Novel Enzyme Technologies for Pharmaceutical Applications

Novel Enzyme Technologies for Pharmaceutical Applications

A Review of Novel Enzyme Technologies and Enzyme Applications in API Production, Therapeutics, Diagnosis, Medical Detergents, and Enzyme Expression Systems, Including Enzyme Manufacturing for Pharmaceuticals

RELEASE DATE
30-Dec-2019
REGION
Global
Research Code: D8F6-01-00-00-00
SKU: HC03254-GL-TR_23953
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Description

The current study discusses the novel enzyme technologies for enzyme discovery and improvement such as directed mutagenesis, metagenomics, artificial intelligence and computational biology approaches and highthroughput technologies used for generation of enzyme variant libraries. Additionally, novel enzyme applications and potential applications in medical sciences such as enzymes as cancer therapeutics, enzymes used to dissolve blood clots, enzyme used for production of active pharmaceutical ingredients, enzymes in digestive and gastrointestinal disease treatment, enzymes in diagnostics and enzyme based biosensors are covered. Enzyme replacement therapy and enzymes used in antibody-drug conjugates generation are also reviewed. Bacteriophage endolysins are being developed as next generation antibacterials (enzybiotics) to counter antibiotic resistance make into this study. The later part of this study mostly deals with enzyme expression systems, cell based and cell-free enzyme expression, and production including continuous processing, process intensification as well as enzyme purification with brief introduction about enzymes in medical detergents.

Table of Contents

1.1 Research Background: Enzyme Technologies for Pharmaceutical Applications

1.2 Research Scope: Advances in Enzyme Technologies for Pharmaceutical Applications

1.3 Analysis Framework: Frost & Sullivan Core Value

1.4 Research Methodology: Five Steps Toward Success

1.5 Key Findings of Novel Enzyme Technologies for Pharmaceutical Applications

2.1 Reported Advances in Enzyme Technologies

2.2 Waves of Technological Developments in Biocatalysis

3.1 Directed Mutagenesis of Enzymes

3.2 Artificial Intelligence-driven Directed Mutagenesis of Enzymes

3.3 Designing Custom Enzymes Through Computational Biology

4.1 Metagenomics Approach for Unculturable Microorganisms

4.2 Customized Enzyme Development and Manufacturing

4.3 Automated Web-based Metagenomics Software

5.1 Enzymes in Active Pharmaceutical Ingredient Manufacturing

5.2 Sustainable Production of Antimalarial Drugs Through Enzyme Engineering

5.3 Pharmaceutical Enzyme Enzyme Manufacturers in India

5.4 Enzyme-based Strategies for Antibody Labeling

6.1 Applications of Fibrinolytic Enzymes in Thrombosis

6.2 Enzybiotics: Enzyme-powered Antibacterials

6.3 Commercialized Endolysin Products

6.4 Enzybiotics Under Clinical Development

6.5 Enzymes in Cancer Therapy

6.6 Potential Enzyme Targets in Metabolic Anticancer Therapy

6.7 Enzyme for Improved Bioavailability of Anticancer Drugs

6.8 Digestive Enzyme Supplements for Gastrointestinal Disorders

6.9 Novel Enzyme Therapy for Celiac Disease

6.10 Enzymatic Solutions for Lactose Intolerance and Gluten Sensitivity

7.1 Enzymes in Electrochemical Biosensors

7.2 Glucose Oxidase-based Glucose Monitoring Biosensors

7.3 Enzyme Immobilization Using ZnO Nanotubes

7.4 Applying CRISPR/Cas for Rapid Point-of-Care Diagnosis

7.5 Combination of CRISPR and Synthetic Biology Tools for Molecular Diagnostics

8.1 Enzyme Replacement Therapies for Rare Genetic Diseases

8.2 Commercially Available Enzyme Replacement Therapies

9.1 Efficient Degradation of Organic Matter through Enzymatic Medical Detergents

9.2 Optimized Enzymatic Detergents Exceed the Clinical Standard for Dirty Instruments Cleaning

10.1 Various Expression Systems for Enzyme Production

10.2 Viral Vector-based Enzyme Production

10.3 Cell-free Enzyme Production

11.1 Common Route of Enzyme Production

11.2 Typical Workflow of Downstream Processing

11.3 Process Intensification and Continuous Manufacturing

11.4 Key Elements for Applying Biocatalysis in Pharmaceutical Processes

12.1 Enzyme Technology Roadmap for Pharmaceutical Applications

13.1 Industry Interactions

13.1 Industry Interactions (continued)

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Related Research
The current study discusses the novel enzyme technologies for enzyme discovery and improvement such as directed mutagenesis, metagenomics, artificial intelligence and computational biology approaches and highthroughput technologies used for generation of enzyme variant libraries. Additionally, novel enzyme applications and potential applications in medical sciences such as enzymes as cancer therapeutics, enzymes used to dissolve blood clots, enzyme used for production of active pharmaceutical ingredients, enzymes in digestive and gastrointestinal disease treatment, enzymes in diagnostics and enzyme based biosensors are covered. Enzyme replacement therapy and enzymes used in antibody-drug conjugates generation are also reviewed. Bacteriophage endolysins are being developed as next generation antibacterials (enzybiotics) to counter antibiotic resistance make into this study. The later part of this study mostly deals with enzyme expression systems, cell based and cell-free enzyme expression, and production including continuous processing, process intensification as well as enzyme purification with brief introduction about enzymes in medical detergents.
More Information
No Index No
Podcast No
Author Harshal Patil
Industries Healthcare
WIP Number D8F6-01-00-00-00
Is Prebook No