Anokhi Shah scite author profile

The design, synthesis and application of a nine-coordinate gadolinium(III)-containing spin label, [Gd.sTPATCN]-SL, for use in nanometer-distance measurement experiments by EPR spectroscopy is presented. The spin label links to cysteines via a short thioether tether and has a narrow central transition indicative of small zero-field splitting (ZFS). A protein homodimer, TRIM25cc, was selectively labeled with [Gd.sTPATCN]-SL (70%) and a nitroxide (30%) under mild conditions and measured using the double electron electron resonance (DEER) technique with both commercial Qband and home-built W-band spectrometers. The label shows great promise for increasing the sensitivity of DEER measurements through both its favorable relaxation parameters, and the large DEER modulation depth at both Q-and W-band for the inter-Gd(III) DEER measurement which, at 9%, is the largest recorded under these conditions.

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ATP-induced asymmetric pre-protein folding as a driver of protein translocation through the Sec machinery

Corey

Ahdash

Shah

et al. 2019

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Transport of proteins across membranes is a fundamental process, achieved in every cell by the ‘Sec’ translocon. In prokaryotes, SecYEG associates with the motor ATPase SecA to carry out translocation for pre-protein secretion. Previously, we proposed a Brownian ratchet model for transport, whereby the free energy of ATP-turnover favours the directional diffusion of the polypeptide (Allen et al., 2016). Here, we show that ATP enhances this process by modulating secondary structure formation within the translocating protein. A combination of molecular simulation with hydrogendeuterium-exchange mass spectrometry and electron paramagnetic resonance spectroscopy reveal an asymmetry across the membrane: ATP-induced conformational changes in the cytosolic cavity promote unfolded pre-protein structure, while the exterior cavity favours its formation. This ability to exploit structure within a pre-protein is an unexplored area of protein transport, which may apply to other protein transporters, such as those of the endoplasmic reticulum and mitochondria.

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Distance Measurement of a Noncovalently Bound Y@C₈₂ Pair with Double Electron Electron Resonance Spectroscopy

et al. 2018

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Paramagnetic endohedral fullerenes with long spin coherence times, such as N@C and Y@C, are being explored as potential spin quantum bits (qubits). Their use for quantum information processing requires a way to hold them in fixed spatial arrangements. Here we report the synthesis of a porphyrin-based two-site receptor 1, offering a rigid structure that binds spin-active fullerenes (Y@C) at a center-to-center distance of 5.0 nm, predicted from molecular simulations. The spin-spin dipolar coupling was measured with the pulsed EPR spectroscopy technique of double electron electron resonance and analyzed to give a distance of 4.87 nm with a small distribution of distances.

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Azilsartan medoxomil, belimumab, and lurasidone hydrochloride

Hussar

Shah²

2011

Journal of the American Pharmacists Association

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Author response: ATP-induced asymmetric pre-protein folding as a driver of protein translocation through the Sec machinery

Corey

Ahdash

Shah

et al. 2018

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Anokhi Shah

A Gadolinium Spin Label with Both a Narrow Central Transition and Short Tether for Use in Double Electron Electron Resonance Distance Measurements

ATP-induced asymmetric pre-protein folding as a driver of protein translocation through the Sec machinery

Distance Measurement of a Noncovalently Bound Y@C₈₂ Pair with Double Electron Electron Resonance Spectroscopy

Azilsartan medoxomil, belimumab, and lurasidone hydrochloride

Author response: ATP-induced asymmetric pre-protein folding as a driver of protein translocation through the Sec machinery

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Anokhi Shah

A Gadolinium Spin Label with Both a Narrow Central Transition and Short Tether for Use in Double Electron Electron Resonance Distance Measurements

ATP-induced asymmetric pre-protein folding as a driver of protein translocation through the Sec machinery

Distance Measurement of a Noncovalently Bound Y@C82 Pair with Double Electron Electron Resonance Spectroscopy

Azilsartan medoxomil, belimumab, and lurasidone hydrochloride

Author response: ATP-induced asymmetric pre-protein folding as a driver of protein translocation through the Sec machinery

Contact Info

Product

Resources

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Distance Measurement of a Noncovalently Bound Y@C₈₂ Pair with Double Electron Electron Resonance Spectroscopy