Analysis of bacteriocins of lactic acid bacteria isolated from fermentation of rebon shrimp (Acetes sp.) in South Sorong, Indonesia as antibacterial agents

##plugins.themes.bootstrap3.article.main##

SUKMAWATI SUKMAWATI
SIPRIYADI
MELDA YUNITA
NURUL KUSUMA DEWI
ERIN D. NOYA

Abstract

Abstract. Sukmawati S, Sipriyadi, Yunita M, Dewi NK, Noya ED. 2022. Analysis of bacteriocins of lactic acid bacteria isolated from fermentation of rebon shrimp (Acetes sp.) in South Sorong, Indonesia as antibacterial agents. Biodiversitas 23: xxxx. Bacteriocins are protein compounds that are often used as biopreservative agents due to their antibacterial effects against various types of pathogenic bacteria. Bacteriocins are used as food additives that can control the growth of spoilage bacteria in food. Bacteriocins can be obtained from Lactic Acid Bacteria (LAB) and are generally isolated from fermentation products, such as rebon shrimp fermentation. The objective of this study was to analyze the activity of bacteriocins isolated by fermented rebon shrimp in South Sorong as antibacterials. The method used in this study is a descriptive study by describing the ability of bacteriocins to inhibit pathogenic bacteria (Staphylococcus aureus, Escherichia coli, and Salmonella typhimurium). The results showed that of the seven bacteriocin samples obtained from the fermented rebon shrimp paste and acidic shrimp paste were able to inhibit the growth of pathogenic bacteria (S. aureus, E. coli, and S. typhimurium). The sensitivity test of bacteriocin to protease enzymes and its activity against pathogenic bacteria showed that bacteriocins derived from LAB were not sensitive to proteinase-K. The test results of the effect of temperature on bacteriocins and their activity against pathogenic bacteria showed that these bacteriocins were stable at high temperatures, normal temperatures and freezing temperatures. The test results of the effect of pH on bacteriocin activity on pathogenic bacteria showed that bacteriocins were stable in a wide pH range including pH 2, pH 3, pH 4, and pH 5; potassium phosphate buffer with pH 6, 7, and 8; and glycine buffer with pH 9, 10, and 11. Meanwhile, The test results of the effect of NaCl on bacteriocin activity on pathogenic bacteria showed that the bacteriocin sample was not affected by the administration of NaCl. Thus it can be stated that the seven samples had a great ability to inhibit the growth of pathogenic bacteria dan it can be further developed as the basis of natural food preservatives.

