The cone photoreceptor cyclic nucleotide-gated (CNG) channel plays a pivotal role in cone phototransduction. Mutations in genes encoding the channel subunits CNGA3 and CNGB3 account for about 80% of all cases of achromatopsia and are associated with progressive cone dystrophies. CNG channel deficiency leads to cellular/endoplasmic reticulum (ER) calcium dysregulation and ER stress-associated cone apoptosis. This work investigated the role of the ER calcium channel ryanodine receptor 1 (Ryr1) in ER stress and cone degeneration in CNG channel deficiency. The AAV-mediated CRISPR/SaCas9 genome editing was used to knock down Ryr1 specifically in cones. CNG channel-deficient mice displayed improved cone survival after subretinal injection of AAV2-SaCas9/gRNA-Ryr1, manifested as increased expression levels of cone proteins M-opsin, S-opsin, and cone arrestin. Knockdown of Ryr1 also led to reduced ER stress and increased expression levels of the ER-associated degradation proteins. This work demonstrates a role of Ryr1 in ER stress and cone degeneration in CNG channel deficiency, and supports strategies targeting ER calcium regulation for cone preservation.