Preparation of Fully Reduced and Fully Oxidized Proteins
2:37
Light Scattering Aggregation Assay
5:20
Hydrogen-deuterium Exchange Mass Spectrometry (HDX-MS)
8:01
Results: Investigation of Hsp33 s Redox-regulated Chaperone Activity and Structure Changes
9:34
Conclusion
Transcription
The workflow presented here can help extend our understanding of the cellular role of chaperones during oxidative stress conditions. Specifically, it can help to understand how do chaperones prevent protein aggregation during unfolding conditions.
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One of the most challenging stress conditions that organisms encounter during their lifetime involves the accumulation of oxidants. During oxidative stress, cells heavily rely on molecular chaperones. Here, we present methods used to investigate the redox-regulated anti-aggregation activity, as well as to monitor structural changes governing the chaperone function using HDX-MS.