998). Parallel radiation hybrid mapping: a powerful tool for high-resolution genomic comparison. Genome Res. 8, 731–736. Cerca con Google

75. Ye S., S. Dhillon, X. Ke, A. R. Collins and N. M. Day (2001). An efficient procedure for genotyping single nucleotide polymorphisms. Nucleic Acids Research 29:17 e88. Cerca con Google

76. Zane L., L. Bargelloni and T. Patarnello (2002). Strategies for microsatellite isolation: a review. Mol. Ecol. 11: 1–16. Cerca con Google

77. Zhang L.Y., M. Bernard, P. Leroy, C. Feuillet, and P. Sourdille (2005). High transferability of bread wheat EST-derived SSRs to other cereals. Theor. Appl. Genet. 111: 677–687. Cerca con Google

78. Zhang Q. et al. (1998). Mapping quantitative trait loci for milk production and health of dairy cattle in a large outbred pedigree. Genetics 149, 1959–1973 Cerca con Google

79. Zietkietkiewicz E.A.R., A. Rafalsky and D. Labuda (1994). Genome fingerprinting by simple sequenze repeat (SSR)-anchored polymerase chain reaction amplification. Genomics 20: 176–183. Cerca con Google

80. Albertini E., Porceddu A., Marconi G., Barcaccia G., Pallottini L. and Falcinelli M. (2003). Microsatellite-AFLP for genetic mapping of complex polyploids. Genome, 46: 824-832. Cerca con Google

81. Altschul S.F. Gish W., Miller W., Meyers E.W. and Lipman D.J. (1990). Basic local alignements tool. J. Molecular Biology, 215: 403-410. Cerca con Google

82. Barcaccia G., Albertini E., Tavoletti S., Falcinelli M. and Veronesi F. (1999). AFLP fingerprinting in Medicago spp.: its development and application in linkage mapping. Plant Breeding, 118: 335-340. Cerca con Google

83. Barcaccia G., Albertini E. and Falcinelli M. (1999). AFLP fingerprinting in Pelargonium peltatum: its development and potential in cultivar identification. J. Horticultural Science Biotechnology, 74: 243-250. Cerca con Google

84. Cassandro M., De Marchi M., Targhetta C., Dalvit C., Ramanzin M. and Baruchello M. (2004). An in situ marker-assisted conservation scheme of 11 Italian avian breeds. Proc. of the 55th annual meeting of the European Association for Animal Production, September 5-9, 2004. Bled, Slovenia. p. 30. Cerca con Google

85. Cassandro M., C. Targhetta, M. De Marchi, C. Dalvit, G. Barcaccia and G. Bittante (2005). DNA fingerprinting characterization of four Italian poultry species. Proc. of Plant and Animal Genome XIII Conference. January 15-19, 2005. San Diego, CA .(USA). p. 210. Cerca con Google

86. Coullin P., B. Bed’Hom, J. J. Candelier, D. Vettese, S. Maucolin, S. Moulin, S. A. Galkina, A. Bernheim and V. Volobouev (2005). Cytogenetic repartition of chicken CR1 sequences evidenced by PRINS in Galliformes and some other birds. Chromosome Research, 13: 665–673. Cerca con Google

87. De Marchi M., Cassandro M., Targhetta C., Baruchello M. and Notter 8 D.R. (2005). Conservation of poultry genetic resource in the Veneto region of Italy. Animal Genetic Resources Information, 37: 63-74. Cerca con Google

88. De Marchi M., Dalvit C., Targhetta C. and Cassandro M. (2005). Assessing genetic diversity in indigenous Veneto chicken breeds using AFLP markers. Animal Genetics, 37: 101-105. Cerca con Google

89. Fumihito A., Miyake T., Takada M., Shingu R., Endo T., Gojobori T., Kondo N. and Ohno S. (1996). Monophyletic origin and unique dispersal patterns of domestic fowls. Proc. Natl. Academy Science USA, 93: 6792-6795. Cerca con Google

90. Higgins D.G., Bleasby A.J. and Fuchs R. (1992). ClustalW: a package for performing multiple sequence alignments on a micro-computer. Computational Applied Bioscience, 8: 189-191. Cerca con Google

91. Hillel J., Groenen M.A.M., Tixier-Boichard M., Korol A.B., David L., Kirzhner V.M., Burke T., Barre-Dirie A., Crooijmans R.P.M.A., Elog K., Feldman M.W., Freidlin P.J., Mäki-Tanila A., Oortwijn M., Thomson P., Vignal A., Wimmers K. and Weigend S. (2003). Biodiversity of 52 chicken populations assessed by microsatellite typing of DNA pools. Genetics Selection Evolution 35: 533-557. Cerca con Google

92. Hillier L.W., Miller W., Birney E., Warren W., Hardison R.C., Ponting C.P., Bork P., Burt D.W., Groenen M.A.M, Delany M.E. and Dogson J.B. (2004). Sequence and comparative analysis of the chicken genome provide unique perspectives on vertebrate evolution. Nature, 432: 695-716. Cerca con Google

93. Lanteri S. and Barcaccia G. (2006). Molecular markers based analysis for crop germplasm preservation. In: The role of biotechnology in exploring and protecting agricultural genetic resources (J. Ruane and A. Sonnino, eds.). FAO, Rome. pp. 105-120. Cerca con Google

94. Porceddu A., Alberini E., Barcaccia G., Marconi G., Bertoli F.B. and Veronesi F. (2002) Development of an S-SAP technique based on a LTR-like sequence of Medicago sativa L. Molecular Genetics Genomics, 267: 107-114. Cerca con Google

95. Sambrook J., Fritsch E.F. and Maniatis T. (1989). Molecular cloning: a laboratory manual, 2nd edn. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, New York. Cerca con Google

96. Schmid, M., Nanda, I., Guttenbach, M., Steinlein, C., Hoehn, M., Schartl, M., Haaf, T., Weigend, S., Fries, R., Buerstedde, J.M., et al. (2000). First report on chicken genes and chromosomes 2000. Cytogenet. Cell Genetics, 90: 169–218. Cerca con Google

97. Soattin, M., Barcaccia G., Cassandro M. and Bittante G. (2007). Development of sequence-specific DNA markers for the genetic traceability of autochthonous chicken breeds. Plant and Animal Genome XV Conference. January 13-17, 2007. Cerca con Google

