Biotechnological Potential of Oxidative Enzymes from Actinobacteria

Roes‐Hill, Marilize Le; Prins, Alaric

doi:10.5772/61321

Cited by 18 publications

(5 citation statements)

References 158 publications

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“…This is considered a unique feature of the enzyme, which could produce a carboxylic acid that is a model for profens [7c] . Several potential biotechnological applications of oxidative enzymes derived from different species of actinobacteria have been discussed in detail previously [60] …”

Section: Stereo‐selective Reactions Catalyzed By Enzymes Derived From...mentioning

confidence: 99%

Actinobacteria as Microbial Cell Factories and Biocatalysts in The Synthesis of Chiral Intermediates and Bioactive Molecules; Insights and Applications

Salama,

Mostafa,

Husseiny

et al. 2024

Chemistry & Biodiversity

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Actinobacteria are one of the most intriguing bacterial phyla in terms of chemical diversity and bioactivities of their reported biomolecules and natural products, including various types of chiral molecules. Actinobacterial genera such as Detzia, Mycobacterium, and Streptomyces are among the microbial sources targeted for selective reactions such as asymmetric biocatalysis catalyzed by whole cells or enzymes induced in their cell niche. Remarkably, stereoselective reactions catalyzed by actinobacterial whole cells or their enzymes include stereoselective oxidation, stereoselective reduction, kinetic resolution, asymmetric hydrolysis, and selective transamination, among others. Species of actinobacteria function with high chemo‐, regio‐, and enantio‐selectivity under benign conditions, which could help current industrial processing. Numerous selective enzymes were either isolated from actinobacteria or expressed from actinobacteria in other microbes and hence exploited in the production of pure organic compounds difficult to obtain chemically. In addition, different species of actinobacteria, especially Streptomyces species, function as natural producers of chiral molecules of therapeutic importance. Herein, we discuss some of the most outstanding contributions of actinobacteria to asymmetric biocatalysis, which are important in the organic and/or pharmaceutical industries. In addition, we highlight the role of actinobacteria as microbial cell factories for chiral natural products with insights into their various biological potentialities.

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Section: Stereo‐selective Reactions Catalyzed By Enzymes Derived From...mentioning

confidence: 99%

Actinobacteria as Microbial Cell Factories and Biocatalysts in The Synthesis of Chiral Intermediates and Bioactive Molecules; Insights and Applications

Salama,

Mostafa,

Husseiny

et al. 2024

Chemistry & Biodiversity

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“…The enzymes used for textile ETP are laccase, manganese peroxidase, lignin peroxidase and tyrosinase. These enzymes can catalyze the chlorinated phenolic compounds and halogenated organic compounds [122].…”

Section: Removal Of Excess Dyementioning

confidence: 99%

Sustainable Textile Processing by Enzyme Applications

Kabir¹,

Koh²

2022

Biodegradation Technology of Organic and Inorganic Pollutants

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Enzymatic treatments have gained popularity in the textile industry because of environmental friendly and energy conserving alternatives. Advancement in biotechnology and modification of enzymes has been focused based on various textile process applications. All the manufacturing steps of textile chemical processing, enzymes are using for implementations of the green technology to meet up the challenge of fourth industrial revolution. In this category, amylases, peroxidase used for desizing and bleaching, cellulase activates for bio polishing and denim finishing. This chapter summarizes the current developments of enzyme technology and highlights the environment-friendly and sustainable enzymatic textile processing in the textile industry.

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“…DNA ligases, restriction enzymes, and polymerases are used in genetic engineering to alter DNA for restriction digestion and polymerase chain reactions. In addition, they can be employed in forensic science (Le Roes-Hill & Prins, 2016).…”

Section: Application In Molecular Biologymentioning

confidence: 99%

“…This breakthrough allowed enzymes to be integrated into real commercial goods and processes, such as in the detergent, textile, and starch sectors. Recombinant DNA technology has helped to enhance manufacturing processes and commercialize enzymes that were previously unavailable (Le Roes-Hill & Prins, 2016). Furthermore, technological advances such as protein engineering and guided evolution altered the marketing of industrially significant enzymes.…”

Section: Introductionmentioning

confidence: 99%

Current Perspective on Relevance and Applications of Microbial Enzymes in Industries: A Review

Pandit¹

2022

Modern Approaches in Chemical and Biological Sciences

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Microorganisms' biocatalytic capacity has been used to make bread, wine, vinegar, and other familiar items for generations, although the biochemical foundation of their constituents is unknown. Microbial enzymes have gained appeal for their widespread application in industries and medicine due to their stability, catalytic activity, and ease of production procedures and optimization. Enzymes' usage in a variety of sectors (e.g., food, agriculture, chemicals, and medications) is fast rising due to its shorter processing time, low energy input, cost efficiency, nontoxic, and environmentally benign features. Toxic chemical substances in industrial and residential wastes (nitriles, amines, phenolic compounds and so on) can also be degraded or transformed by microbial enzymes.

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Biotechnological Potential of Oxidative Enzymes from Actinobacteria

Cited by 18 publications

References 158 publications

Actinobacteria as Microbial Cell Factories and Biocatalysts in The Synthesis of Chiral Intermediates and Bioactive Molecules; Insights and Applications

Actinobacteria as Microbial Cell Factories and Biocatalysts in The Synthesis of Chiral Intermediates and Bioactive Molecules; Insights and Applications

Sustainable Textile Processing by Enzyme Applications

Current Perspective on Relevance and Applications of Microbial Enzymes in Industries: A Review

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