Tina Brehmer scite author profile

Tina Brehmer

3Publications

12Citation Statements Received

113Citation Statements Given

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112

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Martin Luther University Halle-Wittenberg

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Negatively Charged Phospholipids Trigger the Interaction of a Bacterial Tat Substrate Precursor Protein with Lipid Monolayers

et al. 2012

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Folded proteins can be translocated across biological membranes via the Tat machinery. It has been shown in vitro that these Tat substrates can interact with membranes prior to translocation. Here we report a monolayer and infrared reflection-absorption spectroscopic (IRRAS) study of the initial states of this membrane interaction, the binding to a lipid monolayer at the air/water interface serving as a model for half of a biological membrane. Using the model Tat substrate HiPIP (high potential iron-sulfur protein) from Allochromatium vinosum, we found that the precursor preferentially interacts with monolayers of negatively charged phospholipids. The signal peptide is essential for the interaction of the precursor protein with the monolayer because the mature HiPIP protein showed no interaction with the lipid monolayer. However, the individual signal peptide interacted differently with the monolayer compared to the complete precursor protein. IRRA spectroscopy indicated that the individual signal peptide forms mainly aggregated β-sheet structures. This β-sheet formation did not occur for the signal peptide when being part of the full length precursor. In this case it adopted an α-helical structure upon membrane insertion. The importance of the signal peptide and the mature domain for the membrane interaction is discussed in terms of current ideas of Tat substrate-membrane interactions.

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Interaction of a Tat Substrate and a Tat Signal Peptide with Thylakoid Lipids at the Air–Water Interface

et al. 2011

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The Tat machinery enables folded proteins to be translocated across biological membranes. In vitro studies have shown that Tat substrates can interact with membranes prior to translocation. In this study we investigated the initial states of this interaction with thylakoid lipid monolayers at the air-water interface by using monolayer techniques combined with infrared reflection-absorption spectroscopy (IRRAS). We used enhanced green fluorescent protein (EGFP) as a model substrate and the signal peptide SP16 from the 16 kDa protein of the spinach oxygen-evolving complex (OEC16). We found that the signal peptide is essential for the interaction of the model substrate with lipid monolayers. IRRA spectroscopy showed an increased amount of α-helical secondary structure elements for the chimeric model substrate i16/EGFP (SP16 fused to EGFP) compared with EGFP; this can be attributed to the signal peptide.

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Wechselwirkung von Modellsubstraten und Signalpeptiden des Tat-abhängigen Translokationsweges mit Lipidmonoschichten an der Luft-Wasser-Grenzfläche

Brehmer¹

2012

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Tina Brehmer

Negatively Charged Phospholipids Trigger the Interaction of a Bacterial Tat Substrate Precursor Protein with Lipid Monolayers

Interaction of a Tat Substrate and a Tat Signal Peptide with Thylakoid Lipids at the Air–Water Interface

Wechselwirkung von Modellsubstraten und Signalpeptiden des Tat-abhängigen Translokationsweges mit Lipidmonoschichten an der Luft-Wasser-Grenzfläche

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