Yoshinori Sugai scite author profile

Although some diazo compounds have bioactivities of medicinal interest, little is known about diazo group formation in nature. Here we describe an unprecedented nitrous acid biosynthetic pathway responsible for the formation of a diazo group in the biosynthesis of the ortho-diazoquinone secondary metabolite cremeomycin in Streptomyces cremeus. This finding provides important insights into the biosynthetic pathways not only for diazo compounds but also for other naturally occurring compounds containing nitrogen-nitrogen bonds.

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Minimal lactazole scaffold for in vitro thiopeptide bioengineering

Vinogradov

Shimomura

Goto

et al. 2020

Nat Commun

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Lactazole A is a cryptic thiopeptide from Streptomyces lactacystinaeus, encoded by a compact 9.8 kb biosynthetic gene cluster. Here, we establish a platform for in vitro biosynthesis of lactazole A, referred to as the FIT-Laz system, via a combination of the flexible in vitro translation (FIT) system with recombinantly produced lactazole biosynthetic enzymes. Systematic dissection of lactazole biosynthesis reveals remarkable substrate tolerance of the biosynthetic enzymes and leads to the development of the minimal lactazole scaffold, a construct requiring only 6 post-translational modifications for macrocyclization. Efficient assembly of such minimal thiopeptides with FIT-Laz opens access to diverse lactazole analogs with 10 consecutive mutations, 14- to 62-membered macrocycles, and 18 amino acid-long tail regions, as well as to hybrid thiopeptides containing non-proteinogenic amino acids. This work suggests that the minimal lactazole scaffold is amenable to extensive bioengineering and opens possibilities to explore untapped chemical space of thiopeptides.

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Acyltransferase that catalyses the condensation of polyketide and peptide moieties of goadvionin hybrid lipopeptides

et al. 2020

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Dissection of goadsporin biosynthesis by in vitro reconstitution leading to designer analogues expressed in vivo

et al. 2017

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Goadsporin (GS) is a member of ribosomally synthesized and post-translationally modified peptides (RiPPs), containing an N-terminal acetyl moiety, six azoles and two dehydroalanines in the peptidic main chain. Although the enzymes involved in GS biosynthesis have been defined, the principle of how the respective enzymes control the specific modifications remains elusive. Here we report a one-pot synthesis of GS using the enzymes reconstituted in the ‘flexible' in vitro translation system, referred to as the FIT–GS system. This system allows us to readily prepare not only the precursor peptide from its synthetic DNA template but also 52 mutants, enabling us to dissect the modification determinants of GodA for each enzyme. The in vitro knowledge has also led us to successfully produce designer GS analogues in vivo . The methodology demonstrated in this work is also applicable to other RiPP biosynthesis, allowing us to rapidly investigate the principle of modification events with great ease.

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Enzymatic 13C Labeling and Multidimensional NMR Analysis of Miltiradiene Synthesized by Bifunctional Diterpene Cyclase in Selaginella moellendorffii

Sugai

Ueno

Hayashi

et al. 2011

Journal of Biological Chemistry

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Background:A model lycophyte, Selaginella moellendorffii, has a unique bifunctional terpene cyclase gene. Results: The bifunctional cyclase synthesized miltiradiene from geranylgeranyl diphosphate via (ϩ)-copalyl diphosphate. Conclusion: Fully 13 C-labeled miltiradiene was unambiguously elucidated by multidimensional NMR analyses. Significance: Enzymatic synthesis of highly enriched biosynthetic products enables one-dimensional and multidimensional 13 C NMR studies.

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Yoshinori Sugai

A nitrous acid biosynthetic pathway for diazo group formation in bacteria

Minimal lactazole scaffold for in vitro thiopeptide bioengineering

Acyltransferase that catalyses the condensation of polyketide and peptide moieties of goadvionin hybrid lipopeptides

Dissection of goadsporin biosynthesis by in vitro reconstitution leading to designer analogues expressed in vivo

Enzymatic 13C Labeling and Multidimensional NMR Analysis of Miltiradiene Synthesized by Bifunctional Diterpene Cyclase in Selaginella moellendorffii

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