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The Global Market for Biocatalysts 2024-2035

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  • Published: May 2024
  • Pages: 200
  • Tables: 40
  • Figures: 7

 

Biocatalysts are increasingly being adopted due to the important role they play in helping meet the more prominent sustainability goals of the pharmaceutical, agrochemical, and fine chemical industries. Biocatalysts offer several advantages over traditional chemical catalysts including:

  • High reaction specificity leading to less by-products and simpler purification
  • Ability to perform challenging chemistries not feasible by conventional organic synthesis
  • Mild reaction conditions like ambient temperatures and neutral pH enabling energy savings
  • Reduced use of toxic reagents and solvents aligned with green chemistry principles
  • Improved stereoselectivity for production of single enantiomers critical for pharmaceutical activity
  • Flexible substrate scope from natural enzyme evolution
  • Biodegradability and derived from renewable resources

 

The Global Market for Biocatalysts 2024-2035 is a comprehensive market research report that provides an in-depth analysis of the rapidly evolving biocatalysts industry. This report covers the current state and future prospects of various types of biocatalysts, including enzymes, microorganisms, and engineered biocatalysts, as well as their applications across diverse sectors such as food and beverage, pharmaceuticals, chemicals, textiles, paper and pulp, and biofuels.

  • Executive summary: concise overview of the global biocatalysts market, including market size and growth projections, major players, competitive landscape, and future outlook. The introduction section provides a clear definition and classification of biocatalysts, along with a brief history of their evolution and the importance of biocatalysts in industrial processes.
  • Technology overview: covering various aspects of biocatalyst technology such as biotransformations, cascade biocatalysis, co-factor recycling, and immobilization. The report also delves into the different types of biocatalysts, including enzymes, microorganisms (bacteria, fungi, yeast, and archaea), engineered biocatalysts (directed evolution, rational design, semi-rational design, immobilization, and fusion proteins), and other types such as ribozymes, DNAzymes, abzymes, nanozymes, and organocatalysts. The production methods and processes for biocatalysts, such as fermentation, recombinant DNA technology, cell-free protein synthesis, extraction from natural sources, and solid-state fermentation, are also discussed in detail.
  • Emerging technologies and innovations in biocatalysis: including synthetic biology and metabolic engineering, generative biology and artificial intelligence, genome engineering, immobilization and encapsulation techniques, biomimetics, nanoparticle-based biocatalysts, biocatalytic cascades and multi-enzyme systems, and microfluidics.
  • Market analysis: provides valuable insights into the market drivers, challenges, price and cost analysis, supply chain, and opportunities. The report also covers the regulatory framework and government initiatives related to biocatalysts. A comprehensive analysis of the markets and applications for biocatalysts is presented, covering sectors such as food and beverage, pharmaceutical and biotechnology, chemicals, textiles, paper and pulp, biofuels and bioenergy, and other emerging applications like cosmetics and personal care, leather processing, mining and metal extraction, environmental remediation, and waste valorization. The report includes global revenue forecasts for biocatalysts by market and region, as well as a detailed competitive landscape analysis.

 

Additionally, the report features 60 company profiles of key players in the biocatalysts industry, providing valuable insights into their strategies, products, and technologies. Companies profiled include Aether Bio, Basecamp Research, Cascade Biocatalysts, Constructive Bio, Debut Biotechnology, Enginzyme AB, eversyn, FabricNano, Johnson Matthey, Novozymes A/S and Protein Evolution.

 

 

 

1             EXECUTIVE SUMMARY 11

  • 1.1         Overview of the global biocatalysts market      11
  • 1.2         Market size and growth projections      12
  • 1.3         Major players and competitive landscape         13
  • 1.4         Future outlook 14

 

2             INTRODUCTION             15

  • 2.1         Definition and classification of biocatalysts    15
  • 2.2         History and evolution of biocatalysts   16
  • 2.3         Importance of biocatalysts in industrial processes       17

 

