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Contribution of Sourdough Lactobacilli, Yeast, and Cereal Enzymes to the Generation of Amino Acids in Dough Relevant for Bread Flavor

January 2002 Volume 79 Number 1
Pages 45 — 51
C. Thiele , 1 M. G. Gänzle , 1 , 2 and R. F. Vogel 1

Lehrstuhl für Technische Mikrobiologie TU-Muenchen-Weihenstephan, Weihenstephaner Steig 16, D-85350 Freising, Germany Corresponding author. E-mail: michael.gaenzle@bl.tum.de Phone: + 49 8161 71 3204. Fax: + 49 8161 71 3327.


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Accepted April 20, 2001.
ABSTRACT

The amino acid release was determined in wheat doughs supplied with salt, acid, dithiothreitol, or starter cultures to evaluate the relevance of the amino acid concentration on bread flavor. Wheat flour proteinases almost linearly released amino acids and the highest activity of wheat flour proteinases was found in acidified and reduced doughs. The effects of starter cultures on amino acid concentrations depended on their composition. Yeasts exhibited a high demand for amino acids, however, the total amino acid concentrations were not markedly affected by lactic acid bacteria. The individual amino acid contents were determined by the pH during fermentation and microbial metabolism. The formation of proline was favored by values higher than pH 5.5, whereas release of phenylalanine, leucine and cysteine mainly occurred at lower pH. Ornithine was found only in doughs fermented with Lactobacillus pontis. To determine effects of the amino acid concentration on bread aroma, fermented doughs were evaluated in baking experiments. An increased intensity of bread flavor was obtained by preferments prepared with lactic acid bacteria. The roasty note of wheat bread crust could be markedly enhanced by L. pontis. This results support the assumption that flavor of wheat bread is enhanced by increasing the concentration of free amino acids and especially ornithine in dough.



© 2002 American Association of Cereal Chemists, Inc.