Much attention has been focused on the study of protein interactions with radioiodinated photo-crosslinking reagents, and pitfalls in using this methodology are discussed. A new photochemical and cleavable heterobifunctional crosslinking reagent, succinimidyl N-14-(2-hydroxybenzoyl)-N-11-(4-azidobenzoyl)-9-oxo-8,11,14-triaza -4,5- dithiatetradecanoate (SHAD) was prepared, and its potential as a label transfer reagent was tested in model systems. SHAD was radioiodinated, and the labeled reagent (125I-SHAD) was converted to an amide (125I-HADM, as a mimicry of conjugation to protein 1) and photolyzed. When compared to the widely used SASD reagent (sulfosuccinimidyl 2-[[(4-azidosalicyl)-amino]ethyl]-1,3- dithiopropionate, Pierce), SHAD has a number of decisive advantages. The amide of 125I-SASD (125I-ASDM) was generated and photolyzed, and it was found that at least 50% of the radioactivity is released from 125I-ASDM after 3 min of irradiation, whereas only approximately 10% is liberated from 125I-HADM under similar conditions. Furthermore, 125I-HADM was photolyzed in the presence of excess amine (mimicry of crosslinking to protein 2), and the product was cleaved by reduction (mimicry of label transfer). The transformations in the course of photolysis were monitored by UV spectroscopy and TLC analysis, and a high degree of reagent cleavage upon reduction was demonstrated. 125I-SHAD was used to crosslink Lys78-plasminogen and fibrin. 125I-SHAD was conjugated to Lys78-plasminogen in the dark. Fibrinogen and thrombin were added, and Lys78-plasminogen was crosslinked to the fibrin clot by exposure to light.(ABSTRACT TRUNCATED AT 250 WORDS)
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http://dx.doi.org/10.1021/bc00027a005 | DOI Listing |
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