3             TECHNOLOGY OVERVIEW        20

  • 3.1         Overview of biocatalyst technology      20
    • 3.1.1     Biotransformations      21
    • 3.1.2     Cascade biocatalysis  21
    • 3.1.3     Co-factor recycling       21
    • 3.1.4     Immobilization 22
  • 3.2         Types of biocatalysts   23
    • 3.2.1     Enzymes             24
    • 3.2.2     Feedstocks       26
    • 3.2.3     Protein/Enzyme Engineering    27
    • 3.2.4     Microorganisms             28
      • 3.2.4.1 Bacteria              29
      • 3.2.4.2 Fungi    29
      • 3.2.4.3 Yeast    30
      • 3.2.4.4 Archaea              32
    • 3.2.5     Engineered biocatalysts             33
      • 3.2.5.1 Directed Evolution         33
      • 3.2.5.2 Rational Design               34
      • 3.2.5.3 Semi-Rational Design  35
      • 3.2.5.4 Immobilization 36
      • 3.2.5.5 Fusion Proteins               36
    • 3.2.6     Other types       38
      • 3.2.6.1 Ribozymes        38
      • 3.2.6.2 DNAzymes        39
      • 3.2.6.3 Abzymes            40
      • 3.2.6.4 Nanozymes      41
      • 3.2.6.5 Organocatalysts             42
  • 3.3         Production methods and processes     43
    • 3.3.1     Fermentation   44
    • 3.3.2     Recombinant DNA technology 47
    • 3.3.3     Cell-Free Protein Synthesis      48
    • 3.3.4     Extraction from Natural Sources            49
    • 3.3.5     Solid-State Fermentation          50
  • 3.4         Emerging technologies and innovations in biocatalysis              51
    • 3.4.1     Synthetic biology and metabolic engineering  51
      • 3.4.1.1 Batch biomanufacturing            57
      • 3.4.1.2 Continuous biomanufacturing 58
      • 3.4.1.3 Fermentation Processes            59
      • 3.4.1.4 Cell-free synthesis        59
  • 3.4.2     Generative biology and Artificial Intelligence (AI)           63
    • 3.4.2.1 Molecular Dynamics Simulations         63
    • 3.4.2.2 Quantum Mechanical Calculations      64
    • 3.4.2.3 Systems Biology Modeling         64
    • 3.4.2.4 Metabolic Engineering Modeling            65
  • 3.4.3     Genome engineering    67
  • 3.4.4     Immobilization and encapsulation techniques               69
  • 3.4.5     Biomimetics    70
  • 3.4.6     Nanoparticle-based biocatalysts          70
  • 3.4.7     Biocatalytic cascades and multi-enzyme systems       73
  • 3.4.8     Microfluidics    74

 

4             MARKET ANALYSIS       77

  • 4.1         Market drivers  77
  • 4.2         Market challenges         78
  • 4.3         Price and cost analysis               80
  • 4.4         Market supply chain     81
  • 4.5         Market opportunities    82
  • 4.6         Regulatory framework and government initiatives        84
  • 4.7         Markets and applications          86
    • 4.7.1     Food and beverage        88
      • 4.7.1.1 Dairy products 89
      • 4.7.1.2 Bakery and confectionery          89
      • 4.7.1.3 Brewing and winemaking           90
      • 4.7.1.4 Other food and beverage applications 91
    • 4.7.2     Pharmaceutical and biotechnology      93
      • 4.7.2.1 Drug synthesis and manufacturing       93
      • 4.7.2.2 Vaccine production      94
      • 4.7.2.3 Diagnostic and therapeutic enzymes  95
      • 4.7.2.4 Personalized medicine and drug discovery       95
      • 4.7.2.5 Other pharmaceutical and biotech applications            96
    • 4.7.3     Chemicals         98
      • 4.7.3.1 Polymers and plastics 98
      • 4.7.3.2 Agrochemicals and fertilizers  99
      • 4.7.3.3 Detergents and cleaning products         101
      • 4.7.3.4 Other chemical applications   102
    • 4.7.4     Textiles               104
      • 4.7.4.1 Textile processing and finishing              105
      • 4.7.4.2 Denim and jeans manufacturing            107
      • 4.7.4.3 Other textile applications          108
    • 4.7.5     Paper and pulp 110
      • 4.7.5.1 Pulping and bleaching 112
      • 4.7.5.2 Deinking and recycling 113
      • 4.7.5.3 Other paper and pulp applications       114
    • 4.7.6     Biofuels and bioenergy 114
      • 4.7.6.1 Bioethanol production 115
      • 4.7.6.2 Biodiesel production    115
      • 4.7.6.3 Biogas and biomethane production      116
      • 4.7.6.4 Metabolic Engineering for Biofuel Synthesis    117
    • 4.7.7     Other emerging applications    119
      • 4.7.7.1 Cosmetics and personal care  120
      • 4.7.7.2 Leather processing       121
      • 4.7.7.3 Mining and metal extraction     122
      • 4.7.7.4 Environmental remediation and waste treatment         122
      • 4.7.7.5 Waste valorization and circular economy          123
  • 4.8         Global revenues             126
    • 4.8.1     By market          126
    • 4.8.2     By region            128
  • 4.9         Competitive Landscape             130

