Asian-Australasian Journal of Animal Sciences

  • 제18권12호
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  • Pages.1684-1690
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  • 2005
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  • 1011-2367(pISSN)
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  • 1976-5517(eISSN)
아세아태평양축산학회 (Asian Australasian Association of Animal Production Societies)
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Cloning and Characterization of Liver cDNAs That Are Differentially Expressed between Chicken Hybrids and Their Parents

  • Sun, Dong-Xiao (Department of Animal Genetics and Breeding, College of Animal Science and Technology China Agricultural University) ;
  • Wang, Dong (Department of Animal Genetics and Breeding, College of Animal Science and Technology China Agricultural University) ;
  • Yu, Ying (Department of Animal Genetics and Breeding, College of Animal Science and Technology China Agricultural University) ;
  • Zhang, Yuan (Department of Animal Genetics and Breeding, College of Animal Science and Technology China Agricultural University)
  • 투고 : 2005.02.15
  • 심사 : 2005.06.03
  • 발행 : 2005.12.01
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초록

Using mRNA differential display technique, we investigated differential gene expression in hybrids relative to their parents in a diallel cross involving four chicken breeds in order to provide an insight into the molecular basis of heterosis in chicken. The results indicated that there was extensive differential gene expression between chicken F1 hybrids and their parents which was classified into four kinds of patterns as following: (1) bands only detected in hybrid F1; (2) bands only absent in hybrid F1; (3) bands only detected in parent P1 or P2; (4) bands absent in parent P1 or P2. Forty-two differentially expressed cDNAs were cloned and sequenced, and their expression patterns were confirmed by Reverse-Northern dot blot. Sequence analysis and database searches revealed that genes showed differential expression between hybrid and parents were regulatory and functional genes involved in metabolism, mRNA splicing, transcriptional regulation, cell cycles and protein modification. These results indicated that hybridization between two parents can cause changes in expression of a variety of genes. In conclusion, that the altered pattern of gene expression in hybrids may be responsible for heterosis in chickens.

