2000
DOI: 10.1515/semi.2000.128.1-2.113
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“…[10,11] For instance, tryptophan photolysis, through photoinduced electron transfer to nearby disulfide bridges, may induce disulfide reduction leading to a thiolate and a thiyl radical. [12] Thiyl radicals can also be produced via a direct light-induced homolysis of cystine disulfide bonds, [13,14] Ultimately, thiyl radical mediated damage to proteins may lead to protein aggregation and fragmentation, for example in antibodies. [15,16] Thus probing photoprocesses in thiyl radical containing biomolecules activated by vacuum UV (VUV) radiation is required to improve would help improving our knowledge in radiation damage science.…”
Section: Introductionmentioning
confidence: 99%
“…[10,11] For instance, tryptophan photolysis, through photoinduced electron transfer to nearby disulfide bridges, may induce disulfide reduction leading to a thiolate and a thiyl radical. [12] Thiyl radicals can also be produced via a direct light-induced homolysis of cystine disulfide bonds, [13,14] Ultimately, thiyl radical mediated damage to proteins may lead to protein aggregation and fragmentation, for example in antibodies. [15,16] Thus probing photoprocesses in thiyl radical containing biomolecules activated by vacuum UV (VUV) radiation is required to improve would help improving our knowledge in radiation damage science.…”
Section: Introductionmentioning
confidence: 99%