Mac Donald F. Jose scite author profile

One of the best-studied mechanosensitive channels is the mechanosensitive channel of large conductance (MscL). MscL senses tension in the membrane evoked by an osmotic down shock and directly couples it to large conformational changes leading to the opening of the channel. Spectroscopic techniques offer unique possibilities to monitor these conformational changes if it were possible to generate tension in the lipid bilayer, the native environment of MscL, during the measurements. To this end, asymmetric insertion of l-α-lysophosphatidylcholine (LPC) into the lipid bilayer has been effective; however, how LPC activates MscL is not fully understood. Here, the effects of LPC on tension-sensitive mutants of a bacterial MscL and on MscL homologs with different tension sensitivities are reported, leading to the conclusion that the mode of action of LPC is different from that of applied tension. Our results imply that LPC shifts the free energy of gating by interfering with MscL-membrane coupling. Furthermore, we demonstrate that the fine-tuned addition of LPC can be used for controlled activation of MscL in spectroscopic studies.

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Functional assignment of Glu386 and Arg388 in the active site of l‐galactono‐γ‐lactone dehydrogenase

Leferink¹,

Jose²,

Berg³

et al. 2009

FEBS Letters

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a b s t r a c tThe flavoenzyme L-galactono-c-lactone dehydrogenase (GALDH) catalyzes the terminal step of vitamin C biosynthesis in plants. Little is known about the catalytic mechanism of GALDH and related aldonolactone oxidoreductases. Here we identified an essential Glu-Arg pair in the active site of GALDH from Arabidopsis thaliana. Glu386 and Arg388 variants show high K m values for L-galactono-1,4-lactone and low turnover rates. Arg388 is crucial for the stabilization of the anionic form of the reduced FAD cofactor. Glu386 is involved in productive substrate binding. The E386D variant has lost its specificity for L-galactono-1,4-lactone and shows the highest catalytic efficiency with L-gulono-1,4-lactone.

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Studying mechanosensitive ion channels with an automated patch clamp

et al. 2014

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Patch clamp electrophysiology is the main technique to study mechanosensitive ion channels (MSCs), however, conventional patch clamping is laborious and success and output depends on the skills of the operator. Even though automated patch systems solve these problems for other ion channels, they could not be applied to MSCs. Here, we report on activation and single channel analysis of a bacterial mechanosensitive ion channel using an automated patch clamp system. With the automated system, we could patch not only giant unilamellar liposomes but also giant Escherichia coli (E. coli) spheroplasts. The tension sensitivity and channel kinetics data obtained in the automated system were in good agreement with that obtained from the conventional patch clamp. The findings will pave the way to high throughput fundamental and drug screening studies on mechanosensitive ion channels.

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Electrophysiological Characterization of Mechanosensitive Ion Channels in Native Bacterial Membranes

Barthmes

Jose²,

Fertig

et al. 2013

Biophysical Journal

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Charge Induced Activation of MscL: Probing the Hydrophobic Gate Region

Jose

2012

Biophysical Journal

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Mac Donald F. Jose

The activation mode of the mechanosensitive ion channel, MscL, by lysophosphatidylcholine differs from tension‐induced gating

Functional assignment of Glu386 and Arg388 in the active site of l‐galactono‐γ‐lactone dehydrogenase

Studying mechanosensitive ion channels with an automated patch clamp

Electrophysiological Characterization of Mechanosensitive Ion Channels in Native Bacterial Membranes

Charge Induced Activation of MscL: Probing the Hydrophobic Gate Region

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