Phenotypes, Performance, and Insulin Gene (INS) Single Nucleotide Polymorphism (SNP) C1549T Genotyping of Indonesian Meat-Type Chicken Breed
محورهای موضوعی : Camel
D.N. Arini
1
(Gama Ayam Research Team, Laboratory of Genetics and Breeding, Faculty of Biology, Universitas Gadjah Mada, Jl. Teknika Selatan, Sekip Utara, Sleman, 55281 DI Yogyakarta, Indonesia)
M.D. Pratama
2
(Gama Ayam Research Team, Laboratory of Genetics and Breeding, Faculty of Biology, Universitas Gadjah Mada, Jl. Teknika Selatan, Sekip Utara, Sleman, 55281 DI Yogyakarta, Indonesia)
G.I. Firmansyah
3
(Gama Ayam Research Team, Laboratory of Genetics and Breeding, Faculty of Biology, Universitas Gadjah Mada, Jl. Teknika Selatan, Sekip Utara, Sleman, 55281 DI Yogyakarta, Indonesia)
I.W.S. Mahardhika
4
(Gama Ayam Research Team, Laboratory of Genetics and Breeding, Faculty of Biology, Universitas Gadjah Mada, Jl. Teknika Selatan, Sekip Utara, Sleman, 55281 DI Yogyakarta, Indonesia)
A.B.I. Perdamaian
5
(Gama Ayam Research Team, Laboratory of Genetics and Breeding, Faculty of Biology, Universitas Gadjah Mada, Jl. Teknika Selatan, Sekip Utara, Sleman, 55281 DI Yogyakarta, Indonesia)
B.S. Daryono
6
(Gama Ayam Research Team, Laboratory of Genetics and Breeding, Faculty of Biology, Universitas Gadjah Mada, Jl. Teknika Selatan, Sekip Utara, Sleman, 55281 DI Yogyakarta, Indonesia)
کلید واژه: Genotyping, indigenous breed, insulin gene, phenotypes, selective breeding,
چکیده مقاله :
Pelung chicken, as one of the Indonesian indigenous chicken breeds, is known for its distinct characteristics. Pelung chicken has been an object of selective breeding programs due to its slow-growing performance, particularly in live weight gain. Through selective breeding, the backcross and its reciprocal generations have been produced. This study was aimed to identify the phenotypes, performance in live weight gain, and insulin gene (INS) single-nucleotide polymorphism (SNP) C1549T genotyping. The phenotypes consisted of morphometrics and morphological traits. The tetra-primeramplificationrefractory mutation system polymerase chain reaction (T-ARMS-PCR) method was used to detect the SNP C1549T of the INS gene. The live weight gain of reciprocal backcross (RBC1) outperformed the first backcross (BC1) chickens. Morphometrics and morphological traits of BC1 and RBC1 indicated a directional selection effect towards pelung chicken. The transition mutation of SNP C1549T was only detected in RBC1 chickens as CT genotype (44.44%) and TT genotype (55.56%). The presence of SNP C1549T might have a significant association with the live weight gain of RBC1. T-ARMS-PCR method is suitable for the rapid detection of single nucleotide polymorphisms. Additional studies are required to confirm the association of INS gene polymorphism and live weight gain with a larger population size.
Al-Anbari E.H. (2018). Investigation of economic traits on the hybrid broiler (Ross 308) differing genotypically for insulin gene hormones using correlation and regression coefficients. J. Res. Ecol. 6(2), 1867-1875.
Al-Anbari E.H. (2019). Insulin gene and insulin hormone in broiler chicken Ross 308: A review. Plant Arch. 19(2), 1771-1777.
Al-Anbari E.H. and Mohamad H.J. (2016). Detection the polymorphisms of insulin gene hormone INSg on hybrid broiler Ross 308. Int. J. Latest Res. Sci. Technol. 5(4), 17-19.
