Multiparameter screen optimizes immunoprecipitation.
Shaoshuai XieLeila SabaHua JiangOmar R BringasMehrnoosh OghbaieLuciano Di StefanoVadim ShermanJohn LaCavaPublished in: BioTechniques (2024)
Immunoprecipitation (IP) coupled with mass spectrometry effectively maps protein-protein interactions when genome-wide, affinity-tagged cell collections are used. Such studies have recorded significant portions of the compositions of physiological protein complexes, providing draft 'interactomes'; yet many constituents of protein complexes still remain uncharted. This gap exists partly because high-throughput approaches cannot optimize each IP. A key challenge for IP optimization is stabilizing in vivo interactions during the transfer from cells to test tubes; failure to do so leads to the loss of genuine interactions during the IP and subsequent failure to detect. Our high-content screening method explores the relationship between in vitro chemical conditions and IP outcomes, enabling rapid empirical optimization of conditions for capturing target macromolecular assemblies.
Keyphrases
- high throughput
- mass spectrometry
- genome wide
- single cell
- induced apoptosis
- protein protein
- dna methylation
- cell cycle arrest
- gene expression
- high resolution
- binding protein
- cell therapy
- small molecule
- oxidative stress
- type diabetes
- metabolic syndrome
- high performance liquid chromatography
- cell death
- high throughput sequencing
- endoplasmic reticulum stress
- signaling pathway
- weight loss
- mesenchymal stem cells