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Sains Malaysiana 53(2)(2024): 307-319
http://doi.org/10.17576/jsm-2024-5302-06
The Common and Unique Microbiota in Sabah’s Traditional Rice Wine
Starter Cultures (Sasad)
(Mikrobiota Biasa dan Unik dalam Kultur Pemula Wain Beras Tradisional Sabah (Sasad))
MEIWEI KOAY1,
HUI YIN FAN2,* & CLEMENTE MICHAEL VUI
LING WONG3
1Faculty of Food Science and Nutrition, Universiti Malaysia Sabah, Jalan UMS, 88400 Kota Kinabalu, Sabah, Malaysia
2Food Security Research Laboratory, Faculty of
Food Science and Nutrition, Universiti Malaysia
Sabah, Jalan UMS, 88400 Kota Kinabalu,
Sabah, Malaysia
3Biotechnology Research Institute, Universiti Malaysia Sabah, Jalan UMS, 88400 Kota Kinabalu, Sabah, Malaysia
Diserahkan: 28 Ogos 2023/Diterima: 29 Januari2024
Rice wine is an alcoholic
beverage produced through the fermentation of cereal grains, mainly rice, with
microbial starters consisting of fungi and bacteria. However, the microbes in
the rice wine starter cultures have never been documented comprehensively
except for a few studies that looked into culturable microbes. Hence, their exact core microbiota contents especially those unculturable microbes remained unknown. Therefore, this
research aimed to identify the fungal and bacterial communities in sasad through ribosomal amplicon-based next-generation
sequencing and analysis that captured both the culturable and unculturable microbiota. The results showed that two fungal phyla (Mucoromycota and Ascomycota) with five genera (Mucor, Rhizopus, Saccharomycopsis, Wickerhamomyces, and Kodamaea) and two bacterial phyla (Proteobacteria and Firmicutes) with 10 genera (Kosakonia, Weissella, Enterobacter, Lactococcus, Pseudomonas, Bacillus, Chromobacterium, Paludibacterium, Enterococcus, and Gluconobacter) were identified as the core microbiota (relative abundance > 1.00%) in the sasad samples. Some of these microbes have been reported in
other starter cultures, but some are unique to the sasad (Chromobacterium and Paludibacterium). Hence, this research provides the first comprehensive
report on the microbes in sasad and provides
important insights into the potential roles of core microbiota. These data may be used to
facilitate the development of starter cultures with defined microbial compositions for
the consistent production of safe and high-quality rice wines in the future.
Keywords: Microbiota; rice
wine; starter culture
Abstrak
Wain beras ialah minuman
beralkohol yang dihasilkan melalui penapaian bijirin, terutamanya beras, dengan
mikrob pemula yang terdiri daripada kulat dan bakteria. Walau bagaimanapun,
mikrob dalam ramuan pemula wain beras belum pernah didokumenkan secara menyeluruh
kecuali beberapa kajian yang mengkaji mikrob yang boleh dikultur. Oleh itu,
kandungan mikrobiota teras yang tepat terutamanya mikrob yang tidak boleh
dikultur tidak diketahui. Oleh itu, penyelidikan ini bertujuan untuk mengenal
pasti komuniti kulat dan bakteria dalam sasad melalui penjujukan dan analisis
generasi akan datang berasaskan amplikon ribosom yang akan merangkumi kedua-dua
mikrobiota yang boleh dikultur dan tidak boleh dikultur. Hasilnya menunjukkan bahawa dua filum kulat (Mucoromycota dan Ascomycota) dengan lima genus (Mucor, Rhizopus, Saccharomycopsis, Wickerhamomyces dan Kodamaea) dan dua filum bakteria (Proteobacteria dan Firmicutes) dengan 10 genus (Kosakonia, Weissella, Enterobacter, Lactococcus, Pseudomonas, Bacillus, Chromobacterium, Paludibacterium, Enterococcus dan Gluconobacter) telah dikenal pasti sebagai mikrobiota teras (kelimpahan relatif > 1.00%) dalam sampel sasad. Sesetengah mikrob ini telah dilaporkan dalam kultura pemula
lain, tetapi terdapat beberapa yang unik untuk sasad (Chromobacterium dan Paludibacterium). Oleh itu, penyelidikan ini
merupakan laporan komprehensif pertama tentang mikrob dalam sasad dan
memberikan gambaran penting tentang potensi peranan mikrobiota teras. Data ini
boleh digunakan untuk memudahkan pembangunan kultur pemula dengan komposisi
mikrob yang ditentukan untuk pengeluaran wain beras yang selamat dan berkualiti
tinggi secara konsisten pada masa hadapan.
