pdf35

GENETIC STRUCTURE OF THE NEW SCALELESS SUBBREED TYPE OF COMMON CARP ON THE BASIS OF THE MITOCHONDRIAL DNA-MARKERS

V. Bekh,  This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Fisheries NAAS, Kyiv

The material of three plant lines of the new Scaleless Subbreed Type of the Ukrainian Frame Breed of common carp has been investigated for mitochondrial variability. It is established, that genetic markers which have been used in investigations, can be effectively applied for detection of the hybrids in case of intraspecific hybridization or significant genetic divergences.

REFERENCES
1. Бех В.В. Новый украинский малочешуйчатый карп // Рыбоводство и рыболовство. — 1997. —
№ 3–4. — С. 12.
2. Марценюк В.П., Романов Л.М., Бех В.В., Томіленко В.Г. Спадкова мінливість ізоферментів крові коропів різних за походженням // Таврійський науковий вісник. — Херсон, 2003. — Вип. 29. — С. 128–132.
3. Кирпичников В.С. Генетика и селекция рыб. — Л.: Наука, 1987. — 520 с.
4. Лобченко В.В., Куриный С.А., Доманчук В.И., Епур В.В. Исследование полиморфизма трансфер- рина у карпов Молдавии // I съезд гидробиологов Молдавии: Тез. докл., Кишинев, апрель, 1986. — Кишинев: Штиинца, 1986. — С. 83–84.
5. Anjum R. Biochemical and chromosomal genetic characteristics of several breeding population of common carp, Cyprinus carpio (L.). Ph.D. Thesis. Faculty of Water Protection and Freshwater Fisheries, Olsztyn University of Agriculture and Technology, Olsztyn. — 1995. — P. 68.
6. Davis K.M., Dixon P.I., Harris J.H. Allozyme and mitochondrial DNA analysis of carp, Cyprinus carpio L., from south-eastern Australia. Mar. Freshwater Res. 50. — 1999. — Р. 253–260.
7. Froufe E., Magyary I., Lehocky I., Weiss S. mtDNA sequence datasupports an Asian ancestry and single introduction of the common carpinto the Danube Basin // j. Fish Biol. — 2002. — Vol. 61. — Р. 301–304.
8. Kohlmann K., Gross R., Murakaeva A., Kersten P. Genetic variability and structure of common carp (Cyprinus carpio) populations throughout the distribution range inferred from allozyme, microsat- ellite and mitochondrial DNA markers — Auat. Living Resour. — Vol. 16. — 2003. — Р. 421–431.
9. Laird P.W., Zijderveld A., Linders K., Rudnicki M.A., Jaenisch R., Berns A. Simplified mammalian DNA isolation procedure. — 1991. — Nucleic Acids Res. — Vol. 19. — Р. 4293.
10. Chang Y.S., Huang F.L., Lo T.B. The complete nucleotide sequence and gene organization of carp (Cyprinus carpio) mitochondrial genome. // J. Mol. Evol. — 1994. — Vol. 38. — Р. 138–155.
11. Excoffier L., Smouse P.E., Quattro J.M. Analysis of molecular variance inferred from metric distances among DNA haplotypes: application to human mitochondrial DNA restriction data. — 1992. — Genetics. — Vol. 131. — Р. 479–491.