Impact of Environmental Geographic toward Point Mutations in Exon 1 of Growth Differentiation Factor (GDF9) Gene in Kosta and Lakor Goat Breeds
DOI:
10.29303/jppipa.v9i6.3794Published:
2023-06-25Issue:
Vol. 9 No. 6 (2023): JuneKeywords:
Biogeography, GDF9 gene, Lakor goat, Kosta goat, point mutationsResearch Articles
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Abstract
This study aims to analyze the impact of environmental biogeography on point mutations in Kosta and Lakor goat breeds as local Indonesian germplasm using the GDF9 Exon 1 gene sequence. A total 43 folicle samples of Kosta and Lakor goats which collected in Serang regency and Lakor island were analyzed. To isolate the total genome of the samples, the tissue isolation method was used. The polymerase chain reaction (PCR) method was used for amplification of the exon-1 region of the GDF9 gene with two pairs of primers. Analysis of genetic variation and single nucleotide polymorphisms (SNP) using MEGA software version X. Multiple alignment results showed that there are 2 nucleotides that have mutations, but not encode different amino acids. This results indicates that the mutation has association with litter size of two breeds. This finding shows that Lakor goats have polymorphism i.e SNP g.54C>T which is significantly associated with litter size. The analysis of GDF9 gene showed that all samples from the Two local Indonesian goat breeds (Kosta and Lakor) are monomorphic. But, although both are monomorphic, geographical isolation still contributes to genetic drift within and between populations.
References
An, X.P., Hou, J.X., Zhao, H.B., Li, G., Bai, L., Peng, J.Y., M, Yan Q., Song, Y.X., Wang, J.G., & Cao, B.Y. (2013). Polymorphism identification in goat GNRH1 and GDF9 genes and their association analysis with litter size. Animal Genetics, 44(2), 234-238. https://doi.org/10.1111/j.1365-2052.2012.02394.x
Aziz, M. A. (2010). Present status of the world goat populations and their productivity. World, 861, 42-52. Retrieved from https://lohmann-information.de/content/l_i_45_artikel17.pdf
Batubara, A., Noor, R.R., Farajallah, A., & Tiesnamurti, B. (2013). Genetic Diversity of Y-chromosomal DNA in Six Local Indonesian Goat Breeds. Proceedings IAARD Press, Indonesian, 316-325.
Budisatria, I.G.S., Udo, H.M.J., van der Zijpp, A.J., Baliarti, E., & Murti, T.W. (2008). Religious festivities and marketing of small ruminants in central java-Indonesia. Asian Journal of Agriculture and Development, 5(2), 57-73. Retrieved from https://core.ac.uk/download/pdf/6231843.pdf
Brum, G.L, Meckane., & Karp, G. (Eds) (1994). Biology Exploring Life. New York: John Wiley and Son.
Davis, G.H. (2004). Fecundity genes in sheep. Animal Reproduction Science, 82, 247-253. https://doi.org/10.1016/j.anireprosci.2004.04.001
Dutta, R., Das, B., Laskar, S., Kalita, D.J, Borah, P., Zaman, G & Saikia, D.P. (2013). Polymorphism, sequencing and phylogenetic characterization of growth diferentiation factor 9 (GDF9) gene in Assam Hill goat. African Journal of Biotechnology, 12(50), 6894. Retrieved from https://academicjournals.org/article/article1386776256_Dutta%20et%20al.pdf
Elvin, J.A., Clark, A.T., Wang, P., Wolfman, N.M., & Matzuk, M.M. (1999). Paracrine action of growth differentiation factor-9 in mammalian ovary. Molecular endocrinology, 13(6), 1035-1048. https://doi.org/10.1210/mend.13.6.0310
Feng, T., Geng, X., Lang, X.Z., Chu, M.X., Cao, G.L., Di, R., Fang, L., Chen, H.Q., Liu, X.L., & Li, N. (2012). Polymorphisms of caprine GDF9 gene and their association with litter size in jining grey goats. Molecular biology reports, 39, 4029-4038. https://doi.org/10.1007/s11033-011-1184-5
Gazooei, Y.M., Niazi, A & Zamiri, M.J. (2013). Single nucleotide polymorphism analysis of the bone morphogenetic protein receptor IB and growth and differentiation factor 9 genes in Rayini goats (Capra hircus). Journal of Livestock Science and Technologies, 1(2), 45-50. Retrieved from https://lst.uk.ac.ir/article_549_e2487315e069d735011fb6ae1eee2d99.pdf
Galloway, S. M., McNatty, K. P., Cambridge, L. M., Laitinen, M. P., Juengel, J. L., Jokiranta, T. S., ... & Ritvos, O. (2002). Mutation in an oocyte-derived growth factor gene (BMP15) cause increased ovulation rate and infertility in a dosage-sensitive manner. Nature genetics, 25(3), 279-283. https://doi.org/10.1038/77033
Hanrahan, J. P., Gregan, S. M., Mulsant, P., Mullen, M., Davis, G. H., Powell, R., & Galloway, S. M. (2004). Mutations in the genes for oocyte-derived growth factors GDF9 and BMP15 are associated with both increased ovulation rate and sterility in Cambridge and Belclare sheep (Ovis aries). Biology of reproduction, 70(4), 900-909. https://doi.org/10.1095/biolreprod.103.023093
Jones, A.M. (Eds.) (1997). Environmental Biology. Routledge. London and New York.
