Tandem Affinity Purification and Mass-Spectrometric Analysis of FACT and Associated Proteins.

Abstract

Isolation of a protein/complex is important for its biochemical and structural characterization with mechanistic insights. TAP (tandem affinity purification) strategy allows rapid isolation of cellular proteins/complexes with a high level of purity. This methodology involves an immuno-affinity-based purification followed by a conformation-based isolation to obtain a highly homogeneous protein/complex. Here, we describe the TAP-mediated isolation of endogenous FACT (facilitates chromatin transcription; a heterodimer), an essential histone chaperone associated with BER (base excision repair). However, it is not clearly understood how FACT regulates BER. Such knowledge would advance our understanding of BER with implications in disease pathogenesis, since BER is an evolutionarily conserved process that is linked to various diseases including ageing, neurodegenerative disorders, and cancers. Using isolated FACT by TAP methodology, one can study the mechanisms of action of FACT in BER. Further, isolated FACT can be used for studies in other DNA transactions such as transcription and replication, as FACT is involved in these processes. Furthermore, TAP-mediated isolation strategy can be combined with mass spectrometry to identify the protein interaction partners of FACT.