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Synthetic Biology Advantages in Different Fields

Bioengineering is the merging of engineering principals and biological systems in order to design and develop new bio-based technologies. For more details visit: https://www.biobasic.com/gene-synthesis/

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Synthetic Biology Advantages in Different Fields

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  1. Synthetic Biology Advantages in Different Fields By Bio Basic

  2. Bioengineering Bioengineering is the merging of engineering principals and biological systems in order to design and develop new bio-based technologies. Disciplines are diverse, ranging from applications in bio-medical research to agricultural engineering. Just a few examples of the type of exploration conducted under bioengineering include:

  3. Addressing food scarcity through identification of key markers that impact drought resistance, growth, and nutrition • Developing techniques for organ and tissue regeneration • Bioengineered medical devices

  4. Neuroscience Neuroscience is the study of the nervous system, it includes everything from behavioural and cognitive brain function to nerves and the spinal cord. In neuroscience applications, gene synthesis is used to help researchers study within the field of genetic engineering. Codon optimized synthesized genes can be used to visualize and study various neuronal pathways, allowing neurobiologists and researchers to work with the synaptic signalling mechanisms that control everything from addiction to memory loss. Gene synthesis has helped paved the way to cutting-edge advances in this rapidly evolving field.

  5. Vaccine Design The creation of vaccines for infectious diseases has never been more important, and gene synthesis has been able to help fast-track research, design, and development within this field. De novo gene synthesis and codon optimization have allowed researchers to benefit from an enhanced antigenic specificity and identification of vaccine adjuvants, which produce stronger immune responses, giving hope that better vaccines can be developed to combat everything from seasonal flu and emerging influenzas, to oncogenic viruses and cancer-related infections.

  6. Therapeutic Antibodies Therapeutic antibodies, typically monoclonal antibodies, are lab-grown molecules used in the creation of drug treatments for a number of conditions, including autoimmunity, inflammatory diseases, and cancer. They work by triggering a desired immune response, whether that be suppression, activation, or change. Gene synthesis is widely used in this field to provide researchers with custom codon-optimized gene sequences that help to improve the expression of antigenic proteins and peptides, and aid in the development of these antibody-based drugs.

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