98. Town & Country Convention Center. San Diego, California (USA). p. 240. Targhetta C., De Marchi M., Cassandro M., Barcaccia G., Ramanzin M. and Bonsembiante M. (2003). Use of AFLP markers in poultry genome characterisation. Proc. of the 54th annual meeting of the European Association for Animal Production, August 31th - September 3rd, 2003. Roma, p. 12. Cerca con Google

99. Twito T., Weigend S., Blum S., Granevitze Z., Feldman M.W., Perl-Treves R., Lavi U., Hillel J. (2007). Biodiversity of 20 chicken breeds assessed by SNPs located in gene regions. Cytogenet Genome Research, 117: 319-326. Cerca con Google

100. Vanhala T., Tuiskula-Haavisto M., Elo K., Vilkki J. and Maki-Tanila A. (1998). Evaluation of genetic variabilità and genetic distances between eight chicken lines using microsatellite markers. Poultry Science, 77: 783-790. Cerca con Google

101. Vos P., R. Hogers, M. Bleeker, M. Reijans, T. van de Lee, M. Hornes, A. Frijters, J. Pot, J. Peleman, M. Kuiper and M. Zabeau (1995). AFLP: a new technique for DNA fingerprinting. Nucleic Acids Research, 12: 3396-3303. Cerca con Google

102. Wicker T., Robertson J.S., Schulze S.R., Feltus F.A., Magrini V., Morrison J.A., Mardis E.R., Wilson R.K., Peterson D.G., Paterson A.H. and Ivarie R. (2005). The repetitive landscape of the chicken genome. Genome Research, 15: 126-136. Cerca con Google

103. Wimmers K., Ponsuksili S., Hardge T., Valle-Zarate A., Mathur P.K. and Horst P. (2000). Genetic distinctiveness of African, Asian and South American local chickens. Animal Genetics, 31: 159-165. Cerca con Google

104. Wong G.K. et al. (International Chicken Polymorphism Map Consortium) (2004). A genetic variation map for chicken with 2.8 million single-nucleotide polymorphisms. Nature, 432: 717-722. Cerca con Google

105. Zanon A. and Sabbioni A. (2001). Identificazione e salvaguardia genetica delle razze avicole italiane. Annuali Facoltà Medicina Veterinaria, Università di Parma, 21: 117-134. Cerca con Google

106. Zhang X., Leung F.C., Chan D.K.O., Yang G. and Wu C. (2002). Genetic diversity of Chinese native chickens breeds based on protein polymorphism, randomly amplified polymorphic DAN and microsatellite polymorphism. Poultry Science, 81: 1463-1472. Cerca con Google

107. Andersson L. (2001). Genetic dissection of phenotypic diversity in farm animals. Nature Genetics Reviews, 2: 130–139. Cerca con Google

108. Cardon L.R. and Abecasis G.R. (2003). Using haplotype blocks to map human complex loci. Trends Genetics, 19: 135–140. Cerca con Google

109. Dekkers J.C.M. and Hospital F. (2002). The use of molecular genetics in the improvement of agricultural populations. Nature Genetics Reviews, 3: 22–32. Cerca con Google

110. Farnir F, Coppieters W., Arranz J.C., Berzi P., Cambisano N., Grisart B., Karim L., Marcq F., Moreau L., Mni M., Nezer C., Simon P., Vanmanshoven P., Wagenaar D. and Georges M. (2000). Extensive genome-wide linkage disequilibrium in cattle. Genome Research, 10: 220–227. Cerca con Google

111. Fisher R.A. (1918). The correlations between relatives on the supposition of Mendelian inheritance. Trans. Roy. Soc. Edinburgh, 52: 399–433. Cerca con Google

112. Geesink G.H., M. Koohmaraie (1999). Effect of calpastatin on degradation of myofibrillar proteins by ?-calpain under postmortem conditions. J. Animal Science, 77: 2685–2692. Cerca con Google

113. Haegeman A., J.L. Williams, A. Law, A. Van Zeveren, L.J. Peelman (2003). Mapping and SNP analysis of bovine candidate genes for meat and carcass quality. Animal Genetics, 34: 349–353. Cerca con Google

114. Hedrick, P.W. (2000). Genetics of populations. Jones and Bartlett Publ., London. Cerca con Google

115. Lewis P.O. and Zaykin D. (1999). GDA Version d12. University of New Mexico, Albuquerque, NM. Cerca con Google

116. Lewontin R.C. 1972. The Genetic Basis of Evolutionary Change. Columbia University Press. Cerca con Google

117. Liu J.S., Sabatti C., Teng J., Keats B.J.B. and Risch N. (2001). Bayesian analysis of haplotypes for linkage disequilibrium mapping. Genome Research, 11: 1716– 1724. Cerca con Google

118. Kimura M. and Crow J.F. (1964). The number of alleles that can be maintained in a finite population. Genetics 49: 725–738. Cerca con Google

119. Koohmaraie M. (1992). The role of Ca2+-dependent proteases (calpains) in postmortem proteolysis and meat tenderness. Biochimie, 74: 239–245. Cerca con Google

120. Koohmaraie M. (1994). Muscle proteinases and meat aging. Meat Science, 36: 93-104. Cerca con Google

121. Koohmaraie M. (1996). Biochemical factors regulating the toughening and tenderization process of meat. Meat Science, 43: S193–S201. Cerca con Google

122. Nei M. (1973). Analysis of gene diversity in subdivided populations. Proc. Natl. Acad. Sci. USA, 70: 3321–3323. Cerca con Google

123. Nei M. (1978). Estimation of average heterozigosity and genetic distance from a small number of individuals. Genetics, 89: 583–590. Cerca con Google

124. Oraguzie N.C. and Wilcox P. (2007). An overview of association mapping. In: Association mapping in plants (Edited by N.C. Oraguzie, E.H.A. Rikkerink, S.E. Gardiner and H.N. De Silva). Spinger, New York. pp. 1–9. Cerca con Google

125. Page B.T., Casas E., Heaton M.P., Cullen N.G., Hyndman D.L., Morris C.A., Crawford A.M., Wheeler T.L., Koohmaraie M., Keele J.W., Smith T.P.L. (2002). Evaluation of single-nucleotide polymorphisms in CAPN1 for association with meat tenderness in cattle. J. Animal Science, 80: 3077–3085. Cerca con Google

126. Reich, D.E. et al. (2001). Linkage disequilibrium in the human genome. Nature, 411: 199–204. Cerca con Google

127. Rincòn G. and J.F. Medrano (2003). Single nucleotide polymorphism genotyping of bovine milk protein genes using the tetra-primer ARMS-PCR. J. Animal Breeding Genetics, 120: 331–337. Cerca con Google