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참고문헌

  1. Allward, R. W. 1996. Genetic basis of the evolution of adaptedness in plants. Euphytica 92:1-11. https://doi.org/10.1007/BF00022822
  2. Atzmon, G., D. Cassuto, U. Lavi, A. Cahaner, G. Zeitlin and J. Hillel. 2002. DNA markers and crossbreeding scheme as means to select sires for heterosis in egg production of chickens. Anim. Genet. 33(2):132-9.
  3. Belfiore, F. and S. Iannello. 1995. Fatty acid synthesis from glutamate in the adipose tissue of normal subjects and obese patients: an enzyme study. Biochem. Mol. Med. 54(1):19-25.
  4. Berg, J. M. 1989. DNA binding specificity of steroid receptors. Cell 57(7):1065-1068. https://doi.org/10.1016/0092-8674(89)90042-1
  5. Boldin, M. P., E. E. Varfolomeev and Z. A. Pancer. A protein related to a proteasomal subunit binds to the intracellular domain of the p55 TNF receptor upstream to its 'death domain', J. Biol. Chem. 270:7795-7798.
  6. Brad, A. and M. D. Rubery. 2003. Hypoalbuminemia Medicine, Ob/Gyn, Psychiatry, and Surgery Critical Care 01/20/2003$^{\copyright}$ Copyright. eMedicine.com, Inc.
  7. Bruce, A. B. 1910. The Mendelian theory of heredity and the argumentation of vigor. Sci. 32:627-628.
  8. Busch, S. J. and P. Sassone-Corsi. 1990. Dimers, leucine zippers and DNA-binding domains. Trends Gene. 6(2):36-40.
  9. Cheng Ninghui, Yang Jinshui, Gao Yangping, Xu Mingliang, Qian Min and Ge Koulin. 1996. Primary studies on gene differential expression between maize F1 hybrid and parents. Chinese Science Bulletin 41:451-454.
  10. Cheng Ninghui, Gao Yangping, Yang Jinshui, Qian Min and Ge Koulin. 1997. Alteration of gene expression in rice hybrid F1 and its parental seedlings. Acta Botanica Sinica 39:379-382.
  11. Davenport, C. B. 1908. Degeneration, albinism and inbreeding. Sci. 28:454-455.
  12. Duvick, D. N. 2001. Biotechnology in the 1930s: the development of hybrid maize. Nature Review Genetics 2001(2):69-74.
  13. East, E M. 1908. Inbreeding in corn. Reeports of The Connecticut Agricultural Experiment Station for years 1907-1908. pp. 419-428.
  14. Gavora, J. S., R. W. Fairfull, B. R. Benkel, W. J. Cantwell and J. R. Chambers. 1996. Prediction of heterosis from DNA fingerprints in chickens. Genet. 144(2):777-784.
  15. Glass, C. K., D. W. Rose and M. G. Rosenfeld. 1997. Nuclear receptor coactivators. Curr. Opin. Cell Biol. 9(2):222-232.
  16. Haberfeld, A., E. A. Dunnington, P. B. Siegel and J. Hillel. 1996. Heterosis and DNA fingerprinting in chickens. Poult. Sci. 75(8):951-953.
  17. Kim, S., G. H. Park and W. K. Paik. 1998. Recent advances in protein methylation: Enzymatic methylation of nucleic acid binding proteins. Amino Acids 15(4):291-306.
  18. Liang, P. and A. B. Pardee. 1992. Differential display of eukaryotic messenger RNA by means of the polymerase chain reaction. Sci. 257:967-971.
  19. Liu, G. Y., Y. Z. Xiong, C. Y. Deng, B. Zuo and J. H. Zhang. 2004. Comparison of gene expression patterns in Longissimus dorsi of pigs between the hign-parent heterosis cross combination landrace Large White and the mid-parent heterosis cross combination Large white Meishan. Asian-Aust. J. Anim. Sci. 17(9):1192-1196.
  20. Li, M. H., E. Nogovitsina, Z. Ivanova, G. Erhardt, J. Vilkki, R. Popov, I. Ammosov, T. Kiselyova and J. Kantanen. 2005. Genetic contribution of indigenous yakutian cattle to two hybrid populations, revealed by microsatellite variation. Asian-Aust. J. Anim. Sci. 18(5):613-619.
  21. Omura, M., K. Kawabe, S. Matsushita, S. Oka, O. Hatano, N. Harada, H. Nawata and K. Morohashi. 1998. Adrenocortical and gonadal expression of the mammalian Ftz-F1 gene encoding Ad4BP/SF-1 is independent of pituitary control. J. Biochem. 124(1):217-224.
  22. Oba, K., T. Yanase, I. Ichino, K. Goto, R. Takayanagi and H. Nawata. 2000. Transcriptional regulation of the human FTZF1 gene encoding Ad4BP/SF-1. J. Biochem. 128(3):517-528.
  23. Romagnoli, S., M. Maddaloni and C. Livini. 1990. Relationship between gene expression and hybrid vigor in primary root tips of young maize (Zea mays L.) plantlets. Theor. Appl. Genet. 80:767-775.
  24. Shull, G. H. 1908. The composition of a field of maize. Am. Breed Assn. 4:296-301.