Kata kunci: Kultur pemula; mikrobiota; wain beras
RUJUKAN
Abidin, M.A.Z., Jalaluddin, N.Z.,
Halim, H.A., Rao, G., Habib, M.N. & Suli, Z. 2019. Methanol outbreak in the
district of Hulu Langat, 2018. Medical Journal of Malaysia 74(5):
413-417.
Abriouel,
H., Omar, N.B., López, R.L., Martínez-Cañamero, M., Keleke, S. & Gálvez, A.
2006. Culture-independent analysis of the microbial composition of the African
traditional fermented foods poto poto and dégué by using three different DNA
extraction methods. International Journal of Food Microbiology 111(3):
228-233.
Abtahi,
Z. 2008. Ethanol and glucose tolerance of Mucor indicus in aerobic and
anaerobic conditions. Master Thesis, University College of Borås (Unpublished).
Anupma,
A. & Tamang, J.P. 2020. Diversity of filamentous fungi isolated from some
amylase and alcohol-producing starters of India. Frontiers in Microbiology 11: 905.
Atitallah,
I.B., Ntaikou, I., Antonopoulou, G., Alexandropoulou, M., Brysch-Herzberg, M.,
Nasri, M., Lyberatos, G. & Mechichi, T. 2020. Evaluation of the
non-conventional yeast strain Wickerhamomyces anomalus (Pichia
anomala) X19 for enhanced bioethanol production using date palm sap as
renewable feedstock. Renewable Energy 154: 71-81.
Blandino,
A., Al-Aseeri, M.E., Pandiella, S.S., Cantero, D. & Webb, C. 2003.
Cereal-based fermented foods and beverages. Food Research International 36(6): 527-543.
Cai,
H., Zhang, T., Zhang, Q., Luo, J., Cai, C. & Mao, J. 2018. Microbial
diversity and chemical analysis of the starters used in traditional Chinese
sweet rice wine. Food Microbiology 73: 319-326.
Carroll,
E., Trinh, T.N., Son, H., Lee, Y.W. & Seo, J.A. 2017. Comprehensive
analysis of fungal diversity and enzyme activity in nuruk, a Korean fermenting
starter, for acquiring useful fungi. Journal of Microbiology 55(5):
357-365.
Chaijamrus,
S. & Mouthung, B. 2011. Selection of Thai starter components for ethanol
production utilizing malted rice from waste paddy. Songklanakarin Journal of
Science and Technology 33(2): 163-170.
Chao,
S.H., Huang, H.Y., Kang, Y.H., Watanabe, K. & Tsai, Y.C. 2013. The
diversity of lactic acid bacteria in a traditional Taiwanese millet alcoholic
beverage during fermentation. LWT - Food Science and Technology 51(1):
135-142.
Chay,
C., Dizon, E.I., Elegado, F.B., Norng, C., Hurtada, W.A. & Raymundo, L.C.
2017. Isolation and identification of mold and yeast in medombae, a rice wine
starter culture from Kompong Cham province, Cambodia. Food Research 1(6): 213-220.
Chen,
C., Liu, Y., Tian, H., Ai, L. & Yu, H. 2020. Metagenomic analysis reveals
the impact of JIUYAO microbial diversity on fermentation and the volatile
profile of Shaoxing-jiu. Journal of Food Microbiology 86: 103326.
Chen,
G.M., Li, W.L., Tong, S.G., Qiu, Y.T., Han, J.Z., Lv, X.C., Ai, L.Z., Sun, J.
