Tuna (Thunnus sp) is a fish with high economic value, both in the export community and local consumption (Fernandez, 2021). The amount of tuna (Thunnus sp) production increases every year. The increasing amount of fishery production and the development of the fishery product industry have caused a lot of fishery waste to be disposed of without processing. Waste from fishery product processing reaches 20-60% of the raw materials. Waste from fishery products processed with tuna as the raw material consists of 17% head, 20% skin, 5% offal, 4% bones, and 2% fins. In general, tuna skin is thrown away without further processing. However, tuna skin is a good source of collagen and does not cause bovine spongiform encephalopathy (BSE). Collagen, which provides 30% of the total protein content, is the most abundant fibrous protein in animals. Collagen plays an important role in regulating the wound-healing phase. This study used the Cobalt-60 gamma irradiation method with a dose of 10 kGy. The results of this study are with bacterial tests, tuna fish powder that has undergone gamma irradiation with a bacterial contaminant value of 0.19 x 103, and mold testing with a value of 0.00 x 103 with a pH of both 6.78. Functional groups of tuna fish skin collagen include Amide A found in the absorption region of 3330 cm-1, Amide B found in the absorption region of 2924 cm-1, Amide I found in the absorption region of 1640 cm-1, Amide II found in the absorption region of 1406 cm-1, and Amide III found in the absorption region of 1242 cm-1.

Keywords: Collagen; Gamma Irradiation; Tuna Fish Skin; Waste

Agnes, A., dan Sompie, M. 2015. Kajian gelatin kulit ikan tuna (Thunnus albacares) yang diproses menggunakan asam asetat, 1: 1186–1189. https://doi.org/10.13057/psnmbi/m010539

Alinti, Z., Timbowo, S.M., dan Mentang, F. 2018. Kadar air, PH, dan kapang ikan cakalang (Katsuwonus pelamis L.) asap cair yang dikemas vakum dan non vakum pada penyimpanan dingin. Jurnal Media Teknologi Hasil Perikanan, 6(1): 202–209.

Arvanitoyannis. 2019. Irradiation of food commodities: techniques, applications, detection, legislation, safety and consumer opinion. Trends in Food Science & Technology, 22(1): 50–50. https://doi.org/10.1016/j.tifs.2010.12.003

Dzaky, R.A. 2017. Ekstraksi dan sifat-sifat gelatin kulit ikan tuna sirip kuning (Thunnus albacares). Bogor.

Jati, A.K., Nurani, T.W., dan Iskandar, B.H. 2016. Sistem rantai pasok tuna loin di Perairan Maluku (Supply Chain System of Tuna Loin in Maluku Waters). Marine Fisheries : Journal of Marine Fisheries Technology and Management, 5(2): 171–180. https://doi.org/10.29244/jmf.5.2.171-180

Kaewdang, O., Benjakul, S., Kaewmanee, T., dan Kishimura, H. 2014. Characteristics of collagens from the swim bladders of yellowfin tuna (Thunnus albacares). Food Chemistry, 155: 264–270. https://doi.org/10.1016/j.foodchem.2014.01.076

Kobayashi, Y., Yang, T., Yu, C. T., Ume, C., Kubota, H., Shimakura, K., and Hamada-Sato, N. 2016. Quantification of major allergen parvalbumin in 22 species of fish by SDS-PAGE. Food Chemistry, 194: 345–353. https://doi.org/10.1016/j.foodchem.2015.08.037

Kong, J., and Yu, S. 2007. Fourier transform infrared spectroscopic analysis of protein secondary structures. Acta Biochimica et Biophysica Sinica, 39(8): 549–559. https://doi.org/10.1111/j.1745-7270.2007.00320.x

Krishnamoorthy, G., Leus, I.V., Weeks, J.W., Wolloscheck, D., Rybenkov, V.V., and Zgurskaya, H.I. 2017. Synergy between active efflux and outer membrane diffusion defines rules of antibiotic permeation into gram-negative bacteria. MBio, 8(5): https://doi.org/10.1128/mBio.01172-17

Mayasari, D. 2016. Ekstraksi kolagen optimum dari kulit ikan tuna (Thunnus sp.) sebagai antioksidan. Bogor.