128. Rincòn G. and J.F. Medrano (2006). Assays for genotyping single nucleotide polymorphisms in the bovine CAPN1 gene. Animal Genetics, 37: 293–307. Cerca con Google

129. Rohlf F.J. (1993). NTSYS-pc Numerical Taxonomy and Multivariate Analysis System. State University of New York, Stony Brook, NY, Version 1.8. Cerca con Google

130. Ron M. and J.I. Weller (2007). From QTL to QTN identification in livestock – winning by points rather than knock-out: A review. Animal Genetics, 38: 429–439. Cerca con Google

131. Smith T.P.L., E. Casas, C.E. Rexroad III, S.M. Kappes, J.W. Keele (2000). Bovine CAPN1 maps to a region of BTA29 containing a quantitative trait locus for meat tenderness. J. Animal Science, 78: 2589–2594. Cerca con Google

132. Sneath P.H.A and Sokal R.R. (1973). Numerical taxonomy. W.H. Freeman and Company, San Francisco, CA. Cerca con Google

133. Vignal A., Milan D., San Cristobal M., Eggen A. (2002). A review on SNP and other types of molecular markers and their use in animal genetics. Genetics Selection Evolution, 34: 275–305. Cerca con Google

134. Weir B.S. (1996). Genetic Data Analysis, II. Sinauer, Sunderland, MA (USA). Cerca con Google

135. White S.N., Casas E., Wheeler T.L., Shackelford S.D., Koohmaraie M., Riley D.G., Chase C.C., Johnson D.D., Keele J.W. and Smith T.P.L. (2005). A new single nucleotide polymorphism in CAPN1 extends the current tenderness marker test to include cattle of Bos indicus, Bos taurus, and crossbred descent. J. Animal Science, 83: 2001–2008. Cerca con Google

136. Wright S. (1965). The interpretation of population structure by F-statistics with special regard to systems of mating. Evolution, 19: 395–420. Cerca con Google

137. Wright S. (1978). Evolution and the Genetics of Populations. Variability within and among natural populations. University of Chicago Press, USA. Cerca con Google

138. Ye S., Dhillon S., Ke X., Collins A.R. and Day I.N.M. (2001). An efficient procedure for genotyping single nucleotide polymorphisms. Nucleic Acids Research, 29: 17– 88. Cerca con Google

139. Yeh F.C., Yang R.C., Boyle T. (1997). POPGENE. CIFOR and University of Alberta, Canada, Version1.21. Cerca con Google

140. Adamowicz T., K. Flisikowski, R. Starzy´nski, L. Zwierzchowski and M. Switonski (2006). Mutation in the Sp1 motif of the bovine leptin gene affects its expression. Mamm. Genome 17:77–82. Cerca con Google

141. Ahima R. S., C. B. Saper, J. S. Flier, J. K. Elmquist (2000). Leptin regulation of neuroendocrine systems. Front Neuroendocrinol 21: 263–307. Cerca con Google

142. Altschul, S.F., Gish, W., Miller, W., Myers, E.W. and Lipman, D.J. (1990). Basic local alignments search tool. J. Mol. Biol., 215: 403-410. Cerca con Google

143. Andersson L. (2001). Genetic dissection of phenotypic diversity in farm animals. Nature Revs. Genet 2:130-138. Cerca con Google

144. Bado A., S. Levasseur, S. Attoub, S. Kermorgant, J.-P. Laingneau, M. N. Bortoluzzi, L. Moizo, T. Lehy, M. Guerre-Millo, Y. Le Marchand-Brustel, M. J. M. Lewin (1998). The stomach is a source of leptin. Nature 394:790-793. Cerca con Google

145. Barillet F., Arranz J.J. & Carta A. (2005). Mapping quantitative trait loci for milk production and genetic polymorphisms of milk proteins in dairy sheep. Genetics Selection Evolution 37(Suppl. 1):109–123. Cerca con Google

146. Bauman D. E., W. B. Currie (1980). Partitioning of nutrients during pregnancy and lactation: a review of mechanisms involving homeostasis and homeorhesis. J Dairy Sci 63:1514–29. Cerca con Google

147. Bencini R. and S. Dawe (1998). Sheep milking. In the new rural industries. A handbook for farmers and investors published by the Rural Industries Research & Development Corporation, 69-75. Cerca con Google

148. Boucher D., M. F. Palin, F. Castonguay, C. Gariépy and F. Pothier (2006). Detection of polymorphisms in the ovine leptine (LEP) gene: Association of a single nucleotide polymorphism with muscle growth and meat quality traits. Canadian Journal of Animal Science, 86: 31-35. Cerca con Google

149. Bonczek R. R, C. W. Young, J.E. Wheaton, K. P. Miller (1988). Responses of somatotropin, insulin, prolactin and thyroxine to selection for milk yield in Holsteins. J Dairy Sci 71:2470–9. Cerca con Google

150. Brobeck J. R. (1948). Food intake as a mechanism of temperature regulation. Yale J. Biol. Med. 20:545-552. Cerca con Google

151. Broom J.E., M.L. Tate and K.G. Dodds (1996). Linkage mapping in sheep and deer identifies a conserved pecora ruminant linkage group orthologous to two regions of HSA16 and a portion of HSA7Q. Genomics 33:358-364. Cerca con Google

152. Broom M. F., C. Zhou, J.E. Broom, K. J. Barwell, R. D .Jolly and D. F. Hill (1998). Ovine neuronal ceroid lipofuscinosis: A large animal model syntenic with the human neuronal ceroid lipofuscinosis variant CLN6. J. Med. Genet. 35:717-721. Cerca con Google

153. Buchanan F. C., C. J. Fitzsimmons, A. G. Van Kessel, T. D. Thue, D. C. Winkelman- Sim and S. M. Schmutz (2002). Association of a missense mutation in the bovine leptin gene with carcass fat content and leptin mRNA levels. Genetics Selection and Evolution, 34: 105–16. Cerca con Google

154. Buchanan F. C., A. G. Van Kessel,C. Waldner, D. A. Christensen, B. Laarveld, and S. M. Schmutz (2003). Hot Topic: An Association Between a Leptin Single Nucleotide Polymorphism and Milk and Protein Yield. J. Dairy Sci. 86:3164– 3166. Cerca con Google