Y., Sun, B.G. & Ni, L. 2022. Effects of the microbial community on the
formation of volatile compounds and biogenic amines during the traditional
brewing of Hongqu rice wine. Current Research in Food Science 5: 1433–1444.
Chen,
L., Ren, L., Li, D. & Ma, X. 2021. Analysis of microbiomes in three
traditional starters and volatile components of the Chinese rice wines. Food
Science and Biotechnology 30(1): 87-96.
Chen,
S. & Xu, Y. 2010. The influence of yeast strains on the volatile flavour
compounds of Chinese rice wine. Journal of the Institute of Brewing 116(2): 190-196.
Chiang,
Y.W., Chye, F.Y. & Mohd Ismail, A. 2006. Microbial diversity and proximate
composition of tapai, a Sabah’s fermented beverage. Malaysian Journal of
Microbiology 2(1): 1-6.
Chim,
C., Erlinda, I.D., Elegado, F.B., Hurtada, A.W., Chakrya, N. & Raymundo,
C.L. 2015. Traditional dried starter culture (medombae) for rice liquor
production in Cambodia. International Food Research Journal 22(4): 1642-1650.
Gu,
C.T., Li, C.Y., Yang, L.J. & Huo, G.C. 2014. Enterobacter xiangfangensis sp. nov., isolated from Chinese traditional sourdough, and reclassification of Enterobacter
sacchari Zhu et al. 2013 as Kosakonia sacchari comb. nov. International
Journal of Systematic and Evolutionary Microbiology 64: 2650-2656.
Huang,
Z.R., Guo, W.L., Zhou, W.B., Li, L., Xu, J.X., Hong, J.L., Liu, H.P., Zeng, F.,
Bai, W. D., Liu, B., Ni, L., Rao, P.F. & Lv, X.C. 2019. Microbial
communities and volatile metabolites in different traditional fermentation
starters used for Hong Qu glutinous rice wine. Food Research International 121: 593-603.
Huang,
Z.R., Hong, J.L., Xu, J.X., Li, L., Guo, W.L., Pan, Y.Y., Chen, S.J., Bai,
W.D., Rao, P.F., Ni, L., Zhao, L.N., Liu, B. & Lv, X.C. 2018. Exploring
core functional microbiota responsible for the production of volatile flavour
during the traditional brewing of Wuyi Hong Qu glutinous rice wine. Food
Microbiology 76: 487-496.
Jiang,
L., Su, W., Mu, Y. & Mu, Y. 2020. Major metabolites and microbial community
of fermented black glutinous rice wine with different starters. Frontiers in
Microbiology 11: 593.
Kurtzman,
C.P. 2011. Phylogeny of the ascomycetous yeasts and the renaming of Pichia
anomala to Wickerhamomyces anomalus. Antonie van Leeuwenhoek,
International Journal of General and Molecular Microbiology 99(1): 13-23.
Li,
W., Fan, G., Fu, Z., Wang, W., Xu, Y., Teng, C., Zhang, C., Yang, R., Sun, B.
& Li, X. 2020. Effects of fortification of Daqu with various yeasts on
microbial community structure and flavor metabolism. Food Research
International 129: 108837.
Limtong,
S., Sintara, S., Suwanarit, P. & Lotong, N. 2002. Yeast diversity in Thai
traditional fermentation starter (loog-pang). Kasetsart Journal: Natural
Science 36: 149-158.
Liu,
Z., Wang, Z., Sun, J. & Ni, L. 2020. The dynamics of volatile compounds and
their correlation with the microbial succession during the traditional
solid-state fermentation of Gutian Hong Qu glutinous rice wine. Food
Microbiology 86: 103347.
Lü,
Y., Gong, Y., Li, Y., Pan, Z., Yao, Y., Li, N., Guo, J., Gong, D., Tian, Y.
& Peng, C. 2017. Characterization of microbial communities in Chinese rice
wine collected at Yichang city and Suzhou city in China. Journal of
Microbiology and Biotechnology 27(8): 1409-1418.
