Elsie Angelina REFERENCES

Adetuyi, F. O., and T. A. Ibrahim. 2014. ―Effect of fermentation time on the phenolic, flavonoid and vitamin C contents and antioxidant activities of Okra (Abelmoschus esculentus) seeds.‖ Nigerian Food Journal 32 (2): 128-137 Anwar, F. et al. "Chemical Composition And Antioxidant Activity Of Seeds Of

Different Cultivars Of Mungbean". Journal of Food Science 72.7 (2007):

S503-S510. Web.

AOAC. 2005. Official Methods of Analysis of The Association of Official Analytical Chemist 18th Edition. Gaithersburg, USA: AOAC International.

Astuti, M. 2000. Tempe, a nutritious and healthy food from Indonesia. Asia Pacific Journal of Clinical Nutrition, 9(4), pp.322–325.

Badan Pusat Statistik. 2014. Data Statistik Produktivitas Tanaman Kedelai dan Kacang Hijau Provinisi Indonesia Tahun 2013 - 2014. Jakarta, Indonesia. Biro Pusat Statistik.

Barroga, Charlene F., et al. 1985. Polyphenols In Mung Bean (Vigna Radiata (L.) Wilczek): Determination And Removal. Journal of. Agriculture and Food Chemistry. 33.5:1006-1009.

Barus, Tati, Suwanto, A., Wahyudi, T., Wijaya, H. 2008. Role of Bacteria in Tempe Bitter Taste Formation : Microbiological and Molecular Biological Analysis Based on 16S rRNA Gene. Microbiology Indonesia, 2(1), pp.17–21.

Barz, W.H.,G. Boger-Papendorf & H. Rehms. 1990. Characterization of Glycohydrolases, Phosphatases and Isoflavone Metabolism in Tempe Forming Rhizopus-strain. Proceeding: The 2nd Asian Symposium on Non- salted Soybean Fermentation. Jakarta. 13-5 July 1990.

Belinda, A. 2015. Evaluation of bioactive compounds and functional properties of mung bean tempeh as an alternative form of tempeh. Thesis, Tangerang, Indonesia: Swiss German University.

Biolog.com. 2016. Microbial Identification & Characterization over 2500 species - biolog - microbial ID of bacteria,yeast and fungi for microbiology & cell biology - Biolog Inc.. [online] Available at: http://www.biolog.com/

[Accessed 15 Jun. 2016].

BMRB - Biological Magnetic Resonance Bank. Bmrb.wisc.edu. N.p., 2016. Web. 15 June 2016.

Bors, W., Heller, W., Michel, C., Saran, M. 1990. Flavonoids as antioxidants:

determination of radical-scavenging efficiency. Meth. Enzymol. 186, 343 Camalxaman, Siti Nazrina. "In Vitro Antimicrobial Activity Of Vigna Radiata (L)

Wilzeck Extracts Against Gram Negative Enteric Bacteria". World Applied Sciences Journal 21 10.21 (2013): 1490-1494. Print.

Chutipanyaporn, P., Kruawan, K., Chupeerach, C., Santivarangkna, C., Suttisansanee, U. 2014. The Effect Of Cooking Process On Antioxidant Activities And Total Phenolic Compounds Of Five Colored Beans. Food and

Elsie Angelina Applied Bioscience Journal 2.3 : 183-191.

Dika, P.A. 2014. Microbial and chemical characterization of tempeh from locally produced legumes. Thesis, Tangerang, Indonesia: Swiss German University.

Direktorat Gizi Departemen Kesehatan. 1994. Daftar Komposisi Bahan Makanan.

Jakarta: Bharata.

Direktorat Jendral Tanaman Pangan. 2014. Laporan Tahunan Direktorat Jendral Tanaman Pangan 2013. Jakarta, Indonesia.

Dwinaningsih, E. A. 2010. Karakteristik Kimia Dan Sensori Tempe Dengan Variasi Bahan Baku Kedelai / Beras Dan Penambahan Angkak Serta Variasi Lama.

Universitas Stuttgart, pp.27–78.

Enwere N.J .1998. Foods of Plant Origin: Processing and Utilization with Recipes and Technology Profiles. Afro-Orbis Publications Ltd, Nsukka.

Farnworth, E. R. 2008. Handbook of fermented functional foods. Boca Raton, FL:

CRC Press.

