Scale-up and chemical process for microbial production of plant-derived bioactive compounds : from laboratory to industry.

This book provides a comprehensive overview of the processes involved in the microbial production of plant-derived bioactive compounds, from laboratory research to commercial production. It covers various aspects of scale-up and chemical processes, including optimization of fermentation, metabolic e...

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Bibliographic Details
Corporate Author:	ScienceDirect (Online service)
Format:	eBook
Language:	English
Published:	[S.l.] : Academic Press, 2024.
Series:	Developments in microbial cell factories
Subjects:	Bioactive compounds. Industrial microbiology. Composés bioactifs. Microbiologie industrielle. Electronic books.
Online Access:	Connect to the full text of this electronic book

Table of Contents:

Front Cover
Scale-up and Chemical Process for Microbial Production of Plant-Derived Bioactive Compounds
Copyright Page
Contents
List of contributors
1 Advances and prospects for advanced biomanufacturing
Introduction
Optimization and scale-up of fermentation process based on process parameter correlation analysis
Key technologies and applications of optimization and scale-up of biological fermentation process based on process model
Rational scale-up methodology combining cellular physiology and flow field of biochemical reactor
Intelligent biomanufacturing is a strong driving force for the transformation and upgrading of bioeconomy
Intelligent sensing of cell metabolism based on advanced online sensing technology
Intelligent analysis of biological processes based on data science
Intelligent manufacturing of industrial-scale bioprocess
Acknowledgment
References
2 Different microbial strategies used for industrial-scale production of plant-derived bioactive compounds
Metabolic engineering facilitates de novo synthesis
Typical steps
Gene identification and characterization
Suitable microbial host
Introduction of target gene
Optimization of target gene expression level
Metabolic network modification
Positive strains selection
Scale-up fermentation
Enzyme engineering for continuous biotransformation
Enzyme engineering
Identification of target enzyme with desired properties
Mutant library generation
High-throughput screening
Processing technology
Whole-cell catalysis
Cell-free catalysis
References
3 Optimization parameters for efficient scale-up of fermentation process
Introduction
Fermentation process characterization
Process data acquiring, fusing, and visualization
Laboratory scale-down tools for efficient and rational scale-up.
Emerging trends and future directions
References
4 Development of economic extraction and purification process for plant-derived bioactive compounds
Introduction
Separation and purification methods for bioactive compounds
Solvent extraction method
Microwave extraction method
Adsorption separation technology
Activated carbon adsorption separation technology
Macroporous resin adsorption separation technology
Foam separation technique
Membrane separation technology
Simulated moving bed chromatography
Supercritical fluid extraction technology
Existing problems and prospects
Acknowledgment
Declaration of interest
References
5 Screening and characterization of probiotics for large-scale production of plant-derived prebiotics
Methods for screening probiotics for plant fermentation
Isolation of probiotics from plant-based foods and in vitro studies
Whole-genome sequencing technologies
Animal models
Human clinical studies
Generation of prebiotics from engineered microbes via plant biomass fermentation
Grain fermentation to produce prebiotics
Bean fermentation for prebiotic production
Fruit and vegetable fermentation for prebiotic production
Fermentation of other plants for prebiotic production
Fermented tea
Fermented feed
Isolation of bioactive compounds
Extraction of dietary fiber, polysaccharide, and oligosaccharide
Physical methods
Water extraction
Microwave-assisted extraction
Ultrasonic extraction
Ultra-high-pressure extraction
Chemical separation
Enzyme separation
Membrane separation
Separation and extraction of functional peptides
Macroporous resin adsorption chromatography
Gel filtration chromatography
Ion exchange chromatography
Affinity chromatography
Reversed-phase high-performance liquid chromatography (RP-HPLC).
Separation and extraction of phenols
Commercial production of plant-derived bioactive compounds
Cereal-based production
Vegetable- and fruit-based production
Soy-based production
Other plant-based materials
Perspective
Acknowledgments
Declaration of interest
References
6 Designing and engineering synthetic microbiota to utilize plant lignin-based biomass for the synthesis of bioactive compounds
Introduction
Upstream processing of lignin
Lignin fractionation
Depolymerization of lignin
Acid/base-catalyzed depolymerization
Oxidative depolymerization
Reductive depolymerization
Thermochemical transformation
Photocatalytic depolymerization
Bioprocessing
Downstream bioprocessing of lignin
Efficient utilization of lignin hydrolysate by lignin-degrading bacteria
Transformation of platform compounds by lignin-degrading bacteria
Biosynthesis of value-added aromatic compounds from platform compounds
Biosynthesis of amines from platform compounds
Biosynthesis of other refined compounds from platform compounds
Conclusion and outlook
Acknowledgments
Author contributions
Competing financial interests
References
7 The principles to design and optimization of industrial bioprocesses
Introduction
Typical modes of bioprocess used in production
Batch fermentation
Continuous fermentation
Fed-batch fermentation
Design principles of the fermentation process
Each fermentation type has its optimal application scenarios
Basic principles for bioprocess design
Strategies to improve performance of bioprocess
Optimization of fermentation process based on online/offline parameters
Optimization of fermentation processes based on predictions from machine learning
Flow field optimization within bioreactors
Changing the stirring method.
Improving the flow field with baffles
Simulation and optimization of the flow fluid within the fermenter
Perspectives
Acknowledgments
Declaration of interests
References
8 The synthetic probiotic microbiota and their potential applications in the production of plant-derived products
Introduction
Probiotics derived from fermented foods
Synthetic probiotic microbiota
Production of plant-derived products using synthetic probiotic microbiota
Conclusions and perspectives
Acknowledgments
Declaration of interests
References
9 Fermentation utilizing engineered microbes: revolutionizing the production of commercial products from plant-derived bioa...
Abbreviations
Introduction
Commonly used engineered microorganisms for plant bioactive compound synthesis
Escherichia coli
Saccharomyces cerevisiae
Advances in engineering metabolic pathways for plant bioactive compound synthesis
Terpenoids
Monoterpenoids
Geraniol
Linalool
Sesquiterpenes
Artemisinin
Nerolidol
Diterpenoids
Triterpenoids
Tetraterpenoids
Alkaloids
Monoterpene indole alkaloids
Benzylisoquinoline alkaloids
Flavonoids
Flavanones
Isoflavones
Factors impacting the fermentation process of plant-derived bioactive compounds
Strain engineering and optimization
Carbon source
Nitrogen source
Incubation temperature
Three main modes: batch, fed-batch, and continuous fermentation
Batch mode
Fed-batch mode
Continuous mode
Scaling up of industrial microbial fermentations
Fermentation techniques: solid-state fermentation and submerged fermentation
Solid-state fermentation
Submerged fermentation
Challenges ahead for the microbial synthesis of plant bioactive compounds
Summary and future prospects
References.