Lambert H.M. Janssen scite author profile

By considering all possible mutations among four para-substituted phenols, p-chlorophenol,p-methylphenol, p-cyanophenol, and p-methoxyphenol, which bind as inclusion compounds in a-cyclodextrin, the convergence properties of thermodynamic integration free energy calculations using slow growth as compared to numerical quadrature are investigated and interpreted in terms of structural and dynamical properties of the molecular system. It is shown that

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The role of protein charge in protein-lipid interactions. pH-Dependent changes of the electrophoretic mobility of liposomes through adsorption of water-soluble, globular proteins

Bergers¹,

Vingerhoeds²,

Bloois³

et al. 1993

Biochemistry

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The role of electrostatics in the adsorption process of proteins to preformed negatively-charged (phosphatidylcholine/phosphatidylglycerol) and neutral (phosphatidylcholine) liposomes was studied. The interaction was monitored at low ionic strength for a set of model proteins as a function of pH. The adsorption behavior of trypsin inhibitor (pI = 4.6), myoglobin (pI = 7.4), ribonuclease (pI = 9.6), and lysozyme (pI = 10.7) with preformed liposomes was investigated, along with changes in the electrophoretic mobility of liposomes through the adsorption of charged proteins. Mean protein charge was determined by acid/base titration. Significant adsorption of the proteins to negatively-charged liposomes was only found at pH values where the number of positive charge moieties exceeds the number of negative charge moieties on the protein by at least three charge units. Negligible adsorption to liposomes composed of zwitterionic lipids was observed in the pH range tested (4-9). The absolute value of the electrophoretic mobilities of negatively-charged, empty liposomes decreased after adsorption of positively-charged proteins. With increasing protein to phospholipid ratio, the drop in the electrophoretic mobility leveled off and reached a plateau; protein adsorption profiles showed a similar shape. Analysis of the data demonstrated that neutralization of the liposome charge due to the adsorption of the positively-charged proteins is the controlling factor in their adsorption. The plateau level reached depended on the type of protein and the pH of the incubation medium. This pH dependency could be ascribed to the mean positive charge of the protein.(ABSTRACT TRUNCATED AT 250 WORDS)

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The uptake of the trypanocidal drug suramin in combination with low-density lipoproteins by Trypanosoma brucei and its possible mode of action

Vansterkenburg

Coppens²,

Wilting

et al. 1993

Acta Tropica

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Reductive activation of potential antitumor mitosene compounds

Maliepaard¹,

Mol²,

Janssen³

et al. 1993

J. Med. Chem.

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The reductive activation of mitosene compounds was studied with cyclic voltammetry and HPLC analysis. Reduction of mitosenes, possessing good leaving groups at C-1 and C-10, was shown to result in loss of these groups at pH 7.0 and pH 6.0. The loss of leaving groups from mitosenes occurred faster at lower pH. Mitosenes without good leaving groups were found to be stable upon reduction. In the presence of acetoxy groups at C-1 and C-10, the C-10 site is the most reactive site upon reductive activation. This is opposite to the case of mitomycin C, where the C-1 site is the first to react upon reduction. At pH 6.0 without reduction, acid degradation also caused the loss of leaving groups of mitosenes, although at a very slow rate. In contrast to reductive activation, upon acid degradation of a diacetoxymitosene the C-1 group appeared to be lost faster. Electrochemical as well as dithionite reduction of a bifunctional (diacetoxy) mitosene compound in the presence of calf thymus DNA at pH 5.5 resulted in the formation of DNA interstrand cross-links. Depending on activation method, this diacetoxymitosene was at least as efficient in DNA cross-linking as mitomycin C under comparable conditions.

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Location and characterization of the warfarin binding site of human serum albumin

Bos

Remijn

Fischer

et al. 1988

Biochemical Pharmacology

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