1996
DOI: 10.1021/jp951838p
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Distinguishing Features of Indolyl Radical and Radical Cation:  Implications for Tryptophan Radical Studies

Abstract: Tryptophan radicals or radical cations, currently believed to participate in electron transfer in cytochrome c peroxidase, DNA photolyase, galactose oxidase, and perhaps ribonucleotide reductase, are becoming increasingly conspicuous in proteins. Density-functional quantum chemical calculations for the indolyl radical (Ind • ) and radical cation (IndH •+ ) are reported to aid the distinction between the tryptophan radical (Trp • ) and the tryptophan radical cation (TrpH •+ ). For this evaluation of indole and … Show more

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Cited by 83 publications
(101 citation statements)
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“…The fact that both the NH and H2 protons are shifted to lower frequencies by contact interactions indicates the presence of same-sign spin densities at positions 1 and 2 of the indole-3-thiolate ligand. An analogous spin distribution has been found in the indole radical cation, [19] in contrast to thiophenolate-based systems, in which neighboring hydrogen atoms generally display opposite-sign contact shifts [18].…”
Section: H Nmr Analysissupporting
confidence: 60%
“…The fact that both the NH and H2 protons are shifted to lower frequencies by contact interactions indicates the presence of same-sign spin densities at positions 1 and 2 of the indole-3-thiolate ligand. An analogous spin distribution has been found in the indole radical cation, [19] in contrast to thiophenolate-based systems, in which neighboring hydrogen atoms generally display opposite-sign contact shifts [18].…”
Section: H Nmr Analysissupporting
confidence: 60%
“…On the other hand, the one-electron oxidation of indole (IndH) to radical cation (IndH ·+ ) or neutral indoyl radical (Ind · ) with release of H + has been reported. [48] Because the pK a of the TrpH ·+ radical cation is 4.3, it easily releases a proton to form neutral Trp · radical. [49] Thus, the redox potential of tryptophan is dependent on the pH of the aqueous media.…”
Section: Biological Relevancementioning
confidence: 99%
“…49 Additionally, a C-N bond was more consistent with a higher susceptibility of the cross-link to cleave under the MS/MS conditions than a C-C bond. This study provided the first clear evidence for the formation of a Trp-Trp cross-link in a protein by radical mechanisms, although the structure of the dimer was hypothesized, not characterized.…”
Section: Early Reports On Trp-trp Cross-linksmentioning
confidence: 89%
“…49 Therefore, radical dimerization can potentially occur at all of these sites, some of which resulting in different stereoisomers. Indeed, the reaction of N-acetyl-L-tryptophan amide with NO 2…”
Section: On the Structure Of Trp-trp Cross-links Produced By Radical mentioning
confidence: 99%