155. Calvo J. H., A. Mart?´nez-Royo, A. E. Beattie, K. G. Dodds, A. Marcos-Carcavilla and M. Serrano (2006). Fine mapping of genes on sheep chromosome 1 and their association with milk traits. Animal Genetics 37:205–210. Cerca con Google

156. Calvo J.H., S. Marcos, A. E. Beattie, C. Gonzalez, J. J. Jurado and M. Serrano (2004). Ovine alpha-amylase genes: isolation, linkage mapping and association analysis with milk traits. Animal Genetics 35, 329–32. Cerca con Google

157. Cannas A., A. Nudda and G. Pulina, G. (2002) Great Lakes Dairy Sheep Symposium, November 7-11 2002. Cornell University, Ithaca, New York Cerca con Google

158. Casanueva F. F., Dieguez C. (1999). Neuroendocrine regulation and actions of leptin. Front Neuroendocrinol 20: 317–363. Cerca con Google

159. Chelikani P. K., D. R. Glimm, J. J. Kennelly (2003). Short communication: tissue distribution of leptin and leptin receptor mRNA in the bovine. J. Dairy Sci. 86:2369:2372. Cerca con Google

160. Chen C. C., T. Chang and H. Y. Su (2004). Genetic polymorphisms in porcine leptin gene and their associaition with reproduction and production traits. Austr. J. Agric. Res. 55:699-704. Cerca con Google

161. Clark C. E. F., W. J. Fulkerson, K. S. Nandra, I. Barchia, K.L. Macmillan (2005). The use of indicators to assess the degree of mobilisation of body reserves in dairy cows in early lactation on a pasture-based diet. Live. Prod. Sci. 94, 199-211. Cerca con Google

162. Clark C. E. F., W. J. Fulkerson, K. S. Nandra, H. Smith, K.L. Macmillan (2006). Pattern of change in the concentration of milk acetone and its association with ovarian activity for pasture-based cows in early lactation. Live. Sci. 105, 144-150. Cerca con Google

163. Cornish J., K. E. Callon, U. Bava, C. Lin, D. Naot, B. L. Hill, A. B. Grey, N. Broom, D. E. Myers, G. C. Nicholson, I. R. Reid (2002). Leptin directly regulates bone cell function in vitro and reduces bone fragility in vivo. J. Endocrinology 175:405-415. Cerca con Google

164. Cockett N. E., T. L.Shay and M. Smit (2001). Analysis of the sheep genome. Physiol. Genomics 7:69–78. Cerca con Google

165. Crawford A. M., K. G. Dodds, A. J. Ede, C. A. Pierson, G. W. Montgomery, H. G Garmonsway, A. E. Beattie, K. Davies, J. F. Maddox, S. W. Kappes (1995). An autosomal genetic linkage map of the sheep genome. Genetics 140: 703-724. Cerca con Google

166. Cupps P. T. (1966). Breeds of dairy cattle. Page 149 in Introduction to livestock Production. 2nd ed. H. H. Cole, ed W. H. Freeman & Co., San Francisco, CA. Cerca con Google

167. Darlington G. J., N. Wang and R. W. Hanson (1995). C/EBP alpha: a critical regulation of genes governing integrative metabolic processes. Curr. Opin. Gen. Dev. 5:565- 570. Cerca con Google

168. de Gortari M.J., B. A. Freking, R. P. Cuthbertson, S. M. Kappes, J. W. Keele, R. T. Stone, K. A. Leymaster, K. G. Dodds, A. M. Crawford and C. W. Beattie (1998). A second-generation linkage map of the sheep genome. Mammal. Genome 9:204- 209. Cerca con Google

169. Delavaud C., F. Bocquier, Y. Chilliard, D. H. Keisler, A. Gertler, G. Kann (2000). Plasma leptin determination in ruminants: effect of nutritional status and body fatness on plasma leptin concentration assessed by a specific RIA in sheep. J Endocrinol, 165(2): 519-526. Cerca con Google

170. Dekkers J. C. M., J. C. M. Ten Hag, A. Weersink (1998). Economic aspects of persistency of lactation in dairy cattle. Livestock Science, 53:237-252. Cerca con Google

171. Dekkers J. C. M. and F. Hospital (2002). The use of molecular genetics in the improvement of agricultural populations. Nature Revs. Genet. 3:22–32. Cerca con Google

172. Di Stasio L, A. Brugiapaglia, M. Galloni, G. Destefanis and C. Lisa (2007). Effect of the leptin c.73T>C mutation on carcass traits in beef cattle. Anim. Genet. 38(3):316-317. Cerca con Google

173. Ehrhardt R. A., R. M. Slepetis, J. Siegal-Willott, M. E. Van Amburgh, A.W. Bell AW, Y. R. Boisclair (2000). Development of a specific radioimmunoassay to measure physiological changes of circulating leptin in cattle and sheep. J. Endocrinol 166:519–28. Cerca con Google

174. Etherton T. D, D. E. Bauman (1998). Biology of somatotropin in growth and lactation of domestic animals. Physiol Rev. 78:745–61. Cerca con Google

175. Epstein, (1982). Awassi sheep. World Animal Reviews, 44: 9-18. Cerca con Google

176. Fitzsimmons C. J., S. Shmutz, R. D. Bergen and J. J. McKinnon (1998). A potential association between the BM 1500 microsatellite and fat deposition in beef cattle. Mammalian Genome, 9:432-434. Cerca con Google

177. Forhead A. J., L. Thomas, J. Crabtree, N. Hoggard, D. S. Gardner, D. A. Giussani, et al. (2002). Plasma leptin concentration in fetal sheep during late gestation: ontogeny and effect of glucocorticoids. Endocrinology;143(4): 1166-1173. Cerca con Google

178. Friedman J. M. (1992). Tackling a weighty problem. Cell 69:217-220. Cerca con Google

179. Friedman J. M., R. L. Leibel, D. S. Siegel, J. Walsh and N. Bahary (1991). Molecular mapping of the mouse ob mutation. Genetics 11,(4):1054-1062. Cerca con Google

180. Friedman J. M., Halaas J. L (1998). Leptin and regulation of body weight in mammals. Nature 395:763–770. Cerca con Google

181. Fukuda H. and N. Iritani (1999). Transcriptional regulation of leptin gene promoter in rat. FEBS letters, 455: 165-169. Cerca con Google

