| Abstract: | Peptides derived from plasmic and cyanogen bromide (CNBr) cleavage of highly cross-linked fibrin were isolated and characterized by sodium dodecyl sulfate-gel electrophoresis, amino acid analyses, cyanoethylation, and NH2-terminal analyses. Extended plasmic digestions of human fibrin containing four epsilon-(gamma-glutamyl)lysine cross-links per molecule produced a peptide of alpha-chain origin (Mr congruent to 21,000) which was comprised of a small donor peptide cross-linked to the acceptor site peptide from the middle of the alpha-chain. CNBr cleavage of highly cross-linked in vitro fibrin or of fibrin from a spontaneously formed in vivo arterial embolus produced about three cross-linked species of molecular weights 30,000 to 40,000, each of which contained the largest CNBr fragment (Mr = 29,000) from the alpha-chain. The predominant cross-link-containing CNBr fragments derived their donor group from the near COOH-terminal region of the alpha-chain as judged by difference amino acid compositions and NH2-terminal analyses. Additionally, cross-linked fragments of molecular weights 68,000 to 70,000 which appeared to contain two acceptor site peptides (Mr = 29,000) were detected in minor amounts in the CNBr digests of fibrin formed from whole plasma or from purified, plasminogen-free fibrinogen. No larger polymeric cross-linked CNBr fragment was generated from any of the highly cross-linked fibrin preparations examined. A model for the predominant mode of alpha-chain polymerization is proposed. |
