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Tytuł artykułu

Biotechnology in freshwater finfish aquaculture

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
Rocznik
Strony
37--38
Opis fizyczny
Bibliogr. 29 poz.
Twórcy
autor
autor
  • Department of Environmental Biotechnology, 2 Department of Ichthyology; University of Warmia and Mazury in Olsztyn, Sloneczna 45G, 10-718 Olsztyn, Poland. Answer phone and fax: +48 89 523 4119, mirekl@uwm.edu.pl
Bibliografia
  • Adams, A., K.D. Thompson. 2006. Biotechnology offers revolution to fish health management. Trends in Biotechnology 24: 201-205.
  • Aerni, P. 2004.Risk, regulation and innovation: The case of aquaculture and transgenic fish. Aquatic Sciences 66: 327-341.
  • Aleström, P., J.L. Holter, R. Nourizadeh-Lillabadi. 2006. Zebrafish in functional genomics and aquatic biomedicine. Trends in Biotechnology 24: 15-21.
  • Babiak, I., S. Dobosz, K. Goryczko, H. Kuzminski, P. Brzuzan, S. Ciesielski. 2002. Androgenesis in rainbow trout using cryopreserved spermatozoa: the effect of processing and biological factors. Theriogenology 57: 1229-1249.
  • Bobe, J., J.Montfort, T. Nguyen, A. Fostier. 2006. Identification of new participants in the rainbow trout (Oncorhynchus mykiss) oocyte maturation and ovulation processes using cDNA microarrays. Reproductive Biology and Endocrinology 4: 1-16.
  • Chen, T.T., L.B. Agellon, R.J. Van Beneden. 1987. Genetic engineering of fish. In: Selection, Hybridization and Genetic Engineering in Aquaculture, Vol. II (ed. K. Tiews), pp. 347-360. Berlin.
  • Chourrout, D. 1980. Thermal induction of diploid gynogenesis and triploidy in the eggs of rainbow trout (Salmo gairdneri R.). Reproduction, Nutrition and Development 20: 727-733.
  • Chourrout, D. 1982. Tetraploidy induced by heat shocks in the rainbow trout (Salmo gairdneri R.). Reproduction, Nutrition and Development 22: 569-574.
  • Chourrout, D. 1984. Pressure-induced retention of second polar body and suppression of first cleavage in rainbow trout: production of all-triploids, all-tetraploids, heterozygous and homozygous diploid gynogenesis. Aquaculture 36: 111-126.
  • Chourrout, D., B. Chevassus, F. Krieg, A.Happe, G. Burger, P. Renard. 1986. Production of second generation triploid and tetraploid rainbow trout by mating tetraploid males and diploid females - Potential of tetraploid fish. Theoretical and Applied Genetics 72: 193-206.
  • Devlin, R.H., C.A. Biagi, T.Y. Yesaki, D.E. Smailus, J.C. Byatt. 2001. Growth of domesticated transgenic fish: A growth hormone transgene boosts the size of wild- but not domesticated trout. Nature 409: 781-782.
  • Devlin, R.H., C.A. Biagi, T.Y. Yesaki. 2004. Growth, viability and genetic characteristics of GH transgenic coho salmon strains. Aquaculture 236: 607-632.
  • Devlin, R.H., L.F. Sundström, W.M. Muir. 2006. Interface of biotechnology and ecology for environmental risk assessments of transgenic fish. Trends in Biotechnology 24: 89-97.
  • Evans, G., D.N. Cox. 2006. Australian consumers’ antecedents of attitudes towards foods produced by novel technologies. British Food Journal 108: 916-930.
  • Irvine, D.V., M.L. Shaw, K.H. Andy Choo, R. Saffery. 2005. Engineering chromosomes for delivery of therapeutic genes. Trends in Biotechnology 23: 575-583.
  • Kapuscinski, A.R. 2005. Current scientific understanding of the environmental biosafety of transgenic fish and shellfish. Revue scientifique et technique de l Office international des Epizooties 24: 309-322.
  • King, R.C. 1968. A Dictionary of Genetics. 283 p. Oxford University Press, New York.
  • Komen, H., G.A. Thorgaard. 2007. Androgenesis, gynogenesis and the production of clones in fishes: a review. Aquaculture 269: 150-173.
  • Logar, N., L.K. Pollock. 2005. Transgenic fish: is a new policy framework necessary for a new technology? Environmental Science & Policy 8: 17-27.
  • Nakajima Y., T. Kimura, K. Sugata, T. Enomoto, A. Asakawa, H. Kubota, M. Ikeda, Y. Ohmiya. 2005. Multicolor luciferase assay system: One-step monitoring of multiple gene expressions with a single substrate. Biotechniques 38: 891-894.
  • Nam, Y.K., Y.S. Cho, S.E. Douglas, J.W. Gallant, M.E. Reith, D.S. Kim. 2002. Isolation and transient expression of a cDNA encoding L-gulono-γ-lactone oxidase, a key enzyme for L-ascorbic acid biosynthesis, from the tiger shark (Scyliorhinus torazame). Aquaculture 209: 271-284.
  • Pandian, T.J., R. Koteeswaran. 1998. Ploidy induction and sex control in fish. Hydrobiologia 384: 167-243.
  • Passarge, E. 1995. ColorAtlas ofGenetics. 411 p.Georg ThiemeVerlag Stuttgart.
  • Tave, D. 1986. Genetics for Fish Hatchery Managers. 299 p. AVI Publishing Company, Inc.,Wesport, Connecticut.
  • Tramper, J., C. Battershill, W. Brandenburg, G. Burgess, R. Hill, E. Luiten, W. Müller, R. Osinga, G. Rorrer, M. Tredici, M. Uriz, P. Wright, R. Wijffels. 2003. What to do in marinebiotechnology? Biomolecural Engineering 20: 467-471.
  • Trippel, E.A., P. Tsang. 2004. Biotechnology Workshop, St. Andrews. 100p. Bulletin of the Aquaculture Association of Canada, 104-2.
  • Wenne, R., P. Boudry, J. Hemmer-Hansen, K.P. Lubieniecki, A.Was, A. Kause. 2007. What role for genomics in fisheries management and aquaculture? Aquatic Living Resources 20: 241-255.
  • Zeng, Z., T. Shao, Y. Tong, S. Hong Lam, Z. Gong. 2005. Development of estrogen-responsive transgenic medaka for environmental monitoring of endocrine disrupters. Environmental Science and Technology 39: 9001-9008.
  • Zhu, Z., G. Li, L. He, S. Chen. 1985. Novel gene transfer into the fertilized eggs of goldfish (Carassius auratus L. 1758). Journal of Applied Ichthyology 1: 31-34.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAR0-0062-0100
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