Biotransformation and improved enzymatic extraction of chlorogenic acid from coffee pulp by filamentous fungi.

María Teresa Torres-Mancera, Itzamná Baqueiro-Peña, Arturo Figueroa-Montero, Gabriela Rodríguez-Serrano, Eduardo González-Zamora, Ernesto Favela-Torres, Gerardo Saucedo-Castañeda

Dept. of Biotechnology, Metropolitan Autonomous University, Iztapalapa Campus, Av. San Rafael Atlixco 186, Col., Vicentina, CP 09340, DF, Mexico.

Biotechnology progress 2013 Mar-Apr

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The highest enzymatic extraction of covalent linked chlorogenic (36.1%) and caffeic (CA) (33%) acids from coffee pulp (CP) was achieved by solid-state fermentation with a mixture of three enzymatic extracts produced by Aspergillus tamarii, Rhizomucor pusillus, and Trametes sp. Enzyme extracts were produced in a practical inexpensive way. Synergistic effects on the extraction yield were observed when more than one enzyme extract was used. In addition, biotransformation of chlorogenic acid (ChA) by Aspergillus niger C23308 was studied. Equimolar transformation of ChA into CA and quinic acids (QA) was observed during the first 36 h in submerged culture. Subsequently, after 36 h, equimolar transformation of CA into protocatechuic acid was observed; this pathway is being reported for the first time for A. niger. QA was used as a carbon source by A. niger C23308. This study presents the potential of using CP to produce enzymes and compounds such as ChA with biological activities. Copyright © 2013 American Institute of Chemical Engineers.

Citation

María Teresa Torres-Mancera, Itzamná Baqueiro-Peña, Arturo Figueroa-Montero, Gabriela Rodríguez-Serrano, Eduardo González-Zamora, Ernesto Favela-Torres, Gerardo Saucedo-Castañeda. Biotransformation and improved enzymatic extraction of chlorogenic acid from coffee pulp by filamentous fungi. Biotechnology progress. 2013 Mar-Apr;29(2):337-45