Lübbehüsen,
T.L., Nielsen, J. & McIntyre, M. 2004. Aerobic and anaerobic ethanol
production by Mucor circinelloides during submerged growth. Applied
Microbiology and Biotechnology 63(5): 543-548.
Lv,
X.C., Huang, X.L., Zhang, W., Rao, P.F. & Ni, L. 2013. Yeast diversity of
traditional alcohol fermentation starters for Hong Qu glutinous rice wine
brewing, revealed by culture-dependent and culture-independent methods. Food
Control 34(1): 183-190.
Lv,
X.C., Jiang, Y.J., Liu, J., Guo, W.L., Liu, Z.B., Zhang, W., Rao, P.F. &
Ni, L. 2017. Evaluation of different PCR primers for denaturing gradient gel
electrophoresis (DGGE) analysis of fungal community structure in traditional
fermentation starters used for Hong Qu glutinous rice wine. International
Journal of Food Microbiology 255: 58-65.
Lv,
X.C., Weng, X., Zhang, W., Rao, P.F. & Ni, L. 2012. Microbial diversity of
traditional fermentation starters for Hong Qu glutinous rice wine as determined
by PCR-mediated DGGE. Food Control 28(2): 426-434.
Ly,
S., Mith, H., Tarayre, C., Taminiau, B., Daube, G., Fauconnier, M.L. &
Delvigne, F. 2018. Impact of microbial composition of Cambodian traditional
dried starters (dombea) on flavor compounds of rice wine: Combining amplicon
sequencing with HP-SPME-GCMS. Frontiers in Microbiology 9: 894.
Nile,
S.H. 2015. The nutritional, biochemical and health effects of makgeolli - A
traditional Korean fermented cereal beverage. Journal of the Institute of
Brewing 121(4): 457-463.
Niu,
Y., Zhang, X., Xiao, Z., Song, S., Jia, C., Yu, H., Fang, L. & Xu, C. 2012.
Characterization of taste-active compounds of various cherry wines and their
correlation with sensory attributes. Journal of Chromatography B: Analytical
Technologies in the Biomedical and Life Sciences 902: 55-60.
Nout,
M.J.R. & Aidoo, K.E. 2002. Asian fungal fermented food. In Industrial
Applications, edited by Osiewaez, H.D. Berlin: Springer-Verlag. pp. 23-47.
Ohimain,
E.I. 2016. Methanol contamination in traditionally fermented alcoholic
beverages: The microbial dimension. SpringerPlus 5(1): 1607.
Palaniveloo,
K. & Vairappan, C.S. 2013. Biochemical properties of rice wine produced
from three different starter cultures. Journal of Tropical Biology and
Conservation 10(1): 31-41.
Park,
K.H., Liu, Z., Park, C.S. & Ni, L. 2016. Microbiota associated with the
starter cultures and brewing process of traditional Hong Qu glutinous rice
wine. Food Science and Biotechnology 25(3): 649-658.
Paula
Dionísio, A., Molina, G., Souza de Carvalho, D., dos Santos, R., Bicas, J.L.
& Pastore, G.M. 2012. Natural flavourings from biotechnology for foods and
beverages. In Natural Food Additives, Ingredients and Flavourings,
edited by Baines, D. & Seal, R. Cambridge: Woodhead Publishing Limited. pp.
231-259.
Peinado,
R.A., Mauricio, J.C. & Moreno, J. 2006. Aromatic series in sherry wines with
gluconic acid subjected to different biological aging conditions by Saccharomyces
cerevisiae var. capensis. Food Chemistry 94(2): 232-239.
Rhee,
S.J., Lee, J.E. & Lee, C.H. 2011. Importance of lactic acid bacteria in
Asian fermented foods. Microbial Cell Factories 10(Suppl. 1): S5.
Rostrup,
M., Edwards, J.K., Abukalish, M., Ezzabi, M., Some, D., Ritter, H., Menge, T.,
Abdelrahman, A., Rootwelt, R., Janssens, B., Lind, K., Paasma, R. & Hovda,
K.E. 2016. The methanol poisoning outbreaks in Libya 2013 and Kenya 2014. PLoS
ONE 11(3): e0152676.
