tRNA-Dependent Aminoacylation of an Amino Sugar Intermediate in the Biosynthesis of a Streptothricin-Related Antibiotic

Author:

Maruyama Chitose1,Niikura Haruka1,Izumikawa Miho2,Hashimoto Junko2,Shin-ya Kazuo3,Komatsu Mamoru4,Ikeda Haruo4,Kuroda Makoto5,Sekizuka Tsuyoshi5,Ishikawa Jun5,Hamano Yoshimitsu1

Affiliation:

1. Department of Bioscience, Fukui Prefectural University, Yoshida-Gun, Fukui, Japan

2. Japan Biological Informatics Consortium (JBIC), Tokyo, Japan

3. National Institute of Advanced Industrial Science and Technology, Tokyo, Japan

4. Kitasato Institute for Life Sciences, Kitasato University, Sagamihara, Kanagawa, Japan

5. National Institute of Infectious Diseases, Tokyo, Japan

Abstract

ABSTRACT The antibiotic streptothricin (ST) possesses an amino sugar bound to an l -β-lysine (β-Lys) residue via a peptide bond. The peptide bond formation has been shown to be catalyzed by a nonribosomal peptide synthetase (NRPS) during ST biosynthesis. The focus of this study is the closely related ST analogue BD-12, which carries a glycine-derived side chain rather than a β-Lys residue. Here, in Streptomyces luteocolor NBRC13826, we describe our biosynthetic studies of BD-12, which revealed that the peptide bond between the amino sugar and the glycine residue is catalyzed by a Fem-like enzyme (Orf11) in a tRNA-dependent manner rather than by an NRPS. Although there have been several reports of peptide bond-forming tRNA-dependent enzymes, to our knowledge, Orf11 is the first enzyme that can accept an amino sugar as a substrate. Our findings clearly demonstrate that the structural diversity of the side chains of ST-type compounds in nature is generated in an unusual manner via two distinct peptide bond-forming mechanisms. Moreover, the identification and functional analysis of Orf11 resulted in not only the production of new ST-related compounds, but also the provision of new insights into the structure-activity relationship of the ST-related antibiotics. IMPORTANCE The antibiotic streptothricin (ST) possesses an amino sugar bound to an l -β-lysine (β-Lys) side chain via a peptide bond formed by a nonribosomal peptide synthetase (NRPS). BD-12, an analogue of ST, carries a glycine-derived side chain rather than β-Lys, and here, we describe the BD-12-biosynthetic gene cluster from Streptomyces luteocolor NBRC13826, which contains the orf11 gene encoding a novel tRNA-dependent peptide bond-forming enzyme. The unique Fem-like enzyme (Orf11) accepts the amino sugar as a substrate and mediates the peptide formation between the amino sugar intermediate and glycine. Our studies demonstrate that the structural diversity of the side chains of ST-related compounds in nature is generated via two distinct peptide bond-forming mechanisms.

Funder

Japan Society for the Promotion of Science

Ministry of Economy, Trade and Industry

Publisher

American Society for Microbiology

Subject

Ecology,Applied Microbiology and Biotechnology,Food Science,Biotechnology

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