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  • General, Divergent Platform for Diastereoselective Synthesis of trans-Cyclooctenes with High Reactivity and Favorable Physiochemical Properties*.

General, Divergent Platform for Diastereoselective Synthesis of trans-Cyclooctenes with High Reactivity and Favorable Physiochemical Properties*.

Angewandte Chemie (International ed. in English) (2021-03-21)
Jessica E Pigga, Julia E Rosenberger, Andrew Jemas, Samantha J Boyd, Olga Dmitrenko, Yixin Xie, Joseph M Fox
RESUMEN

trans-Cyclooctenes (TCOs) are essential partners in the fastest known bioorthogonal reactions, but current synthetic methods are limited by poor diastereoselectivity. Especially hard to access are hydrophilic TCOs with favorable physicochemical properties for live cell or in vivo experiments. Described is a new class of TCOs, "a-TCOs", prepared in high yield by stereocontrolled 1,2-additions of nucleophiles to trans-cyclooct-4-enone, which itself was prepared on a large scale in two steps from 1,5-cyclooctadiene. Computational transition-state models rationalize the diastereoselectivity of 1,2-additions to deliver a-TCO products, which were also shown to be more reactive than standard TCOs and less hydrophobic than even a trans-oxocene analogue. Illustrating the favorable physicochemical properties of a-TCOs, a fluorescent TAMRA derivative in live HeLa cells was shown to be cell-permeable through intracellular Diels-Alder chemistry and to wash out more rapidly than other TCOs.

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Sigma-Aldrich
NHS ester-a-TCO
Sigma-Aldrich
(R,E)-1-(2-Aminoethyl)cyclooct-4-en-1-ol, 5-ax-Hydroxy-5-eq-(2-aminoethyl)-trans-cyclooctene
Sigma-Aldrich
TAMRA-a-TCO
Sigma-Aldrich
Alkyne-a-TCO