Norbert Ettner scite author profile

The N-terminal domains VI plus V (62 kDa) and V alone (43 kDa) of the laminin K K1 chain were obtained as recombinant products and shown to be folded into a native form by electron microscopy and immunological assays. Domain VI alone, which corresponds to an LN module, did not represent an autonomously folding unit in mammalian cells, however. Fragment K K1VI/V, but not fragment K K1V, bound to purified K K1L L1 and K K2L L1 integrins, to heparin, and to heparan sulfate-substituted domains I and V of perlecan. This localized the binding activities to the LN module, which contains two basic sequences suitable for heparin interactions.z 1998 Federation of European Biochemical Societies.

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Fast large-scale purification of tetracycline repressor variants from overproducing Escherichia coli strains

Ettner

Müller

Berens

et al. 1996

Journal of Chromatography A

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Proximity Mapping of the Tet Repressor-Tetracycline-Fe2+ Complex by Hydrogen Peroxide Mediated Protein Cleavage

Ettner

Metzger²,

Lederer³

et al. 1995

Biochemistry

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We demonstrate in a quantitative in vitro induction assay that tetracycline-Fe2+ is a more than 1000-fold stronger inducer of Tet repressor compared to tetracycline-Mg2+. Oxidative cleavage of the Tet repressor-tetracycline-Fe2+ complex with H2O2 and ascorbate results in an Fe(2+)-dependent specific fragmentation of the protein. The maximal yield of about 15% and a reaction time of less than 30 s are only observed in the presence of the drug, whereas about 1% cleavage is obtained after 30 min in the presence of Fe2+ without tetracycline. Cleavage is not inhibited by several radical scavengers, suggesting a highly localized reactivity of the redox-active oxo intermediates in the proximity of the Fe(2+)-tc chelater where they are generated. The products can be separated by HPLC only after denaturation, indicating that the complex is not disrupted by cleavage. Residues at which the cleavage takes place are identified using the masses of the fragments determined by electrospray mass spectrometry and their N-terminal sequences. The major cleavage site maps to residues 104 and 105 of Tet repressor. Less efficient cleavages occur at residues 56 and 136, and the least efficiently cleaved sites are around residues 144 and 147. The cleavage efficiencies correlate to the distances and orientations of the respective peptide bonds to Mg2+ in the crystal structure of the Tet repressor-tetracycline-Mg2+ complex. We discuss potential reaction mechanisms leading to protein cleavage.

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Molecular mechanics analysis of Tet repressor TRP-43 fluorescence

Antonini¹,

Hillen²,

Ettner³

et al. 1997

Biophysical Journal

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A 35% decrease in the fluorescence intensity of F75 TetR Trp-43 was observed upon binding of the tetracycline derivative 5a,6-anhydrotetracycline (AnTc) to the repressor. The fluorescence decay of Trp-43 in F75 TetR and in its complex with AnTc could be described by the sum of three exponential components, with lifetimes of about 6, 3, and 0.3 ns. The amplitudes, however, were markedly altered upon binding. The minimized energy mapping of Trp-43 chi 1 x chi 2 isomerization clearly indicated the existence of three main potential wells at positions (-160 degrees, -90 degrees) (rotamer I), (-170 degrees, 90 degrees) (rotamer II), and (-70, 150 degrees) (rotamer III). Our study of Trp-43 environment for each of the three rotamers suggests that the longest decay component may be assigned to rotamer II, the middle-lived component to rotamer I, and the subnanosecond component to rotamer III. The origin of the changes in the rotamer distribution upon AnTc binding is discussed. Anisotropy decays are also discussed within the framework of the rotamer model.

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Enhanced site-specific cleavage of the tetracycline repressor by tetracycline complexed with iron

Ettner¹,

Hillen²,

Ellestad³

1993

J. Am. Chem. Soc.

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Norbert Ettner

The N‐terminal globular domain of the laminin α1 chain binds to α1β1 and α2β1 integrins and to the heparan sulfate‐containing domains of perlecan

Fast large-scale purification of tetracycline repressor variants from overproducing Escherichia coli strains

Proximity Mapping of the Tet Repressor-Tetracycline-Fe2+ Complex by Hydrogen Peroxide Mediated Protein Cleavage

Molecular mechanics analysis of Tet repressor TRP-43 fluorescence

Enhanced site-specific cleavage of the tetracycline repressor by tetracycline complexed with iron

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