Category Archives: PELDOR

Research Fellow in Membrane Protein Structural Biology #EPR

Additional Information at:

Are you an ambitious researcher looking for your next challenge? Do you have an established background in structural biology of membrane proteins? Are you interested in ion channels and mechanical sensing? Do you want to further your career in one of the UKs leading research intensive Universities?

Applications are invited to conduct research investigating the structure and function of mechanosensitive ion channels. These systems form pores in the cell membrane and allow the passage of molecules in response to membrane tension. 

A multi-disciplinary approach combining molecular/chemical (cloning, recombinant expression and purification), structural (CryoEM and PELDOR/DEER spectroscopy), functional (Electrophysiology) and computational (MD simulations) methods will be employed to investigate gating of these systems and characterise their unique states. CryoEM facilities in the Astbury Centre at University of Leeds are state-of-the-art, including 2 x Titan Krios 300keV electron microscopes. The project will also involve trips to the St Andrews and Manchester EPR facilities for PELDOR/DEER experiments.

We are seeking a highly motivated and talented individual interested in undertaking a challenging and exciting 3 year BBSRC-funded post in the laboratory of Dr Christos Pliotas. The project aims at obtaining and solving novel CryoEM structures of mechanosensitive ion channels in distinct conformational states. Dynamics will be interrogated by PELDOR/DEER and MD within lipid/native environment and function will be assessed by single molecule electrophysiology.

You should have a PhD (or close to completion) in Molecular/Structural Biology, Biochemistry, Biophysics or a closely allied discipline; with significant experience in expression, purification and structural biology of membrane proteins and ion channels.

To explore the post further or for any queries you may have, please contact: 

Dr Christos Pliotas, Lecturer in Integrative Membrane Biology

Tel: +44 (0)113 343 1229, email:, University Profile, twitter:

Location:Leeds – Main Campus

Faculty/Service: Faculty of Biological Sciences

School/Institute: School of Biomedical Sciences

Category: Research

Grade: Grade 7

Salary: £33,199 to £39,609 p.a.

Due to funding limitations it is unlikely an appointment will be made above £35,211 p.a.

Working Time: 100%

Post Type: Full Time

Contract Type: Fixed Term (3 years – external funding)

Release Date: Monday 03 June 2019

Closing Date: Sunday 14 July 2019

Reference: FBSBM1119

[NMR] postdoctoral position at UC Santa Cruz

Dear Colleagues,

I am please to announce the opening of a postdoctoral researcher position in the Department of Chemistry and Biochemistry at UC Santa Cruz. The selected individual should have demonstrated expertise in Double Electron-Electron Resonance (DEER) EPR. Research will focus on structural biology issues related to neurodegenerative diseases, as well as the facilitation of diverse collaborative studies among California Bay Area labs including UCSF, UC Merced, UC Davis and Stanford. Please see our website:

and the job posting:

With best regards,


Glenn L. Millhauser

Department of Chemistry & Biochemistry

UC Santa Cruz

Santa Cruz, CA 95064

831 459 2176 voice

831 566 3337 cell

831 459 2935 fax


This is the AMPERE MAGNETIC RESONANCE mailing list:

NMR web database:

Selective High-Resolution Detection of Membrane Protein-Ligand Interaction in Native Membranes Using Trityl-Nitroxide PELDOR

Joseph, B., et al., Selective High-Resolution Detection of Membrane Protein-Ligand Interaction in Native Membranes Using Trityl-Nitroxide PELDOR. Angew Chem Int Ed Engl, 2016. 55(38): p. 11538-42.

The orchestrated interaction of transmembrane proteins with other molecules mediates several crucial biological processes. Detergent solubilization may significantly alter or even abolish such hetero-oligomeric interactions, which makes observing them at high resolution in their native environment technically challenging. Dipolar electron paramagnetic resonance (EPR) techniques such as pulsed electro-electron double resonance (PELDOR) can provide very precise distances within biomolecules. To concurrently determine the inter-subunit interaction and the intra-subunit conformational changes in hetero-oligomeric complexes, a combination of different spin labels is required. Orthogonal spin labeling using a triarylmethyl (TAM) label in combination with a nitroxide label is used to detect protein-ligand interactions in native lipid bilayers. This approach provides a higher sensitivity and total selectivity and will greatly facilitate the investigation of multimeric transmembrane complexes employing different spin labels in the native lipid environment.

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