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Bio-Polymer Research Co., Ltd. | 論文
- Subsite Structure of Exo-1, 4-β-Glucosidase from Acetobacter xylinum BPR2001
- Purification and Characterization of Exo-1, 4-β-Glucosidase from Acetobacter xylinum BPR2001
- A Beta-Glucosidase Gene Downstream of the Cellulose Synthase Operon in Cellulose-producing Acetobacter
- Two Types of Cellulase Activity Produced by a Cellulose-Producing Acetobacter Strain
- Addition of a Small Amount of an Endoglucanase Enhances Cellulose Production by A cetobacter xylinum
- Acetobacter xylinum Mutant with High Cellulose Productivity and an Ordered Structure
- Relationship between the Physical Properties and Surface Area of Cellulose Derived from Adsorbates of Various Molecular Sizes.
- Relationship between Suspension Properties and Fibril Structure of Disintegrated Bacterial Cellulose
- Acetylation of Bacterial Cellulose : Preparation of Cellulose Acetate Having a High Degree of Polymerization
- Degree of Polymerization of Cellulose from Acetobacter xylinum BPR2001 Decreased by Cellulase Produced by the Strain
- Emulsion-stabilizing Effect of Bacterial Cellulose
- Evidence for the Periodically Alternating Microfibrillar Structure of Bacterial Cellulose
- Increased Cellulose Production from Sucrose with Reduced Levan Accumulation by an Acetobacter Strain Harboring a Recombinant Plasmid
- The Characterization of Acetic Acid Bacteria Efficiently Producing Bacterial Cellulose from Sucrose : The Proposal of Acetobacter xylinum subsp. nonacetoxidans subsp. Nov.
- High Rate Production in Static Culture of Bacterial Cellulose from Sucrose by a Newly Isolated Acetobacter Strain
- Screening of Bacterial Cellulose-producing Acetobacter Strains Suitable for Sucrose as a Carbon Source
- Applicability of the K_0 Value as an Index of Freshness for Porcine and Chicken Muscles(Food & Nutrition)
- Changes in ATP-Related Compounds of Beef and Rabbit Muscles and a New Index of Freshness of Muscle(Food & Nutrition)
- A Host-Vector System for a Cellulose-Producing Acetobacter Strain
- Research Progress in Production of Bacterial Cellulose by Aeration and Agitation Culture and Its Application as a New Industrial Material