Publications by authors named "Hyunbin Lee"

5-Fluorouracil (5-FU) is a commonly used chemotherapy drug that effectively destroys cancer cells. Despite its widespread use and efficacy, it also presents considerable challenges, particularly with adverse effects on rapidly dividing normal cells, such as keratinocytes. These detrimental effects are attributed to inflammatory, oxidative, and apoptotic potentials, leading to severe skin disorders.

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Collagen and hyaluronic acid are essential components of the dermis that collaborate to maintain skin elasticity and hydration due to their unique biochemical properties and interactions within the extracellular matrix. Prolonged exposure to glucocorticoids can induce skin aging, which manifests as diminished collagen content and hyaluronic acid levels in the dermis. Nerol, a monoterpene alcohol found in essential oils, was examined in this study for its potential to counteract glucocorticoid-induced skin aging and the underlying mechanism behind its effects.

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Ribosomally synthesized and post-translationally modified peptides (RiPPs) are a structurally diverse class of natural products with a distinct biosynthetic logic, the enzymatic modification of genetically encoded precursor peptides. Although their structural and biosynthetic diversity remains largely underexplored, the identification of novel subclasses with unique structural motifs and biosynthetic pathways is challenging. Here, it is reported that peptide/protein L-aspartyl O-methyltransferases (PAMTs) present in several RiPP subclasses are highly homologous.

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Cytochrome P450 enzymes (P450s) catalyze diverse oxidative cross-coupling reactions between aromatic substrates in the natural product biosynthesis. Specifically, P450s install distinct biaryl macrocyclic linkages in three families of ribosomally synthesized and post-translationally modified peptides (RiPPs). However, the chemical diversity of biaryl-containing macrocyclic RiPPs remains largely unexplored.

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Cihunamides A-D (1-4), novel antibacterial RiPPs, were isolated from volcanic-island-derived Streptomyces sp. The structures of 1-4 were elucidated by H, C, and N NMR, MS, and chemical derivatization; they contain a tetrapeptide core composed of WNIW, cyclized by a unique C-N linkage between two Trp units. Genome mining of the producer strain revealed two biosynthetic genes encoding a cytochrome P450 enzyme and a precursor peptide.

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Backbone methylation is one of the prominent peptide modifications that can greatly enhance the pharmacological properties of a peptide. Naturally occurring backbone methylated peptides are produced via nonribosomal or ribosomal pathways, the latter of which was only recently identified in the borosin family of ribosomally synthesized and post-translationally modified peptides. Although previous bioinformatic analyses have revealed new putative genes for borosin biosynthesis, the natural scope of structural and biosynthetic diversity of the borosin family has not been thoroughly explored.

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Methods that can randomly introduce mutations in the microbial genome have been used for classical genetic screening and, more recently, the evolutionary engineering of microbial cells. However, most methods rely on either cell-damaging agents or disruptive mutations of genes that are involved in accurate DNA replication, of which the latter requires prior knowledge of gene functions, and thus, is not easily transferable to other species. In this study, we developed a new mutator for in vivo mutagenesis that can directly modify the genomic DNA.

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ω-Ester-containing peptides (OEPs) are a family of ribosomally synthesized and post-translationally modified peptides (RiPPs) containing intramolecular ω-ester or ω-amide bonds. Although their distinct side-to-side connections may create considerable topological diversity of multicyclic peptides, it is largely unknown how diverse ring patterns have been developed in nature. Here, using genome mining of biosynthetic enzymes of OEPs, we identified genes encoding nine new groups of putative OEPs with novel core consensus sequences, disclosing a total of ∼1500 candidate OEPs in 12 groups.

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The modular biosynthetic pathway of ribosomally synthesized and post-translationally modified peptides (RiPPs) enhances their engineering potential for exploring new structures and biological functions. The ω-ester-containing peptides (OEPs), a subfamily of RiPPs, have distinct side-to-side ester or amide linkages and frequently present more than one macrocyclic domain in a "beads-on-a-string" structure. In an effort to improve the engineering potential of RiPPs, we present here the idea that the multidomain architecture of an OEP, plesiocin, can be exploited to create a bifunctional modified peptide.

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Microviridins are ribosomally synthesized and post-translationally modified peptides (RiPPs) that contain multiple intramolecular ω-ester or ω-amide crosslinks between two side chains in peptides. This type of the side-to-side macrocyclization may generate diverse structures with distinct topology and ring sizes, but the majority of the microviridin-like RiPPs present only a single consensus sequence with a tricyclic architecture. Here, we expanded the natural diversity of the microviridin-like modified peptides by determining the crosslinking connectivity of a new modified peptide, mTgnA and its homologous RiPPs, which we named the thuringinin group.

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Macrocyclization of peptides is often employed to generate novel structures and biological activities in the biosynthesis of natural products and drug discovery. The enzymatic cross-linking of two side chains in a peptide via an ester or amide has a high potential for making topologically diverse cyclic peptides but is found with only a single consensus sequence in the microviridin class of natural products. Here, we report that a peptide with a new sequence pattern can be enzymatically cross-linked to make a novel microviridin-like peptide, plesiocin, which contains four repeats of a distinct hairpin-like bicyclic structure and shows strong inhibition of proteases.

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