  25. Stuber, C. W., S. E. Lincoln, D. W. Wolff, T. Helentjaris, E. S. Lander. 1992. Identification of genetic factors contributing to heterosis in a hybrid from two elite maize inbred lines using molecular markers. Genet. 132:823-839.
  26. Sun, Q. X., Z. F. Ni and Z. Y. Liu. 1999. Differential gene expression between wheat hybrids and their parental inbreds in seedling leaves. Euphytica, 106:117-123.
  27. Sun, S-H., R-Z. Sang and S-K. Shi. 2000. Prediction and evaluation of heterosis of beef cattle and their application. Acta Genet. Sinica 27(7):580-589.
  28. Tang, A-F. and L-S. Lian. 2000. Studies on RAPD molecular genetic marker and prediction of heterosis in pig. VIIth Conference on Animal Genetic Marker in China 188-192.
  29. Tasftaris, S. A. 1995. Molecular aspects of heterosis in plants. Physiologia Plantarum, 94:362-370. https://doi.org/10.1111/j.1399-3054.1995.tb05324.x
  30. Templeton, A. R. 1979. The unit of selection in Drosophila mercatorum, II, Genetic evolution and the origin of coadapted genomes in parthenogenetic strains. Genet. 92:1265-1282.
  31. Templeton, A. R. 1980. The theory of speciation via the founder principle. Genet. 94:1011-1038.
  32. Thornalley, P. J. 1996. Pharmacology of methylglyoxal: Formation, modification of proteins and nucleic acids, and enzymatic detoxification-a role in pathogenesis and antiproliferative chemotherapy. Gen. Pharmacol. 27(4):565-573.
  33. Tian, C. Y. 2002. Dai Jingrui. Studies on differential gene expression of maize by means of cDNA-AFLP technique. Chinese Science Bulletin 47(18):1412-1416.
  34. Tian, C. Y. 2003. Dai Jingrui. Relationship between differential gene expression patterns in functional leaves of maize inbreds and hybrids at spikelet differentiation stage and heterosis. Acta Genetica Sinica 30(2):154-162.
  35. Triezenberg, S. J., R. C. Kingsbury and S. L. McKnight. 1988. Functional dissection of VP16, the trans-activator of herpes simplex virus immediate early gene expression. Genes Dev. 2(6):718-729.
  36. Wang, D., Y. Zhang, D. X. Sun, Y. Yu, G. Y. Xu and J. Y. Li. 2004. Gene differential expression in liver tissues in crossbred versus purebred chicken and their relationship with heterosis of meat traits. Acta Genetia Sinica 31:257-264.
  37. Wang, H., D. X. Sun, Y. Yu, D. Wang and Y. Zhang. 2005. Relationship between differential gene expression in ovary and heterosis of egg number traits in a chicken diallel cross. Asian-Aust. J. Anim. Sci. 18(6):767-771.
  38. Watanabe, S. and T. Sato. 1996. Effects of free fatty acids on the binding of bovine and human serum albumin with steroid hormones. Biochim. Biophys. Acta. 1289(3):385-396.
  39. Wigle, D., W. Ho, D. Lo, J. Francis and J. H. Eubanks. 1999. Wallace MC. Altered expression levels of SEF-2 and p112 in the rat hippocampus after transient cerebral ischemia: identification by mRNA differential display. J. Cereb. Blood Flow Metab. 19(4):435-442.
  40. Winkler, B. S., N. DeSantis and F. Solomon. 1986. Multiple NADPH-producing pathways control glutathione content in retina. Exp. Eye Res. 43(5):829-847.
  41. Wu, Z. X. and M. D. Li. 2002. Analysis of heterosis by a direct method using the concept of heritability. Genetica 114:163-170.
  42. Xiao Jinhua, Jiming Li, longping Yuan and S. D. Tanksley. Dominance is the major genetic basis of heterosis in rice as revealed by QTL analysis using molecular markers. Genet. 140:745-754.
  43. Xie, X-D., Z-F. Ni and F-R. Meng. 2003. Relationship between differences of gene expression in early developing seeds of hybrid versus parents and heterosis in wheat. Acta Genetia Sinica 30(3):260-266.
  44. Xiong, L. Z., G. P. Yang and C. G. Xu. 1998. Relationships of differential gene expression in leaves with heterosis and heterozygosity in a rice diallel cross. Molecular Breeding 4:129-136.
  45. Yu, S., J. X. Li, G. G. Xu, Y. E. Tan, Y. J. Gao and, X. H. Li, Qifa Zhang and M A Saghai Maroof. 1997. Importance of epistasis as the genetic basis of heterosis in an elite rice hybrid. Genet. 94:9226-9231.
  46. Yu, S. L., H. J. Chung, K. C. Jung, B. C. Sang, D. H. Yoon1, S. H. Lee, S. R. Kata, J. E. Womack and J. H. Lee. 2004. Cloning and Characterization of Bovine Titin-cap (TCAP) Gene. Asian-Aust. J. Anim. Sci. 17(10):1344-1349.

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