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The peculiar evolution of apolipoprotein(a) in human and rhesus macaquePESOLE, G; GERARDI, A; DI JESO, F et al.Genetics. 1994, Vol 136, Num 1, pp 255-260, issn 0016-6731Article

Solution structure of the ε-aminohexanoic acid complex of human plasminogen kringle 1REJANTE, M. R; LLINAS, M.European journal of biochemistry (Print). 1994, Vol 221, Num 3, pp 939-949, issn 0014-2956Article

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Protein-ligand interactions in the lysine-binding site of plasminogen kringle 4 are different in crystal and solution. Electrostatic interactions studied by site-directed mutagenesis exclude Lys35 as an important acceptor in solutionNIELSEN, P. R; EINER-JENSEN, K; HOLTET, T. L et al.Biochemistry (Easton). 1993, Vol 32, Num 48, pp 13019-13025, issn 0006-2960Article

Amino acids of the recombinant kringle 1 domain of human plasminogen that stabilize its interaction with ω-amino acidsHOOVER, G. J; MENHART, N; MARTIN, A et al.Biochemistry (Easton). 1993, Vol 32, Num 41, pp 10936-10943, issn 0006-2960Article

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Solution structure of the kringle domain from urokinase-type plasminogen activatorXIANG LI; BOKMAN, A. M; LLINAS, M et al.Journal of molecular biology. 1994, Vol 235, Num 5, pp 1548-1559, issn 0022-2836Article

Involvement of tyrosine-76 of the kringle 2 domain of tissue-type plasminogen activator in its thermal stability and its ω-amino acid ligand binding siteDE SERRANO, V. S; CASTELLINO, F. J.Biochemistry (Easton). 1994, Vol 33, Num 12, pp 3509-3514, issn 0006-2960Article

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