Coupling occurs before breakdown during biotransformation of Acid Blue 62 by white rot fungi

详细信息    查看全文

• 作者：Sophie Vanhulle ; Estelle Enaud ; Marie Trovaslet ; Ludovic Billottet ; Laurence Kneipe ; Jean-Louis Habib Jiwan ; Anne-Marie Corbisier ; Jacqueline March ; -Brynaert
• 关键词：Bioremediation ; Metabolic pathway ; Capillary electrophoresis ; Mass spectrometry ; Anthraquinonic dye
• 刊名：Chemosphere
• 出版年：2008
• 出版时间：January 2008
• 年：2008
• 卷：70
• 期：6
• 页码：1097-1107
• 全文大小：350 K

文摘

Only few data exist on the metabolites produced during the biotransformation of anthraquinonic dyes by white rot fungi (WRF). During the biotransformation of an anthraquinonic dye Acid Blue 62 (ABu62) using Pycnoporus sanguineus MUCL 41582 strain, it was previously demonstrated that the blue colour of the medium turned to red before complete dye decolourisation. To better understand the phenomenon, this study carried out ABu62 biotransformation with five different WRF strains (Coriolopsis polyzona MUCL 38443, Perenniporia ochroleuca MUCL 41114, Perenniporia tephropora MUCL 41562, P. sanguineus MUCL 38531 and Trametes versicolor MUCL 38412) and compared with P. sanguineus MUCL 41582 previously described. A multi-methodological approach (using capillary electrophoresis, mass spectrometry, HPLC, UV, NMR and IR spectroscopies) was developed to characterise the metabolites involved and monitor their apparition. Seven metabolites were commonly found with all strains, suggesting a common metabolic pathway for ABu62 biotransformation. During the first days, dimer and oligomers of the initial ABu62 molecule were observed: the main one absorbed in the 500 nm region, explaining the red colour appearance of the medium. This main metabolite was made up of two molecules of ABu62 linked by an azo bond, minus a cyclohexyl moiety. After a longer incubation time, breakdown products were observed. Based on these products characterizations, a bioconversion pathway was proposed.