Fig. 6.

The influence of PD81,723 and VUF5455 on the binding and function of 30 nM ABA-X-BY630 at the human adenosine A₁ receptor. a, the association and dissociation kinetics of 30 nM ABA-X-BY630 in the absence (●; n = 12) and presence of 1 (○; n = 10) and 10 μM (closed gray circle; n = 6) PD81,723 at CHO-A₁ cells. b, the intracellular calcium mobilization mediated by 30 nM ABA-X-BY630 in the absence (●; n = 12) and presence of 1 (○; n = 10) and 10 μM (closed gray circle; n = 6) PD81,723 at CHO-A₁ cells. c, normalized association kinetics of 30 nM ABA-X-BY630 in the absence (●; n = 12) and presence of 1 (○; n = 10) and 10 μM (closed gray circle; n = 6) PD81,723 at CHO-A₁ cells. d, normalized dissociation kinetics of 30 nM ABA-X-BY630 in the absence (●; n = 12) and presence of 1 (○; n = 10) and 10 μM (closed gray circle; n = 6) PD81,723 at CHO-A₁ cells. e, the association and dissociation kinetics of 30 nM ABA-X-BY630 in the absence (●; n = 12) and presence of 0.1 (○; n = 3) and 1 μM (closed gray circle; n = 5) VUF5455 at CHO-A₁ cells. f, the intracellular calcium mobilization mediated by 30 nM ABA-X-BY630 in the absence (●; n = 12) and presence of 0.1 (○; n = 3) and 1 μM (closed gray circle; n = 5) VUF5455 at CHO-A₁ cells. g, normalized association kinetics of 30 nM ABA-X-BY630 in the absence (●; n = 12) and presence of 0.1 (○; n = 3) and 1 μM (closed gray circle; n = 5) VUF5455 at CHO-A₁ cells. h, normalized dissociation kinetics of 30 nM ABA-X-BY630 in the absence (●; n = 12) and presence of 0.1 (○; n = 3) and 1 μM (closed gray circle; n = 5) VUF5455 at CHO-A₁ cells.