182. Galloway S. M., V. Hanrahan, K. G. Dodds, M. D. Potts, A. M. Crawford and D. F. Hill (1996). A linkage map of the ovine X chromosome. Genome Res. 6: 667-677. Cerca con Google

183. Garnsworthy P. C, J. H. Topps (1982). The effect of body condition of dairy cows at calving on their food intake and performance when given complete diets. Anim Prod 35:113–9. Cerca con Google

184. Gengler N. (1995). Use of mixed models to appreciate the persistency of yields during the lactation of milk cows. Ph. D. Diss. Facultè Univ. Sci. Agron., Gembloux, Belgium. Cerca con Google

185. Gengler N. (1996). Persistency of lactation yields: A review. Interbull Bull., 12: 87-96. Cerca con Google

186. Georges M., D. Nielsen, M. Mackinnon, A. Mishra, R. Okimoto, A. T. Pasquino, L. S. Sargeant, A. Sorensen, M. R. Steele, X. Zhao, J. E. Womack, I. Hoeschele, (1995). Mapping quantitative trait loci controlling milk production by exploiting progeny testing. Genetics 139:907–920. Cerca con Google

187. Gilmour A. R., B. R. Cullis, S. J. Welham and R. Thomson (2001). ASRELM, Reference Manual. Cerca con Google

188. Gong D. W., S. Bi, R. E. Pratley and B. D. Weintraub (1996). Genomic structure and promoter analysis of the human obese gene. J Biol. Chem 271:3971-3974. Cerca con Google

189. Grossman M., S. M., Hartz, W. J. Koops (1999). Persistency of lactation yield: a novel approach. Journal of Dairy Science, 82: 2192-2197. Cerca con Google

190. Grummer R. R. (1995). Impact of changes in organic nutrient metabolism on feeding the transition dairy cow. J Anim Sci 73:2820– 33. Cerca con Google

191. Haegeman, A., A. Van Zeveren, and L. J. Peelman. 2000. New mutation in exon 2 of the bovine leptin gene. Anim. Genet. 31:79. Cerca con Google

192. Halaas J. L., K. S. Gajiwala, M. Maffei, S. L. Cohen, B. T. Chait, D. Rabinowitz et al. (1995). Weight-reducing effects of the plasma protein encoded by the obese gene. Science, 269(5223):543-546. Cerca con Google

193. Hamrick M. W., C. Pennington, D. Newton, D. Xie and C. Isales (2004). Leptin deficiency produces contrasting phenptypes in bones of the limb and spine. Bone 34:376-383. Cerca con Google

194. Hassink S. G., E. De Lancey, D. V. Sheslow, S. M.Smith-Kirwin, D. M. O’Connor, R. V. Considine, I. Opentanova, K. Dostal, M. L. Spear, K. Leef, M. Ash, A. R. Spitzer and V. L. Funanage (1997). Placental leptin: an important new growth factor in intrauterine and neonatal development? Pediatrics 100, e1 (6pp). Cerca con Google

195. Henson M. C. and V. D. Castracane (2003). “Leptin and Reproduction.” Kluwer Academic/Plenum, New York. Cerca con Google

196. Hossner K. L. (1998). Cellular, molecular and physiological aspects of leptin: potential application in animal production. Can. J. Anim. Sci. 78:463-472. Cerca con Google

197. Hoffstedt J., P. Eriksson, S. Mottagui-Tabar, P. Arner (2002). A polymorphism in the leptin promoter region (-2548 G/A) influences gene expression and adipose tissue secretion of leptin. Horm. Metab. Res., 34: 355-359. Cerca con Google

198. Houweling P. J., J. A. L. Cavanagh, D. N. Palmer, T. Frugier, N. L. Mitchell, P. A. Windsor, H. W. Raadsma, I. Tammen (2006). Neuronal ceroid lipofuscinosis in Devon cattle is caused by a single base duplication (c.662dupG) in the bovine CLN5 gene. Biochimica et Biophysica Acta 1762:890–897. Cerca con Google

199. Hwang C. S. S. Mandrup, O. A. Mac Dougald, D. E. Geiman and M. D. Lane (1996). Transcriptional activation of the mouse obese (ob) gene by CCAAT/enhancer binding protein ?. Proc. Natl. Acad. Sci. USA 93:873-877. Cerca con Google

200. Ingvartsen K. L., Boisclair Y. R. (2001). Leptin and the regulation of food intake, energy homeostasis and immunity with special focus on periparturient ruminants. Domest Anim Endocrinol 21:215–50. Cerca con Google

201. Ingalls A. M., M. M. Dickie and G. D. Snell (1950). Obese, a new mutation in the house mouse. J Hered 41: 317-318. Cerca con Google

202. Isse N., Y. Ogawa, N. Tamura, H. Masuzaki, K. Mori, T. Okazaki, N. Satoh, M. Shigemoto, Y. Yoshimasa, S. Nishi, K. Hosoda, J. Inazawa and K. Nakao (1995). Structural organization and chromosomal assignment of the human obese gene. J. Biol. Chem. 270:27728-27733. Cerca con Google

203. Jack C., P. Cieli, D. McGill, K. Fullard, P.C. Thompson, M. Lam, D. Blache, G.B. Martin, P.C. Wynn and H.W. Raadsma (2006). The use of biomarkers to assess energy balance in ewes milked once a day. Current Topics in Dairy Production, Australia, University Printing Service, Sydney, 11: pp. 142-144. Cerca con Google

204. Jiang Z. H. and J. P. Gibson (1999). Genetic polymorphisms in the leptin gene and their association with fatness in four pig breeds. Mamm. Genome 10:191-193. Cerca con Google

205. Jin L., S. Zhang, B. G. Burguera, M. E. Couce, R. Y. Osamura, E. Kulig and R. V. Lloyd (2000). Leptin and leptin receptor expression in rat and mouse pituitary cells. Endocrinology 141:333-339. Cerca con Google

206. Lagonigro R, P. Wiener, F. Pilla, J. A. Woolliams, J. L. Williams (2003). A new mutation in the coding region of the bovine leptin gene associated with feed intake. Anim Genet 34:371–374. Cerca con Google

207. Lake S. L., T. R. Weston, E. J. Scholljegerdes, C. M. Murrieta, B. M. Alexander, D. C. Rule, G. E. Moss and B. W. Hess (2007). Effects of postpartum dietary fat and body condition score at parturition on plasma, adipose tissue, and milk fatty acid composition of lactating beef cows. J. Anim Sci., 85: 717-730. Cerca con Google

