Genetic Homogenity of Commerson’s Anchovy (Stolephorus commersonnii)  in Segara Anakan Cilacap Central Java Inferred from PCR-RFLP Markers

Agus Nuryanto; Rani Eva Dewi; Hendro Pramono

doi:10.24252/bio.v7i1.6352

Agus Nuryanto Faculty of Biology Universitas Jenderal Soedirman (SCOPUS ID: 57193111504)
(ID)
Rani Eva Dewi Faculty of Biology Universitas Jenderal Soedirman
(ID)
Hendro Pramono
(ID)

DOI: https://doi.org/10.24252/bio.v7i1.6352

Abstract

Commerson’s anchovy (Stolephorus commersonnii) is a small pelagic fish that live in a group and its existence is very abundant in Segara Anakan Cilacap. This anchovy is widely consumed by communities live around Segara Anakan. This leads to a high exploitation rate. Exploited populations generally have low genetic diversity. This study aims to evaluate genetic diversity of commerson’s anchovy population in Segara Anakan Cilacap inferred from PCR-RFLP of the cytochrome c oxidase 1 (CO1) gene. This study was conducted from January to April 2018 and used survey method by applying random sampling. As many as 30 samples of anchovy were taken. Genomic mtDNA was isolated using modified Chelex method. Partial sequences of the COI gene were amplified using a pair forward commercially available primer. The lengths of 650 base pair of the PCR products were digested with four restriction enzymes. The HindIII enzyme produces PCR-RFLP fragment with the size of 416 bp and 234 bp lengths, VspI produces 435 bp and 214 bp, CO1-TaqI produces 556 bp and 94 bp and RsaI produces 319 bp, 183 bp, and 148 bp fragments, respectively. The PCR-RFLP fragments were obtained from all samples but they produced uniform band pattern for all 30 anchovy individuals. These results indicated that the anchovy population in Segara Anakan Cilacap has monomorphic allele for all PCR-RFLP markers. Hence, it can be concluded that genetic homogenity was observed on anchovy population in Segara Anakan Cilacap as inferred from PCR-RFLP COI gene.

References

Arunprasanna V, Kannan M, Anbalagan S, Dinakaran S, Krishnan M. 2015. Intraspecific genetic diversity of two black fly species (Diptera: Simullidae) from South India using DNA barcode based RFLP analysis. International Journal of Zoological Research. vol 11(5): 188-197. doi http://dx.doi.org/10.3923/ijzr.2015.188.197

Azizah SN, Nuryanto A, Pramono H. 2015. Karakterisasi molekuler ikan gurami soang (Osphronemus goramy Lac.) berbeda ukuran menggunakan PCR-RFLP gen sitokrom c oksidase 1. Biosfera. vol. 32(3): 185-193. doi https://doi.org/10.20884/1.mib.2015.32.3.342.

Bahiyah, Solihin DD, Affandi R. 2013. Variasi genetik populasi ikan brek (Barbonymus balleroides Val. 1842) sebagai dampak fragmentasi habitat di Sungai Serayu. Jurnal Ikhtiologi Indonesia. vol 13(2): 175-186. doi https://doi.org/10.32491/jii.v13i2.104.

Barbuto M, Galimberti A, Ferii E, Labra M, Malandra R, Galli P, Casiraghi M. 2010. DNA barcoding reveals fraudulent substitutions in shark seafood products: The Italian case of "Palombo" (Mustelus spp.). Food Research International. vol 43: 376-381. doi https://doi.org/10.1016/j.foodres.2009.10.009.

Domingues RR, Okuda G, Bernard AM, Amorim AF, Biasi JD, Hilsdorf AWS. 2015. A DNA tool for the identification of heavily exploited Atlantic billfishes. Conservation Genetics Resources. vol 7(4): 807-809. doi https://doi.org/10.1007/s12686-015-0489-4.

Frankham R, Ballou JD, Briscoe DA. 2007. A Primer of Conservation Genetics. Cambridge: Cambridge University Press. pp. 220.

Frankham R, Ballou J, Briscoe DA. 2002. Introduction to Conservation Genetics. Cambridge: Cambridge University Press.

Hauser L, Adcock GJ, Smith PJ, Ramirez, JHB, Carvalho GR. 2002. Loss of microsatellite diversity and low effective population size in an overexploited population of New Zealand snapper (Pagrus auratus). PNAS. vol 99(18): 11742-11747. doi https://doi.org/10.1073/pnas.172242899.

Hebert PDN, Cywinska A, Ball SL, deWaard JR. 2003. Biological Identifications through DNA Barcodes. Proceedings of the Royal Society B. vol 270: 313-321. doi https://doi.org/10.1098/rspb.2002.2218.