Feng, Xin Mei, Anders R.B. Eriksson, and Johan Schnürer. 2005."Growth Of Lactic Acid Bacteria And Rhizopus Oligosporus During Barley Tempeh Fermentation". International Journal of Food Microbiology 104.3: 249-256.

Web.

Feng, Xin Mei, Passoth, V., Eklund-Jonsson, C., Alminger, M.L., Schnürer, J. 2007.

Rhizopus Oligosporus And Yeast Co-Cultivation During Barley Tempeh Fermentation—Nutritional Impact And Real-Time PCR Quantification Of Fungal Growth Dynamics. Food Microbiology 24.4: 393-402. Web.

Feng, Xin Mei, Thomas Ostenfeld Larsen, and Johan Schnürer. "Production Of Volatile Compounds By Rhizopus Oligosporus During Soybean And Barley Tempeh Fermentation". International Journal of Food Microbiology 113.2 (2007): 133-141. Web.

Garland, J.; Millis, A. Classification and characterization of heterotrophic microbial communities on the basis of patterns of community-level sole-carbon-source utilization. Appl. Environ. Microbiol. 1991, 57, 2351–2359.

Gunawan-Puteri, M. D. P. T., Hassanein., T.R., Prabawati., E.K., Wijaya, H.C., Mutukumira, A.N. 2015. Sensory Characteristics Of Seasoning Powders From Overripe Tempeh, A Solid State Fermented Soybean. Procedia Chemistry 14 : 263-269. Web.

Haack, S.K.; Garchow, H.; Klug, M.J.; Forney, L.J. Analysis of factors affecting the accuracy, reproducibility, and interpretation of microbial community carbon source utilization patterns. Appl. Environ. Microbiol. 1995, 61, 1458–1468.

Hachmeister, K.A. & Fung, D.Y.C. 1993. Tempeh: A Mold-Modified Indigenous Fermented Food Made from Soybeans and/or Cereal Grains. Critical Reviews in Microbiology, 19(3), pp.137–188.

Handoyo, T. & Morita, N., 2006. Structural and Functional Properties of Fermented Soybean (Tempeh) by Using Rhizopus oligosporus. International Journal of Food Properties, 9(2), pp.347–355.

Elsie Angelina Harrigan, W. F & Margaret, E McCance. Laboratory Methods In Microbiology.

London: Academic Press, 1966.

Harrigan, W. F and Margaret E McCance. Laboratory Methods In Microbiology.

London: Academic Press, 1966. Print.

Hartoyo, L.K. 1994. Usaha mengurangi rasa pahit pada tepung tempe dari bahan mentah tempe kedelai produksi beberapa pengrajin tempe di Bogor. Thesis, Bogor: Institut Pertanian Bogor.

Hedger, J.N. 1982. Production of Tempe, an Indonesian Fermented Food. In: S.B.

Primrose and A.C. Wardlaw, eds. 1982. Sourcebook of Experiment for the Teaching of Microbiology. New York and London: Academic Prexx xvii, pp.

599-600

Hefnawy, T. 2011. Effect of processing methods on nutritional composition and anti- nutritional factors in lentils (Lens culinaris). Annals of Agricultural Sciences, 56(2), pp.57-61.

Hui, Y. H. 2004. Handbook Of Vegetable Preservation And Processing. New York:

M. Dekker.

Hutkins, Robert W. 2006. Microbiology And Technology Of Fermented Foods.

Chicago: IFT Press.

Iljas, N., Peng, A. and Gould, W. 1973. Tempeh, An Indonesian Fermented Soybean Food. Ohio: Holiculture Series, pp.18-19.Iljas, N., et al. 1973. Tempeh, An Indonesian Fermented Soybean Food. Ohio: Holiculture Series, pp.18-19.

Insam, H. A New Set of Substrates Proposed for Community Characterization in Environmental Samples. In Microbial Communities: Functional versus Structural Approaches, Insam, H., Rangger, A., Eds.; Springer-Verlag: Berlin, Germany, 1997; pp. 259–260.

IRO Group Inc.. Irochemical.com. N.p., 2016. Web. 15 June 2016.

Iswandari, R., 2006. Studi Kandungan Isoflavon pada Kacang Hijau (Vigna radiata L), Tempe Kacang Hijau dan Bubur Kacang Hijau. Thesis, Bogor: Institut Pertanian Bogor.