208. Liefers, S. C., M. F. W. te Pas, R. F. Veerkamp, and T. van der Lende (2002). Associations between leptin gene polymorphisms and production, liveweight, energy balance, feed intake and fertility in Holstein heifers. J. Dairy Sci. 85:1633– 1638. Cerca con Google

209. Liefers S. C., R. F. Veerkamp, M. F. W. te Pas, C. Delavaud, Y. Chilliard, T. van der Lende (2003a). Leptin concentrations in relation to energy balance, milk yield, intake, live weight, and estrus in dairy cows. J Dairy Sci., 86(3): 799-807. Cerca con Google

210. Liefers, S. C., M. F. W. te Pas, R. F. Veerkamp, Y. Chilliard, C. Delavaud, R. Gerritsen, and T. van der Lende (2003b). Association of leptin gene polymorphisms with serum leptin concentration in dairy cows. Mamm. Gen. 14:657–663. Cerca con Google

211. Liefers S. C., R. F. Veerkamp, M. F. W. te Pas, C. Delavaud, Y. Chilliard and T. van der Lende (2004). A missense mutation in the bovine leptin receptor gene is associated with leptin concentrations during late pregnancy. Animal Genetics, 35, 138–141 Cerca con Google

212. Liefers S. C., R. F. Veerkamp, M. F. W. te Pas, C. Delavaud, Y. Chilliard, T. van der Lende (2005a). Genetics and physiology of leptin in periparturient dairy cows. Domestic Animal Endocrinology, 29: 227-238. Cerca con Google

213. Liefers S. C., R. F. Veerkamp, M. F. W. te Pas, C. Delavaud, Y. Chilliard, M. Platje and T. van der Lende (2005b). Leptin promoter mutations affect leptin levels and performance traits in dairy cows. Animal Genetics, 36, 111–118. Cerca con Google

214. Lien S., H. Sundvold, H. Klungland, D. I. Vage (1997). Two novel polymorphism in the bovine obesity gene (OBS). Animal Genetics, 28: 238-246. Cerca con Google

215. Lisa C., S. Sartore, L. Di Stasio (2007). Variabilità of Leptin gene promoter in cattle. Ital. J. Anim. Sci. 6 (suppl.1):150-152. Cerca con Google

216. Lord E.A., J. M. Lumsden, K. G. Dodds, H. M. Henry, A. M. Crawford, H. A. Ansari, P. D. Pearce, D. W. Maher, R. T. Stone, S. M. Kappes (1996). The linkage map of sheep chromosome 6 compared with orthologous regions in other species. Mammal. Genome 7: 373-376. Cerca con Google

217. Lord G. M. G. Matarese, J. K. Howard, R. J. Baker, S. R. Bloom and R. I. Lecheir (1998). Leptin modulates the T-cell immune response and reverses starvationinduced immunosupression. Nature 394:897-901. Cerca con Google

218. Lucy M. C, H. Jiang, Y. Kobayashi (2001). Changes in the somatotrophic axis associated with the initiation of lactation. J. Dairy Sci. 84:E113–9. Cerca con Google

219. Kadokawa H., D. Blache, G.B. Martin (2006). Plasma Leptin Concentrations Correlate with Luteinizing Hormone Secretion in Early Postpartum Holstein Cows. J. Dairy Sci., 89: 3020-3027. Cerca con Google

220. Kennedy G. C. (1953). The Role of Depot Fat in the Hypothalamic Control of Food Intake in the Rat. Proc. R. Soc. B, Vol. 140, No. 901, pp. 578-592. Cerca con Google

221. Kennes Y. M., B. D. Murphy, F. Pothier and M. F. Palin (2001). Characterization of swine leptin (LEP) polymorphisms and their association with production traits. Anim. Genet. 32:215-218. Cerca con Google

222. Kmie? M., H. Kulig and A. Konik (2003). Preliminary results on associations between leptin gene (LEP) and some reproduction performance traits of boars. Arch. Tierz. Dummerstorf 46:63-70. Cerca con Google

223. Konfortov B. A., V. E. Licence, J. R. Miller (1999). Re-sequencing of DNA from a diverse panel of cattle reveals a high level of polymorphism in both intron and exon. Mammaliam Genom., 10: 1142-1145. Cerca con Google

224. Korwin-Kossakowska A., M. Kamyczek, D. Cie?ilak, M. Pierzchala and J. Kuryl (2002). The effect of the polymorphism of leptin (LEP), leptin receptor (LEPR) and osteopontin (OPN) genes on selected reproduction traits of synthetic line 990 sows. Anim. Sci. Pap. Rep. 20:159-168. Cerca con Google

225. Kulig H., W. Grzesiak and I. Szatkowska (2001). Effect of leptin gene polymorphism on growth and carcass traits in pigs. Arch. Tierz. Dummerstorf 44:291-296. Cerca con Google

226. Maddox, J. F., K. P. Davis, A. M. Crawford, D. J. Hulma, D. Vaiman, E. P. Cribiu, B. A. Freking, K. J. Beh, N. E. Cockett, N. Kang, C. D. Rifkin, R. Drinkwater, et al., (2001). An enhanced linkage map of the sheep genome comprising more than 1000 loci. Genome Research 11: 1275-1289. Cerca con Google

227. Macciotta N. P. P, D. Vicario, A. Cappio-Borlino (2006). Use of multivariate analysis to extract latent variables related to level of production and lactation persistency in dairy cattle. J. Dairy Sci., 89: 3188-3194. Cerca con Google

228. McGavin M.D. (1974). An animal model of human disease: Progressive ovine muscular dystrophy. Comp. Pathol. Bullet. 6: 3-4. Cerca con Google

229. McLaren R.J., G. R. Rogers, K. P. Davies, J. F. Maddox and G. W. Montgomery (1997). Linkage mapping of wool keratin and keratin-associated protein genes in sheep. Mammal. Genome 8:938-940. Cerca con Google

230. Marie M., P.A. Findlay, L. Thomas and C.L. Adam (2001). Daily patterns of plasma leptin in sheep: effects of photoperiod and food intake. J. Endocrinol., 170(1): 277-286. Cerca con Google

231. Mason M. M., Y. He, H. Chen, M. J. Quon and M. Reitman (1998). Regulation of leptin promoter function by Sp1, C/EBP, and a novel factor. Endocrinology 139:1013- 1022. Cerca con Google

