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Jukiya Sakamoto Prof. Hayato Ishikawa 《Chemistry (Weinheim an der Bergstrasse, Germany)》2022,28(10):e202104052
A series of bioinspired transformations that are applied to convert strictosidine aglycones into monoterpenoid indole alkaloids is reported. The highly reactive key intermediates, strictosidine aglycones, were prepared in situ by simple removal of a silyl protecting group from the silyl ether derivatives, and converted selectively via bioinspired transformations under substrate control into heteroyohimbine- and corynantheine-type, and akagerine and naucleaoral related alkaloids. Thus, concise, divergent total syntheses of 13 monoterpenoid indole alkaloids, (−)-cathenamine, (−)-tetrahydroalstonine, (+)-dihydrocorynantheine, (−)-corynantheidine, (−)-akagerine, (−)-dihydrocycloakagerine, (−)-naucleaoral B, (+)-naucleidinal, (−)-naucleofficines D and III, (−)-nauclefiline, and (−)-naucleamides A and E, were accomplished in fewer than 13 steps. 相似文献
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Dr. Maria Dell Dr. Mai Anh Tran Dr. Michael J. Capper Dr. Srividhya Sundaram Jonas Fiedler Prof. Dr. Jesko Koehnke Prof. Dr. Ute A. Hellmich Prof. Dr. Christian Hertweck 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2024,136(9):e202315850
Modular polyketide synthases (PKSs) are giant assembly lines that produce an impressive range of biologically active compounds. However, our understanding of the structural dynamics of these megasynthases, specifically the delivery of acyl carrier protein (ACP)-bound building blocks to the catalytic site of the ketosynthase (KS) domain, remains severely limited. Using a multipronged structural approach, we report details of the inter-domain interactions after C−C bond formation in a chain-branching module of the rhizoxin PKS. Mechanism-based crosslinking of an engineered module was achieved using a synthetic substrate surrogate that serves as a Michael acceptor. The crosslinked protein allowed us to identify an asymmetric state of the dimeric protein complex upon C−C bond formation by cryo-electron microscopy (cryo-EM). The possible existence of two ACP binding sites, one of them a potential “parking position” for substrate loading, was also indicated by AlphaFold2 predictions. NMR spectroscopy showed that a transient complex is formed in solution, independent of the linker domains, and photochemical crosslinking/mass spectrometry of the standalone domains allowed us to pinpoint the interdomain interaction sites. The structural insights into a branching PKS module arrested after C−C bond formation allows a better understanding of domain dynamics and provides valuable information for the rational design of modular assembly lines. 相似文献
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Jukiya Sakamoto Yuhei Umeda Kenta Rakumitsu Michinori Sumimoto Hayato Ishikawa 《Angewandte Chemie (International ed. in English)》2020,59(32):13414-13422
A collective synthesis of glycosylated monoterpenoid indole alkaloids is reported. A highly diastereoselective Pictet–Spengler reaction with α‐cyanotryptamine and secologanin tetraacetate as substrates, followed by a reductive decyanation reaction, was developed for the synthesis of (?)‐strictosidine, which is an important intermediate in biosynthesis. This two‐step chemical method was established as an alternative to the biosynthetically employed strictosidine synthase. Furthermore, after carrying out chemical and computational studies, a transition state for induction of diastereoselectivity in our newly discovered Pictet–Spengler reaction is proposed. Having achieved the first enantioselective total synthesis of (?)‐strictosidine in just 10 steps, subsequent bioinspired transformations resulted in the concise total syntheses of (?)‐strictosamide, (?)‐neonaucleoside A, (?)‐cymoside, and (?)‐3α‐dihydrocadambine. 相似文献
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Asymmetric Synthesis of (R)‐1‐Alkyl‐Substituted Tetrahydro‐ß‐carbolines Catalyzed by Strictosidine Synthases
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Dr. Desiree Pressnitz Dr. Eva‐Maria Fischereder Dr. Jakob Pletz Christina Kofler Lucas Hammerer Katharina Hiebler Dr. Horst Lechner Dr. Nina Richter Elisabeth Eger Prof. Dr. Wolfgang Kroutil 《Angewandte Chemie (International ed. in English)》2018,57(33):10683-10687
Stereoselective methods for the synthesis of tetrahydro‐ß‐carbolines are of significant interest due to the broad spectrum of biological activity of the target molecules. In the plant kingdom, strictosidine synthases catalyze the C?C coupling through a Pictet–Spengler reaction of tryptamine and secologanin to exclusively form the (S)‐configured tetrahydro‐ß‐carboline (S)‐strictosidine. Investigating the biocatalytic Pictet–Spengler reaction of tryptamine with small‐molecular‐weight aliphatic aldehydes revealed that the strictosidine synthases give unexpectedly access to the (R)‐configured product. Developing an efficient expression method for the enzyme allowed the preparative transformation of various aldehydes, giving the products with up to >98 % ee. With this tool in hand, a chemoenzymatic two‐step synthesis of (R)‐harmicine was achieved, giving (R)‐harmicine in 67 % overall yield in optically pure form. 相似文献
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Jukiya Sakamoto Yuhei Umeda Kenta Rakumitsu Prof. Dr. Michinori Sumimoto Prof. Dr. Hayato Ishikawa 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2020,132(32):13516-13524
A collective synthesis of glycosylated monoterpenoid indole alkaloids is reported. A highly diastereoselective Pictet–Spengler reaction with α-cyanotryptamine and secologanin tetraacetate as substrates, followed by a reductive decyanation reaction, was developed for the synthesis of (−)-strictosidine, which is an important intermediate in biosynthesis. This two-step chemical method was established as an alternative to the biosynthetically employed strictosidine synthase. Furthermore, after carrying out chemical and computational studies, a transition state for induction of diastereoselectivity in our newly discovered Pictet–Spengler reaction is proposed. Having achieved the first enantioselective total synthesis of (−)-strictosidine in just 10 steps, subsequent bioinspired transformations resulted in the concise total syntheses of (−)-strictosamide, (−)-neonaucleoside A, (−)-cymoside, and (−)-3α-dihydrocadambine. 相似文献
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