(A) Eye fundus infrared image and (B) optical coherence tomography (OCT) image immediately after subretinal delivery of AAV9-7m8 in peripheral retina. (C) Eye fundus fluorescence image 1 month after injection shows strong Jaws-GFP expression within the subretinal bleb and away from the injection site, including the fovea. Inset magnification: ×1.5. (D–F) Foveal flatmount shows highly efficient and specific foveal transduction using subretinal AAV9-7m8-PR1.7-Jaws-GFP. Scale bar: 50 μm. (G–L) Characteristics of the light responses triggered by optogenetic stimulation of Jaws. (G) Lateral view of Jaws-expressing cones in living tissue using 2-photon imaging. (H and I) Whole-cell patch clamp recordings of Jaws-GFP⁺ macaque cones. Jaws-induced photocurrents as a function of light intensity. Stimuli were applied from 1 × 10¹⁴ to 3 × 10¹⁷ photons cm^-2 s^-1 (n = 9 cells from 2 retinas of 2 animals). (J) Jaws-GFP⁺ cones recorded in current-clamp configuration in current zero mode (with resting membrane potential indicated in gray), displaying light-elicited hyperpolarizations followed by short depolarizations. (K) Jaws-induced photocurrents as a function of stimulation wavelength in subretinally injected macaque eye. Stimuli were applied from 400–650 nm, separated by 25-nm steps, at an intensity equal to 8 × 10¹⁶ photons cm^–2·s^–1. Maximal responses were obtained at 575 nm (asterisk). (L) Characterization of temporal properties. Modulation of Jaws-induced membrane photocurrents at increasing stimulation frequencies in Jaws-expressing macaque cones, from 2–30 Hz, at 8 × 10¹⁶ photons cm^–2·s^–1. AAV, adeno-associated virus; PR1.7, promoter of 1.7 kilobases in length, based on the human red opsin gene enhancer and promoter sequences. IR, infrared.