Al-Khatib B.G.M. and Al-Hassani D.H.H. (2016). Effect of SNP G565A of growth hormone receptor gene on the productive and physiological performance in broiler chicken. Pp. 854-866 in Proc. 4th Int. Sci. Conf. Genet. Environ., Cairo, Egypt.
Amusan S.A., Abe O.S., Fasola H.O. and Adedeji T.A. (2020). Egg hatchability and early growth performance of cross and backcross involving Nigeria Fulani ecotype and Isa brown chickens. Sci. Lett. 8(2), 87-92.
Anh N.T.L., Kunhareang S. and Duangjinda M. (2015). Association of chicken growth hormones and insulin-like growth factor gene polymorphisms with growth performance and carcass traits in Thai broilers. Asian Australasian J. Anim. Sci. 28(12), 1686-1695.
Darwati S., Afnan R., Prabowo S. and Nurcahya H. (2017). Carcass and meat quality pelung Sentul kampung broiler crossbreed chicken. Pp. 25-31 in Proc. IOP Conf. Ser. Earth Environ. Sci., Banda Aceh, Indonesia.
Daryono B.S. and Muammar A. (2013). The inheritance of phenotype character on chickens (Gallus gallus domesticus, Linnaeus 1758) derived from crosses between backcross first generation chicken (BC1). Pp. 30-37 in Proc. Int. Symp. Bio. Eng. and Nat. Sci., Yogyakarta, Indonesia.
Daryono B.S., Mushlih M. and Perdamaian A.B.I. (2020). Vocalization characters and Forkhead Box P2 (FoxP2) polymorphism in Indonesian crowing‐type chicken (Gallus gallus domesticus). Iranian J. Appl. Anim. Sci. 10(1), 131-140.
Daryono B.S., Mushlih M. and Perdamaian A.B.I. (2021). Crowing sound and inbreeding coefficient analysis of Pelung chicken (Gallus gallus domesticus). Biodiversitas. 22(5), 2451-2457.
Daryono B.S., Roosdianto I. and Saragih H.T.S. (2010). Phenotypical characters in hybrids chicken of crossbreeds between pelung and cemani. J. Vet. 11(4), 257-263.
Daryono B.S., Satriya R., Rohmah Z. and Erwanto Y. (2012). Penguatan industri bibit unggas nasional melalui produksi indukan gama ayam lokal unggul. J. Ilmu Pengetah. Teknol. Tepat Guna. 1(1), 95-103.
Del Bosque C.I.E., Altmann B.A., Ciulu M., Halle I., Jansen S., Nolte T., Weigend S. and Morlein D. (2020). Meat quality parameters and sensory properties of one high-performing and two local chicken breeds fed with Vicia faba. Foods. 9, 1052-1061.
Dong X., Li J., Zhang Y., Han D., Hua G., Wang J., Deng X. and Wu C. (2019). Genomic analysis reveals pleiotropic alleles at EDN3 and BMP7 involved in chicken comb color and egg production. Front. Genet. 10, 612-621.
Ferlito C. and Respatiadi H. (2018). Policy reforms on poultry industry in Indonesia. Center for Indonesian Policy Studies (CIPS), Indonesia.
Fitriani A., Alim S. and Herlina L. (2019). Business development strategy of raising Pelung chicken in Cianjur regency. Indonesian J. Anim. Sci. 21(1), 34-50.
Froesch E.R. and Zapf J. (1985). Insulin-like growth factors and insulin: comparative aspects. Diabetologia. 28, 485-493.
Furqon A., Gunawan A., Ulupi N., Suryati T. and Sumantri C. (2018). A polymorphism of insulin-like growth factor binding protein 2 gene associated with growth and body composition traits in Kampong chickens. J. Vet. 19(2), 183-189.
Gholami M., Ghaffari M. and Hashemi A. (2019). Study of dopamine receptor gene polymorphisms and their association with growth and egg production traits in West Azerbaijan native chicken. Iranian J. Appl. Anim. Sci. 10(1), 149-154.
