Journal Article10.1002/CHIN.200135279
Click Chemistry: Diverse Chemical Function from a Few Good Reactions
6.7K
TL;DR: In this article, a set of powerful, highly reliable, and selective reactions for the rapid synthesis of useful new compounds and combinatorial libraries through heteroatom links (C-X-C), an approach called click chemistry is defined, enabled, and constrained by a handful of nearly perfect "springloaded" reactions.
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Abstract: Examination of nature's favorite molecules reveals a striking preference for making carbon-heteroatom bonds over carbon-carbon bonds-surely no surprise given that carbon dioxide is nature's starting material and that most reactions are performed in water. Nucleic acids, proteins, and polysaccharides are condensation polymers of small subunits stitched together by carbon-heteroatom bonds. Even the 35 or so building blocks from which these crucial molecules are made each contain, at most, six contiguous C-C bonds, except for the three aromatic amino acids. Taking our cue from nature's approach, we address here the development of a set of powerful, highly reliable, and selective reactions for the rapid synthesis of useful new compounds and combinatorial libraries through heteroatom links (C-X-C), an approach we call "click chemistry". Click chemistry is at once defined, enabled, and constrained by a handful of nearly perfect "spring-loaded" reactions. The stringent criteria for a process to earn click chemistry status are described along with examples of the molecular frameworks that are easily made using this spartan, but powerful, synthetic strategy.
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Citations
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Intramolecularly Cross-Linked Polymers: From Structure to Function with Applications as Artificial Antibodies and Artificial Enzymes.
TL;DR: This Account traces the own efforts to develop the chemistry of intramolecularly cross-linked macromolecules, starting with dendrimers and develops copper-containing SCNPs as artificial clickases, which have all of the hallmarks of enzymatic catalysis.
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Sulfur(VI) Fluoride Exchange (SuFEx)-Enabled High-Throughput Medicinal Chemistry
Seiya Kitamura,Qinheng Zheng,Jordan L. Woehl,Angelo Solania,Emily I. Chen,Nicholas Dillon,Mitchell V. Hull,Miyako Kotaniguchi,John R. Cappiello,Shinichi Kitamura,Victor Nizet,K. Barry Sharpless,Dennis W. Wolan +12 more
TL;DR: A high-throughput hit-to-lead process based on the biocompatible SuFEx click chemistry that succeeds on picomole scale for direct screening and can accelerate the development of robust biological probes and drug candidates is demonstrated.
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The [2+2] Cycloaddition-Retroelectrocyclization (CA-RE) Click Reaction: Facile Access to Molecular and Polymeric Push-Pull Chromophores.
TL;DR: This Review summarizes the development of the CA-RE reaction, starting from the initial reports with organometallic compounds to the extension to purely organic systems, and illustrated by examples that include the broad alkyne and alkene substitution modes.
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References
Click Chemistry: Diverse Chemical Function from a Few Good Reactions.
TL;DR: In this paper, a set of powerful, highly reliable, and selective reactions for the rapid synthesis of useful new compounds and combinatorial libraries through heteroatom links (C-X-C), an approach called click chemistry is defined, enabled, and constrained by a handful of nearly perfect "springloaded" reactions.
9.7K
Sequential Transformations in Organic Chemistry: A Synthetic Strategy with a Future†
Lutz F. Tietze,Uwe Beifuss +1 more
TL;DR: Organic-chemical synthesis has always fascinated chemists and will not lose its importance in the future as mentioned in this paper, and it is a truism that all chemists are dependent on the synthesis of those compounds with which they want to work.
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Organic reactions in aqueous media
Chao-Jun Li,Tak Hang Chan +1 more
- 01 Jan 1997
TL;DR: In this article, the authors present a list of metal-mediated reaction types for industrial applications: transition-metal-catalyzed reactions, nucleophilic additions and substitutions, pericyclic reactions, and Oxidations and reductions.
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