##plugins.themes.bootstrap3.article.details##

References
Abanoz HS, Kunduhoglu, B. 2018. Antimicrobial activity of a bacteriocin produced by Enterococcus faecalis KT11 against some pathogens and antibiotic-resistant bacteria. Korean journal for food science of animal resources 38(5):1064.
Barbosa MS, Todorrov SD, Belquesmia Y, Choiset Y, Rabesona H, Ivanova IV, Chobert JM, Haertlé T, Franco BD. 2014. Purification and characterization of the bacteriocin produced by Lactobacillus sakei MBSa1 isolated from Brazilian salami. Journal Applied Microbiology 116(5):1195-208. doi: 10.1111/jam.12438.
Buchmüller W. Peccei RD. Yanagida T. 2005. Leptogenesis as the origin of matter. Annual Reviw Nucleus Part Science 8(55):311-55.
Carlier L, Joanne P, Khemtémourian L, Lacombe C, Nicolas P, El Amri C, Lequin O. 2015. Investigating the role of GXXXG motifs in helical folding and self-association of plasticins, Gly/Leu-rich antimicrobial peptides. Biophysical chemistry 196:40-52.
Daskalopoulou SS, Rabi DM, Zarnke KB, Dasgupta K, Nerenberg K, Cloutier L, Gelfer M, Lamarre-Cliche M, Milot A, Bolli P, McKay DW. 2015. The Canadian hypertension education program recommendations for blood pressure measurement diagnosis assessment of risk prevention and treatment of hypertension. Canadian Journal of Cardiology 31(5):549-68.
DKP. 2020. Data kelautan dan perikanan Papua Barat. [Indonesia].
Flynn J. 2021. Designing biomaterials for the development of bacteriocin based antimicrobial therapies.Thesis Presented for the Award of Doctoral of Philosophy. Faculty of science and Engineering, University of Limerick. [Ireland].
Gálvez A, Abriouel H, López RL, Omar NB. 2007. Bacteriocin-based strategies for food biopreservation. International journal of food microbiology 120 (1-2):51-70.
Gautam N, Shara N, Ahlawat OP. 2014. Purification and characterization of bacteriocin produced by Lactobacillus brevis UN isolated from dhulliachar: a Traditional Food Product of North East India. Indian J Microbiol 54(2): 185–189. doi: 10.1007/s12088-013-0427-7.
Gautam N, Sharma N. 2009. Bacteriocin: safest approach to preserve food products. Indian J Microbiol 49(3):204-211.doi:10.1007/s12088-009-0048-3.
Gavahian M, Tiwari BK, Chu YH, Ting Y, Farahnaky A. 2019. Food texture as affected by ohmic heating: Mechanisms involved, recent findings, benefits, and limitations. Trends in Food Science and Technology 86: 328-339.
Hamida F. 2021. Aktivitas antibakteri ekstrak kasar bakteriosin termofilik yang dihasilkan oleh Pediococcus pentosaceus terhadap Salmonella enteritidis dan Enterococcus casseliflavus. 14(1):59-62.
Hamidah MN, Rianingsih L, Romadhon R. 2019. Aktivitas antibakteri isolat bakteri asam laktat dari peda dengan jenis ikan berbeda terhadap E. coli dan S. aureus. Jurnal Ilmu dan Teknologi Perikanan 1(2):11-21.
Hardianti F, Aziz IR. 2019. Identification of pathogenic bacteria on the salted fish Lutjanus Vivanus in Sorong city of West Papua. Malaysian Journal of Microbiology 15(3):237-244.
Hata TR, Tanaka S, Ohmomo. 2010. Isolation and characterization of plantaricin ASM1: A new bacteriocin produced by Lactobacillus plantarum A-1. Int. J Food Microbiol 137:94-99. doi: 10.1016/j.ijfoodmicro.2009.10.021.
Kayalvizhi N, Gunasekaran P. 2010. Purification and characterization of a novel broad-spectrum bacteriocin from Bacillus licheniformis MKU3. Biotechnology and Bioprocess Engineering 15(2):365-370.
Leeman JE, Li JG, Pei X, Venigalla P, Zumsteg ZS, Katsoulakis E, Lupovitch E, McBride SM, Tsai CJ, Boyle JO, Roman BR. 2017. Patterns of treatment failure and postrecurrence outcomes among patients with locally advanced head and neck squamous cell carcinoma after chemoradiotherapy using modern radiation techniques. JAMA oncology 3(11):1487-94.
Maulidayanti S. 2018. Karakterisasi bakteriosin yang dihasilkan Lactobacillus rhamnosus IN13 dari produk fermentasi ikan inasua asal Maluku Tengah Indonesia. Institut Pertanian Bogor. [Indonesia].
