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THERMO-CHEMICAL REACTIONS AND STRUCTURAL EVOLUTION OF ACRYLAMIDE-MODIFIED POLYACRYLONITRILE 被引量:1
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作者 吕春祥 《Chinese Journal of Polymer Science》 SCIE CAS CSCD 2010年第3期367-376,共10页
Thermal properties of acrylonitrile (AN)-acrylamide (AM) copolymers for carbon fibers were studied by DSC and in situ FTIR techniques in nitrogen (N2) and air flows. The cyclization mechanism and stabilization b... Thermal properties of acrylonitrile (AN)-acrylamide (AM) copolymers for carbon fibers were studied by DSC and in situ FTIR techniques in nitrogen (N2) and air flows. The cyclization mechanism and stabilization behavior of polyacrylonitrile (PAN) were discussed. In N2 flow, it was found that AM had the ability to initiate and accelerate cyclization process, which was confirmed by the fact that the initiation of nitriles shifted to a lower temperature. Compared to AN homopolymer, the initiation temperature of cyclization was ahead 32 K by introducing 3.59 mol% AM into the copolymer. The exothermic reaction was relaxed due to the presence of two separated exothermic peaks. Accompanied by DSC, in situ FTIR and calculation of activation energy, the two peaks were proved to be caused by ionic cyclization and free radical cyclization, respectively, and the corresponding cyclization mechanism was proposed. With increasing in AM content, the ionic cyclization tends to be dominant and the total heat liberated first increases and then decreases. For AN homopolymer, the activation energy of cyclization is 179 kJ/mol. For AN-AM copolymer (containing 3.59 mol% AM), the activation energy of ionic cyclization is 96 kJ/mol and that of free radical cyclization is 338 kJ/mol. In air flow, similar cyclization routes occur and the difference is the contribution of oxidation. The oxygen in environment has no remarkable effect on cyclization of AN homopolymer but retards the cyclization of AN-AM copolymers. For AN-AM copolymer with 3.59 mol% AM, the cyclization temperature is postponed 10℃ in air. 展开更多
关键词 Carbon fibers Acrylonitrile-acrylamide copolymers Thermal properties Activation energy cyclization mechanism.
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Molecular Basis for Sesterterpene Diversity Produced by Plant Terpene Synthases 被引量:4
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作者 Qingwen Chen Jianxu Li +12 位作者 Zhixi Liu Takaaki Mitsuhashi Yuting Zhang Haili Liu Yihua Ma Juan He Tetsuro Shinada Tsutomu Sato Yong Wang Hongwei Liu Ikuro Abe Peng Zhang Guodong Wang 《Plant Communications》 2020年第5期41-52,共12页
Class I terpene synthase(TPS)generates bioactive terpenoids with diverse backbones.Sesterterpene synthase(sester-TPS,C25),a branch of class I TPSs,was recently identified in Brassicaceae.However,the catalytic mechanis... Class I terpene synthase(TPS)generates bioactive terpenoids with diverse backbones.Sesterterpene synthase(sester-TPS,C25),a branch of class I TPSs,was recently identified in Brassicaceae.However,the catalytic mechanisms of sester-TPSs are not fully understood.Here,we first identified three nonclustered functional sester-TPSs(AtTPS06,AtTPS22,and AtTPS29)in Arabidopsis thaliana.AtTPS06 utilizes a type-B cyclization mechanism,whereas most other sester-TPSs produce various sesterterpene backbones via a type-A cyclization mechanism.We then determined the crystal structure of the AtTPS18–FSPP complex to explore the cyclization mechanism of plant sester-TPSs.We used structural comparisons and site-directed mutagenesis to further elucidate the mechanism:(1)mainly due to the outward shift of helix G,plant sester-TPSs have a larger catalytic pocket than do mono-,sesqui-,and di-TPSs to accommodate GFPP;(2)type-A sester-TPSs have more aromatic residues(five or six)in their catalytic pocket than classic TPSs(two or three),which also determines whether the type-A or type-B cyclization mechanism is active;and(3)the other residues responsible for product fidelity are determined by interconversion of AtTPS18 and its close homologs.Altogether,this study improves our understanding of the catalytic mechanism of plant sester-TPS,which ultimately enables the rational engineering of sesterterpenoids for future applications. 展开更多
关键词 TERPENOID terpene synthase sesterterpene cyclization mechanism crystal structure
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Discovery and analysis of a new class of triterpenes derived from hexaprenyl pyrophosphate
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作者 Dan Hu 《Engineering Microbiology》 2022年第3期59-61,共3页
Triterpenes are derived from squalene or oxidosqualene.However,a new class of triterpenes derived from hexaprenyl pyrophosphate has been recently discovered,formed by a new family of chimeric class I triterpene syntha... Triterpenes are derived from squalene or oxidosqualene.However,a new class of triterpenes derived from hexaprenyl pyrophosphate has been recently discovered,formed by a new family of chimeric class I triterpene synthases.The cyclization mechanisms of triterpenes were elucidated by isotopic labeling and protein structural analyses,which helps understand the biosynthesis of triterpenes in nature. 展开更多
关键词 BIOSYNTHESIS Non-squalene triterpenes Terpene cyclase cyclization mechanisms
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