 

5             COMPANY PROFILES  133 (60 company profiles)

 

6             RESEARCH METHODOLOGY   191

 

7             LIST OF ABBREVIATIONS           192

 

8             GLOSSARY OF TERMS 195

 

9             REFERENCES   197

 

List of Tables

  • Table 1. Comparison of types of biocatalysts. 23
  • Table 2. Types of Enzyme Biocatalysts.              24
  • Table 3. Common microbial hosts used for enzyme production.           25
  • Table 4. Enzyme feedstocks.    26
  • Table 5. Engineered proteins in industrial applications.             28
  • Table 6. Types of Microorganism Biocatalysts.               28
  • Table 7. Commonly used bacterial hosts.          29
  • Table 8. Examples of fungal hosts.         29
  • Table 9. Commonly used yeast hosts. 30
  • Table 10. Types of Engineered Biocatalysts.     33
  • Table 11. Production methods for biocatalysts.             43
  • Table 12. Fermentation processes.       44
  • Table 13. Waste-based feedstocks and biochemicals produced.          44
  • Table 14. Microbial and mineral-based feedstocks and biochemicals produced.         45
  • Table 15.  Key biomanufacturing processes utilized in synthetic biology.          55
  • Table 16. Molecules produced through industrial biomanufacturing. 56
  • Table 17. Continuous vs batch biomanufacturing         57
  • Table 18. Key fermentation parameters in batch vs continuous biomanufacturing processes.              57
  • Table 19. Synthetic biology fermentation processes.  59
  • Table 20. Cell-free versus cell-based systems 60
  • Table 21. Key applications of genome engineering.      68
  • Table 22. Types of Nanoparticle Biocatalysts. 70
  • Table 23. Types of Biocatalytic Cascades and Multi-Enzyme Systems.              73
  • Table 24. Market drivers for biocatalysts.          77
  • Table 25. Market challenges in biocatalysts.    78
  • Table 26. Price and Costs Analysis for biocatalysts.     80
  • Table 27. Regulatory framework and government initiatives pertaining to biocatalysts.            84
  • Table 28. Markets and applications for biocatalysts.   86
  • Table 29. Applications of Biocatalysts in Food and Beverage. 88
  • Table 30. Applications of Biocatalysts in Pharma and Biotechnology. 93
  • Table 31. Applications of Biocatalysts in the Chemicals Industry.         98
  • Table 32. Applications of Biocatalysts in Textiles.         104
  • Table 33. Applications of Biocatalysts in Paper and Pulp.          110
  • Table 34. Applications of Biocatalysts in Biofuels and Energy. 114
  • Table 35. Global market size and forecast for biocatalysts, by application segment (millions USD).   126
  • Table 36. Global market for biocatalysts, by region, 2020-2035 (millions USD).             128
  • Table 37.  Overview of the competitive landscape.       130
  • Table 38. Strategic collaborations and partnerships    131
  • Table 39. List of Abbreviations.               192
  • Table 40. Glossary of terms.     195

 

List of Figures

  • Figure 1. History and evolution of biocatalysts.              16
  • Figure 2. Cell-free and cell-based protein synthesis systems. 62
  • Figure 3. Biocatalysts Supply Chain.    81
  • Figure 4. Global market size and forecast for biocatalysts, by application segment(millions USD).     127
  • Figure 5. Global market for biocatalysts, by region, 2020-2035 (millions USD).              128
  • Figure 6. Light Bio Bioluminescent plants.        180
  • Figure 7. METNIN™ Lignin refining technology. 182

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

The Global Market for Biocatalysts 2024-2035
The Global Market for Biocatalysts 2024-2035
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