Cellulose is the most abundant biomass in nature. Utilization of organic wastes can be improved by changing the cellulose from wastes into products which have the economic value with the help of cellulolytic bacteria. Cellulolytic bacteria are bacteria that have the ability to produce cellulase. Cellulase can degrade cellulose as the substrate. The aim of this study were to obtain cellulolytic bacteria, and to provide an information about the test of cellulolytic bacterial activity. Stages of this study are as follows: isolation and purification, morphological and physiological characterization of cellulolytic bacteria, tests enzyme activity. Results showed that there were two types of cellulolitic bacteria which had been obtained, namely ...
Isolation of Cellulolytic Bacteria and Characterization of the Enzyme. Four of cellulolitic bacteria...
Cellulose agricultural waste is a source of environmental pollution and an alternative solution to o...
ABSTRACT Cellulose is a biopolymer whose numbers most abundant in nature and have an important ro...
Cellulose is the most abundant biomass in nature. Utilization of organic wastes can be improved by c...
Plant biomass from waste agricultural can be transformed to useful like bioethanol and organic ferti...
Many wastes in nature made from cellulose cause problems because it is difficult to degrade, it is n...
Cellulose can be found in whole parts of plants. Cellulose can be degraded by cellulose enzyme...
Cellulose is one of organic matters in the peat soil which was difficult to degrade. The degradation...
Dumai water samples are estimated to contain cellulolytic microorganisms because of farm waste. Samp...
Cellulolytic bacteria are bacteria that can break down cellulose into simpler polysaccharides, ...
Cellulolytic bacteria are bacteria that have ability to hydrolize cellulose into smaller oligosaccha...
Cellulolytic bacteria has been isolated from water and sediment sample of Indragiri river waters. Ce...
Cellulolytic bacteria are bacteria that can degrade cellulose into smaller polysaccharides called c...
Capability of Cellulolytic Degradation (BSD) Bacteria (CDB) to Remodel Organic Waste intoCompost The...
Bagasse is one of the by-products of granulated sugar industries or processed beverages that become ...
Isolation of Cellulolytic Bacteria and Characterization of the Enzyme. Four of cellulolitic bacteria...
Cellulose agricultural waste is a source of environmental pollution and an alternative solution to o...
ABSTRACT Cellulose is a biopolymer whose numbers most abundant in nature and have an important ro...
Cellulose is the most abundant biomass in nature. Utilization of organic wastes can be improved by c...
Plant biomass from waste agricultural can be transformed to useful like bioethanol and organic ferti...
Many wastes in nature made from cellulose cause problems because it is difficult to degrade, it is n...
Cellulose can be found in whole parts of plants. Cellulose can be degraded by cellulose enzyme...
Cellulose is one of organic matters in the peat soil which was difficult to degrade. The degradation...
Dumai water samples are estimated to contain cellulolytic microorganisms because of farm waste. Samp...
Cellulolytic bacteria are bacteria that can break down cellulose into simpler polysaccharides, ...
Cellulolytic bacteria are bacteria that have ability to hydrolize cellulose into smaller oligosaccha...
Cellulolytic bacteria has been isolated from water and sediment sample of Indragiri river waters. Ce...
Cellulolytic bacteria are bacteria that can degrade cellulose into smaller polysaccharides called c...
Capability of Cellulolytic Degradation (BSD) Bacteria (CDB) to Remodel Organic Waste intoCompost The...
Bagasse is one of the by-products of granulated sugar industries or processed beverages that become ...
Isolation of Cellulolytic Bacteria and Characterization of the Enzyme. Four of cellulolitic bacteria...
Cellulose agricultural waste is a source of environmental pollution and an alternative solution to o...
ABSTRACT Cellulose is a biopolymer whose numbers most abundant in nature and have an important ro...