Transgénesis en animales de granja

  1. Margarita M. Marqués 1
  2. Marta F. Baro 1
  3. Silvia Nicolás 1
  4. Yolanda Bayón 1
  1. 1 Insituto de Desarrollo Ganadero y Sanidad Animal
Revista:
AmbioCiencias: revista de divulgación

ISSN: 1988-3021

Año de publicación: 2014

Número: 12

Páginas: 34-49

Tipo: Artículo

DIALNET GOOGLE SCHOLAR lock_openAcceso abierto editor

Otras publicaciones en: AmbioCiencias: revista de divulgación

Referencias bibliográficas

  • Al-Mashhadi, R.H., Sorensen, C.B., Kragh, P.K., Christoffersen, C., Mortensen, M.B. et al. (2013). Familial hypercholesterolemia and atherosclerosis in cloned minipigs created by DNA transposition of a human PCSK9 gainof-functionmutant. Science Translational Medicine 5: 166ra1.
  • Blash, S., Schofield, M., Echelard, Y. y Gavin, W. (2012). Update on the first cloned goats. Nature Biotechnology 30: 229-230.
  • Bottino, R., Wijkstrom, M., Windt D.J., Hara, H., Ezzelarab, M., Murase, N., Bertera, S., He., J., Phelps, C., Ayares, D., Cooper, D.K.C. y Trucco., M. (2014). Pig-to-monkey islet xenotransplantation using multi-transgenic pigs. American Journal of Transplantation 14: 2275-2287.
  • Campbell, K.H., McWhir, J., Ritchie, W.A. y Wilmut, I. (1996). Sheep cloned by nuclear transfer from a cultured cell line. Nature. 380: 64-66.
  • Capecchi, M.R. (2005). Gene targeting in mice: functional analysis of the mammalian genome for the twenty-first century. Nature Reviews Genetics 6: 507-512.
  • Cooper, C.A., Garas Klobas, L.C., Maga, E.A. y Murray, J.D. (2013). Consuming transgenic goats' milk containing the antimicrobial protein lysozyme helps resolve diarrea in young pigs. PloS One 8: e58409.
  • Dyck, M.K., Lacroix, D., Pothier, F., y Sirard, M.A. (2003). Making recombinant proteins in animals--different systems, different applications. Trnds in Biotechnology 21: 394-399.
  • Evans, M.J. y Kaufman, M.H. (1981). Establishment in culture of pluripotential cells from mouse embryos. Nature. 292: 154-156.
  • Gaj, T., Gersbach, C.A., y Barbar, C.F. 2013. ZFN, TALEN, and CRISPR/Casbased methods for genome engineering. Trends in Biotechnology 31: 397-405.
  • Golovan, S.P., Meidinger, R.G., Ajakaiye, A., Cotritrill, M. et al. (2001). Pigs expressing salivary phytase produce low-phosphorus manure. Nure Biotechnology 19: 741-745.
  • Gordon, J.W., Scangos, G.A., Plotkin, D.J., Barbosa, J.A. y Ruddle, F.H. (1980). Genetic transformation of mouse embryos by microinjection of purified DNA. Proceedings of the National Academy of Science 77: 7380-7384.
  • Hammer, R.E., Pursel, V.G., Rexroad, C.E., Wall, R.J., Bolt, D.J., Ebert, K.M., Palmiter, R.D. y Brinster, R.L. 1985. Production of transgenic rabbits, sheep and pigs by microinjection. Nature. 315: 680-683.
  • Hauschild-Quintern, J., Petersen, B., Cost, G. J. y Niemann, H. (2012). Gene knockout and knockin by zinc-finger nucleases: current status and perspectives. Cellular and Molecular Life Science 70: 2969-2983.
  • Ivics, Z., Garrels, W., Mátés, L., Yau, T.Y., Bashir, S., Zideck, V., Landa, V., Geurts, A., Ravenec, M., Rülicke, T., Kues, W.A. y Izsváck, Z. (2014). Germline transgenesis in pigs by cytoplasmatic microinjection of sleeping beauty transposons. Nature Protocols 9: 810-827.
  • Jacobsen, J., Bawden, C.S., Rudiger, S.R., McLaughlan, C.J., Reid, S.J., Waldovogel, H.J., MacDonald, M.E. et al. (2010). An ovine transgenic Hungtington's disease model. Human molecular Genetics 19: 1873-1882.
  • Kwon, S.C., Choi, J.W., Jang, H.J., Shin, S.S., Lee, S.K. et al. (2010). Production of biofunctional recombinant human interleukin 1 receptor antagonist (rhIL1RN) from transgenic quail egg white. Biology of Reproduction 82: 1057-1064.
