Purification of heterotrimeric GTP-binding proteins from brain: identification of a novel form of Go.

Abstract

Using high-resolution Mono-Q anion-exchange chromatography, we purified four distinct GTP-binding proteins from bovine brain. Each consists of alpha and associated beta/gamma subunits, and each is a substrate for pertussis toxin catalyzed ADP-ribosylation. We defined the relationship between the alpha subunits of the purified proteins and cloned cDNAs encoding putative alpha subunits (1) by performing immunoblots with peptide antisera with defined specificity and (2) by comparing the migration on two-dimensional gel electrophoresis of the purified proteins, and of the in vitro translated products of cDNAs encoding alpha subunits. Purified G proteins with alpha subunits of 39, 41, and 40 kDa (G39, G41, and G40 in order of abundance) correspond to the products of Go, Gi1, and Gi2 cDNAs. We purified a novel G protein with an alpha subunit slightly above 39 kDa (G39*). G39* is less abundant than G39, elutes earlier than G39 on Mono-Q chromatography, and has a more basic pI (6.0 vs 5.6) than G39. G39 and G39*, however, are indistinguishable on immunoblots with a large number of specific antisera. The data suggest that G39* may represent a novel form of Go, differing in posttranslational modification rather than primary sequence.