Optimization of media composition for Nattokinase production by Bacillus subtilis using response surface methodology.
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Production of nattokinase by high cell density fed-batch culture of Bacillus subtilisActinobacillus succinogenes ATCC 55618 fermentation medium optimization for the production of succinic acid by response surface methodologyEnhanced candicidal compound production by a new soil isolate Penicillium verruculosum MKH7 under submerged fermentationResponse Surface Methodology Modelling of an Aqueous Two-Phase System for Purification of Protease from Penicillium candidum (PCA 1/TT031) under Solid State Fermentation and Its Biochemical CharacterizationOptimization of electrochemical dechlorination of trichloroethylene in reducing electrolytes.Isolation and Identification of Poly β-Hydroxybutyrate Over-Producing Bacteria and Optimization of Production Medium.Enhancing production of a 24-membered ring macrolide compound by a marine bacterium using response surface methodology.Statistical Optimization of the Production of NaCl-Tolerant Proteases by a Moderate Halophile, Virgibacillus sp. SK37.Nattokinase: An Oral Antithrombotic Agent for the Prevention of Cardiovascular Disease.Developing Bacillus spp. as a cell factory for production of microbial enzymes and industrially important biochemicals in the context of systems and synthetic biology.Nattokinase: production and application.Minimal genome: Worthwhile or worthless efforts toward being smaller?Microbial production of nattokinase: current progress, challenge and prospect.Cow Dung Is a Novel Feedstock for Fibrinolytic Enzyme Production from Newly Isolated Bacillus sp. IND7 and Its Application in In Vitro Clot Lysis.Statistical optimization of fibrinolytic enzyme production using agroresidues by Bacillus cereus IND1 and its thrombolytic activity in vitro.Optimization of Parameters that Affect the Activity of the Alkaline Protease from Halotolerant Bacterium, Bacillus acquimaris VITP4, by the Application of Response Surface Methodology and Evaluation of the Storage Stability of the Enzyme.Application of Taguchi Design and Response Surface Methodology for Improving Conversion of Isoeugenol into Vanillin by Resting Cells of Psychrobacter sp. CSW4.Novel Sequential Screening and Enhanced Production of Fibrinolytic Enzyme by Bacillus sp. IND12 Using Response Surface Methodology in Solid-State FermentationA low cost fermentation medium for potential fibrinolytic enzyme production by a newly isolated marine bacterium, Shewanella sp. IND20.A Statistical Approach for Optimization of Simultaneous Production of β-Glucosidase and Endoglucanase by Rhizopus oryzae from Solid-State Fermentation of Water Hyacinth Using Central Composite Design.Fibrinolytic enzymes from a newly isolated marine bacterium Bacillus subtilis A26: characterization and statistical media optimization.Process optimization and production of polyhydroxybutyrate using palm jaggery as economical carbon source by marine sponge-associated Bacillus licheniformis MSBN12.Optimization and production of pyrrolidone antimicrobial agent from marine sponge-associated Streptomyces sp. MAPS15.Optimization of lipid extraction from Salvinia molesta for biodiesel production using RSM and its FAME analysis.Bioconversion of resveratrol using resting cells of non-genetically modified Alternaria sp.Optimization of novel and greener approach for the coproduction of uricase and alkaline protease in Bacillus licheniformis by Box-Behnken model.Isolation, identification, optimization, and metabolite profiling of Streptomyces sparsus VSM-30.Improving production of thermostable and fluorescent holo-β-allophycocyanin by metabolically engineered Escherichia coli using response surface methodology.Medium optimization to improve the flocculation rate of a novel compound bioflocculant, CBF-256, using response surface methodology and flocculation characters.Medium optimization for the production of fibrinolytic enzyme by Paenibacillus sp. IND8 using response surface methodology.
P2860
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P2860
Optimization of media composition for Nattokinase production by Bacillus subtilis using response surface methodology.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh-hant
name
Optimization of media composit ...... response surface methodology.
@en
Optimization of media composit ...... response surface methodology.
@nl
type
label
Optimization of media composit ...... response surface methodology.
@en
Optimization of media composit ...... response surface methodology.
@nl
prefLabel
Optimization of media composit ...... response surface methodology.
@en
Optimization of media composit ...... response surface methodology.
@nl
P2093
P1476
Optimization of media composit ...... response surface methodology.
@en
P2093
G Sangiliyandi
K Kalishwaralal
S R Senthilkumar
S Venkatesh Babu
P304
P356
10.1016/J.BIORTECH.2008.03.018
P407
P577
2008-04-21T00:00:00Z