Iranawati F, Nazifah L, Ika LH, Julinda SH, Arfiati D. 2016. Determination on yellow fin tuna stock (Thunnus albacares) in South Java Sea based on genetic variation by restriction fragment length polymorphism (RFLP) method. Research Journal of Life Science. vol 03(01): 6-15. doi https://doi.org/10.21776/ub.rjls.2016.003.01.2.

Khoshkholgh M, Nazari S. 2015. Genetic variation in the narrow-clawed crayfish (Astacus leptodactylus) populations as assessed by PCR-RFLP of mitochondrial COI gene. Molecular Biology Research Communications. vol 4(4): 225-237. doi http://dx.doi.org/10.22099/mbrc.2015.3265.

Klinbunga S, Khamnamtong B, Puanglarp N, Jarayabhand P, Yoosukh W, Menasveta P. 2005. Molecular taxonomy of cupped oysters (Crassostrea, Saccostrea, and Striostrea) in Thailand dased on CO1, 16S and 18S rDNA polymorphism. Marine Biotechnology. vol 7: 306-317. doi 10.1007/s10126-004-0036-x

Kochzius M, Nuryanto A. 2008. Strong genetic population structure in the boring giant clam Tridacna crocea across the Indo-Malay Archipelago: implications related to evolutionary processes and connectivity. Molecular Ecology. vol 17: 3775-3787. doi https://doi.org/10.1111/j.1365-294X.2008.03803.x.

Kurniasari RS, Soewondo A, Toha AH. 2014. Identifikasi synaptula (Echinodermata: Holothuroidea) Raja Ampat berdasarkan gen CO1. Jurnal Biotropika. vol 2(5): 265-268.

Kusbiyanto, Nuryanto A, Soedibja PHT. 2017. Resistensi dan karakter molekuler benih gurami sowang (Osphronemus goramy Lacepede, 1801) asal induk berbeda. Depik. vol 6(3): 242-251. doi https://doi.org/10.13170/depik.6.3.6539

Nuryanto A, Solihin DD. 2006. Variasi Sekuens Gen Mitokondrial Sitokrom C Oksidase 1 dari Siput Lola (Trochus niloticus). Biosfera. vol 23(1): 31-37. doi https://doi.org/10.20884/1.mib.2006.23.1.143.

Nuryanto A, Sastranegara MH. 2013. Molecular characterization of Polymesoda erosa (Solander, 1786) inhabit two different habitats. Bionatura. vol 15(3): 201-207.

Nuryanto A, Qonita, NH, Pramono H, Kusbiyanto, Soedibja PHT. 2017. Genetic Variation in Cytochrome b-Hinf1 and Alu1 Gene Correlated to Body Size in Soang Gourami (Osphronemus goramy) from Single Spawning. Biosaintifika. vol 9(2): 185-192. doi 10.15294/biosaintifika.v9i2.9301.

Nuryanto A, Pramono H, Sastranegara MH. 2017. Molecular Identification of Fish Larvae from East Plawangan of Segara Anakan, Cilacap, Central Java, Indonesia. Biosaintifika. vol 9(1): 33-40. doi: 10.15294/biosaintifika.v9i1.9191.

Nuryanto A, Amalia G, Khairani D, Pramono H, Bhagawati D. 2018. Molecular characterization of giant gourami strains from Java and Sumatra. Biodiversitas. vol 19(2): 528-539. doi https://doi.org/10.13057/biodiv/d190228.

Rousseau J, Drouin G, Slater GW. 2000. Gel electrophoretic mobility of single‐stranded DNA: The two reptation field‐dependent factors. Electrophoresis. vol 21 (8): 1464-1470. doi https://doi.org/10.1002/(SICI)1522-2683(20000501)21:8%3C1464::AID-ELPS1464%3E3.0.CO;2-E.

Ward RD, Zemlak TS, Innes BH, Last PR, Hebert PDN. 2005. DNA barcoding Australia's fish species. Phil. Trans. R. Soc. B. vol 360: 1847-1857. doi https://doi.org/10.1098/rstb.2005.1716.

Wirdateti, Wulandari SW, Kuswandi PC. 2015. Penanda genetik tarsius (Tarsius sp.) dengan menggunakan gen cytochrome oxidase i (CO1) DNA mitokondria (mtDNA) melalui metode sekuensing. Jurnal Biologi Indonesia. vol 11(2): 275-284.

Yang Y, Li Q, Kong L. 2018. Identification of six nassarid snails using CO1-based restriction fragment length polymorphism. Journal of Shellfish Research. vol 37(1): 239-243. doi https://doi.org/10.2983/035.037.0122.

Yuanda D, Mulya MB, Muhtadi A. 2017. Pertumbuhan dan laju eksploitasi ikan teri pekto (Stolephorus waitei) di perairan Belawan Kota Medan Sumatera Utara. Aquacoastmarine. vol 15(1): 120-130.