Xiang Sun scite author profile

Xiang Sun

5Publications

76Citation Statements Received

183Citation Statements Given

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182

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Wuhan University

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Systematic mining of fungal chimeric terpene synthases using an efficient precursor-providing yeast chassis

Chen

Jia

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Chimeric terpene synthases, which consist of C-terminal prenyltransferase (PT) and N-terminal class I terpene synthase (TS) domains (termed PTTSs here), is unique to fungi and produces structurally diverse di- and sesterterpenes. Prior to this study, 20 PTTSs had been functionally characterized. Our understanding of the origin and functional evolution of PTTS genes is limited. Our systematic search of sequenced fungal genomes among diverse taxa revealed that PTTS genes were restricted to Dikarya. Phylogenetic findings indicated different potential models of the origin and evolution of PTTS genes. One was that PTTS genes originated in the common Dikarya ancestor and then underwent frequent gene loss among various subsequent lineages. To understand their functional evolution, we selected 74 PTTS genes for biochemical characterization in an efficient precursor-providing yeast system employing chassis-based, robot-assisted, high-throughput automatic assembly. We found 34 PTTS genes that encoded active enzymes and collectively produced 24 di- and sesterterpenes. About half of these di- and sesterterpenes were also the products of the 20 known PTTSs, indicating functional conservation, whereas the PTTS products included the previously unknown sesterterpenes, sesterevisene (1), and sesterorbiculene (2), suggesting that a diversity of PTTS products awaits discovery. Separating functional PTTSs into two monophyletic groups implied that an early gene duplication event occurred during the evolution of the PTTS family followed by functional divergence with the characteristics of distinct cyclization mechanisms.

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Systematic identification of Ocimum sanctum sesquiterpenoid synthases and (−)-eremophilene overproduction in engineered yeast

Deng

Shu

et al. 2022

Metabolic Engineering

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Systematic Mining and Evaluation of the Sesquiterpene Skeletons as High Energy Aviation Fuel Molecules

Huang

Wan³

et al. 2023

Advanced Science

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Sesquiterpenes have been identified as promising ingredients for aviation fuels due to their high energy density and combustion heat properties. Despite the characterization of numerous sesquiterpene structures, studies testing their performance properties and feasibility as fuels are scarce. In this study, 122 sesquiterpenoid skeleton compounds, obtained from existing literature reports, are tested using group contribution and gaussian quantum chemistry methods to assess their potential as high‐energy aviation fuels. Seventeen sesquiterpene compounds exhibit good predictive performance and nine compounds are further selected for overproduction in yeast. Through fed‐batch fermentation, all compounds achieve the highest reported titers to date. Subsequently, three representative products, pentalenene, presilphiperfol‐1‐ene, and α‐farnesene, are selected, produced, purified in large quantities, and tested for use as potential fuels. The performance of pentalenene, presilphiperfol‐1‐ene, and their derivatives reveals favorable prospects as high‐energy aviation fuels.

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Genome mining in Trichoderma viride J1-030: discovery and identification of novel sesquiterpene synthase and its products

Sun¹,

Cai²,

Yuan³

et al. 2019

Beilstein J. Org. Chem.

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Sesquiterpene synthases in Trichoderma viride have been seldom studied, despite the efficiency of filamentous fungi for terpenoid production. Using the farnesyl diphosphate-overexpressing Saccharomyces cerevisiae platform to produce diverse terpenoids, we herein identified an unknown sesquiterpene synthase from T. viride by genome mining and determined the structure of its corresponding products. One new 5/6 bicyclic sesquiterpene and its esterified derivative were characterised by GC–MS and 1D and 2D NMR spectroscopy. To the best of our knowledge, this is the first well-identified sesquiterpene synthase from T. viride to date.

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Theoretical Models for B-S Ratio and Atom Interactions on Doped Diamond Surface: A First Principle Study

Sun

Shen

et al. 2022

SSRN Journal

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Xiang Sun

Systematic mining of fungal chimeric terpene synthases using an efficient precursor-providing yeast chassis

Systematic identification of Ocimum sanctum sesquiterpenoid synthases and (−)-eremophilene overproduction in engineered yeast

Systematic Mining and Evaluation of the Sesquiterpene Skeletons as High Energy Aviation Fuel Molecules

Genome mining in Trichoderma viride J1-030: discovery and identification of novel sesquiterpene synthase and its products

Theoretical Models for B-S Ratio and Atom Interactions on Doped Diamond Surface: A First Principle Study

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