Mycobacterium phleiのアシル-アミノ酸に対する水解能について
スポンサーリンク
概要
著者
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亀田 幸雄
Laboratory of Antibiotics, Faculty of Pharmacy, Kanazawa University
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豊浦 悦子
Laboratory Of Antibiotics Faculty Of Pharmacy Kanazawa University
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亀田 幸雄
Laboratory Of Antibiotics Faculty Of Pharmacy Kanazawa University
関連論文
- Studies on Acylase Activity and Microorganisms. XIX. Optical Resolution of Threonine, Lysine, Tryptophan, and Methionine by Acylase of Soil Bacteria.
- Studies on Acylase Activity and Microorganisms. XX. Isolation of Soil Bacteria Capable of Resolving Tryptophan by their Acylase on N-Acetyl-DL-tryptophan.
- Studies on Acylase Activity and Microorganisms. XVII. Optical Resolution of Tryptophan, 2-Aminohexanedioic Acid, and 2-Aminooctanoic Acid by Metabolism of Soil Bacteria on Benzoyl Derivatives of DL-Amino Acids.
- Studies on Acylase Activity and Microorganisms. IX. Enzymatic Resolution of Tryptophan by a Strain of Soil Bacteria.
- Studies on Acylase Activity and Microorganisms. VIII. Enzymatic Hydrolysis of 6-N-Benzoyl-L-lysine.
- A Certain Strain of Soil Bacteria capable of metabolizing D-Forms but not L-Forms of threo-2-Phenylserine and Its Benzoyl Derivative
- Studies on Acylase Activity and Microorganisms. XI. A New Method for resolving DL-Amino Acids by Metabolism of Soil Bacteria.
- Studies on Acylase Activity and Microorganisms. X. Enzymatic Resolution of Alloisoleucine by Soil Bacteria, KT 85 (Pseudomonas sp.).
- Mycobacterium phleiのアシル-アミノ酸に対する水解能について
- 微生物のベンツオイル-アミノ酸に対する水解能について
- 微生物に関する生化学的研究(18)-井水より分離した安息香酸又はその誘導体を同化する細菌について-
- Studies on Acylase Activity and Microorganisms. XIV. A Certain Strain of Soil Bacteria capable of resolving Lysine by its Metabolism on α-N-Phenylacetyl-ε-N-benzoyl-DL-lysine
- Studies on Acylase Activity and Microorganisms. XIII. Optical Resolution of p-Methoxyphenylalanine and 3,4-Methylenedioxyphenylalanine by Metabolism of Soil Bacteria on Benzoyl Derivatives of DL-Amino Acids
- Studies on Acylase Activity and Microorganisms. XII. Optical Resolution of Glutamic and Aspartic Acids by Metabolism of Soil Bacteria on Benzoyl Derivatives of DL-Amino Acids