AI Article Synopsis
- Recombinant active peptides are used in diagnostics, therapeutics, and food preservation, leading to an increase in the production of approximately 19 approved biotech peptides, ranging from 1 to 100 amino acids.
- Most peptides are made through chemical synthesis, but longer and complex peptides are challenging to produce in sufficient quantities; recombinant methods offer a cost-effective, simple, and environmentally friendly alternative with good yields.
- This review highlights various recombinant active peptides, their roles in antibacterial, antifungal, antiviral, anticancer, antioxidant, antimalarial, and immune-modulatory functions, while also discussing their modes of expression to guide future research in this field.
Article Abstract
Recombinant active peptides are utilized as diagnostic and biotherapeutics in various maladies and as bacterial growth inhibitors in the food industry. This consequently stimulated the need for recombinant peptides' production, which resulted in about 19 approved biotech peptides of 1- 100 amino acids commercially available. While most peptides have been produced by chemical synthesis, the production of lengthy and complicated peptides comprising natural amino acids has been problematic with low quantity. Recombinant peptide production has become very vital, costeffective, simple, environmentally friendly with satisfactory yields. Several reviews have focused on discussing expression systems, advantages, disadvantages, and alternatives strategies. Additionally, the information on the antimicrobial activities and other functions of multiple recombinant peptides is challenging to access and is scattered in literature apart from the food and drug administration (FDA) approved ones. From the reports that come to our knowledge, there is no existing review that offers substantial information on recombinant active peptides developed by researchers and their functions. This review provides an overview of some successfully produced recombinant active peptides of ≤100 amino acids by focusing on their antibacterial, antifungal, antiviral, anticancer, antioxidant, antimalarial, and immune-modulatory functions. It also elucidates their modes of expression that could be adopted and applied in future investigations. We expect that the knowledge available in this review would help researchers involved in recombinant active peptide development for therapeutic uses and other applications.
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| http://dx.doi.org/10.2174/1389201022666210702123934 | DOI Listing |
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