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Chemical production Metabolic pathways Engineering

Chemical production Metabolic pathways Engineering

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Chemical production Metabolic pathways Engineering

CD Biosynsis is committed to providing high-quality services to our clients. Our specialized synthetic biology platform specializes in providing tools, libraries of gene parts for metabolic pathways, and bioengineering for chemical production, as well as designing and optimizing metabolic pathways for maximum efficiency.

Fig 1. Sustainable production of chemicals by combining industrial process optimization and genetic engineering approaches.Fig 1. Sustainable production of chemicals by combining industrial process optimization and genetic engineering approaches. (Humphreys C M, et al., 2018)

Introduction to Engineering Metabolic Pathways for Chemical Production

Engineering metabolic pathways for chemical production stands as a pivotal tenet in the field of synthetic biology. This undertaking involves the design and modification of cellular pathways to facilitate the production of specific target chemicals, compounds, or materials through living organisms. This intricate process involves the manipulation of genetic, enzymatic, and regulatory components intrinsic to metabolic pathways to optimize the production process of the desired chemicals.

Advantages of Engineering Metabolic Pathways for Chemical Production

  • Sustainable Production—Traditional methods of chemical synthesis often rely on petrochemicals and harsh reaction conditions, which can be environmentally damaging. By harnessing the power of biological systems to produce chemicals, engineering metabolic pathways offers a more sustainable and eco-friendly approach.
  • Novel Compounds—This approach enables the production of complex and valuable compounds for a variety of applications, such as pharmaceuticals, biofuels and specialty chemicals, which might be challenging or economically unfeasible to synthesize using traditional methods.
  • Customization—Synthetic biology allows customizing the metabolic pathways to produce specific compounds of interest. This customization can result in higher yields, improved purity, and reduced waste, which is difficult to achieve with traditional chemical synthesis.
  • Bioremediation—Engineering metabolic pathways can be used for bioremediation, where organisms are designed to metabolize pollutants and contaminants, contributing to environmental cleanup.

Service Offering

Our services include but not limited to the following:

Pathway Design

Designing novel metabolic pathways to produce specific chemicals of interest.

Strain Engineering

Developing engineered microbial strains capable of producing target compounds efficiently.

Optimization

Using computational tools to optimize the metabolic pathways for enhanced production and yield.

High-Throughput Screening

Screening and selecting the most productive strains through automation and robotics.

Why Choose Us?

Fig 3. Expertise.

Expertise

We have specialized knowledge and a competitive edge in metabolic engineering and synthetic biology.

Fig 4. Innovative.

Innovation

Stay abreast of the latest developments in synthetic biology to deliver state-of-the-art solutions.

Fig 5. Efficiency.

Efficiency

Using computational tools and advanced techniques to expedite the design and optimization process.

Fig 6. Sustainability.

Sustainability

Providing environmentally friendly solutions through biologically-based chemical production.

CD Biosynsis offers a wide range of cutting-edge technologies and has an experienced scientific team of biologists, bioinformaticians, and chemists dedicated to helping synthetic biology researchers around the world solve any challenges they encounter in their projects. If you have any specific needs, please feel free to contact us for more details.

Reference

  1. Humphreys C M.; et al. Advances in metabolic engineering in the microbial production of fuels and chemicals from C1 gas. Current opinion in biotechnology, 2018, 50: 174-181.
Please note that all services are for research use only. Not intended for any clinical use.
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