Ruyters,
S., Mukherjee, V., Verstrepen, K.J., Thevelein, J.M., Willems, K.A. &
Lievens, B. 2015. Assessing the potential of wild yeasts for bioethanol
production. Journal of Industrial Microbiology and Biotechnology 42(1):
39-48.
Sharifia,
M., Karimi, K. & Taherzadeh, M.J. 2008. Production of ethanol by
filamentous and yeast-like forms of Mucor indicus from fructose,
glucose, sucrose, and molasses. Journal of Industrial Microbiology and
Biotechnology 35(11): 1253-1259.
Sharifyazd,
S. & Karimi, K. 2017. Effects of fermentation conditions on valuable
products of ethanolic fungus Mucor indicus. Electronic Journal of
Biotechnology 30: 77-82.
Sues,
A., Millati, R., Edebo, L. & Taherzadeh, M.J. 2005. Ethanol production from
hexoses, pentoses, and dilute-acid hydrolyzate by Mucor indicus. FEMS
Yeast Research 5(6-7): 669-676.
Thanh,
V.N., Mai, L.T. & Tuan, D.A. 2008. Microbial diversity of traditional
Vietnamese alcohol fermentation starters (banh men) as determined by
PCR-mediated DGGE. International Journal of Food Microbiology 128(2):
268-273.
Tsuyoshi,
N., Fudou, R., Yamanaka, S., Kozaki, M., Tamang, N., Thapa, S. & Tamang,
J.P. 2005. Identification of yeast strains isolated from marcha in Sikkim, a
microbial starter for amylolytic fermentation. International Journal of Food
Microbiology 99(2): 135-146.
World
Health Organization (WHO). 2014. Methanol Poisoning Outbreaks. Geneva:
World Health Organization.
Xiao,
R., Chen, S., Wang, X., Chen, K., Hu, J., Wei, K., Ning, Y., Xiong, T. &
Lu, F. 2022. Microbial community starters affect the profiles of volatile
compounds in traditional Chinese Xiaoqu rice wine: Assement via high-throughput
sequencing and gas chromatography-ion mobility spectrometry. LWT - Food
Science and Technology 170: 114000.
Xiao,
Y., Kang, M., Tang, Y., Zong, Z., Zhang, Y., He, C., Deng, Y., Fan, H. &
Xie, Y. 2013. Kodamaea ohmeri as an emerging pathogen in mainland China:
3 case reports and literature review. Laboratory Medicine 44(Suppl. 1):
e1-e9.
Yang,
S., Lee, J., Kwak, J., Kim, K., Seo, M. & Lee, Y.W. 2011. Fungi associated
with the traditional starter cultures used for rice wine in Korea. Journal
of the Korean Society for Applied Biological Chemistry 54(6): 933-943.
Yang,
Y., Xia, Y., Wang, G., Zhang, H., Xiong, Z., Yu, J., Yu, H. & Ai, L. 2017.
Comparison of oenological property, volatile profile, and sensory
characteristic of Chinese rice wine fermented by different starters during
brewing. International Journal of Food Properties 20(Suppl. 3):
S3195-S3211.
Yu,
L., Ding, F. & Ye, H. 2012. Analysis of characteristic flavour compounds in
Chinese rice wines and representative fungi in wheat Qu samples from different
regions. Journal of the Institute of Brewing 118(1): 114-119.
Zhao,
C., Su, W., Mu, Y., Jiang, L. & Mu, Y. 2020. Correlations between
microbiota with physicochemical properties and volatile flavor components in
black glutinous rice wine fermentation. Food Research International 138:
109800.
Zhao,
X., Xiang, F., Tang, F., Cai, W., Guo, Z., Hou, Q., Yang, X., Song, W. &
Shan, C. 2022. Bacterial communities and prediction of microbial metabolic
pathway in rice wine koji from different regions in China. Frontiers in
Microbiology 12: 748779.
*Pengarang untuk surat-menyurat;
email: chloefan@ums.edu.my
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