Food Biochemistry and Food Processing (2 edition)

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31 Bakery and Cereal Products 611

undescribed bacterial species responsible for souring activity.
Appl Microbiol21: 459–465.
Kunene NF et al. 2000. Characterization and determination of origin
of lactic acid bacteria from a sorghum-based fermented weaning
food by analysis of soluble proteins and amplified fragment length
polymorphism fingerprinting.Appl Environ Microbiol.66: 1084–
1092.
Larsen AG et al. 1993. Antimicrobial activity of lactic acid bacteria
isolated from sour doughs: Purification and characterization of
bavaricin A, a bacteriocin produced byLactobacillus bavaricus
MI401.J Appl Bacteriol75: 113–122.
Lavermicocca P et al. 2000. Purification and characterization
of novel antifungal compounds from the sourdoughLacto-
bacillus plantarumstrain 21B.Appl Env Microbiol66: 4084–
4090.
Linko Y-Y et al. 1997. Biotechnology of bread baking.Trends Food
Sci Technol8: 339–344.
Lotong N. 1998. Koji. In: BJB Wood (ed.).Microbiology of Fer-
mented Foods. Blackie Academic and Professional, London.
Maloney DH, Foy JJ. 2003. Yeast Fermentations. In: K Kulp,
KLorenz(eds.).Handbook of Dough Fermentations. Marcel
Dekker, New York.
M ̊artensson O et al. 2002. The effect of yoghurt culture on the
survival of probiotic bacteria in oat-based, non-dairy products.
Food Res Int35: 775–784.
Martinez-Anaya MA. 2003. Associations and interactions of mi-
croorganisms in dough fermentations: Effects on dough and bread
characteristics. In: K Kulp, K Lorenz (eds.).Handbook of Dough
Fermentations. Marcel Dekker, New York: pp. 63–95.
Messens W, De Vuyst L. 2002. Inhibitory substances produced by
Lactobacilliisolated from sourdoughs – a review.Int J Food
Microbiol72: 31–43.
Molin G. 2001. Probiotics in food not containing milk or milk
constituents, with special reference toLactobacillus plantarum
299v.Am J Clinical Nutr73: 380S–385S.
Mugula JK. 2001. Microbiology, fermentation and shelf life exten-
sion of togwa, a Tanzanian indigenous food. [PhD thesis]. Ås,
Norway. Agric Univ of Norway. ISBN 82-575-0457-2.
Mugula JK et al. 2003. Use of starter cultures of lactic acid bacteria
and yeasts in the preparation oftogwa, a Tanzanian fermented
food.Int J Food Microbiol83: 307–318.
Muyanja CBK. 2001. Studies on the Fermentation ofBushera:A
Ugandan Traditional Fermented Cereal-Based Beverage. [PhD
thesis]. Ås, Norway, Agric Univ Norway. ISBN 82-575-0486-8.
Muyanja CBK et al. 2003. Production methods and composition
ofbushera, a Ugandan Traditional Fermented Cereal Beverage.
African J Food, Agric, Nutr Development3: 10–19.
Muyanja C et al. 2004. Chemical changes during spontaneous and
lactic acid starter bacteria starter culture fermentation of bushera.
MURARIK Bulletin7: 606–616.
Nuraida L et al. 1995. Microbiology of pozol,aMexican
fermented maize dough.World J Microbiol Biotechnol11:
567–571.
Nout MJR, Motarjemi Y. 1997. Assessment of fermentation as
a household technology for improving food safety: A joint
FAO/WHO workshop.Food Control8: 221–226.
Nout MJR et al. 1989. Effect of accelerated natural lactic fermenta-
tion of infant food ingredients on some pathogenic microorgan-
isms.Int J Food Microbiol8: 351–361.

Odunfa SA. 1985. African Fermented Foods. In: BJB Wood (ed.).
Microbiology of Fermented Foods, Vol, 2. Elsevier Applied Sci-
ence Publishers, London and New York.
Ogunbanwo ST et al. 2003. Characterization of bacteriocin pro-
duced byLactobacillus plantarumF1 andLactobacillus brevis
OG1.African J Biotechnol2: 219–227.
Omar benN, Ampe F. 2000. Microbial community dynamics during
production of the Mexican fermented maize dough Pozol.Appl
and Env Microbiol66: 3644–3673.
Ponte JG, Tsen CC. 1987. Bakery Products. In: LR Beuchat, ed-
itor.Food and Beverage Mycology, 2nd edition. Van Nostrand
Reinhold Company, New York.
Romano AE et al. 1987. Regulation ofβ-galactoside transport and
accumulation in heterofermentative lactic acid bacteria.J Appl
Bacteriol169: 5589–5596.
Sanders ME, Huis in’t Veld JHJ. 1999. Bringing a probiotic-
containing functional food to the market: Microbiological, prod-
uct, regulatory and labelling issues. In: WN Konings, OP Kuipers,
Hui in T’Veld JHJ (eds.).Lactic Acid Bacteria: Genetics,
Metabolism and Applications. Kluwer Academic Publishing,
Dordrecht, The Netherlands, pp. 293–315.
Sanni AI et al. 2002. New efficient amylase-producing strains of
Lactobacillus plantarumandL. fermentumisolated from different
Nigerian fermented foods.Int J Food Microbiol72: 53–62.
Soni SK, Sandu DK. 1990. Indian fermented foods. Microbiological
and biochemical aspects.Indian J Microbiol.30: 135–157.
Spicher G. 1983. Baked goods. In: HJ Rehm, G Reed (eds.).Biotech-
nology, Vol. 5. Verlag Chemie: Weinheim, pp. 1–80.
Spicher G, Nierle W. 1984. The microflora of sourdough. XVIII.
Communication: The protein degrading capabilities of the lac-
tic acid bacteria of sourdough.Zfur Lebensmittel-Untersuchung ̈
und-Forschung178: 389–392.
Spicher G, Nierle W. 1988. Proteolytic activity of sourdough bacte-
ria.Appl Microbiol Biotechnol28: 487–492.
Stanton WR. 1998. Food fermentation in the tropics. In: BJB Wood
(ed.).Microbiology of Fermented Foods. Blackie Academic and
Professional, London, pp. 696–712.
Stear CA. 1990.Handbook of Breadmaking Technology. Barking,
Elsevier Applied Science, United Kingdom.
Stolz P. 2003. Biological fundamentals of yeast and lactobacilli
fermentation in bread dough. In: K Kulp, K Lorenz (eds.).
Handbook of Dough Fermentations. Marcel Dekker, New York:
pp. 23–42.
Stolz P et al. 1993. Utilization of maltose and glucose by lac-
tobacilli isolated from sourdough.FEMS Microbiol Lett109:
237–242.
Stolz P et al. 1995. Utilization of electron acceptors by lactobacilli
isolated from sourdough. II.Lactobacillus pontis, L. reuteri, L.
amylovorus,andL fermentum. Z fur Lebensmittel-Untersuchung ̈
und -Forschung201: 402–410.
Todorov S et al. 1999. Detection and characterization of a novel an-
tibacterial substance produced byLactobacillus plantarumST31
isolated from sourdough.Int J Food Microbiol48: 167–177.
Tamime AY, Marshall VME. 1997. Microbiology and technology
of fermented milks. In: BA Law (ed.).Microbiology and Bio-
chemistry of Cheese and Fermented Milk. Blackie Academic and
Professional, London.
Walker GM. 1998a.Yeast technology. In: Yeast Physiology and
Technology. John Wiley & Sons, Inc: New York.
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