Kunda, R.M., Handayani, N.S.N., Wijayanto, H., & Widayanti, R. (2017). DNA barcoding of cuscuses (Marsupialia: Phalangeridae) from Maluku and Papua. Asian J. Anim. Vet. Adv., 12(5), 227-238. https://doi.org/10.3923/ajava.2017.227.238
Kunda, R.M., Handayani, N.S.N., Wijayanto, H., & Widayanti, R. (2015). Study of genetic marker of cuscuses (Marsupialia: Phalangeridae) from Maluku and Papua based on cytochrome B gene sequences. Pakistan Journal of Biological Sciences: PJBS, 19(3), 122-135. https://doi.org/10.3923/pjbs.2016.122.135
Mishra, C. (2014). Genetic basis of Prolificacy in sheep. Int J Livest Res, 4(1), 46-57. Retrieved from https://www.bibliomed.org/?mno=48125
McNatty, K.P., Juengel, J.L., Reader, K.L., Lun, S., Myllymaa, S., Lawrence, S.B., Western, A., Meerasahib, M.F., Mottershead, D.G., Groome, N.P., Ritvos, O., & Laitinen, M.P. (2005). Oocyte signalling molecules and their effects on reproduction in ruminants. Reproduction, Fertility and Development, 17(9), 66-66. https://doi.org/10.1071/SRB05Abs020
McNatty, K.P., Juengel, J.L., Wilson, T., Galloway, S.M., Davis, G.H., Hudson, N.L., Moeller, C.L., Cranfield, M., Reader, K.L., Laitinen, M.P., Groome, N.P., Sawyer, H.R & Ritvos, O. (2003). Oocyte-derived growth factors and ovulation rate in sheep. Reproduction, 61, 339-351. Retrieved from https://pubmed.ncbi.nlm.nih.gov/14635946/
Ma, X., Liu, X., Zhang, C & Li, J. (2010). Candidate genes polymorphism and its association to prolificacy in Chinese goats. Journal of Agricultural Science, 2(1), 88-92. https://doi.org/10.5539/jas.v2n1p88
Primack, R.B., Supriatna, J., Indrawan, M., & Kramadibrata, P. (Eds.) (1998). Conservation Biology (In Indonesian). Yayasan Obor Indonesia, Jakarta, Indonesia.
Ran, X., Lin, J., Du, Z., Qing, C & Wang, J. (2009). Diversity of BMP15 and GDF9 genes in White goat of Guizhou Province and evolution of the encoded proteins. Zoological Research, 30, 593-602. Retrieved from https://hdl.handle.net/1807/64400
Rumanta, M., Kunda, R.M., Volkandari, SD., Indriawati., & Kakisina, P. (2020). Genetic characterization and phylogenetic study of Lakor goat from Southwest Maluku Regency based on mitochondrial COI gene. Veterinary World, 13(6), 1209. https://doi.org/10.14202%2Fvetworld.2020.1209-1220
Salamena, J.F., Malle, D., Latupeirissa, C.C.E., & Siwa, I.P. (2014). Potential development of local animal genetic resources in Maluku. Occas. Pap, 54, 17-25. Retrieved from http://cpi.kagoshima-u.ac.jp/publications/occasionalpapers/occasional/vol-54/occasional_papers_54(pp17-25).pdf
Sadighi, M., Bodensteiner, K.J., Beattie, A.E., & Galloway, S.M. (2002). Genetic mapping of ovine growth differentiation factor 9 (GDF9) to sheep chromosome 5. Animal genetics, 33(3), 244-245.
Silva, B.D.M., Castro, E.A., Souza, C.J.H., Paiva, S.R., Sartori, R., Franco, M.M., Azevedo, H.C., Silva, T.A.S.N., Vieira, A.M.C., Neves, J.P & Melo, E.O. (2010). A new polymorphism in the growth and diferentiation factor 9 (GDF9) gene is associated with increased ovulation rate and prolificacy in homozygous sheep. Anim. Genet, 42, 89-92. https://doi.org/10.1111/j.1365-2052.2010.02078.x
Yadav, A & Yadav, B.R. (2008). DNA Fingerprint: Genetic relationship in Six Indian goat breeds. Indian J. Biotechnol. 7, 487-490. Retrieved from https://nopr.niscpr.res.in/handle/123456789/235
Author Biographies
Maman Rumanta, Universitas Terbuka
Rony Marsyal Kunda, Universitas Pattimura
Slamet Diah Volkandari, BRIN
Ivan Mambaul Munir, BRIN
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