2013
DOI: 10.1039/c3cs60049a
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Inverse electron demand Diels–Alder (iEDDA)-initiated conjugation: a (high) potential click chemistry scheme

Abstract: Inverse electron demand Diels-Alder reactions (iEDDA) between 1,2,4,5-tetrazines and olefins have emerged into a state-of-the art concept for the conjugation of biomolecules. Now, this reaction is also increasingly being applied in polymer science and materials science. The orthogonality of this exciting reaction to other well-established click chemistry schemes, its high reaction speed and its biocompatibility are key features of iEDDA making it a powerful alternative to existing ligation chemistries. The int… Show more

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Cited by 428 publications
(386 citation statements)
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“…11 These IEDDA reactions have second-order rate constants ranging from k 2  = 10 3 –10 6 M −1 s −1 , which are primarily driven by expulsion of N 2 and TCO strain relief following the cycloaddition 12,13 Furthermore, electron withdrawing substituents attached to the tetrazine confer increased reaction rates between the dienophile and diene. 14,15 Successful pretargeted in vivo nuclear imaging has been demonstrated in preclinical models using PET isotopes, including 11 C (t 1/2 20.3 minutes), 16,17 18 F (t 1/2 110 minutes) 1820 and 64 Cu (t 1/2 12.7 hours), 4,2124 as well as SPECT isotopes including 99m Tc (t 1/2 6 hours), 2527 111 In (t 1/2 2.8 days) 2830 and 177 Lu (t 1/2 6.7 days).…”
Section: Introductionmentioning
confidence: 99%
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“…11 These IEDDA reactions have second-order rate constants ranging from k 2  = 10 3 –10 6 M −1 s −1 , which are primarily driven by expulsion of N 2 and TCO strain relief following the cycloaddition 12,13 Furthermore, electron withdrawing substituents attached to the tetrazine confer increased reaction rates between the dienophile and diene. 14,15 Successful pretargeted in vivo nuclear imaging has been demonstrated in preclinical models using PET isotopes, including 11 C (t 1/2 20.3 minutes), 16,17 18 F (t 1/2 110 minutes) 1820 and 64 Cu (t 1/2 12.7 hours), 4,2124 as well as SPECT isotopes including 99m Tc (t 1/2 6 hours), 2527 111 In (t 1/2 2.8 days) 2830 and 177 Lu (t 1/2 6.7 days).…”
Section: Introductionmentioning
confidence: 99%
“…27,3133 The recent success of IEDDA reactions for in vivo pretargeting and other chemical biology applications has been reviewed by several groups. 12,3437 Most examples incorporate TCO on the slower clearing molecule followed by a fast clearing radiolabeled tetrazine tracer, but some groups have explored reversing the chemistry. 38,39 …”
Section: Introductionmentioning
confidence: 99%
“…13 As a prerequisite for PET, a suitable positronemitting pharmaceutical (PET tracer) needs to be administrated into patients prior to imaging. 18 F is the most often used positron emitter in clinical PET, due to its favorable physical properties (e.g., clean positron emitting process and low positron energy). Another favorable physical property of 18 F is its suitably long half-life (109.8 min), although 18 F is a shortlived radionuclide.…”
mentioning
confidence: 99%
“…18 F is the most often used positron emitter in clinical PET, due to its favorable physical properties (e.g., clean positron emitting process and low positron energy). Another favorable physical property of 18 F is its suitably long half-life (109.8 min), although 18 F is a shortlived radionuclide. This enables multistep radiosynthesis feasible 14,15 and distribution to hospitals distanced from production sites possible.…”
mentioning
confidence: 99%
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