Jay, S., et al. 2003. Salmonella. Foodborne microorganisms of public health significance. 6th ed, Australian Institute of Food Science and Technology (NSW Branch), Sydney, p. 207–266

Jo Mar Laboratories. 2010. Amino Acid Taste Chart. JoMar Laboratories. N.p., Web. 1 June 2016.

Juan, Ming Yen and Cheng Chuan Chou. 2010. ―Enhancement of antioxidant activity, total phenolic and flavonoid content of black soybeans by solid state fermentation with Bacillus subtilis BCRC 14715.‖Food Microbiology 27:

586-591.

Kasmidjo, R.B. 1990. Tempe, Mikrobiologi Biokimia Pengolahan Serta Pemanfaatannya. [Tempeh, the Microbiology and Biochemistry on the Processing and Utilization]. Yogyakarta: PAU Pangan dan Gizi Universitas Gajah Mada.

Elsie Angelina Keuth, Sylvia & Bisping, B. 1993. Formation Of Vitamins by Pure Cultures of

Tempe Moulds and Bacteria during the Tempe Solid Substrate Fermentation. Journal of Applied Bacteriology : 427-434.

Kon, S. 1979. Effect of Soaking Temperature on Cooking and Nutritional Quality of Beans. Journal of Food Science, 44(5), pp.1329-1335.

Koswara. 1992. Pengolahan pangan. Jakarta: Pradnya Paramita.

Kurniawati. 2012. Pengaruh Substitusi Tepung Terigu dengan Tepung Tempe dan Tepung Ubi Jalar Kuning terhadap Kadar Protein, Kadar B-karoten, dan Mutu Organoleptik Roti Manis. Journal of Nutrition College, Vol. 1.

Kusharyanto & Budiyanto, A. 1995. Upaya Pengembangan Produk Tempe dalam Inndustri Pangan. Yogyakarta. Simposium Nasional Pengembangan Tempe dalam Industri Pangan Moderen. Puslitbang Gizi.

Laboratorios Conda. 2010. Salmonella Shigella Agar (SS Agar). Product Specification.

Leffingwell, John C. & Alford, E.D. 2005. Volatile Constituent Of Perique Tobacco. Electronic Journal of Environmental, Agricultural and Food Chemistry, 4(2) (2005): 904-913.

Lehman, R.M.; Colwell, F.S.; Ringelbergb, D.B.; Whiteb, D.C. Combined microbial community level analyses for quality assurance of terrestrial subsurface cores.

J. Microbiol. Methods 1995, 22, 263–281.

Limón, R.I., Elena Penas, Ines Torino, Cristina Martinez Villaluenga and Montserrat Duenas. 2015. ―Fermentation enhances the content of bioactive compounds in kidney bean extracts‖. Journal of Food Chemistry 172:343-352.

Lucarini, A.C., & Kilikian, B.V. 1999. Comparative Study of Lowry and Bradford Methods: Interfering Substances. Biotechnology Technique, 13(2): 149-154;

Manach, Claudine; Scalbert, Augustin; Morand, Christine; Remesy, Christian and Jimenez, Liliana. 2004. Polyphenols: food sources and bioavailability.

American Society for Clinical Nutrition.

Marriott, N. and Robertson, G. 1997. Essentials of food sanitation. New York:

Chapman & Hall.

Meilina. 2012. Mudah dan Praktis Membuat Tahu Tempe. Jakarta. Wahyu Agria.

Mellor, N., Bligh, F., Chandler, I., Hodgman, C. 2010. Reduction of Off-Flavor Generation in Soybean Homogenates: A Mathematical Model. Journal of Food Science; 75(7):R131-138.

Mo, H., S. Kariluoto, V.Piironen, Y.Zhu, M.G. Sanders, J.P. Vincken, J. Wolkers Rooijackers, and M.J. Nout, . 2013. Effect of Soybean Processing on Content and Bioaccessibility of Folate, Vitamin B12 and Isoflavones In Tofu and Tempe. Food Chemistry 141.3 : 2418-2425.

Molyneux, P. 2004. The Use of the Stable Free Radical Diphenylpicryl-Hydrazyl (DPPH) for Estimating Antioxidant Activity. Songklanakarin J. Sci. Technol 26, 211–219.

