 |
 |
 |
 |
 |
 |
Sains Malaysiana 46(3)(2017):
439–448
http://dx.doi.org/10.17576/jsm-2017-4603-11
Pencirian Bakteria Asid Laktik dan
Sebatian Aroma Ikan Pekasam
(Characterisation of Lactic Acid Bacteria and Aromatic
Compounds in Fermented Fish Pekasam)
WEI CHI
TAN, SENG JOE LIM
& WAN AIDA WAN MUSTAPHA*
Pusat Pengajian Sains Kimia dan Teknologi
Makanan, Fakulti Sains dan Teknologi
Universiti Kebangsaan Malaysia, 43600 UKM
Bangi, Selangor Darul Ehsan, Malaysia
Received: 4 September 2015/Accepted: 16
June 2016
ABSTRAK
Dalam kajian ini, bakteria asid laktik
(LAB) serta sebatian aroma ikan pekasam daripada spesies
yang berbeza ditentukan. Persampelan ikan pekasam iaitu tilapia,
loma, lampam, sepat dan gelama diperoleh daripada pembekal Perusahaan
Ikan Pekasam Kiah di Kuala Kangsar, Perak. Penentuan spesies LAB
dijalankan melalui kaedah pencairan bersiri, pengkulturan LAB, ujian katalase, ujian pewarnaan
spora serta ujian pengesanan Gram bakteria dan morfologi. Pengesahan
spesies LAB
dijalankan melalui pengekstrakan asid deoksiribonukleik
(DNA),
amplifikasi dengan tindak balas rantaian polimerasi (PCR),
analisis elektroforesis gel dan penjujukan DNA.
Hasil jujukan DNA yang diperoleh dibandingkan dengan jujukan dalam pangkalan
data GenBank di NCBI menggunakan BLAST.
Didapati Lactobacillus brevis KB290 DNA dan
Lactobacillus casei W56 wujud dalam pekasam tilapia, Lactobacillus
plantarum 16 dalam pekasam lampam, Lactobacillus casei BD-II
kromosom dan Lactobacillus plantarum WCFS1 dalam pekasam sepat,
Corynebacterium vitaeruminis DSM 20294 dan Streptococcus anginosus C1051 dalam
pekasam gelama. Manakala Staphylococcus carnosus subsp. carnosus
TM300
kromosom adalah LAB dominan dalam pekasam loma. Sementara
itu, sebatian aroma ditentukan melalui kaedah pengekstrakan cecair
menggunakan pelarut metanol dan heksana. Pemprofilan sebatian aroma
dijalankan dengan kromatografi gas-spektometer jisim (GC-MS). Sebatian aroma dalam ekstrak
metanol dan heksana daripada lima jenis ikan pekasam dibandingkan.
Bilangan sebatian aroma yang diekstrak menggunakan metanol adalah
lebih banyak berbanding dengan yang menggunakan heksana. Sebatian
aroma yang paling banyak dikesan adalah daripada pekasam loma. Asid
karboksilik merupakan sebatian yang paling dominan dalam ikan pekasam
dan memberi bau hamis serta tengik.
Kata kunci: Bakteria asid laktik;
ikan pekasam; sebatian aroma
ABSTRACT
In this research, lactic acid bacteria
(LAB) and aromatic compounds on different species of pekasam
were determined. The sampling of pekasam which were tilapia, loma,
lampam, sepat and gelama were performed at Kiah Pekasam Enterprise
at Kuala Kangsar, Perak. Several procedures were performed to determine
the LAB,
namely, serial dilution, pour plating, enumeration of LAB,
catalase test, Gram-staining and determination of LAB morphology.
Confirmation of LAB was carried out which were deoxyribonucleic
acid (DNA) extraction, amplification of polymerization
chain reaction (PCR), gel electrophoresis and
DNA
sequencing. The DNA sequence for each strain was matched to the available
sequence from GenBank database via BLAST at NCBI.
Lactobacillus brevis KB290 DNA and
Lactobacillus casei W56 were found on pekasam tilapia, Lactobacillus
plantarum 16 was on pekasam lampam, Lactobacillus casei BD-II
chromosome and Lactobacillus plantarum WCFS1
were on pekasam sepat, Corynebacterium vitaeruminis DSM 20294
and Streptococcus anginosus C1051 were found on pekasam gelama.
Staphylococcus carnosus subsp. carnosus TM300 chromosome was the dominant
LAB on pekasam loma. Liquid extraction was carried out to
determine the aromatic compounds in pekasam, followed by profiling
using gas chromatography-mass spectrometer (GC-MS). Comparison of aromatic compounds
between methanol and hexane extracts from five different species
of pekasam was performed. Our findings indicated that the methanol
extraction was more efficient compared to that of hexane, as the
quantity of aromatic compounds in methanol extract was higher to those
using hexane. The highest amount of aromatic compounds produced was
from pekasam loma. Carboxylic acids were the most dominant compounds
found on pekasam and it gave rancid and 'goaty' off-flavour.
Keywords: Aromatic compounds; asid lactic bacteria; fermented fish
pekasam REFERENCES
Anon. 1994. Proceedings of First Symposium on Fish and
Fisheries of Pakistan. Lahore, Pakistan: Department of Zoology, Government
College.