Haunshi S. and Sharma D. (2006). Evaluation of reciprocally developed backcross-1 chicken populations for economic traits. Indian Vet. J. 83, 463-465.
Henuk Y.L. and Bakti D. (2018). Benefits of promoting native chickens for sustainable rural poultry development in Indonesia. Pp. 69-76 in TALENTA Conf. Ser. Agric. Nat. Resour., Sumatera Utara, Indonesia.
Hidayat C. and Asmarasari A. (2015). Native chicken production in Indonesia: A review. Indonesian J. Anim. Sci. 17(1), 1-11.
Iskandar S. (2006). Pelung-Kampung crossbred chicken: Dietary protein for 12 weeks old meat production. Wartazoa. 16(2), 65-71.
Iskandar S. and Susanti T. (2007). The characteristic and the use of Pelung chicken in Indonesia. Wartazoa. 17(3), 128-136.
Jawasreh K., Athamneh S.A., Al-Zghoul M.B., Amareen A.A., AlSukhni I. and Aad P. (2019). Evaluation of growth performance and muscle marker genes expression in four different broiler strains in Jordan. Italian J. Anim. Sci. 18(1), 766-776.
Jayasena D.D., Ahn D.U., Nam K.C. and Jo C. (2013). Factors affecting cooked chicken meat flavor: A review. World's Poult. Sci. J. 69, 515-526.
Ji B., Ernest B., Gooding J., Das S., Saxton A.M., Simon J., Dupont J., Metayer-Coustard S., Campagna S.R. and Voy B.H. (2012). Transcriptomic and metabolomic profiling of chicken adipose tissue in response to insulin neutralization and fasting. BMC Genom. 13, 441-449.
Kadlec J., Hosnedlova B., Rehout V., Citek J., Vecerek L. and Hanusova L. (2011). Insulin-like growth factor-I gene polymorphism and its association with growth and slaughter characteristics in broiler chickens. J. Agrobiol. 28(2), 157-163.
Khoa D.V.A., Khang N.T.H., Ngu N.T., Matey J., Loan H.T.P. and Thuy N.T.D. (2013). Single nucleotide polymorphisms in Gh, Ghr, Ghsr, and insulin candidate genes in chicken breeds of Vietnam. Greener J. Agric. Sci. 3(10), 716-724.
Lei M., Luo C., Peng X., Fang M., Nie Q., Zhang D., Yang G. and Zhang X. (2007). Polymorphism of growth-correlated genes associated with fatness and muscle fiber traits in chickens. Poult. Sci. 86(5), 835-842.
LeRoith D., Scheinman E.J. and Bitton-Worms K. (2011). The role of insulin and insulin-like growth factors in an increased risk of cancer in diabetes. Rambam Maimonides Med. J. 2(2), e0043.
Mahardhika I.W.S. and Daryono B.S. (2019). Phenotypic performance of Kambro crossbreeds of female Broiler Bobb 500 and male pelung Blirik Hitam. Bul. Vet. Udayana. 11(2), 188-202.
Mahmud A.T.B.A., Afnan R., Ekastuti D.R. and Arief I.I. (2017). Blood profile, performance, and meat quality of crossed kampung broiler chicken in different stocking density. J. Vet. 18(2), 247-256.
Moro C., Cornette R., Vieaud A., Bruneau N., Gourichon D., Bed’hom B. and Tixier-Boichard M. (2015). Quantitative effect of a CNV on a morphological trait in chickens. PLoS One. 10(3), e0118706.
Nataamijaya A.G. (2005). Karakteristik penampilan pola warna bulu, kulit, sisik kaki, dan paruh ayam pelung di Garut dan ayam sentul di Ciamis. Bul. Plasma Nutfah. 11(1), 3-6.
