Phosphorylation of G protein-coupled receptors (GPCRs) occurs within seconds of agonist stimulation and is one of the most
prevalent mechanisms through which signalling of this super receptor family is regulated. Although traditionally associated
with receptor desensitisation and internalisation, there is an increasing body of evidence that suggests that GPCRs employ
phosphorylation as a mechanism of coupling the receptor to non-G protein signalling pathways. Recently, it has become clear
that GPCRs can be differentially phosphorylated in different cell types or tissues, possibly by tissue- or cell type-specific
employment of a variety of receptor kinases to generate specific “phosphorylation patterns” that might encode signalling properties
on the receptor. Although hampered by low levels of expression and high hydrophobicity, GPCR phosphorylation can be studied
using various methods including two-dimensional (2D) phosphopeptide mapping, mass spectrometry, production of phospho-specific
antibodies and site-directed mutagenesis. In this chapter, we discuss the first three methods which are employed in our laboratory
for the studies of M3
-muscarinic receptor phosphorylation.