Applied Biochemistry

An endophytic Neurospora sp. from Nothapodytes foetida producing camptothecin

Neurospora crassa / Phylogeny / Humans / Rubiaceae / Applied Biochemistry / Neurospora / Camptothecin / Large Scale / Culture Media / Medicinal Plant / Biochemistry and cell biology / Anticancer Drug / Neurospora / Camptothecin / Large Scale / Culture Media / Medicinal Plant / Biochemistry and cell biology / Anticancer Drug

Production of Cellulolytic Enzymes by Fungi Acrophialophora nainiana and Ceratocystis paradoxa Using Different Carbon Sources

Technology / Production / Carbon / Biomass / Fungi / Cellulose / Cellulase / Biological Sciences / Animals / Enzyme / Cattle / Fermentation / Filamentous fungi / Applied Biochemistry / Cellulases / Submerged Culture / Carbon Source / Wheat Bran / Cellulose / Cellulase / Biological Sciences / Animals / Enzyme / Cattle / Fermentation / Filamentous fungi / Applied Biochemistry / Cellulases / Submerged Culture / Carbon Source / Wheat Bran

D-Xylose transport by Candida succiphila and Kluyveromyces marxianus

Technology / Kinetics / Biological Sciences / Glucose / Candida / Fermentation / Applied Biochemistry / Xylose / Fermentation / Applied Biochemistry / Xylose

D-xylose transport by Candida succiphila and Kluyveromyces marxianus

Technology / Kinetics / Biological Sciences / Glucose / Candida / Fermentation / Applied Biochemistry / Xylose / Fermentation / Applied Biochemistry / Xylose

Enzyme-supported oil extraction fromJatropha curcas Seeds

Technology / Biological Sciences / Jatropha curcas / Enzyme / Applied Biochemistry / Extraction Method / Indexation / Cell Wall / Aqueous Extract / Extraction Method / Indexation / Cell Wall / Aqueous Extract

Biogas production fromJatropha curcas press-cake

Technology / Biological Sciences / renewable Energy sources / Jatropha curcas / Methane / Applied Biochemistry / Contact Process / Production Rate / Applied Biochemistry / Contact Process / Production Rate

Production of Cellulolytic Enzymes by Fungi Acrophialophora nainiana and Ceratocystis paradoxa Using Different Carbon Sources

Technology / Production / Carbon / Biomass / Fungi / Cellulose / Cellulase / Biological Sciences / Animals / Enzyme / Cattle / Fermentation / Filamentous fungi / Applied Biochemistry / Cellulases / Submerged Culture / Carbon Source / Wheat Bran / Cellulose / Cellulase / Biological Sciences / Animals / Enzyme / Cattle / Fermentation / Filamentous fungi / Applied Biochemistry / Cellulases / Submerged Culture / Carbon Source / Wheat Bran

Production of Cellulolytic Enzymes by Fungi Acrophialophora nainiana and Ceratocystis paradoxa Using Different Carbon Sources

Technology / Production / Carbon / Biomass / Fungi / Cellulose / Cellulase / Biological Sciences / Animals / Enzyme / Cattle / Fermentation / Filamentous fungi / Applied Biochemistry / Cellulases / Submerged Culture / Carbon Source / Wheat Bran / Cellulose / Cellulase / Biological Sciences / Animals / Enzyme / Cattle / Fermentation / Filamentous fungi / Applied Biochemistry / Cellulases / Submerged Culture / Carbon Source / Wheat Bran

Antiinfluenza Virus Activity of a Bacteriocin Produced by Lactobacillus delbrueckii

Technology / Cell Culture / Influenza virus / Biological Sciences / Lactic Acid Bacteria / P-glycoprotein / Applied Biochemistry / P-glycoprotein / Applied Biochemistry

An endophytic Neurospora sp. from Nothapodytes foetida producing camptothecin

Neurospora crassa / Phylogeny / Humans / Rubiaceae / Applied Biochemistry / Neurospora / Camptothecin / Large Scale / Culture Media / Medicinal Plant / Biochemistry and cell biology / Anticancer Drug / Neurospora / Camptothecin / Large Scale / Culture Media / Medicinal Plant / Biochemistry and cell biology / Anticancer Drug

Eco1524I, a type II restriction endonuclease

Technology / Biological Sciences / Applied Biochemistry / Indexation

Characterization of dextransucrases fromLeuconostoc mesenteroides NRRL B-1299

Technology / Biological Sciences / Activation Energy / Enzyme Inhibition / Enzyme / Applied Biochemistry

Copyright © 2017 DATOSPDF Inc.