Ming L, Zhang Q, Le Yang JAH. 2015. Comparison of antibacterial effects between antimicrobial peptide and bacteriocins isolated from Lactobacillus plantarum on three common pathogenic bacteria. International journal of clinical and experimental medicine 8(4):5806.
Montoro DT, Haber AL, Biton M, Vinarsky V, Lin B, Birket SE, Yuan F, Chen S, Leung HM, Villoria J, Rogel N, A revised airway epithelial hierarchy includes CFTR-expressing ionocytes. Nature 560(7718):319-24.
Noonpakdee W, Jumriangrit P, Wittayakom K, Zendo J, Nakayama J, Sonomoto K, Panyim S, Two-peptide bacteriocin from Lactobacillus plantarum PMU 33 strain isolated from som-fak. a Thai low salt fermented fish product. Asia Pasific Journal of Molecular Biology and Biotechnology 17(1):19-25.
Obi CN, Achi OK, Nwachukwu E. 2018. Bio-preservative activities of partially purified bacteriocin extracts of Lactobacillus mindensis TMW and Lactobacillus tucceti CECT 5920 isolated from Nigerian fermented foods. European Journal of Nutrition & Food Safety 8(4): 266-283.
Ogunbanwo ST, Sanni A, Onilude AA. 2003. Characterization of bacteriocin produced by Lactobacillus plantarum F1 and Lactobacillus brevis OG1. African Journal of Biotechnology 2(8):219-27.
Papagianni M, Papamichael EM. 2011. Purification, amino acid sequence and characterization of the class IIa bacteriocin weissellin A, produced by Weissella paramesenteroides DX. Bioresource technology 102(12): 6730-6734.
Romadhon R, Rianingsih L, Anggo AD. 2018. Aktivitas antibakteri dari beberapa tingkatan mutu terasi udang rebon. Jurnal Pengolahan Hasil Perikanan Indonesia. 21(1):68-77. Doi. https://doi.org/10.17844/jphpi.v21i1.21263.
Savadogo A, Ouattara AC, Bassole HI, Traore SA. 2006. Bacteriocins and lactic acid bacteria-a minireview. African journal of biotechnology 5(9).
Sharma N, Kapoor G, Neopaney B. 2006. Characterization of a new bacteriocin produced from a novel isolated strain of Bacillus lentus NG121. Antonie Van Leeuwenhoek 89(3):337-343.
Srionnual S, Yanagida F, Lin LH, Hsiao KN, Chen YS. 2007. Weissellicin 110 a newly discovered bacteriocin from Weissella cibaria 110 isolated from plaa-som a fermented fish product from Thailand. Applied and Environmental Microbiology 73(7):2247-50.
Sunaryanto R, Tarwadi T, Isolasi dan karakterisasi bakteriosin yang dihasilkan oleh Lactobacillus lactis dari sedimen laut. Jurnal Pascapanen dan Bioteknologi Kelautan dan Perikanan 10(1):11-8. Doi http://dx.doi.org/10.15578/jpbkp.v10i1.240.
Suruan S, Kondjol S, Toha M, Boli P. 2020. Identifikasi hasil tangkapan nelayan udang di kampung Bakoi kabupaten Sorong Selatan provinsi Papua Barat. Jurnal Riset Perikanan dan Kelautan 2(2):212-24.
Todorov SD, Vas-Velho M, Franco BDGM, Holzapfel WH. 2013. Partial characterization of bacteriocins produced by three strains of Lactobacillus sakei, isolated from salpicao, a fermented meat product from North-West of Portugal. Food Control 30: 111-121.
Usmiati S, Marwati T. 2007. Seleksi dan optimasi proses produksi bakteriosin dari Lactobacillus sp. Jurnal Penelitian Pascapanen Pertanian 4(1):27-37.
Van Belkum MJ, Martin-Visscher LA, Vederas JC. 2011. Structure and genetics of circular bacteriocins. Trends in microbiology 19(8): 411-418.
Wu A, Fu Y, Kong L, Shen Q, Liu M, Zeng X, Pan D. 2021. Production of a class IIb bacteriocin with broad-spectrum Antimicrobial Activity in Lactiplantibacillus plantarum RUB1. Probiotics and Antimicrobial Proteins 13(6):1820-1832.
Yadav JS, Ogwok E, Wagaba H, Patil BL, Bagewadi B, Alicai T, Gaitan?Solis EL, Taylor NJ, Fauquet CM, RNAi?mediated resistance to cassava brown streak Uganda virus in transgenic cassava. Molecular Plant Pathology 12(7):677-87.
Yang E, Fan L, Yan J, Jiang Y, Doucette C, Fillmore S, Walker B. 2018. Influence of culture media, pH and temperature on growth and bacteriocin production of bacteriocinogenic lactic acid bacteria. Amb Express 8(1): 1-14.