Inositol 1,4,5-trisphosphate receptor (IP₃R) plays a crucial role in generating Ca²⁺ signaling and three subtypes of IP₃R have been identified. In spite of a high degree of similarity among these subtypes, their effects on spatio-temporal Ca²⁺ patterns are specific and diverse; therefore the physiological significance of the differential expression levels of IP₃R subtypes in various tissues remains unknown. Here, we examined the relative contribution of the specific subtype of IP₃Rs to the agonist-induced Ca²⁺ signaling and contraction in IP₃R-deficient vascular smooth muscle cells and found that IP₃R1 deficient cells exclusively showed less sensitivity to the agonist, compared to those from the other genotypes. We also found that IP₃R1 dominantly expressed in vascular aortae on a consistent basis, and that phenylephrine (PE)-induced aortic muscle contraction was reduced specifically in IP₃R1-deficient aortae. Taken together, we concluded that IP₃R1 plays a predominant role in the function of the vascular smooth muscle in vivo.