Performances of Lactobacillus brevis for producing lactic acid from hydrolysate of lignocellulosics

Applied Biochemistry and Biotechnology
Wei GuoShulin Chen

Abstract

Utilizing all forms of sugars derived from lignocellulosic biomass via various pretreatment and hydrolysis process is a primary criterion for selecting a microorganism to produce biofuels and biochemicals. A broad carbon spectra and potential inhibitors such as furan, phenol compounds and weak acids are two major obstacles that limited the application of dilute-acid hydrolysate of lignocellulosics in lactic acid fermentation. Two strains of bacteria isolated from sour cabbage, S3F4 (Lactobacillus brevis) and XS1T3-4 (Lactobacillus plantrum), exhibited the ability to utilize various sugars present in dilute-acid hydrolysate of biomass. The S3F4 strain also showed strong resistance to potential fermentation inhibitors such as ferulic acid and furfural. Fermentation in flasks by this strain resulted in 39.1 g/l of lactic acid from dilute acid hydrolysates of corncobs that had initial total sugar concentration of 56.9 g/l (xylose, 46.4 g/l; glucose, 4.0 g/l; arabinose, 6.5 g/l). The hydrolysate of corncobs was readily utilized by S3F4 without detoxification, and the lactic acid concentration obtained in this study was higher compared to other reports.

References

Jun 13, 2000·Applied Biochemistry and Biotechnology·P V IyerY Y Lee
Oct 31, 2002·Journal of Industrial Microbiology & Biotechnology·B S DienR J Bothast
May 2, 2003·Applied Biochemistry and Biotechnology·Nils-Olof NilvebrantLeif J Jönsson
Aug 9, 2003·Applied Microbiology and Biotechnology·M J LópezR J Bothast
Feb 28, 2004·Bioresource Technology·Solange Inês Mussatto, Inês Conceição Roberto
Dec 14, 2004·Bioresource Technology·Nathan MosierMichael Ladisch
May 27, 2005·Applied Biochemistry and Biotechnology·Nancy N NicholsMaria J López
Jun 9, 2005·Bioresource Technology·Hurok OhHwa-Won Ryu
Mar 11, 2006·Applied Microbiology and Biotechnology·Ronald H W MaasRuud A Weusthuis
Feb 15, 2007·Applied Biochemistry and Biotechnology·A B MoldesJ M Domínguez
Apr 17, 2008·American Journal of Medical Genetics. Part a·Liviu FellerElizabeth J van Rensburg
Apr 17, 2008·Applied Biochemistry and Biotechnology·Dong-Mei BaiZhan-Feng Cui

❮ Previous
Next ❯

Citations

Apr 15, 2014·Applied Microbiology and Biotechnology·Wei GuoShulin Chen
Dec 26, 2012·Current Opinion in Biotechnology·Jan MartinussenPeter Ruhdal Jensen
Jul 7, 2011·Journal of Biotechnology·Mohamed Ali Abdel-RahmanKenji Sonomoto
Oct 4, 2015·Bioresource Technology·Maraike ProbstHeribert Insam
Nov 14, 2015·Bioscience, Biotechnology, and Biochemistry·Pramod PoudelKenji Sakai
Aug 5, 2014·Biotechnology Advances·Roberto MazzoliEnrica Pessione
Jan 22, 2015·Biotechnology Letters·Mark A Eiteman, Subramanian Ramalingam
Aug 1, 2014·Journal of Bioscience and Bioengineering·Ying WangKenji Sonomoto
Jun 5, 2016·Journal of Industrial Microbiology & Biotechnology·Pooja Jambunathan, Kechun Zhang
Jun 13, 2016·International Journal of Food Microbiology·Vincenzina FuscoCharles M A P Franz
Jul 28, 2016·International Journal of Food Sciences and Nutrition·Chaline Caren CoghettoMarco Antônio Záchia Ayub
Mar 30, 2017·Applied Biochemistry and Biotechnology·Xingxuan ChenMin-Tian Gao
Sep 1, 2018·FEMS Microbiology Letters·Rajni Hatti-KaulHesham El Enshasy
Sep 12, 2019·Biotechnology for Biofuels·Daria FeldmanOded Yarden
Mar 16, 2017·Journal of Applied Microbiology·K SzatrajM Chmielewska-Jeznach
Jun 1, 2014·Applied Biochemistry and Biotechnology·Zhaojuan ZhengJia Ouyang
Oct 19, 2016·Biotechnology and Applied Biochemistry·Jun LiuHanjie Ying
Jul 18, 2021·International Journal of Biological Macromolecules·Tiago Lima de AlbuquerqueMaria Valderez Ponte Rocha

❮ Previous
Next ❯

Related Concepts

Related Feeds

Biofuels (ASM)

Biofuels are produced through contemporary processes from biomass rather than geological processes involved in fossil fuel formation. Examples include biodiesel, green diesel, biogas, etc. Discover the latest research on biofuels in this feed.