Moriyama, Michie & Oba, Kazuko. 2008. Comparative Study on The Vitamin C

Elsie Angelina Contents of The Food Legume Seeds. J Nutr Sci Vitaminol 54.1 : 1-6. Web.

Mubarak, A.E. 2005. Nutritional Composition and Antinutritional Factors of Mung Bean Seeds (Phaseolus Aureus) as Affected by Some Home Traditional Processes. Food Chemistry 89.4 : 489-495. Web.

Mulyowidarso, R.K., Fllet, G.H., and Buckle, K.A. 1989. The Microbial Ecology of Soybean Soaking for Tempe Production. International Journal of Food Microbiology, 8(1), pp.35-46.

National Academy of Sciences. 1985. An Evaluation of the Role of Microbiological Criteria for Foods and Food Ingredients. National Academy Press.

Nout M.J.R and Kiers J.L. 2005. Tempe fermentation, innovation and functionality:

update into the third millenium. J Appl Microbiol 98:789-805.

Nout, M.J.R. and Rombouts, F.M. 1990. Recent Developments in Tempe Research. Journal of Applied Bacteriology, 69(5), pp.609-633.

Nout, M.J.R., Bonants-Van Laarhoven, T.M.G., de Dreu, R. and Gerats, I. (1985). The Influence of Some Process Variables and Storage Conditions on The Quality and Shelf-life of Soybean Tempeh. Antonie van Leeuwenhoek, 51(5-6), pp.532-534.

Nurdini, A. L., L Nuraida, and Suliantari. "Microbial Growth Dynamics During Tempe Fermentation In Two Different Home Industries". International Food Research Journal : 22(4) (2015): 1668-1674. Print.

Osho O., Dashiell, K.E .1998. Expanding soya bean production, processing and utilization in Nigeria. Proceedings of a Post Harvest Conference.

Owolabi AO, Mac-Ingite JO, Olowonian FO, Chindo HO (1996) A comparative study of the nutritional status of children in villages in northern Nigeria using and not using soyabeans. Food and Nutrition Bulletin 17: 42-48.

Prakash, Dhan, Suei, S., Upadhyay, G. and Singh, B. N. 2007. Total Phenol, Antioxidant and Free Radical Scavenging Activities of Some Medicinal Plants. International Journal of Food Sciences and Nutrition 58.1 : 18-28.

Web.

Prescott, L., Harley, J., Klein, D., Delisle, G. and Tomalty, L. (1999). Microbiology.

Boston, Mass.: WCB/McGraw-Hill.

Pubchem Open Chemistry Database. Pubchem.ncbi.nlm.nih.gov. N.p., 2016. Web. 15 June 2016.

Randhir, R. & Shetty, K. 2007. Mung Beans Processed by Solid-state Bioconversion Improves Phenolic Content and Functionality Relevant for Diabetes and Ulcer Management. Innovations Food Science and Emerging Technology, volume 8, p. 197-204.

Raob, Norfasihah. "Changes In Macronutrient, Total Phenolic And Anti-Nutrient Contents During Preparation Of Tempeh". J Nutr Food Sci 04.03 (2014): n.

pag. Web.

Reineccius, Gary. 2006. Flavor Chemistry And Technology. Boca Raton: Taylor &

Francis.

Samson, R.A., J.A. Van Kooij, and De Boer. "Microbial Quality Of Commercial

Elsie Angelina Tempeh In Netherlands". Journal of Food Protection 50.2 (1987): 92-94.

Print.

Sánchez, Carmen. 2009. Lignocellulosic Residues: Biodegradation and Bioconversion by Fungi. Biotechnology Advances 27.2: 185-194.

Santoso. 2009. Susu Kedelai dan Soygurt. Fakultas Pertanian UWG.

Sarwono, B. 2010. Usaha Membuat Tempe dan Oncom. Jakarta: Penebar Swadaya.

Schmidt, Cristiano G. et al. "Antioxidant Activity And Enzyme Inhibition Of Phenolic Acids From Fermented Rice Bran With Fungus Rizhopus Oryzae". Food Chemistry 146 (2014): 371-377. Web.

Schmidt, Cristiano G., et al. 2014. Antioxidant Activity and Enzyme Inhibition of Phenolic Acids from Fermented Rice Bran with Fungus Rizhopus Oryzae. Food Chemistry 146: 371-377.

