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A Reactive, Rigid Gd III Labeling Tag for In‐Cell EPR Distance Measurements in Proteins
Author(s) -
Yang Yin,
Yang Feng,
Gong YanJun,
Chen JiaLiang,
Goldfarb Daniella,
Su XunCheng
Publication year - 2017
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.201611051
Subject(s) - hela , electron paramagnetic resonance , chemistry , spin label , in vitro , cell , site directed spin labeling , thiol , crystallography , biophysics , nuclear magnetic resonance , biochemistry , biology , physics
The cellular environment of proteins differs considerably from in vitro conditions under which most studies of protein structures are carried out. Therefore, there is a growing interest in determining dynamics and structures of proteins in the cell. A key factor for in‐cell distance measurements by the double electron–electron resonance (DEER) method in proteins is the nature of the used spin label. Here we present a newly designed Gd III spin label, a thiol‐specific DOTA‐derivative (DO3MA‐3BrPy), which features chemical stability and kinetic inertness, high efficiency in protein labelling, a short rigid tether, as well as favorable spectroscopic properties, all are particularly suitable for in‐cell distance measurements by the DEER method carried out at W‐band frequencies. The high performance of DO3MA‐3BrPy‐Gd III is demonstrated on doubly labelled ubiquitin D39C/E64C, both in vitro and in HeLa cells. High‐quality DEER data could be obtained in HeLa cells up to 12 h after protein delivery at in‐cell protein concentrations as low as 5–10 μ m .