Your search keyword '"Ban YH"' showing total 3 results

1. Modular polyketide synthase-derived insecticidal agents: from biosynthesis and metabolic engineering to combinatorial biosynthesis for their production.

Author

Yi JS, Kim JM, Ban YH, and Yoon YJ

Subjects

Animals, Polyketide Synthases metabolism, Metabolic Engineering, Insecta, Insecticides pharmacology, Insecticides chemistry, Insecticides metabolism, Polyketides

Abstract

Covering: up to 2022Polyketides derived from actinomycetes are a valuable source of eco-friendly biochemical insecticides. The development of new insecticides is urgently required, as the number of insects resistant to more than one drug is rapidly increasing. Moreover, significant enhancement of the production of such biochemical insecticides is required for economical production. There has been considerable improvement in polyketide insecticidal agent production and development of new insecticides. However, most commercially important biochemical insecticides are synthesized by modular type I polyketide synthases (PKSs), and their structural complexities make chemical modification challenging. A detailed understanding of the biosynthetic mechanisms of potent polyketide insecticides and the structure-activity relationships of their analogs will provide insight into the comprehensive design of new insecticides with improved efficacies. Further metabolic engineering and combinatorial biosynthesis efforts, reinvigorated by synthetic biology, can eventually produce designed analogs in large quantities. This highlight reviews the biosynthesis of representative insecticides produced by modular type I PKSs, such as avermectin, spinosyn, and spectinabilin, and their insecticidal properties. Metabolic engineering and combinatorial biosynthetic strategies for the development of high-yield strains and analogs with insecticidal activities are emphasized, proposing a way to develop a next-generation insecticide.

Published

2023

2. Minor components of aminoglycosides: recent advances in their biosynthesis and therapeutic potential.

Author

Ban YH, Song MC, Park JW, and Yoon YJ

Subjects

Aminoglycosides chemistry, Animals, Anti-Bacterial Agents chemistry, Gentamicins biosynthesis, Humans, Methylation, Phosphorylation, Aminoglycosides biosynthesis, Aminoglycosides pharmacology, Anti-Bacterial Agents pharmacology

Abstract

Covering: up to 2019 There is significant demand for new aminoglycoside antibiotics due to the widespread emergence of multidrug-resistant Gram-negative bacteria and their high toxicity, but these are not easily accessible in nature because their biosynthetic gene clusters are less commonly found in actinomycetes than are other natural products. Mining minor aminoglycoside components whose pharmacological activity has not yet been assessed could be an alternative approach for the development of next-generation antibiotics for use in the post-antibiotic era. Here, we review the biosynthetic steps responsible for the structural diversity of aminoglycosides and highlight current developments regarding the use of natural minor and semi-synthetic aminoglycosides as promising therapeutic leads or candidates.

Published

2020

3. 2-Deoxystreptamine-containing aminoglycoside antibiotics: recent advances in the characterization and manipulation of their biosynthetic pathways.

Author

Park SR, Park JW, Ban YH, Sohng JK, and Yoon YJ

Subjects

Aminoglycosides chemistry, Aminoglycosides metabolism, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents metabolism, Biosynthetic Pathways, Gentamicins chemistry, Gentamicins metabolism, Hexosamines biosynthesis, Hexosamines chemistry, Hexosamines metabolism, Kanamycin chemistry, Kanamycin metabolism, Molecular Structure, Neomycin chemistry, Neomycin metabolism, Aminoglycosides biosynthesis, Anti-Bacterial Agents biosynthesis

Abstract

The 2-deoxystreptamine-containing aminoglycosides, such as neomycin, kanamycin and gentamicin, are an important class of antibiotics. A detailed understanding of the complete biosynthetic pathway of aminoglycosides and their biosynthetic enzymes will allow us to not only generate more robust antibiotic agents or drugs with other altered biological activities, but also to produce clinically important semi-synthetic antibiotics by direct fermentation. This Highlight focuses on recent advances in the characterization of their biosynthetic enzymes and pathway as well as some chemo-enzymatic and metabolic engineering approaches for the biological production of natural, semi-synthetic, and novel aminoglycosides.

Published

2013