Bioethanol production by recycled Scheffersomyces stipitis in sequential batch fermentations with high cell density using xylose and glucose mixture

Samantha Christine Santos; Amanda Silva de Sousa; Suzane Rodrigues Dionísio; Robson Tramontina; Roberto Ruller; Fabio Márcio Squina; Carlos Eduardo Vaz Rossell; Aline Carvalho da Costa; Jaciane Lutz Ienczak

doi:10.1016/j.biortech.2016.07.102

Bioethanol production by recycled Scheffersomyces stipitis in sequential batch fermentations with high cell density using xylose and glucose mixture

Bioresour Technol. 2016 Nov:219:319-329. doi: 10.1016/j.biortech.2016.07.102. Epub 2016 Jul 26.

Authors

Samantha Christine Santos¹, Amanda Silva de Sousa², Suzane Rodrigues Dionísio³, Robson Tramontina², Roberto Ruller³, Fabio Márcio Squina³, Carlos Eduardo Vaz Rossell³, Aline Carvalho da Costa⁴, Jaciane Lutz Ienczak³

Affiliations

¹ Brazilian Bioethanol Science and Technology Laboratory - CTBE/CNPEM, 10000 Giuseppe Maximo Scolfaro St, Zip Code 13083-852 Campinas, SP, Brazil; School of Chemical Engineering, State University of Campinas - UNICAMP, 500 Albert Einstein Av, Zip Code 13083-852 Campinas, SP, Brazil. Electronic address: samantha@sc.usp.br.
² Brazilian Bioethanol Science and Technology Laboratory - CTBE/CNPEM, 10000 Giuseppe Maximo Scolfaro St, Zip Code 13083-852 Campinas, SP, Brazil; Institute of Biology, State University of Campinas - UNICAMP, 500 Albert Einstein Av, Zip Code 13083-852 Campinas, SP, Brazil.
³ Brazilian Bioethanol Science and Technology Laboratory - CTBE/CNPEM, 10000 Giuseppe Maximo Scolfaro St, Zip Code 13083-852 Campinas, SP, Brazil.
⁴ Brazilian Bioethanol Science and Technology Laboratory - CTBE/CNPEM, 10000 Giuseppe Maximo Scolfaro St, Zip Code 13083-852 Campinas, SP, Brazil; School of Chemical Engineering, State University of Campinas - UNICAMP, 500 Albert Einstein Av, Zip Code 13083-852 Campinas, SP, Brazil.

PMID: 27498013
DOI: 10.1016/j.biortech.2016.07.102

Abstract

Here, it is shown three-step investigative procedures aiming to improve pentose-rich fermentations performance, involving a simple system for elevated mass production by Scheffersomyces stipitis (I), cellular recycle batch fermentations (CRBFs) at high cell density using two temperature strategies (fixed at 30°C; decreasing from 30 to 26°C) (II), and a short-term adaptation action seeking to acclimatize the microorganism in xylose rich-media (III). Cellular propagation provided 0.52gdrycellweightgRS(-1), resulting in an expressive value of 45.9gdrycellweightL(-1). The yeast robustness in CRBF was proven by effective ethanol production, reaching high xylose consumption (81%) and EtOH productivity (1.53gL(-1)h(-1)). Regarding the short-term adaptation, S. stipitis strengthened its robustness, as shown by a 6-fold increase in xylose reductase (XR) activity. The short fermentation time (20h for each batch) and the fermentation kinetics for ethanol production from xylose are quite promising.

Keywords: Acid treatment; Flocculation; Gradual temperature decrease; Propagation yeast biosystem; Short-term adaptive action.

MeSH terms

Batch Cell Culture Techniques / methods*
Biofuels
Biotechnology / methods
Cell Count
Ethanol / metabolism*
Fermentation / physiology*
Glucose / metabolism*
Saccharomyces cerevisiae / metabolism*
Xylose / metabolism*

Substances

Biofuels
Ethanol
Xylose
Glucose