Millisecond dynamics in the allosteric enzyme imidazole glycerol phosphate synthase (IGPS) from Thermotoga maritima

IGPS is a 51 kDa heterodimeric enzyme comprised of two proteins, HisH and HisF, that catalyze the hydrolysis of glutamine to produce NH3 in the HisH active site and the cyclization of ammonia with N′-[(5′-phosphoribulosyl)formimino]-5-aminoimidazole-4-carboxamide-ribonucleotide (PRFAR) in HisF to produce imidazole glycerol phosphate (IGP) and 5-aminoimidazole-4-carboxamide ribotide (AICAR). Binding of PRFAR and IGP stimulates glutaminase activity in the HisH enzyme over 5,000 and 100-fold, respectively, despite the active sites being >25 Å apart. The details of this long-range protein communication process were investigated by solution NMR spectroscopy and CPMG relaxation dispersion experiments. Formation of the heterodimer enzyme results in a reduction in millisecond motions in HisF that extend throughout the protein. Binding of lGP results in an increase in protein-wide millisecond dynamics evidenced as severe NMR line broadening and elevated Rex values. Together, these data demonstrate a grouping of flexible residues that link the HisF active site with the protein interface to which HisH binds and provide a model for the path of communication between the IGPS active sites.