Conversion of rice straw to bio-based chemicals: An integrated process using Lactobacillus brevis

Applied Microbiology and Biotechnology

Volumn 86, Issue 5, 2010, Pages 1375-1385

  Kim, Jae Han ^a   Block, David E ^a,b   Shoemaker, Sharon P ^a   Mills, David A ^a  

^a UNIVERSITY OF CALIFORNIA   (United States)

^b University of California   (United States)

Author keywords

Carbon catabolite repression; Lactobacillus brevis; Lignocellulosic biomass; Simultaneous carbohydrate utilization; SSMSF

Indexed keywords

CARBON CATABOLITE REPRESSION; CELLOBIOSE; CELLULASE ENZYME; CHEMICAL PRODUCTION; FEEDBACK INHIBITION; FERMENTABLE CARBOHYDRATE; FERMENTATION PROCESS; INTEGRATED PROCESS; LACTIC ACID PRODUCTION; LACTOBACILLUS BREVIS; LARGE PARTS; LIGNOCELLULOSIC BIOMASS; OPERATION TIME; PRE-TREATMENT; PROCESSING COSTS; PRODUCT YIELDS; RICE STRAW HYDROLYSATE; RICE STRAWS;

BIOMASS; BODY FLUIDS; ENZYMES; FERMENTATION; GLUCOSE; LACTIC ACID; ORGANIC ACIDS; SACCHARIFICATION; SUGAR (SUCROSE);

CARBOHYDRATES;

ARABINOSE; CARBOHYDRATE; CELLOBIOSE; CELLULASE; GLUCOSE; LACTIC ACID; XYLOSE;

BACTERIUM; BIOCHEMICAL COMPOSITION; BIOMASS; CELLULOSE; ENZYME ACTIVITY; FERMENTATION; HYDROLYSIS; INHIBITION; INHIBITOR; LIGNIN; METABOLISM; STRAW; SUGAR; YIELD RESPONSE;

ARTICLE; BACTERIAL GROWTH; BACTERIUM CULTURE; CARBOHYDRATE METABOLISM; CONTROLLED STUDY; ENZYME ACTIVITY; ENZYME SPECIFICITY; ENZYME STABILITY; FED BATCH FERMENTATION; HYDROLYSIS; LACTOBACILLUS BREVIS; NONHUMAN; RICE; SACCHARIFICATION; STRAW; TEMPERATURE SENSITIVITY;

ARABINOSE; BIOMASS; CARBOHYDRATE METABOLISM; CELLOBIOSE; CELLULASE; ENZYME STABILITY; FERMENTATION; GLUCOSE; HYDROLYSIS; INDUSTRIAL MICROBIOLOGY; LACTIC ACID; LACTOBACILLUS BREVIS; ORYZA SATIVA; TEMPERATURE; XYLOSE;

LACTOBACILLUS BREVIS;

EID: 77952889938     PISSN: 01757598     EISSN: None     Source Type: Journal    
DOI: 10.1007/s00253-009-2407-8     Document Type: Article

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