Nataamijaya A.G. (2010). Native chickens potential development for supporting farmers' welfare improvement. J. Litbang Pertan. 29(4), 131-138.
Nosrati M. (2016). The pattern of linkage disequilibrium in livestock genome. Iranian J. Appl. Anim. Sci. 7(1), 1-7.
Nugroho B.A. (2020). Indonesia’s broilers business facing oversupply difficulties. Pp. 478-482 in Proc. IOP Conf. Ser. Earth Environ. Sci., Banda Aceh, Indonesia.
Nurcahya H., Sinaga E., Darwati S. and Khaerunissa I. (2020). Relationship between insulin like growth factor-2 gene and growth traits in crosses of Indonesian local chicken. J. Phys. 10, 1665-1673.
Perdamaian A.B.I., Trijoko T. and Daryono B.S. (2017). Growth and plumage color uniformity of back cross (BC2) chicken resulted from genetics selection of pelung chicken and broiler crossed. J. Vet. 18(4), 557-564.
Prayugo S., Daryanto A. and Djohar S. (2012). Value chain analysis of broiler to increase competitiveness (Case study at PT. Charoen Pokphand Indonesia, TBK). J. Manag. Agribus. 9, 55-67.
Qiu F.F., Nie Q.H., Luo C.L., Zhang D.X., Lin S.M. and Zhang X.Q. (2006). Association of single nucleotide polymorphisms of the insulin gene with chicken early growth and fat deposition. Poult. Sci. 85, 980-985.
Salvian M., Moreira G.C.M., Reis A.P., Dauria B.D., Pilonetto F., Gervásio I.C., Ledur M.C., Coutinho L.L., Spangler M.L. and Mourão G.B. (2020). Estimation of breeding values using different densities kinship in broiler chickens. Res. Square. 10, 101-112.
Saragih H.T.S.S.G. and Daryono B.S. (2010). Histological study on the pancreatic b-cell number of indigenous chicks in first crossbred (F1). J. Indonesian Trop. Anim. Agric. 35(3), 201-205.
Saragih H.T.S.S.G., Roosdianto I. and Daryono B.S. (2017). Pectoralis thoracicus muscle performance of hybrid chicken (F1) derived from crossbreed between broiler and pelung (Gallus gallus gallus). Indonesian J. Vet. Sci. 11(2), 62-64.
SPSS Inc. (2011). Statistical Package for Social Sciences Study. SPSS for Windows, Version 20. Chicago SPSS Inc., USA.
Suhita R.L., Gunawan A., Darwati S., Ulupi N. and Sumantri C. (2015). Polymorphism identification of flavin-containing monooxygenases 3 (FMO3|AlwNI) in Indonesian local chicken. J. Ilmu Prod. Teknol. Hasil Petern. 3(3), 178-182.
Suprijatna E. (2010). Strategy of local chicken development base on local resources and environment. Pp. 55-88 in Proc. 4th Natl Semin. Local Poult., Semarang, Indonesia.
Tanjung A., Saragih H.T.S.S.G., Trijoko T., Soenarwan H.P., Widianto S., Mahardhika I.W.S. and Daryono B.S. (2019). Polymorphism of myostatin gene and its association with body weight traits in a hybrid of GAMA chicken (Gallus gallus domesticus Linn. 1758). Biodiversitas. 20(11), 3207-3212.
Thinh N.H., Tuan H.A., Vinh N.T., Doan B.H., Giang N.T.P., Frederic F., Nassim M., Linh N.V. and Dang P.K. (2020). Association of single nucleotide polymorphisms in the insulin and growth hormone gene with growth traits of Mia chicken. Indian J. Anim. Res. 54(6), 661-666.
Utama I.V., Perdamaian A.B.I. and Daryono B.S. (2018). Plumage uniformity, growth rate and growth hormone polymorphism in Indonesian hybrid chickens. Int. J. Poult. Sci. 17(10), 486-492.
