Genetic Polymorphism of the Lipoprotein Lipase Gene in Mallard (Anas plathyrhynchos) and Muscovy (Cairinamoschata) Ducks in Nigeria
Bamimore, A. I.
*
Agricultural Education Department, Oyo State College of Education Lanlate, Lanlate, Nigeria.
Adedoyin, A. A
Agricultural Education Department, Oyo State College of Education Lanlate, Lanlate, Nigeria.
Okunlola, O.O.
Agricultural Education Department, Oyo State College of Education Lanlate, Lanlate, Nigeria.
Osaiyuwu, O. H.
Animal Breeding and Genetics Unit, Department of Animal Science, University of Ibadan, Ibadan Nigeria.
Adebowale, I.
Animal Production and Technology Department, Federal College of Agriculture, Moor Plantation, Ibadan, Nigeria.
*Author to whom correspondence should be addressed.
Abstract
Background: Duck is very high in protein and fat content, and could be required in Africa to meet the shortfall in animal protein; due to its potentials like high feed efficiency, early maturity, high disease resistance and adaptability among others.
Aims: To identify polymorphic forms of exon 7 of the Lipoprotein Lipase (LPL) gene in locally adapted Mallard and Muscovy duck breeds in Nigeria.
Methodology: Sample collection was carried out at some markets in Ogun State, while the laboratory work was carried out at the Animal Science Laboratory of the University of Ibadan between May and June 2023. 80 ducks; 40 Mallard and 40 Muscovy ducks were used to carry out the study. Blood samples of 3 ml each were collected from 80 ducks. Blood samples were collected through the jugular vein from 40 mallard breed and 40 Muscovy breed. The DNA was extracted and amplified using the exon 7 LPL gene primer and HinfI digestive enzyme. The products obtained from PCR-RFLP were analysed with 2% agarose gel electrophoresis.
Results: 33 of all the samples in both Mallard and Muscovy were amplified. The percentage was 37.50% for both breeds. While 18 of the Mallard samples were amplified, 15 of the Muscovy were amplified, and their percentages were 22.50% and 18.75%, respectively. Considering the percentage of each of the breeds that were amplified, the Mallard percentage of the amplified sample was 45%, while that of Muscovy was 37.5%. Similar gel patterns were obtained in all amplified samples. Therefore, there was no polymorphism detected at exon 7 of the LPL gene, but instead the breeds were monomorphic. The result obtained could be due to a smaller population of selected samples, non-polymorphic of the gene at exon 7, and it may also be a result of closeness in relationship due to the proximity of birds sampled from one another.
Conclusion: Further studies can be carried out using a larger sample size or other restriction enzymes in order to validate the results obtained in this study, and provide insight into the variations within each breed and many other Nigerian locally adapted ducks at the LPL gene locus.
Keywords: Duck, polymorphism, mallard, Muscovy, breed