232. Masuzaki H., Y. Ogawa, N. Isse, N. Satoh, T. Okazaki, M. Shigemoto, K. Mori, N. Tamura, K. Hosoda, Y. Yoshimasa, H. Jingami, T. Kawada, K. Nakao (1995). Human obese gene expression adipocyte-specific expression and regional differences in the adipose tissue. Diabetes 44:855-858. Cerca con Google

233. Masuzaki H., Y. Ogawa, N. Sagawa, K. Hosoda, T. Matsumoto, H. Mise, H. Nishimura, Y. Yoshimasa, I. Tanaka, T. Mori, K. Nakao (1997). Non-adipose tissue production of leptin: leptin as a novel placenta-derived horomone in humans. Nat. Med. 3:1029-1033. Cerca con Google

234. Miller S. G., P. De Vos, M. Guerre-Millo, K. Wong, T. Hermann, B. Stales, M. R. Briggs and J. Auwerx (1996). The adipocyte specific transcription factor C/EBP? modulates human ob gene expression. Proc. Natl. Acad. Sci. USA 93:5507-5511. Cerca con Google

235. Montgomery G. W. and J. A. Sise (1990). Extraction of DNA from sheep white blood cells. New Zeeland Journal of Agriculture Research, 33: 437-441. Cerca con Google

236. Morash B. A. li, P. R. Murphy, M. Wilkinson and E. Ur (1999). Leptin gene expression in the brain and pituitary gland. Endocrinology 140:5995-5998. Cerca con Google

237. Morrison C. D., J. A. Daniel, B. J. Holmberg, J. Djiane, N. Raver, A. Gertler, et al (2001). Central infusion of leptin into well-fed and undernourished ewe lambs: effects on feed intake and serum concentrations of growth hormone and luteinizing hormone. J Endocrinol., 168(2):317-24. Cerca con Google

238. Muir B. L. (2004). Genetics of lactation persistency and relationships with reproductive performance in holsteins. PhD thesis, University of Guelph. Cerca con Google

239. Nkrumah, J. D., C. Li, J. A. Basarab, S. Guercio, Y. Meng, B. Murdoch, C. Hansen, and S. S. Moore (2004). Association of a single nucleotide polymorphism in the bovine leptin gene with feed intake, growth, feed efficiency, feeding behaviour and carcass merit. Can. J. Anim. Sci. 84:211–219. Cerca con Google

240. Nkrumah J. D., C. Li, J. Yu, C. Hansen, D. H. Keisler and S. S. Moore (2005). Polymorphisms in the bovine leptin promoter associated with serum leptin concentration, growth, feed intake, feeding behavior, and measures of carcass merit. J. Anim. Sci. 83:20–28 Cerca con Google

241. Oberkofler H., A. Beer, D. Breban, E. Hell, F. Krempler, W. Patsch (1997). Human obese gene expression: alternative splicing of mRNA and relation to adipose tissue localization. Obesity Surgey 7:390-396. Cerca con Google

242. Oprzadek J., K. Flisikowski, L. Zwierzchowski and E. Dymnicki (2003). Polymorphisms at loci of leptin (LEP), Pit1 and STAT5A and their association with growth, feed conversion and carcass quality in Black-and-White bulls. Anim. Sci. Papers. Rep 21:135-145. Cerca con Google

243. Peelman F., W. Waelput, H. Iserentant, D. Lavens, S. Eyckerman, L. Zabeau and J. Tavernier (2004). Leptin: linking adipocyte metabolism with cardiovascular and autoimmune diseases. Prog. Lipid Res. 43:283-301. Cerca con Google

244. Pelleymonunter M. A., M. J. Cullen, M. B. Baker, R. Hetch, D. Winters, T. Boone and F. Collins (1995). Effects of the obese gene product on body weight regulation in ob/ob mice. Science 269:540-543. Cerca con Google

245. Pomp D., T. Zou, A. C. Clutter and W. Barendse (1997). Rapid communication: mapping of leptin to bovine chromosome 4 by linkage analysis of a PCR-based polymorphism. J. Anim. Sci. 75:1427. Cerca con Google

246. Pryce J. E., R. F. Veerkamp, R. Thomoson, W. G. Hill, G. Simm (1997). Genetic aspects of common health disorders and measures of fertility in Holstein Friesian dairy cattle. Anim. Sci., 65: 353-360. Cerca con Google

247. Pryce J. E., M. P. Coffey, G. Simm (2001). The relationship between body condition score and reproductive performance. J Dairy Sci 84:1508–15. Cerca con Google

248. Pulina G., A. Nudda, N. P. P. Macciotta, G. Battacone, S. P. G. Rassu, A. Cannas (2007). Non-nutritional factors affecting lactation persistency in dairy ewes: a review. Ital. J. Anim. Sci., 6: 115-141. Cerca con Google

249. Raadsma H. W., K. R. Zenger, C. Cavanagh, M. K. Lam, P. C Thomson, M. Jones, G. Attard, D. Palmer and F. W. Nicholas (1999). The mapping of economically important quantitative trait loci in sheep I: male distance framework map and QTL for growth rate and body weight. Proc. Assoc. Advmt. Anim. Breed. Gen., 13: 361-364. Cerca con Google

250. Rahmouni K. and W. G. Haynes (2004). Leptin and the cardiovascular system. Recent Prog. Horm. Res. 59:225-244. Cerca con Google

251. Rosenbaum M., R. L. Leibel (1998). Leptin; a molecule integrating somatic energy stores, energy expenditure and fertility. Trends Endocrinol Metab. 9:117–124. Cerca con Google

252. Senarìs R., T. Garcia-Caballero, X. Casabiell, R. Callego, R. Castro, R. V. Considine, C. Dieguez, F. F. Casaneuva (1997). Synthesis of leptin in human placenta. Endocrinology 138:4501-4504. Cerca con Google

253. Singh M., M. Lam, D. McGill, P.C. Thomson, J.A. Cavanagh, K.R. Zenger and H.W. Raadsma (2007). High resolution mapping of quantitative trait loci on ovine chromosome 3 and 20 affecting protein yield and lactation persistency. Proc. Of AAABG, Association for the Advancement of Animal Breeding and Genetics, Armidale, NSW Australia. 23-26 Sept 2007.17: 565. Cerca con Google

254. Smith-Kirwin S. M., D. M. O’Connor, J. Johnston, E. de Lancey, S. G. Hassink and V. L. Funanage (1998). Leptin expression in human mammary cells and breast milk. J. Clin. Endocrinol. Metabol. 83:1810-1813. Cerca con Google

