posted on 2006-12-01, 00:00authored byXavier Hanoulle, Jozef Van Damme, An Staes, Lennart Martens, Marc Goethals, Joël Vandekerckhove, Kris Gevaert
Adenine nucleotides are small, abundant molecules that bind numerous proteins involved in pivotal
cellular processes. These nucleotides are co-factors or
substrates for enzymes, regulators of protein function, or
structural binding motifs. The identification of nucleotide-binding sites on a proteome-wide scale is tempting in
view of the high number of nucleotide-binding proteins,
their large in vivo concentration differences, and the
various functions they exert. Here, we report on a functional, chemical, gel-free proteomics technology that
allows the identification of protein adenine nucleotide-binding site(s) in cell lysates. Our technology uses a
synthetic ATP analogue, 5‘-p-fluorosulfonylbenzoyladenosine (FSBA), as an affinity/activity-based probe for
nucleotide-binding sites. When applied on a cellular level,
185 different FSBA-labeled sites in a human Jurkat cell
lysate were identified. Functional and structural aspects
of the use of FSBA on a proteome-wide scale are discussed.
Keywords: 5‘-p-fluorosulfonylbenzoyladenosine (FSBA) • functional proteomics • affinity/activity-based probe • gel-free proteomics • diagonal chromatography