Muyonga, J.H., Cole, C.G.B., dan Duodu, K.G. 2004. Fourier transform infrared (FTIR) spectroscopic study of acid soluble collagen and gelatin from skins and bones of young and adult Nile perch (Oreochromis niloticus). Food Chemistry, 86(3): 325–332. https://doi.org/10.1016/j.foodchem.2003.09.038

N, A., Jamilatun, dan A, A. 2020. Perbandingan pertumbuhan Aspergillus fumigatus pada media instan modifikasi carrot sucrose agar dan potato dextrose agar. Jurnal Mikologi Indonesia, 4(1): 168–174. https://doi.org/10.46638/jmi.v4i1.69

Nurhidayah., Soekendarsi, E., dan Erviani, A. E. 2019. Content of Chanos chanos and Oreochromis niloticus Scal. Bioma: Jurnal Biologi Makassar, 4(1): 39–47.

Nurjanah., Baharuddin, T.I., dan Nurhayati, T. 2021. Ekstraksi kolagen kulit ikan tuna sirip kuning (Thunnus albacares) menggunakan enzim pepsin dan papain. Jurnal Pengolahan Hasil Perikanan Indonesia, 24(2): 174–187. https://doi.org/10.17844/jphpi.v24i2.35410

Puspawati, N.M., Simpen, I.N., dan Miwada, S.N. 2012. Isolasi gelatin dari kulit kaki ayam broiler dan karakterisasi gugus fungsinya dengan spektrofotometri FTIR. Jurnal Kimia, 6(1): 79–87.

Rahmawan Kusa, S., Silvana Naiu, A., dan Yusuf, N. 2022. Karakteristik kolagen kuit ikan tuna sirip kuning (Thunnus albacares) pada waktu hidro-ekstraksi berbeda dan potensinya dalam bentuk sediaan Nanokolagen. Media Teknologi Hasil Perikanan, 10(2): 107–116. Retrieved from https://doi.org/10.35800/mthp.10.2.2022.41716

Ray, B., and Bhunia, A. 2015. Fundamental food microbiology. CRC Press: CRC Press.

Safitri, R., dan Fitri, L. 2010. Kajian pemanfaatan radiasi sinar Gamma (Co-60) pada sistem pengawetan makanan studi kasus pada serbuk cabai. Sigma, 13(2): 115–122.

Sari, R.A., Yunianta., dan Harsojo. 2017. The Effect of gamma irradiation and freezing storage as an effort to improve food safety on “patin” fish (Pangasius hypophtlmus). Jurnal Pangan Dan Agroindustri, 5(4): 1–8.

Sedeh, F.M., Arbabi, K., Fatolahi, H., dan Abhari, M. 2007. Using gamma irradiation and low temperature on microbial decontamination of red meat in Iran. Indian Journal of Microbiology, 47(1): 72–76. https://doi.org/10.1007/s12088-007-0013-y

Wahyudi, P., Suwahyono, U., Harsoyo, H., Mumpuni, A., dan Wahyuningsih, D. 2005. Pengaruh pemaparan sinar Gamma Isotop Cobalt-60 Dosis 0,25–1 Kgy terhadap daya antagonistik Trichoderma harzianum pada fusarium oxysporum. Berkala Penelitian Hayati, 10(2): 143–151. https://doi.org/10.23869/bphjbr.10.2.200510

Wiratna, G., Rahmawati., dan Linda, R. 2019. Angka lempeng total mikroba pada minuman teh di Kota Pontianak. Jurnal Protobiont, 8(2), 69–73. https://doi.org/10.26418/protobiont.v8i2.33968