Sulfatases Of Microbial Origin. Volume II (2018)
- Record Type:
- Book
- Title:
- Sulfatases Of Microbial Origin. Volume II (2018)
- Main Title:
- Sulfatases Of Microbial Origin.
- Further Information:
- Note: Kenneth S. Dodgson, Graham F. White, John W. Fitzgerald.
- Other Names:
- Dodgson, Kenneth S (Kenneth Scott), 1922-
White, Graham F (Graham Francis), 1947-
Fitzgerald, John W (John Walter), 1938- - Contents:
- Cover; Title Page; Copyright Page; PREFACE; THE AUTHORS; Table of Contents; Chapter 1: Hydrolysis of Phosphosulfates, Sulfamides, and Glucosinolates; I. Introduction; II. Hydrolysis of Phosphosulfate Linkages; A. Active Sulfates; B. Degradation of APS and PAPS by Mammalian Enzymes; C. Microbial Degradation of APS and PAPS; 1. Active Sulfate Degradation in Unicellular Algae and the Cyanobacteria; 2. Active Sulfate Degradation in Bacteria; 3. Active Sulfate Degradation in Fungi; D. Concluding Remarks; III. Hydrolysis of Sulfamide Linkages; A. Introduction B. The Sulfamidase of Pseudomonassp. Strain KC. Induction of the Enzyme; D. Concluding Remarks; IV. Hydrolysis of Hydroxylamine O-Sulfate (Glucosinolate) Linkages; A. Glucosinolate Substrates (Mustard Oil Glycosides); B. ""Myrosinase"" Enzymes; References; Chapter 2: Mechanisms of Enzymic and Nonenzymic Hydrolysis of Sulfate Esters; I. Introduction; II. Arylsulfatases; A. Substrate Binding; 1. Dependence on pH and Substitution in the Aryl Nucleus; 2. Hydrophobic Interactions; B. Mechanism of Hydrolysis of the Enzyme-Substrate Complexes 1. Comparison of Enzymic and Nonenzymic Hydrolyses of Aryl Sulfate Esters2. Tyramine Effects; 3. Position of Bond Cleavage; 4. Inhibition by Sulfate; 5. Functional Groups at the Active Site; III. Alkylsulfatases; A. Substrate Binding; 1. Primary Alkylsulfatase; 2. Secondary Alkylsulfatases; 3. The Nature of the Hydrophobic Interactions; B. Mechanism of Hydrolysis of the Enzyme-SubstrateCover; Title Page; Copyright Page; PREFACE; THE AUTHORS; Table of Contents; Chapter 1: Hydrolysis of Phosphosulfates, Sulfamides, and Glucosinolates; I. Introduction; II. Hydrolysis of Phosphosulfate Linkages; A. Active Sulfates; B. Degradation of APS and PAPS by Mammalian Enzymes; C. Microbial Degradation of APS and PAPS; 1. Active Sulfate Degradation in Unicellular Algae and the Cyanobacteria; 2. Active Sulfate Degradation in Bacteria; 3. Active Sulfate Degradation in Fungi; D. Concluding Remarks; III. Hydrolysis of Sulfamide Linkages; A. Introduction B. The Sulfamidase of Pseudomonassp. Strain KC. Induction of the Enzyme; D. Concluding Remarks; IV. Hydrolysis of Hydroxylamine O-Sulfate (Glucosinolate) Linkages; A. Glucosinolate Substrates (Mustard Oil Glycosides); B. ""Myrosinase"" Enzymes; References; Chapter 2: Mechanisms of Enzymic and Nonenzymic Hydrolysis of Sulfate Esters; I. Introduction; II. Arylsulfatases; A. Substrate Binding; 1. Dependence on pH and Substitution in the Aryl Nucleus; 2. Hydrophobic Interactions; B. Mechanism of Hydrolysis of the Enzyme-Substrate Complexes 1. Comparison of Enzymic and Nonenzymic Hydrolyses of Aryl Sulfate Esters2. Tyramine Effects; 3. Position of Bond Cleavage; 4. Inhibition by Sulfate; 5. Functional Groups at the Active Site; III. Alkylsulfatases; A. Substrate Binding; 1. Primary Alkylsulfatase; 2. Secondary Alkylsulfatases; 3. The Nature of the Hydrophobic Interactions; B. Mechanism of Hydrolysis of the Enzyme-Substrate Complexes; 1. Effect of Alkyl Chain Length; 2. Position of Bond Cleavage; 3. Nonenzymic Hydrolysis of Alkyl Sulfate Esters; 4. The Significance of Substitution at the Esterified Carbon Atom IV. Choline SulfataseA. Substrate Binding; B. Mechanism of Hydrolysis of the Enzyme-Substrate Complex; V. Adenosine 5'-Phosphosulfate Sulfatase; A. Substrate Binding; B. Mechanism of Hydrolysis of the Enzyme-Substrate Complex; 1. Position of Bond Cleavage; 2. Nonenzymic Hydrolysis; VI. Sulfamidase; VII. Concluding Remarks; References; Chapter 3: Physiological and Genetic Control of Sulfatase Formation and Sulfate Ester Transport; I. Introduction; II. Inducible Sulfatases; A. General Comments; B. The Inducible Alkylsulfatases; 1. Inducer Specificity 2. Catabolite Repression of Primary Alkylsulfatase Induction in Pseudomonas aeruginosa3. Adenylate Energy Charge as a Regulator of Alkylsulfatase Induction in P. aeruginosa; 4. Influence of Divalent Cations; 5. Catabolite Repression of Inducible Alkylsulfatases in Pseudomonas C12B; 6. Environmental Significance of Control by Exogenous Nucleotides; III. Derepressible Sulfatases; A. General Comments; B. Nature of Metabolite Repressers and Derepressors: Centralized Control by Inorganic Sulfate; C. Environmental Significance; D. Possibility of Partial Regulation by Adenylate Energy Charge … (more)
- Publisher Details:
- Boca Raton, FL : CRC Press
- Publication Date:
- 2018
- Extent:
- 1 online resource (208 p.)
- Subjects:
- 572.7
Sulfatases
Microbial enzymes
SCIENCE / Life Sciences / Biochemistry
Electronic books
Electronic books - Languages:
- English
- ISBNs:
- 9781351093903
1351093908
9781351085458 - Related ISBNs:
- 135108545X
9781315897905 - Notes:
- Note: Includes bibliographical references and index.
- Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Physical Locations:
- British Library HMNTS - ELD.DS.251305
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- 01_165.xml