Quantifying the Heterogeneity of Macromolecular Machines by Mass Photometry

Overview

Journal Nat Commun

Specialty Biology

Date 2020 Apr 15

PMID 32286308

Citations 95

Authors

Adar Sonn-Segev

Katarina Belacic

Tatyana Bodrug

Gavin Young

Ryan T VanderLinden

Brenda A Schulman

Johannes Schimpf

Thorsten Friedrich

Phat Vinh Dip

Thomas U Schwartz

Benedikt Bauer

Jan-Michael Peters

Weston B Struwe

Justin L P Benesch

Nicholas G Brown

David Haselbach

Philipp Kukura

Affiliations

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Abstract

Sample purity is central to in vitro studies of protein function and regulation, and to the efficiency and success of structural studies using techniques such as x-ray crystallography and cryo-electron microscopy (cryo-EM). Here, we show that mass photometry (MP) can accurately characterize the heterogeneity of a sample using minimal material with high resolution within a matter of minutes. To benchmark our approach, we use negative stain electron microscopy (nsEM), a popular method for EM sample screening. We include typical workflows developed for structure determination that involve multi-step purification of a multi-subunit ubiquitin ligase and chemical cross-linking steps. When assessing the integrity and stability of large molecular complexes such as the proteasome, we detect and quantify assemblies invisible to nsEM. Our results illustrate the unique advantages of MP over current methods for rapid sample characterization, prioritization and workflow optimization.

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