255. Sölkner J., W. Fuchs (1987). A comparison of different measures of persistency with special respect to variation of test day yields. Livest. Prod. Sci., 16: 305-319. Cerca con Google

256. Stachowiak M., M. Mackowski, Z. Madeja, M. Szydlowski, A. Buszka, P. Kaczmarek, B. Rubis, P. Mackowiak, K. W. Nowak and M. Switonski (2007). Polymorphism of the porcine leptin gene promoter and analysis of its association with gene expression and fatness traits. Biochemical Genetics 45:245-253. Cerca con Google

257. Steppan C. M., D. T. Crawford, K. L. Chidsey-Frink, H. Z. Ke and A. G. Swick (2000). Leptin is a potent stimulator of bone growth in ob/ob mice. Regul. Pept. 92:73-78. Cerca con Google

258. Stone R. T., S. M. Kappes, C. W. Beattie (1996) The bovine homolog of the obese gene maps to chromosome 4. Mamm Genome 7, 399–400 Cerca con Google

259. Swalve, H.H. (1995). Genetic relationship between dairy lactation persistency and yield. J. Anim. Breed. Genet., 112: 303-311. Cerca con Google

260. Szydlowski M., M. Stachowiak, M. Mackowski, M. Kamyczek, R. Eckert, M. Rozycki and M. Switonski (2004). No major effect of the leptin gene polymorphism on porcine production traits. J. Anim. Breed. Genet. 121:149-155. Cerca con Google

261. Taylor V. J., D. E. Beever, D. C. Wathes (2003). Physiological adaptations to milk production that affect fertility in high yielding dairy cows. In: Dairying, using science to meet consumer needs. Br. Soc. Anim. Sci. Occasional Publication No. 29. Nottingham University Press; p. 37–71. Cerca con Google

262. Tan P., J. G. Allen, S. D. Wilton, P. A. Akkari, C. R. Huxtable and N. G. Laing (1997). A splice-site mutation causing ovine McArdle's disease. Neuromuscular Disorders 7: 336-342. Cerca con Google

263. Taniguchi Y., I. Tomohiro, Y. Takahisa and S. Yoshiyuki (2002). Genomic Structure and Promoter Analysis of the Bovine Leptin Gene. IUBMB Life, 53: 131–135. Cerca con Google

264. Tena-Sempere M. (2007). Roles of Ghrelin and Leptin in the Control of Reproductive Function. Neuro-endocrinology. 86:229-241ù Cerca con Google

265. Thomas L., J. M Wallance, R. P. Aitken, J. G. Mercer, P. Trayhurn, N. Hoggard (2001). Circulating leptin during ovine pregnancy in relation to maternal nutrition, body composition and pregnancy outcome. J. Endocrinol., 169(3): 465-76. Cerca con Google

266. Urban T., J. Kuciel and R. Mikolášová (2002). Polymorphism of genes encoding for ryanodine receptor, growth hormone, leptin and MYC protooncogene protein and meat production in Duroc pigs. Czech. J. Anim. Sci. 47:411-417. Cerca con Google

267. Walling G. A., P. M. Visscher, A. D. Wilson, B. L. McTeir, G. Simm and S. C. Bishop (2004). Mapping of quantitative trait loci for growth and carcass traits in commercial sheep populations. J. Anim. Sci. 82:2234–2245. Cerca con Google

268. Walther C., J. L. Guenet, D. Simon, U. Deutsch, B. Jostes, M. D. Goulding, D. Plachov, R. Balling and P. Gruss (1991). Pax: A murine multigene family of paired boxcontaining genes. Genomics 11(2):424-434. Cerca con Google

269. Wang J., R. Liu, M. Hawkins, N. Barzilai and L. Rosetti (1998). A nutrient-sensing pathway regulates leptin gene expression in muscle and fat. Nature 393:684-688. Cerca con Google

270. Wang J., R. Liu, L. Liu, R. Chowdhury, N. Barzilai, J. Tan and L. Rosetti (1999). The effect of leptin on Lep expression is tissue-specific and nutriotionally regulated. Nat. Med. 5:895-899. Cerca con Google

271. Wathes D. C., Z. Cheng, N. Bourne, V. J. Taylor, M. P. Coffey, S. Brotherstone (2007a). Differences between primiparous and multiparous dairy cows in the inter-relationships between metabolic traits, milk yield and body condition score in the periparturient period.. Dom Anim Endocrinol 33(2):203-225. Cerca con Google

272. Wathes D. C, M. Fenwick, Z. Cheng, N. Bourne, S. Llewellyn, D. G. Morris, D. Kenny, J. Murphy, R. Fitzpatrick (2007). Influence of negative energy balance on cyclicity and fertility in the high producing dairy cow. Theriogenology 68S: S232–S241. Cerca con Google

273. Wiesner G., M. Vaz, G. Collier, D. Seals, D. Kaye, G. Jennings, G. Lambert, D. Wilkinson and M. Esler (1999). Leptin is released from the human brain: influence of adiposity and gender. J. Clin. Endocrinol. Metabol. 84:2270:2274. Cerca con Google

274. Wright C. D., A. M. Havill, S. C. Middleton, M. A. Kashem, P. A. Lee, D. J. Dripps, T. G. O'Riordan, M. P. Bevilacqua and W. M. Abraham (1999). Secretory leukocyte protease inhibitor prevents allergen-induced pulmonary responses in animal models of asthma. J. Pharmacol. Exp. Therapeut.. 289: 1007-1014. Cerca con Google

275. Wood P. D. P. (1967). Algebraic Model of the Lactation Curve in Cattle. Nature 216:164-165. Cerca con Google

276. Zhang Y., R. Proenca, M. Maffei, M. Barone, L. Leopold, J. M. Friedman (1994). Positional cloning of the mouse obese gene and its human homologue. Nature 372: 425-432. Cerca con Google

277. Zhang F., M. B. Basinski, J. M. Beals, S. L. Briggs, L. M. Churgay, D. K. Clawson, R. D. Di Marchi, T. C. Furman, J. E. Hale, H. M. Hsiung, B. E. Schoner, D. P. smith, X. Y. Zhang, J. P. Wery and R. W. Schevitz (1997). Crystal structure of the obese protein leptin-E100. Nature 387:206-209. Cerca con Google

Download statistics

Solo per lo Staff dell Archivio: Modifica questo record