Your search keyword '"Ramirez ME"' showing total 2 results

1. Discovery of Functional Macrocyclic Peptides by Means of the RaPID System.

Author

Tsiamantas C, Otero-Ramirez ME, and Suga H

Subjects

Amino Acids metabolism, Amino Acyl-tRNA Synthetases metabolism, Chemistry, Pharmaceutical, Cyclization, Drug Discovery, Genetic Code, Macrocyclic Compounds metabolism, Peptide Chain Initiation, Translational, Peptides, Cyclic metabolism, RNA, Catalytic genetics, Ribosomes enzymology, Ribosomes metabolism, Transfer RNA Aminoacylation physiology, Amino Acids chemistry, Macrocyclic Compounds chemistry, Peptides, Cyclic chemistry, RNA, Catalytic chemistry, RNA, Catalytic metabolism, RNA, Transfer metabolism

Abstract

Flexizymes, highly flexible tRNA aminoacylation ribozymes, have enabled charging of virtually any amino acid (including non-proteogenic ones) onto tRNA molecules. Coupling to a custom-made in vitro translation system, namely the flexible in vitro translation (FIT) system, has unveiled the remarkable tolerance of the ribosome toward molecules, remote from what nature has selected to carry out its elaborate functions. Among the very diverse molecules and chemistries that have been ribosomally incorporated, a plethora of entities capable of mediating intramolecular cyclization have revolutionized the design and discovery of macrocyclic peptides. These macrocyclization reactions (which can be spontaneous, chemical, or enzymatic) have all served as tools for the discovery of peptides with natural-like structures and properties. Coupling of the FIT system and mRNA display techniques, known as the random non-standard peptide integrated discovery (RaPID) system, has in turn allowed for the simultaneous screening of trillions of macrocyclic peptides against challenging biological targets. The macrocyclization methodologies are chosen depending on the structural and functional characteristics of the desired molecule. Thus, they can emanate from the peptide's N-terminus or its side chains, attributing flexibility or rigidity, or even result in the installation of fluorescent probes.

Published

2019

2. Submerged culture screening of two strains of Streptomyces sp. with high keratinolytic activity.

Author

Garcia-Kirchner O, Bautista-Ramirez ME, and Segura-Granados M

Abstract

Keratinases can be used for the production of potentially important hydrolyzed proteins and chemicals. This study investigated the keratinolytic activity of Streptomyces sp on keratinaceous materials like wool. High levels of proteolytic and keratinolytic activity were obtained after 96 h of culture when two Streptomyces sp strains were grown on basal medium containing mineral salts and 3% (w/v) of defatted wool as a source of energy, carbon, and nitrogen. The cell-free culture filtrates exhibited rapid proteolytic digestion of keratin powder. Currently, the authors are testing whether the enzymatic activity obtained is in fact keratinolytic, and not only an alkaline protease activity.

Published

1998