Shafiur, Rahman. 1999. Handbook of Food Preservation. New York: Marcel Dekker.

Sheih, I.C., Hsing Ying Wu, Yi Ju Lai, and Ching Fwu Lin. 2000. Preparation of High Free Radical Scavenging Tempeh by a Newly Isolated Rhizopus sp. R- 69 from Indonesia. Food Science and Agricultural Chemistry 2:35-40.

Shurtleff, W, & Aoyagi, A. 1979. The Book Of Tempeh. New York: Harper & Row.

Singh, M., Rao, D.M., Pande, S., and Ramesh, M. 2011. ―Medicinal Uses of L- Lysine: Past and Future‖. International Journal of Pharmaceutical Science and Research. 2(4): 637-642.

Stahel, G. 1946. Foods from Fermented Soybeans as Prepared in the Netherlands Indies. J.N.Y. Bot. Gard. 47-261

Standar Nasional Indonesia. 1992. Cara Uji Makanan dan Minuman. Jakarta: Badan Standardisasi Nasional.

Standar Nasional Indonesia. 1992. Penentuan Kadar Abu. Jakarta: Badan Standardisasi Nasional.

Standar Nasional Indonesia. 1992. Penentuan Kadar Air. Jakarta: Badan Standardisasi Nasional.

Standar Nasional Indonesia. 1992. Penentuan Kadar Keasaman. Jakarta: Badan Standardisasi Nasional.

Standar Nasional Indonesia. 1992. Penentuan Kadar Lemak. Jakarta: Badan Standardisasi Nasional.

Standar Nasional Indonesia. 2006. Penentuan Kadar Protein. Jakarta: Badan Standardisasi Nasional.

Steinkraus, K.H., et al. 1983. Indonesian Tempeh and Related Fermentations.

Handbook of indigenous fermented foods. New York, United State of America: Marcel Dekker.

Suprapti, L. 2003. Pembuatan Tempe. Jakarta: Kanisius.

Takii, Y., Ikeda, K., Sato, C., Yano, M., Sato, T., and Konno, H. 2005. "Production and Characterization of Β-Glucosidase from Rhizopus oryzae MIBA348". J.

Biol. Macromol 1.5: 11-16.

Takó, M., Farkas, E., Lung, S., Krisch, J., Vagvolgyi, C., Papp, T. 2010.

Elsie Angelina Identification of Acid and Thermotolerant Extracellular Β-Glucosidase Activities in Zygomycetes Fungi. Acta Biologica Hungarica 61.1: 101-110.

Tang, D., Dong, Yin Mao, Ren, H., Li Li., He, Cong Fen. 2014. A Review of Phytochemistry, Metabolite Changes, and Medicinal Uses of The Common Food Mung Bean and Its Sprouts (Vigna radiata). Chemistry Central Journal 8.1: 4.

Tang, Dongyan et al. "A Review Of Phytochemistry, Metabolite Changes, And Medicinal Uses Of The Common Food Mung Bean And Its Sprouts (Vigna Radiata)". Chemistry Central Journal 8.1 (2014): 4. Web.

The Good Scents Company. "The Good Scents

Company". Thegoodscentscompany.com. N.p., 2016. Web. 5 June 2016.

Triwibowo, R. 2011. Kajian Perubahan Biokimiawi Stakhiosa dan Asam Lemak Esensial pada Tempe Kedelai (Glycine max.) Selama Proses Fermentasi.

Thesis. Universitas Sebelas Maret, Surakarta, Indonesia.

United States Department of Agriculture. 2016. Mung beans, Mature Seeds, Raw.

USA: United States Department of Agriculture.

United States Department of Agriculture. 2016. Soybeans, Mature Seeds, Raw. USA:

United States Department of Agriculture.

United States Department of Agriculture. 2016. Tempeh. USA: United States Department of Agriculture.

Vattem, D.A. et al. 2004. Antimicrobial Activity against Select Food-borne Pathogens by Phenolic Antioxidants Enriched in Cranberry Pomace by Solid- State Bioprocessing Using The Food Grade Fungus Rhizopus Oligosporus. Process Biochemistry 39.12: 1939-1946.

Yamakawa, O., & Yoshinoto, M. 2001. Sweet Potato as Food Material with Physiological Functions. Acta Hort. (ISHA), 583, 179-185.