Short Communication: Prolactin and x-collagen genes polymorphism in Central Javanese local ducks, Indonesia
##plugins.themes.bootstrap3.article.sidebar##
##plugins.themes.bootstrap3.article.main##
Abstract
Abstract. Susanti R, Yuniastuti A. 2020. Short Communication: Prolactin and x-collagen genes polymorphism in Central Javanese local ducks, Indonesia. Biodiversitas 21: 605-610. Genetic conservation is an effective approach to preserve unique and protected species in Indonesia, including indigenous duck (Anas platyrhynchos Linnaeus, 1758). One of the most important things is an identification effort by studying genetic characteristics to support genetic resource conservation programs. This study aim was to analyze the genetic polymorphisms of Central Javanese local duck based on prolactin (PRL) and collagen-x (COLX) genes. A total of 35 local ducks in Central Java was collected as samples, the duck’s calamus feathers were taken for tissue DNA isolation. Polymorphism analysis of PRL and COLX genes were performed using single nucleotide polymorphism (SNP) markers and PCR-RFLP method. The amplicons were then digested with DraI restriction enzyme (AhaIII) (5'TTT/ AAA) for PRL gene, and HaeIII (BsuRI) enzyme (5'GG/ CC-3 ') for COLX gene. The genotype was determined based on RFLP PCR amplicon band results from each target gene. For each gene, data on genotype frequencies, allele frequencies, expected heterozygosities (HE), and Hardy-Weinberg equilibrium were analyzed using PopGene32 software. Based on the PRL gene, there were 25 ducks (71.43%) with BB genotype and 10 ducks (28.57%) with AB genotype. While based on the COLX gene, as many as 25 ducks (71.43%) had TT genotypes, 9 ducks (25.71%) had TC types and 1 duck (1.86%) had CC types. Both PRL and COLX genotypes were clustered the Central Javanese local ducks into 5 haplotypes (A-E). The high allele frequency has belonged to B allele (85.71%) of the PRL gene and T allele (84.25%) of the COLX gene that showed high egg production and quality. Allele B (PRL gene) and T allele (COLX gene) could be predicted as weight eggs’ alleles marker.
##plugins.themes.bootstrap3.article.details##
Arias JL, Fernandez MS, Dennis JE, Caplan AI. 1991. Collagens of the chicken eggshell membranes. Connective Tissue Research. 26: 37-45.
Arias JL, Nakamura O, Fernandez MS, Wu JJ, Knigge P, Eyre DR, Caplan AI. 1997. Role of type X collagen on experimental mineralization of eggshell membranes. Connective Tissue Research. 36: 21-33.
Basumatary K, Das B, Borah P, Barkalita L, Bharali K, Tamuly S. 2019. Polymorphism of prolactin receptor gene in indigenous ducks of assam. Journal of Entomology and Zoology Studies. 7 (1): 922-925.
Chang MT, Cheng YS, Huang MC. 2012. A novel non-synonymous SNP of the COLX gene and its association with duck reproductive traits. Molecular and Cellular Probes. 26: 204-207.
Chorev M, Carmel L. 2012. The Function of Intron. Frontiers in Genetics. 3: 55.
Coghlan RF, Oberdorf JA, Sienko S, Aiona MD, Boston BA, Connelly KJ, Bahney C, LaRouche J, Almubarak SM, Coleman DT, Girkontaite I, Mark KVD, Lunstrum GP, Horton WA. 2017. A degradation fragment of type x collagen is a real-time marker for bone growth velocity. Science Translational Medicine. 9: 1-11.
Cui JX, Du HL, Liang Y, Deng XM, Li N, Zhang XQ. 2006. Association of polymorphisms in the promoter region of chicken prolactin with egg roduction. Poultry Science. 85: 26-31
Eichie FO. 2018. Genetic diversity of prolactin gene in japanese quail (Coturnix coturnix japonica). International Journal of Biomedical and Advance Research. 9 (3): 96-99.
Fathi M, Zarringhobaie GE. 2014. Association of polymorphisms in the promoter region of turkey prolactin with egg performance. Genetika. 46 (2): 591 -599.
Fernandez MS, Moya A, Lopez L, Arias JL. 2001. Secretion pattern, ultrastructural localization and function of extracellular matrix molecules involved in the eggshell formation. Matrix Biology. 19: 793-803.
Fulton JE. 2008. Molecular genetics in a modern poultry breeding organization. World's Poultry Science Journal. 64: 171- 176
Gu J, Lu Y, Li FL, Qiao L, Wang Q, Li N, Borgia JA, Deng Y, Lei G, Zheng Q. 2014. Identification and characterization of the novel col10a1 regulatory mechanism during chondrocyte hypertrophic differentiation. Cell Death and Disease. 5: 1-11.
Indriati M, Sumantri C, Susanti T. 2016. Analysis of prolactin gene exon 4 diversity in peking, white mojosari, and peking white mojosari crossbreed. Media Peternakan. 39 (1): 14-19.
Irma, Sumantri C, Susanti T. 2014. Single nucleotide polymorphism of prolactin gene exon two in ducks of Pekin, Mojosari and Pekin Mojosari crossbred. Jurnal Ilmu Terna dan Veteriner. 19 (2): 104-111.
Kaiser SA, Taylor SA, Chen N, Sillett TS, Bondra ER, Webster MS (2017) A Comparative assessment of SNP and microsatellite markers for assigning parentage in a socially monogamous bird. Molecular Ecology Resources 17 (2): 183–193. doi: 10.1111/1755-0998.12589.
Kansaku, N, Hiyama G, Sasanami T, Zadworny D. 2008. Prolactin and growth hormone in birds: protein structure, gene structure and genetic variation. The Journal of Poultry Science. 45: 1-6.
Kulibaba RA. 2015. Polymorphism of growth hormone, growth hormone receptor, prolactin and prolactin receptor genes in connection with egg production in poltava clay chicken. Agricultural Biology. 50 (2): 198-207.
Li HF, Zhu WQ, Chen KW, Zhang TJ, Song WT. 2009. Association of polymorphisms in the intron 1 of duck prolactin with egg performance. Turkish Journal of Veterinary and Animal Sciences. 33 (3): 193-197.
Liu YF, Zan LS, Li K, Zhao SP, Xin YP, Lin Q, Tian WQ, Wang ZW. 2010. A novel polymorphism of GDF5 gene and its association with body measurement traits in bos taurus and Bos indicus breeds. Molecular Biology Reports. 37: 429-434
Prickett AL. 2014. Incubation temperature affects type X collagen expression in embryonic ducks. [Thesis]. Department of Animal Sciences. The Ohio State University, Ohio. [USA]
Reddy IJ, David CG, Raju SS. 2006. Chemical control of prolactin secretion and it’s effect on pause days, egg production and steroid hormone concentration in girirani birds. International Journal of Poultry Science. 5 (7): 685-692
Wang X, Ford BC, Praul Jr CA, Leach M. 2002. Collagen X expression in oviduct tissue during the different stages of the egg laying cycle. Poultry Science. 81: 805-808.
Wang C, Liang Z, Yu W, Feng Y, Peng X, Gong Y, Li S. 2011. Polymorphism of the prolactin gene and its association with egg production traits in native Chinese ducks. South Africa Journal of Animal Science. 41: 64-69.
Zhang L, Li DY, Liu YP, Wang Y, Zhao XL, Zhu Q. 2012. Genetic effect of the prolactin receptor gene on egg production traits in chickens. Genetics and Molecular Research. 11 (4): 4307-4315