Stoichiometric arginine binding in the oxygenase domain of inducible nitric oxide synthase requires a single molecule of tetrahydrobiopterin per dimer.

In addition to its catalytic roles, the nitric oxide synthase (NOS) cofactor tetrahydrobiopterin (H4B) is required for substrate binding and for stabilization of the dimeric structure. We expressed and purified the core of the iNOS oxygenase domain consisting of residues 75-500 (CODiNOS) in the presence (H4B+) and absence (H4B-) of this cofactor. Both forms bound stoichiometric amounts of heme (>0.9 heme per protein subunit). H4B- CODiNOS was unable to bind arginine, gave an unstable ferrous carbonyl adduct, and was a mixture of monomer and dimer. H4B+ CODiNOS bound arginine, gave a stable ferrous carbonyl adduct, and was exclusively dimeric. The H4B cofactor content of this species was only one per dimer yet this was sufficient to form two competent arginine binding sites as determined by optical stoichiometric titrations.

Selective attention to face identity and color studied with f MRI.

Cortical areas associated with selective attention to the color and identity of faces were located using functional magnetic resonance imaging (fMRI). Six subjects performed tasks which required selective attention to face identity or color similarity using the same color-washed face stimuli. Performance of the color attention task but not the face attention task was associated with a region of activity in the collateral sulcus and nearby regions of the lingual and fusiform gyri. Performance of both tasks was associated with a region of activity in ventral occipitotemporal cortex that was lateral to the color responsive area and had a greater spatial extent. These fMRI results converge with results obtained from PET and ERP studies to demonstrate similar anatomical locations of functional areas for face and color processing across studies.