  • Lai, L., Kolber-Simonds, D., Park, K.W., Cheong, H.T., Greenstein, J.L., Im, G-S., Samuel, M., Bonk, A., Rieke, A., Day, B. et al. (2002). Production of alpha1,3-galactosyltransferase knockout pigs by nuclear transfer cloning. Science. 295: 1089-10926.
  • Laible, G. y Wells, D.N. (2006). Transgenic cattle applications: the transition from promise to proof. Biotechnology & Genetic Engineering Reviews 22: 125- 150.
  • Lillico, S.G., Proudfoot, C., Carlson, D.F., Stverakova, D., Neil, C., Blain, C., King, T.J., Ritchie, W.A., Tan, W., Mileham, A.J., McLaren, D.G., Fahrenkrug, S.C. y Whitelaw, C.B. (2013). Live pigs produced from genome edited zygotes. Scientific Reports 3:2847.
  • Liu, H., Li., Y., Wei, Q., Liu, C., Bolund, L., Vajta, G., Dou, H., Yang, W., Xu, Y., Wang, J., Yang, H., Satunstrup, N.H., y Du, Y. (2013). Development of transgenic minipigs with expression of antimorphic human crytochrome 1. PLoS One 10: e76098.
  • Moghaddassi, S., Eyestone, W. y Bishop, C.E. (2014). TALEN-mediated modification of the bovine genome for large-scale production of human serum albumin. PLos One 9: e89631.
  • Ni, W., Qiao, J., Zhao, X., Regouski, M., Yang, M., Polejaeva, I.A. y Chen, C. (2014). Efficient gene knockout in goats using CRISPR/Cas9 system. Plon One 9: e106718.
  • Palmiter, R.D., Brinster, R.L., Hammer, R.E., Trumbauer, M.E., Rosenfeld, M.G., Birnberg, N.C. y Evans, R.M. (1982). Dramatic growth of mice that develop from eggs microinjected with metallothionein-growth hormone fusion genes. Nature 300: 611-615.
  • Park, F. (2007). Lentiviral vectors: are they the future of animal transgenesis? Physiological Genomics 31: 159-173.
  • Renner, S., Fehlings, C., Herbach, N. Hofmann, A., Waldthausen, D.G., Kessler, B. et al. (2010). Glucose intolerance and reduced proliferation of pancreatic beta-cells in transgenic pigs with impaired glucose-dependent insulinotropic polypeptide function. Diabetes 59: 1228-1238.
  • Rogers, C.S., Hao, Y, Rokhlina, T., Samuel, M., Stoltz, D.A., Li, Y., Petroff, E., Vermeer, D.W., Kabel, A.C., Yan, Z., Spate, L., Wax, D. et al. (2008). Production of CFTR-null and CFTR-DeltaF508 heterozygous pigs by adeno-associated virus-mediated gene targeting and somatic cell nuclear transfer. Journal of Clinical Investigation 118: 1571-1577.
  • Schnieke, A.E., Kind, A.J., Ritchie, W.A., Mycock, K., Scott, A.R., Ritchie, M., Wilmut, I., Colman, A., y Campbell, K.H. (1997). Human factor IX transgenic sheep produced by transfer of nuclei from transfected fetal fibroblasts. Science. 278: 2130-2133.
  • Tang, M., Qian, L., Jiang, S., Zhang, J., Song, P., Chen, Y., Cui, W. y Li, K. (2014). Functional and safety evaluation of transgenic pork rich in omega-3 fatty acids. Transgenic research 23: 557-571.
  • Wall, R.J., Powell, A.M., Paape, M.J., Kerr, D.E., Bannerman, D.D., Pusell, V.G., Wells, K.D., Talbot, N. y Hawk, H.W. (2005). Genetically enhanced cows resist intramammary Staphylococcus aureus infection. Nature Biotechnology 23: 445-451.
  • Wilmut, I., Schnieke, A.E., McWhir, J., Kind, A.J. y Campbell, K.H. (1997). Viable offspring derived from fetal and adult mammalian cells. Nature 385: 810-813.
  • Yang, P., Wang, J., Gong, G., Sun, X., Zhang, R., Du, Z., Liu, Y., Li., R., Ding, F. et al. (2008). Cattle mammary bioreactor generated by a novel procedure of transgenic cloning for large-scale production of functional human lactoferrin. PLoS One 3: e3453.
Fuente de los datos: Dialnet