A Lomascolo1, M Asther, D Navarro, C Antona, M Delattre, L Lesage-Meessen. 1. Unité de Biotechnologie des Champignons filamenteux de l'INRA, IFR de Biotechnologie Agro-industriel de Marseille, Universités de Provence et de la Méditerranée, Marseille, France. lomascolo@esil.univ-mrs.fr
Abstract
AIMS: The biotransformation of L-phenylalanine into benzaldehyde (bitter almond aroma) was studied in the strain Trametes suaveolens CBS 334.85. METHODS AND RESULTS: Cultures of this fungus were carried out in the absence or in the presence of HP20 resin, a highly selective adsorbent for aromatic compounds. For the identification of the main catabolic pathways of L-phenylalanine, a control medium (without L-phenylalanine) was supplemented with each of the aromatic compounds, previously detected in the culture broth, as precursors. Trametes suaveolens CBS 334.85 was shown to biosynthesize benzyl and p-hydroxybenzyl derivatives, particularly benzaldehyde, and large amounts of 3-phenyl-1-propanol, benzyl and p-hydroxybenzyl alcohols as the products of both cinnamate and phenylpyruvate pathways. CONCLUSION: The addition of HP20 resin, made it possible to direct the catabolism of L- phenylalanine to benzaldehyde, the desired target compound, and to trap it before its transformation into benzyl alcohol. In these conditions, benzaldehyde production was increased 21-fold, from 33 to 710 mg l-1 corresponding to a molar yield of 31%. SIGNIFICANCE AND IMPACT OF THE STUDY: These results showed the good potential of Trametes suaveolens as a biotechnological agent to synthesize natural benzaldehyde which is one of the most important aromatic aldehydes used in the flavour industry.
AIMS: The biotransformation of L-phenylalanine into benzaldehyde (bitter almond aroma) was studied in the strain Trametes suaveolens CBS 334.85. METHODS AND RESULTS: Cultures of this fungus were carried out in the absence or in the presence of HP20 resin, a highly selective adsorbent for aromatic compounds. For the identification of the main catabolic pathways of L-phenylalanine, a control medium (without L-phenylalanine) was supplemented with each of the aromatic compounds, previously detected in the culture broth, as precursors. Trametes suaveolens CBS 334.85 was shown to biosynthesize benzyl and p-hydroxybenzyl derivatives, particularly benzaldehyde, and large amounts of 3-phenyl-1-propanol, benzyl and p-hydroxybenzyl alcohols as the products of both cinnamate and phenylpyruvate pathways. CONCLUSION: The addition of HP20 resin, made it possible to direct the catabolism of L- phenylalanine to benzaldehyde, the desired target compound, and to trap it before its transformation into benzyl alcohol. In these conditions, benzaldehyde production was increased 21-fold, from 33 to 710 mg l-1 corresponding to a molar yield of 31%. SIGNIFICANCE AND IMPACT OF THE STUDY: These results showed the good potential of Trametes suaveolens as a biotechnological agent to synthesize natural benzaldehyde which is one of the most important aromatic aldehydes used in the flavour industry.
Authors: Elise Odinot; Frédéric Fine; Jean-Claude Sigoillot; David Navarro; Oscar Laguna; Alexandra Bisotto; Corinne Peyronnet; Christian Ginies; Jérôme Lecomte; Craig B Faulds; Anne Lomascolo Journal: Microorganisms Date: 2017-10-14