Bekasam is a traditional fermented fish from Indonesia. It is made from fish  in which  the gills and  gut  had been  discarded,  washed,  and  mixed with salt, after two days, it was covered  with  rice  and  salt,  and then  fermented  for  5-7 days  at room  temperature.  Bekasam  is perceived to have antihypertensive activity, which is though to be the activity of bioactive peptides, the product of protein degradation  during  the bekasam fermentation. The research was aim to isolate the indigenous lactic  acid  bacteria  that  produce strong  proteolytic  capabilities.  The lactic  acid bacteria were collected from 3  kinds of bekasam (tilapia, milkfish, and tuna bekasam). Isolation  of the lactic acid bacteria was done         on agar medium containing MRS + CaCO3, and  the screening of the proteolytic bacteria  was done by growing the isolated  culture on  skim agar.   The colonies  that produce clear zone  were identified  as proteolytic  lactic acid  bacteria. Some of 180  isolated strains of acid  producing bacteria   that produce clear zone on MRS agar were found 150 strains of  lactic acid  bacteria, and  84  strains  showed  their  proteolytic activity.  The later  were identified morphologically and biochemical as Lactobacillus, Pediococcus and Leuconostoc genera.  Selection  was further conducted based on the height of the proteolytic and homofermentative fermentation activities. Upon species identification using API CH 50 kit,  the  selected strains belong to species of Lactobacillus plantarum, Lactobacillus pentosus, and Pediococcus pentosaseus.

Adriana, L.B., Perez., Mungula, S & Farres, A. 2008. Novel extracelluler proteolytic in pediococcus acidilactici ATCC 8042. Can J Microbiol 54(8): 694-699.

Basso, A.L., Picariello, G., Coppola, R., Tremonte, P., Musso, S.S & Luccia, A.D. 2004. Proteolytic activity of Lactobacillus sakei, Lactobacillus farciminis and Lactobacillus plantarum on Sarcoplasmic protein of pork lean. J Food Biochem28:

-212.

Buntin, N., Suphitchaya, C., Tipparat, H & Songklanakarih. 2008. Screening of lactic acid bacteria from gastrointestinal tracks of marine fish for their potensial use as probiotics. J Sci Technol 30(1): 141-148.

Cagno, R.D., Angelis, M.D., Lavermicocca, P.,Vicenzi, M.D., Giovannini, C., Faccia, M & Gobetti, M. 2002. Proteolysis by sourdough lactic acid bacteria: Effect on wheat flour protein fraction and gliadin peptide involved in human cereal intolerance. Appl Environ Microb 68(2): 623-633.

Christine, P.M., Mette, M., Pairat, C., Lone, G & Peter, L.M. 2002. Fermentation and microflora of plaa-som, a thai fermented fish product prepared with different salt consentration. Int J Food Microbiol 73(1): 61-70.

Dalmis, U & Soyer, A. 2008. Effect of processing methods and starter culture (Staphylococcus xylosus and pediococcus pentosaceus) on proteolytic changes in turkish sausage (sucuk) during ripening and strorage. Meat science 80(2): 345-354.

Fadda, S., Graciella, V., Aida, P.R.H & Guilermo, O. 1998. Proteolytic activity of Lactobacillus strain from dry fermented sausage on muscle sarcoplacmic protein. Meat Science 49(1): 11-18.

Itou, K & Akahane, Y. 2004. Antihypertensive effect of heshiko, a fermented mackarel product, on spontaneously hypertensive rat. Fish Sci 70(6): 1121-1129.

Kim, S.B., Lee, T.G., Park, Y.B., Yeum, D.M., Kim, O.K., Gyun, H.S & Park, Y.H. 1993. Characteristic of angiotensin inhibitory converting enzyme derived from fermented fish product (Salted and Fermented Anchovy). Bull Korean Fish Soc 26(4): 321-329.

Kouno, K., Shin-ichi H., Hiroshi, K., Midori K & Keiko, H. 2005. Effect on dried bonito (Katshuobushi) and captopril, an angiotensin-i-converting enzyme inhibitor, on rat isolated aorta: a possible mechanism of antihypertensive action. Biosci Biotechnol Biochem 69(5): 911-915.

Lee, H.C. 2003. Creative Fermentation Technology for The Future. http://seafooduedavis.edu/iufost/lee.htm

Matsufuji, H., Matsui, T & Seki E. l994. Angiotensin-i-converting enzyme inhibitory peptide in an alkaline protease hydrolysate derived from sardine muscle. Biosci Biotechnol Biochem 58(12): 2244-2245.

Minerva, O., Ono H., Shinmyo. A & Takano, M. 1991. Lactic acid bacteria in fermented fishery product “Burong-Bangus”. J Ferment Bioeng 73(3): 193-197.

Nair, P.S & Puthuuvalil, K.S. 2005. Biochemical characterization of lactic acid bacteria isolated from fish and prawn. J Cult Collect (4)p: 48-52.

Ohhira & Iichiroh. 1999. Distribution and biochemical properties of lactic acid bacteria from traditional fermented food in south east asia. Research Paper. Symposium on Oral Recurrent Aphthous Ulceration, Epidemiology, Clinicopathology and Management. Faculty of Dentistry, University of Malaya, Kuala Lumpur, Malaysia.

Panthavee, W., Pramuan, S & Nasakom, W. 2007. Identification and evaluation of lactic acid bacteria for plaa-som (Fermented Fish) starter. Abstract The 2nd International Conference on Fermentation Technology for Value Added Agricultural Products, Thailand.

Scorta & Nicodemus. 2007. Characterization of lactic acid bacteria from freshwater intestine. Thesis. Jakarta: Universitas Katolik Atmajaya.

Tanapasuwat, S & Komagata, K. 1995. Lactic acid bacteria in fermented foods in thailand. World J Microb Biot 11(3): 253-256.

Thapa, N., Joydep, P & Iyoti, P.T. 2004. Microbial diversity in ngari, hentak and tungtap, fermented fish product of north- east india. World J Microb Biot 20(6): 599-607.

Vichasilp, C., Sangjindavon. M & Wiliapun, P. 2008. The use of selected lactic acid bacteria isolates for accelaration of fermented fish (Pla-ra) process. Kasetsart university fisheries research bulletin 32(3) p: 17-25.

Yin, L.J, Pan, C-I & Jiang, S.T. 2002. Effect of lactic acid bacterial fermentation on the characteristics of minced mackerel. J Food Sci 67(2): 786-792.