Andrew P. Laudano scite author profile

A series of small peptides corresponding to the amino termini of the fibrin α- and β-chains has been synthesized. The peptides glycyl-L-prolyl-L-arginyl-L-proline and glycyl-L-prolyl-L-arginylsarcosine are potent inhibitors of fibrin polymerization. Moreover, these peptides have a natural stability stemming from their inherent resistance to proteolysis because of the involvement of amino acids in each of their peptide bonds. The peptide glycyl-L-prolyl-L-arginyl-L-proline binds to fibrinogen and to fragment D, in both cases with an association constant of approximately 5 × 10 4 ; it does not bind to fragment E. The number of binding sites is two for fibrinogen and one for fragment D. The tripeptide glycyl-L-prolyl-L-arginine binds less tightly and is less than half as effective in preventing polymerization. The peptide glycyl-L-histidyl-L-arginyl-L-proline, which corresponds exactly to the amino terminus of the fibrin β-chain, does not inhibit the aggregation of fibrin monomers under the conditions used. It does bind weakly to fibrinogen, however, suggesting the involvement of sites other than those binding the α-chain analogues. Various other peptides were found not to inhibit polymerization; these included glycine-L-proline, L-prolyl-L-arginine and glycyl-L-prolyl-L-seryl-L-proline. The last-named corresponds to the serine/arginine amino acid replacement previously reported for a defective human fibrinogen.

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Studies on synthetic peptides that bind to fibrinogen and prevent fibrin polymerization. Structural requirements, number of binding sites, and species differences

Laudano¹,

Doolittle²

1980

Biochemistry

286

236

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Definition of the human raf amino-terminal regulatory region by deletion mutagenesis.

et al. 1989

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Activation of transforming potential of the cellular raf gene has uniformly been associated with the deletion of amino-terminal coding sequences. In order to determine whether 5' truncation alone could activate cellular raf, we constructed 21 human c-raf-l cDNAs with variable BAL 31-generated deletions distal to a Moloney murine sarcoma virus long terminal repeat and a consensus translation initiation sequence. The deletions ranged from 136 to 1,399 nucleotides of coding sequence and shortened the 648-amino-acid raf protein by 44 to 465 amino acids. The full-length c-raf-1 cDNA was nontransforming upon transfection of NIH 3T3 cells, as were four mutants with deletions of 142 or fewer amino acids. Seven of nine mutants with deletions of 154 to 273 amino acids induced transformation with efficiencies ranging from 0.25 to 70 foci per ,ug of DNA. Mutants with deletions of 303 to 324 amino acids displayed high transforming activities (comparable with that of v-rat), with a peak activity of 2,400 foci per ,ug of DNA when 305 amino acids were deleted. Deletions of >383 amino acids, extending into the raf kinase domain, lacked transforming activity. Northern (RNA) blotting and immunoprecipitation assays indicated that transfected NIH cells expressed raf RNAs and proteins of the expected sizes. Thus, 5' truncation alone can activate raf transforming potential, with a sharp peak of activation around amino acid 300. Analysis of three raf genes previously detected by transfection of tumor DNAs indicated that these genes were activated by recombination in raf intron 7 and encoded fusion proteins containing amino-terminal non-raf sequences. The extent of deletion of raf sequences in these recombinant genes corresponded to BAL 31 mutants which did not display high transforming activity, suggesting that the fused non-raf coding sequences may also contribute to biological activity.

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Andrew P. Laudano

Cloning and sequencing of a cDNA encoding DNA methyltransferase of mouse cells

Synthetic peptide derivatives that bind to fibrinogen and prevent the polymerization of fibrin monomers

Studies on synthetic peptides that bind to fibrinogen and prevent fibrin polymerization. Structural requirements, number of binding sites, and species differences

Definition of the human raf amino-terminal regulatory region by deletion mutagenesis.

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