Mark T. Cederholm scite author profile

Mark T. Cederholm

2Publications

40Citation Statements Received

35Citation Statements Given

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Wayne State University

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Histidine pKa shifts accompanying the inactivating Asp121----Asn substitution in a semisynthetic bovine pancreatic ribonuclease.

Cederholm

Stuckey

Doscher

et al. 1991

Proc. Natl. Acad. Sci. U.S.A.

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A senisynthetic RNase, RNase-(1-118)-(111-124), consising of a noncovalent complex between residues 1-118 of RNase (obtained from the proteolytic digestion of RNase A), and a synthetic 14-residue peptide containing residues 111-124 of RNase, exhibits 98% of the enzymatic activity of bovine pancreatic ribonuclease A (EC 3.1.27.5). The replacement of aspartic acid-121 by asparagine in this semisynthetic RNase to form the "D121N" analog reduces kd,/K. to 2.7% of the value for RNase A. In the present work, lH NMR spectroscopy has been used to probe the ionization sates of Pis12, His 9 , and His"' in this catalytically defective semisyn- combined with the corresponding peptide in which no amino acid changes have been introduced, the full enzymatic activity of RNase-(1-118)-(111-124) is generated (6). The overlap between the peptide and RNase-(1-118), at residues 111-118, is required to achieve both good binding and precise alignment of the two chains (7). A refined crystal structure at 1.8-A resolution of RNase-(1-118)-(111-124), the fully active parent complex, has been determined (8).The assignments of the C2 proton NMR resonances for each of the four histidines in bovine pancreatic RNase A and their pKa values have been made in several laboratories (9)(10)(11)(12)(13)

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Thrombospondin interaction with plasminogen. Evidence for binding to a specific region of the kringle structure of plasminogen

DePoli

Bacon-Baguley

Kendra-Franczak

et al. 1989

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Platelet thrombospondin interacts with plasminogen in a specific and saturable manner. Thrombospondin was found to specifically bind to plasminogen and the nonenzyme chain of plasmin. Preincubation of 125I- labeled thrombospondin with 30 mmol/L lysine was without effect in the binding of thrombospondin to immobilized plasminogen; preincubation of 125I-labeled plasminogen with 30 mmol/L lysine, on the other hand, significantly reduced the binding of plasminogen to immobilized thrombospondin, suggesting that the interaction of thrombospondin with plasminogen is not the direct result of the lysine binding sites of plasminogen. Arginine and benzamidine, ligands known to specifically bind to the kringle 5 domain of plasminogen, blocked the binding of thrombospondin to plasminogen. Limited elastase proteolysis of plasminogen and plasmin resulted in the generation of two distinct thrombospondin binding domains, one of which was retained on lysine- agarose. The isolation and amino-terminal analysis of these domains following elastase proteolysis of plasminogen identified them, respectively, as a domain containing kringle structures 4 and 5 and plasmin and the other domain consisting of kringle 5-plasmin. A 16- residue synthetic peptide, which represents the amino acids linking kringle 4 to kringle 5 (residues 435–450 of native plasminogen), was without effect in either binding to thrombospondin or blocking the binding of thrombospondin to plasminogen. Plasminogen, therefore, possesses a single thrombospondin interactive site that is independent of, but influenced by, the lysine binding site containing kringle structures and most likely is located within the kringle 5 domain.

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Mark T. Cederholm

Histidine pKa shifts accompanying the inactivating Asp121----Asn substitution in a semisynthetic bovine pancreatic ribonuclease.

Thrombospondin interaction with plasminogen. Evidence for binding to a specific region of the kringle structure of plasminogen

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