Endogenous Cu(II) Labeling for Distance Measurements on Proteins by EPR #EPR #DEER

Published: Sunday, 24 November 2024 - 10:00 -0400

Author: Thorsten Maly

Hunter, Hannah R., Shashank Kankati, Zikri Hasanbasri, and Sunil Saxena. “Endogenous Cu(II) Labeling for Distance Measurements on Proteins by EPR.” Chemistry – A European Journal, November 11, 2024, e202403160.

https://doi.org/10.1002/chem.202403160.

In-cell measurements of the relationship between structure and dynamics to protein function is at the forefront of biophysics. Recently, developments in EPR methodology have demonstrated the sensitivity and power of this method to measure structural constraints in-cell. However, the need to spin label proteins ex-situ or use noncanonical amino acids to achieve endogenous labeling remains a bottleneck. In this work we expand the methodology to endogenously spin label proteins with Cu(II) spin labels and describe how to assess in-cell spin labeling. We quantify the amount of Cu(II)-NTA in cells, assess spin labeling, and account for orientational effects during distance measurements. We compare the efficacy of using heatshock and hypotonic swelling to deliver spin label, showing that hypotonic swelling is a facile and reproducible method to efficiently deliver Cu(II)-NTA into E. coli. Notably, over six repeats we accomplish a bulk average of 57 μM spin labeled sites, surpassing existing endogenous labeling methods. The results of this work open the door for endogenous spin labeling that is easily accessible to the broader biophysical community.