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Synthetic fermentation of β-peptide macrocycles by thiadiazole-forming ring-closing reactions

机译：噻二唑形成的闭环反应合成β-肽大环化合物

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摘要

Macrocyclic β-peptides were efficiently prepared using a thiadiazole-forming cyclization reaction between an α-ketoacid and a thiohydrazide. The linear β-peptide precursors were assembled from isoxazolidine monomers by α-ketoacid-hydroxylamine (KAHA) ligations with a bifunctional initiator – a process we have termed ‘synthetic fermentation’ due to the analogy of producing natural product-like molecules from simpler building blocks. The linear synthetic fermentation products underwent Boc-deprotection/thiadiazole-forming macrocyclization under aqueous, acidic conditions to provide the cyclic products in a one-pot process. This reaction sequence proceeds from easily accessed initiator and monomer building blocks without the need for additional catalysts or reagents, enabling facile production of macrocyclic β-peptides, a relatively underexplored structural class.

机译：使用在α-酮酸和硫酰肼之间形成噻二唑的环化反应，可以有效地制备大环β肽。线性β肽前体是由异恶唑烷单体通过α-酮酸-羟胺（KAHA）与双功能引发剂的连接而组装而成的-由于类比是由更简单的结构单元生成类似天然产物的分子，因此我们将其称为“合成发酵” 。线性合成发酵产物在水性，酸性条件下进行Boc脱保护/噻二唑形成的大环化反应，以一锅法提供环状产物。该反应序列从易于获得的引发剂和单体结构单元开始，而无需其他催化剂或试剂，从而能够轻松生产相对未开发的结构类别的大环β肽。

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期刊名称 Chemical Science
作者
Jonathan G. Hubert; Iain A. Stepek; Hidetoshi Noda; Jeffrey W. Bode;
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作者单位

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年(卷),期 2018(9),8
年度 2018
页码 2159–2167
总页数 9
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
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专利

1. Synthetic fermentation of β-peptide macrocycles by thiadiazole-forming ring-closing reactions [J] . Jonathan G. Hubert, Iain A. Stepek, Hidetoshi Noda, Chemical science . 2018,第8期

机译：噻二唑形成环闭反应的β-肽大键合的合成发酵
2. Synthesis of fused multicyclic compounds containing macrocycles by dienyne ring-closing metathesis and Diels-Alder reactions [J] . Hyeon Park, Tae-Lim Choi Organic & biomolecular chemistry . 2011,第16期

机译：二烯炔环闭合复分解和Diels-Alder反应合成含大环的稠合多环化合物
3. Synthetic approach to cis and trans-decalins via Diels - Alder reaction and ring-closing metathesis as key steps: Further extension to dioxapropellane derivative by ring-closing metathesis [J] . Kotha S., Chavan A.S., Dipak M.K. Tetrahedron . 2011,第2期

机译：通过Diels-Alder反应和闭环复分解反应合成顺式和反式十氢化萘的方法为关键步骤：通过闭环复分解反应进一步扩展至二氧戊环衍生物
4. The Nature of Peptidomimeties: Synthetic Peptide Macrocycles as Potential Therapeutics and Artificial Peptide Helices [C] . Danielle A. Guarracino, John J. Ferrie, Jessica J. Gruskos American Peptide Symposium . 2015

机译：肽瘤的性质：合成肽宏细胞作为潜在的治疗和人工肽螺旋
5. Utilization of the beta-Lactum Core Towards the Preparation of Chiral Ring-Fused Lactams and Preparation and Application of Synthetic Peptide Libraries Toward the Discovery and Understanding of Membrane-Permeable Macrocycles. [D] . Hewitt, William Merton. 2014

机译：β-乳芯对手性环融合内酰胺的制备的利用以及合成肽文库的制备和应用对膜可渗透大环化合物的发现和理解。
6. Lsr2 of Mycobacterium leprae and Its Synthetic Peptides Elicit Restitution of T Cell Responses in Erythema Nodosum Leprosum and Reversal Reactions in Patients with Lepromatous Leprosy [O] . Chaman Saini, H. K. Prasad, Rajni Rani, 2013

机译：麻风分枝杆菌的Lsr2及其合成肽促使麻风性结节性麻风患者的T细胞反应恢复T细胞反应和逆转反应
7. Synthetic fermentation of β-peptide macrocycles by thiadiazole-forming ring-closing reactions [O] . Jonathan G. Hubert, Iain A. Stepek, Hidetoshi Noda, 2018

机译：噻二唑形成环闭反应的β-肽大键合的合成发酵

Synthetic fermentation of β-peptide macrocycles by thiadiazole-forming ring-closing reactions

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