Bitkilerde Yağ Kalite lslahının Metabolik ve Fizyolojik Temelleri
Yıl 1995,
Cilt: 8 Sayı: 1, 206 - 216, 01.12.1995
Hasan Baydar
Kenan Turgut
İsmail Turgut
Öz
Bitkilerde yağ kalite ıslahından beklenen başarı her şeyden önce yağ ve yağ asitleri biyosentezinin metabolik ve fizyolojik mekanizmalarının çok iyi bilinmesine ve bu bilgilerin çok iyi genetik temellere oturtulmasına bağlıdır. Bu derlemede; bitkilerde yağ kalite ıslahı ile yağ ve yağ asitleri biyosentezinin metabolik ve fizyolojik mekanizmaları arasındaki temel ilişkiler irdelenmeye çalışılmıştır.
Kaynakça
- 1. Stryer, L., Biochemistry. 3. Baskı. W.H.Freeman Comp. Inc., New York, 1936.
- 2. Hall, J.L., Flower, T.J., Roberts, R.M., Plant Cell Structure and Metabolism. Pub. by Longman Inc., New York, 1981.
- 3. Salisbury, F.B., Ross, C.W., Plant Physiology. Wadsworth Pub. Comp., USA, 1985.
- 4. Mayes, P.A. Matebolism of Lipid: I. Fatty Acids Harper's Review of Biochemistry. 19.Baskı. L. Medical Pub. Inc., California, 1933.
- 5. Guyton, A.C., Fizyoloji. Cilt III. Güven Kitabevi, Ankara, 1978.
- 6. Downey, R.K., Rakow, C.F.W., Rapeseed and Mustard. Principles of Cultivar Development, Vol. 2. Crop Species. McMillan Pub. Comp. Inc., New York, 1987.
- 7. Downey, R.K., Harvey, B.L., Methods of Breeding for Oil Quality in Rape. Can.J.Plant Sci. 43:271-275, 1963.
- 8. Pleines, S., Friedt, W., Breeding for Improved C18 -Fatty Acid Composition in Rapeseed (Brassica napus L.) Fat Sci. Technol. 90 (5):167-171, 1988.
- 9. Wilcox, J.R., Breeding Soybeans for Improved Oil Quantity and Quality, in: R. Shibles (ed.), Proc. World Soybean Res. Conf. lll, Westview-Press/Boulder, 380-386, 1985.
- 10. Nichterlein, K., Untersuchungen zur Züchterichen Nutzungm Mutagen induzierter Variation des Fetseauremusters bei Lein (Linum usitatissimum L.). Diss. Univ. Giessen, FRG. 1987.
- 11. Pleines, S., Friedt, W., Genetic Control of Linolenic Acid Concentration in Seed Oil of Rapeseed (BrasSica napus L.) Theor. Appl. Genet 78:793-797, 1989.
- 12. Röbbelen, G., Nitsch, A. Genetical and Physiological Investigations on Mutants for polyenoic Fatty Acids in Rapeseeds. Z Pflanzenzuecht 75:93-105, 1975.
- 13. Roy, N.N., Tarr, A.W., Prospects for the Development of Rape Seed (B. napus L.) with Improved Linoleic and Linolenic Acid Content. Plant Breed. 98:89-96, 1987.
- 14. Brossman, G.D., Wilcox, J.R., Induction of Genetic Variation For oil Proporlies and Agronomic Characters of Soybean. Crop Sci. 24:783-786, 1984.
- 15. Karow, R.S., Forsberg, R.A., Oil Composition in Parental, FI, and F2 Populations of Two Oat Crosses. Crop Sc. 24:629-632, 1984.
Metabolic and Physiological Bases of Oil Quality Breeding in Plants
Yıl 1995,
Cilt: 8 Sayı: 1, 206 - 216, 01.12.1995
Hasan Baydar
Kenan Turgut
İsmail Turgut
Öz
Expected succes of oil breeding in plants depends on knowledge about metabolic and physiological mechanism of fatty acids and genetical bases of these informations. In this review, oil breeding with basic relations between metabolic and physiological mechanism of fatty acids were discussed.
Kaynakça
- 1. Stryer, L., Biochemistry. 3. Baskı. W.H.Freeman Comp. Inc., New York, 1936.
- 2. Hall, J.L., Flower, T.J., Roberts, R.M., Plant Cell Structure and Metabolism. Pub. by Longman Inc., New York, 1981.
- 3. Salisbury, F.B., Ross, C.W., Plant Physiology. Wadsworth Pub. Comp., USA, 1985.
- 4. Mayes, P.A. Matebolism of Lipid: I. Fatty Acids Harper's Review of Biochemistry. 19.Baskı. L. Medical Pub. Inc., California, 1933.
- 5. Guyton, A.C., Fizyoloji. Cilt III. Güven Kitabevi, Ankara, 1978.
- 6. Downey, R.K., Rakow, C.F.W., Rapeseed and Mustard. Principles of Cultivar Development, Vol. 2. Crop Species. McMillan Pub. Comp. Inc., New York, 1987.
- 7. Downey, R.K., Harvey, B.L., Methods of Breeding for Oil Quality in Rape. Can.J.Plant Sci. 43:271-275, 1963.
- 8. Pleines, S., Friedt, W., Breeding for Improved C18 -Fatty Acid Composition in Rapeseed (Brassica napus L.) Fat Sci. Technol. 90 (5):167-171, 1988.
- 9. Wilcox, J.R., Breeding Soybeans for Improved Oil Quantity and Quality, in: R. Shibles (ed.), Proc. World Soybean Res. Conf. lll, Westview-Press/Boulder, 380-386, 1985.
- 10. Nichterlein, K., Untersuchungen zur Züchterichen Nutzungm Mutagen induzierter Variation des Fetseauremusters bei Lein (Linum usitatissimum L.). Diss. Univ. Giessen, FRG. 1987.
- 11. Pleines, S., Friedt, W., Genetic Control of Linolenic Acid Concentration in Seed Oil of Rapeseed (BrasSica napus L.) Theor. Appl. Genet 78:793-797, 1989.
- 12. Röbbelen, G., Nitsch, A. Genetical and Physiological Investigations on Mutants for polyenoic Fatty Acids in Rapeseeds. Z Pflanzenzuecht 75:93-105, 1975.
- 13. Roy, N.N., Tarr, A.W., Prospects for the Development of Rape Seed (B. napus L.) with Improved Linoleic and Linolenic Acid Content. Plant Breed. 98:89-96, 1987.
- 14. Brossman, G.D., Wilcox, J.R., Induction of Genetic Variation For oil Proporlies and Agronomic Characters of Soybean. Crop Sci. 24:783-786, 1984.
- 15. Karow, R.S., Forsberg, R.A., Oil Composition in Parental, FI, and F2 Populations of Two Oat Crosses. Crop Sc. 24:629-632, 1984.