![GCN2 is a 1649 amino acid protein with five conserved domains: the RWD, the pseudokinase domain, kinase domain, HisRS-Like domain, and CTD. Linking the RWD and pseudokinase domain is ‘charged linker’ (labelled ‘+/−’) region also. The structure of GCN2's RWD domain from mouse was determined using nuclear magnetic resonance (NMR) spectroscopy [39], showing an α + β sandwich fold (PDB ID: 1UKX). The charged linker, a stretch of arginine, lysine, glutamate, and aspartate residues, precedes the pseudokinase domain — the structure of which has yet to be determined — and was identified as a pseudokinase domain due to the sequence similarity to typical kinase domains, however, it lacks key catalytic residues. The kinase domain, shows a typical kinase domain structure (PDB ID: 1ZYD) [10], and is presented as both a monomer and dimer with its associated ATP and Mg2+. Following the kinase domain is the HisRS-like domain, a domain essential for GCN2 activity in vivo [14] which interacts directly with tRNA [15]. Finally, there is the CTD, shown here using the dimeric mouse CTD structure (PDB ID: 4OTN) [27]. The CTD is constitutively dimeric, similar to the kinase domain. There is a species-dependent interaction of the CTD with ribosomes also, which is reliant on three lysine residues found in yeast. Yeast CTDs co-migrate with ribosomes on a sucrose gradient, but this is not the case with the mouse CTD where these lysine residues are absent.](https://port.silverchair-cdn.com/port/content_public/journal/biochemsoctrans/47/5/10.1042_bst20190331/1/bst-2019-0331c.01.png?Expires=1716885670&Signature=Qfh2jQ-vyu5P2L4aFjqWuclwxeyze3XSKWVXImtKR9aWI3Vl9wUk2sso9d~24u7SdKjIYFl8pR8eQvvW9r1LXGHTiinPVQbCazgKBHyy0zngcvJtuEFhNg5Ojh~rfmI~R9ERkrYswFpaMn~Hi1ERNDEU~eAvWgxgwvng7MhX6D-2ols--eBguU8JGOAZtwnVHdGqWYIOHMn9ZkN-SByVYStBV7aN~vxy2HmNYabUtNu19v6N56lJKgo3tiXCDukcewfdF~pGM0FzjX5JNrhh1a0lSlFw23RtPI6b9xT1D7dSeRiKIPkVGWAuzO~1V6b6x2cMYVkhZw5eC8gRGY4e0g__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
GCN2 is a 1649 amino acid protein with five conserved domains: the RWD, the pseudokinase domain, kinase domain, HisRS-Like domain, and CTD. Linking the RWD and pseudokinase domain is ‘charged linker’ (labelled ‘+/−’) region also. The structure of GCN2's RWD domain from mouse was determined using nuclear magnetic resonance (NMR) spectroscopy [39], showing an α + β sandwich fold (PDB ID: 1UKX). The charged linker, a stretch of arginine, lysine, glutamate, and aspartate residues, precedes the pseudokinase domain — the structure of which has yet to be determined — and was identified as a pseudokinase domain due to the sequence similarity to typical kinase domains, however, it lacks key catalytic residues. The kinase domain, shows a typical kinase domain structure (PDB ID: 1ZYD) [10], and is presented as both a monomer and dimer with its associated ATP and Mg2+. Following the kinase domain is the HisRS-like domain, a domain essential for GCN2 activity in vivo [14] which interacts directly with tRNA [15]. Finally, there is the CTD, shown here using the dimeric mouse CTD structure (PDB ID: 4OTN) [27]. The CTD is constitutively dimeric, similar to the kinase domain. There is a species-dependent interaction of the CTD with ribosomes also, which is reliant on three lysine residues found in yeast. Yeast CTDs co-migrate with ribosomes on a sucrose gradient, but this is not the case with the mouse CTD where these lysine residues are absent.