Englbert Bäuml scite author profile

We demonstrate the detection and characterization of ligand binding to viruses via NMR. To illustrate the methodology, the interaction of an antiviral compound with human rhinovirus serotype 2 (HRV2) was investigated. Specific interaction of a capsid-binding inhibitor and native HRV2 was monitored utilizing saturation transfer difference (STD) NMR. STD NMR experiments at atomic resolution allowed those regions of the ligand that are involved in the interaction with the virus to be determined. The approach allows for (i) the fast and robust assessment of binding, (ii) the determination of the ligand binding epitope at atomic resolution without the necessity to crystallize virus-ligand complexes, and (iii) the reuse of the virus in subsequent assays. This methodology enables one to easily identify binding of drugs, peptides, and receptor or antibody fragments to the viral capsid.

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Hepatitis A virus proteinase 3C binding to viral RNA: correlation with substrate binding and enzyme dimerization

Peters

Kusov

Meyer

et al. 2005

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Proteinase 3C of hepatitis A virus (HAV) plays a key role in the viral life cycle by generating mature viral proteins from the precursor polyprotein. In addition to its proteolytic activity, 3C binds to viral RNA, and thus influences viral genome replication. In order to investigate the interplay between proteolytic activity and RNA binding at the molecular level, we subjected HAV 3C and three variants carrying mutations of the cysteine residues [C24S (Cys-24-->Ser), C172A and C24S/C172A] to proteolysis assays with peptide substrates, and to surface plasmon resonance binding studies with peptides and viral RNA. We report that the enzyme readily forms dimers via disulphide bridges involving Cys-24. Dissociation constants (K(D)) for peptides were in the millimolar range. The binding kinetics for the peptides were characterized by k(on) and k(off) values of the order of 10(2) M(-1) x s(-1) and 10(-2) to 10(-1) s(-1) respectively. In contrast, 3C binding to immobilized viral RNA, representing the structure of the 5'-terminal domain, followed fast binding kinetics with k(on) and k(off) values beyond the limits of the kinetic resolution of the technique. The affinity of viral RNA depended strongly on the dimerization status of 3C. Whereas monomeric 3C bound to the viral RNA with a K(D) in the millimolar range, dimeric 3C had a significantly increased binding affinity with K(D) values in the micromolar range. A model of the 3C dimer suggests that spatial proximity of the presumed RNA-binding motifs KFRDI is possible. 3C binding to RNA was also promoted in the presence of substrate peptides, indicating co-operativity between RNA binding and protease activity. The data imply that the dual functions of 3C are mutually dependent, and regulate protein and RNA synthesis during the viral life cycle.

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N-Methyl-norsalsolinol, a putative dopaminergic neurotoxin, passes through the blood–brain barrier in vivo

et al. 2002

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In earlier studies the dihydroxylated tetrahydroisoquinoline derivatives salsolinol and 2(N)-methyl-norsalsolinol (NMNorsal), a 2(N)-analogue of salsolinol, were identified as putative endogenous neurotoxins in patients with Parkinson's disease. Since a prominent blood-brain barrier (BBB) was described to exist for salsolinol, in the present study microdialysis experiments were performed to investigate the penetration of NMNorsal through the BBB into the caudate nucleus of the rat brain. After i.p. administration of NMNorsal (20 mg/kg), it could be detected in the dialysate of the caudate nucleus with a mean maximum after 40 min. There was no alteration in extracellular dopamine or 3,4-dihydroxyphenylacetic acid levels. Addition of the monoamine oxidase inhibitor pargyline (10 microM) to the perfusate did not modify NMNorsal levels in the caudate nucleus. To corroborate the microdialysis results, homogenates of the contralateral caudate nucleus were prepared and NMNorsal could also be detected. These findings indicate that NMNorsal is indeed able to pass through the blood-brain barrier of the rat brain.

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[2+2]-cycloadditions of alkenes with the triphenylallenyl cation

Mayr¹,

Bäuml²

1984

Tetrahedron Letters

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Englbert Bäuml

Virus−Ligand Interactions: Identification and Characterization of Ligand Binding by NMR Spectroscopy

Hepatitis A virus proteinase 3C binding to viral RNA: correlation with substrate binding and enzyme dimerization

N-Methyl-norsalsolinol, a putative dopaminergic neurotoxin, passes through the blood–brain barrier in vivo

[2+2]-cycloadditions of alkenes with the triphenylallenyl cation

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