Christensen, J.E., Dudley, E.G.,
Pedersen, J.A. & Steele, J.L. 1999. Peptidases and amino acid catabolism in
lactic acid bacteria. Antonie Van Leeuwenhoek 76(1-4): 217-246.
DOF. 2013. Fishery Entrepreneur. Department
of Fisheries Malaysia. http://www.dof.gov.my/en/fishery-entrepreneur.
Lee, D.E.R. 2014. Children's protein consumption
in Southeast Asia: Consideration of quality as well as quantity
of children's protein consumption in Southeast Asia. Wharton
Research Scholars. University of Pennsylvania Scholarly Commons.
Furia, T.E. & Bellance, N. 1975. Fenaroli's
Handbook of Flavor Ingredients. Vol. 2. Cleveland: The Chemical
Rubber Co. hlm. 149. Gillespie, A.M.J. 1994. Manual of Spectrofluorometric
and Spectrophotometric Derivative Experiments. New York: CRC Press. hlm.
26-28.
Giri, A., Osako, K. & Ohshima, T.
2010. Identification and characterisation of headspace volatiles of fish Miso,
a Japanese fish meat based fermented paste, with special emphasis on effect of
fish species and meat washing. Food Chemistry 120(2): 621-631.
Gribble, G.W. 2010. Heterocyclic
Scaffolds II:: Reactions and Applications of Indoles. Vol. 2. Heidelberg,
Germany: Springer Science & Business Media. hlm. 42-44.
Guch, I. & Wayman, K. 2008. The Complete
Idiot's Guide to Organic Chemistry. New York: Penguin Group.
hlm. 210. Hui, Y. & Evranuz, E.O. 2012. Handbook
of Plant-Based Fermented Food and Beverage Technology. Boca Raton: CRC
Press. hlm. 26-31.
Kotz, J., Treichel, P. & Townsend, J.
2011. Chemistry and Chemical Reactivity. United States: Cengage
Learning. hlm. 461-462.
Lee, C.H., Steinkraus, K.H. & Alan
Reilly, P.J. 1993. Fish Fermentation Technology. Seoul: United Nations
University Press. hlm. 95-102.
Lewis, R.J. 2007. Hawley's Condensed
Chemical Dictionary. New York: John Wiley & Sons Inc. hlm.
842. Mehta, B.M., Kamal-Eldin, A. &
Iwanski, R.Z. 2012. Fermentation: Effects on Food Properties. Boca
Raton: CRC Press. hlm. 67.
Montel, M.C., Masson, F. & Talon, R.
1998. Bacteria role in flavour development. Meat Science 49: 111-123.
Naidu, A.S., Bidlack, W.R. & Clemens,
R.A. 1999. Probiotic spectra of lactic acid bacteria. Critical Reviews in
Food Science and Nutrition 39(1): 13-126.
Nielsen, S.S. 2010. Food Analysis.
New York: Springer Science & Business Media.
Peralta, R., Shimoda, M. & Osajima,
Y. 1996. Further identification of volatile compounds in fish sauce. Journal
of Agricultural and Food Chemistry 44: 3606-3610.
Peterkin, P.I. 1993. Book Review of Compendium
of Methods for the Microbiological Examination of Foods. 3rd ed., edited by
Vanderzant, C. & Splittstoesser, D.F. In Trends in Food Science &
Technology 4(6): 199.
Pomwised, R. 2007. Studies of Peptide
Mimicry of the Group B Streptococcus Type III Capsular Polysaccharide Antigen.
Montana: Montana State University. hlm. 2.
Richards, E.G. & Dover, S.D. 1980. An
Introduction to the Physical Properties of Large Molecules in Solution. New
York: Cambridge University Press.
Riley, A.P. 2005. Food Policy,
Control, and Research. New York: Nova Publisher. hlm.54.
Roberts, D. & Greenwood, M. 2003. Practical
Food Microbiology. Massachusetts: Blackwell Publishing. hlm.3.
Rohmah, A.S., Risa, N. & Puji, A.
2012. Characterisation lactic acid bacteria genus Leusonostoc from
Allele Pekasam. Journal of Chemistry 1(1): 14-20.
Smit, G., Smit, B.A. & Engels, W.J.M.
2005. Flavour formation by lactic acid bacteria and biochemical flavour
profiling of cheese products. FEMS Microbiology 29: 591-610.
Vos, P., Garrity, G., Jones, D., Krieg,
N.R., Ludwig, W., Rainey, F.A., Schleifer, K.H. & Whitman, W.
2009. The firmicutes. In Bergey's Manual of Systematic Bacteriology.
Athens, USA: Springer Science & Business Media. hlm. 399. Whitman, W., Goodfellow, M., Kampfer, P.,
Busse, H.J., Trujillo, M.E., Ludwig, W., Suzuki, K-i & Parte,
A. 2012. The actinobacteria. In Bergey's Manual of Systematic
Bacteriology. Athens, USA: Springer Science & Business Media.
hlm. 288. Yousef, A.E. & Carlstrom, C. 2003. Food
Microbiology: A Laboratory Manual. New Jersey: John Wiley & Sons. hlm.
223-225.
Zhang, T.C., Ouyang, P., Kaplan, S. &
Skarnes, B. 2013. Proceedings of the 2012 International Conference on
Applied Biotechnology (ICAB 2012). London: Springer Science & Business
Media. hlm. 1700-1701.
*Corresponding author; email: wanaidawm@ukm.edu.my
|
|||
|
