ATP binding; guanylate cyclase activity; peptide receptor activity; signaling receptor activity. It is involved in the biological process described with: protein phosphorylation; receptor guanylyl cyclase signaling pathway; cGMP-mediated signaling; signal transduction; cGMP biosynthetic process.

High affinity cGMP-specific 3',5'-cyclic phosphodiesterase 9A; Specifically hydrolyzes the second messenger cGMP, which is a key regulator of many important physiological processes. Highly specific: compared to other members of the cyclic nucleotide phosphodiesterase family, has the highest affinity and selectivity for cGMP.

Guanylate cyclase; Signaling receptor activity; guanylate cyclase activity; peptide receptor activity; ATP binding. It is involved in the biological process described with: cGMP-mediated signaling; receptor guanylyl cyclase signaling pathway; protein phosphorylation; cGMP biosynthetic process; signal transduction.

Cyclic nucleotide-gated ion channel subunit A (CngA) encodes a non-selective cation channel related to the superfamily of voltage-gated ion channels. It is involved in both excitation and adaptation of sensory cells, as well as in Ca[2+] response in the mushroom bodies.

Guanylate cyclase; Signaling receptor activity; guanylate cyclase activity; peptide receptor activity; ATP binding. It is involved in the biological process described with: cGMP-mediated signaling; receptor guanylyl cyclase signaling pathway; protein phosphorylation; cGMP biosynthetic process; signal transduction.

Soluble guanylate cyclase 88E; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Guanylate cyclase; Signaling receptor activity; guanylate cyclase activity; peptide receptor activity; ATP binding. It is involved in the biological process described with: cGMP-mediated signaling; receptor guanylyl cyclase signaling pathway; protein phosphorylation; cGMP biosynthetic process; signal transduction.

High affinity cGMP-specific 3',5'-cyclic phosphodiesterase 9A; Specifically hydrolyzes the second messenger cGMP, which is a key regulator of many important physiological processes. Highly specific: compared to other members of the cyclic nucleotide phosphodiesterase family, has the highest affinity and selectivity for cGMP.

Receptor-type guanylate cyclase Gyc76C; Guanylate cyclase involved in the production of the second messenger cGMP. Acts as a receptor for the NPLP1-4 peptide and modulates the innate immune IMD pathway in response to salt stress by inducing nuclear translocation of NF-kappa-B protein Rel which leads to increased expression of the antimicrobial peptide diptericin. Plays a role in Sema-1a-mediated axon repulsion which is required for the correct establishment of neuromuscular connectivity. Required in developing embryonic somatic muscle for correct patterning of ventral and lateral muscl [...]

High affinity cGMP-specific 3',5'-cyclic phosphodiesterase 9A; Specifically hydrolyzes the second messenger cGMP, which is a key regulator of many important physiological processes. Highly specific: compared to other members of the cyclic nucleotide phosphodiesterase family, has the highest affinity and selectivity for cGMP.

Cyclic nucleotide-gated ion channel subunit A (CngA) encodes a non-selective cation channel related to the superfamily of voltage-gated ion channels. It is involved in both excitation and adaptation of sensory cells, as well as in Ca[2+] response in the mushroom bodies.

Guanylate cyclase; Signaling receptor activity; guanylate cyclase activity; peptide receptor activity; ATP binding. It is involved in the biological process described with: cGMP-mediated signaling; receptor guanylyl cyclase signaling pathway; protein phosphorylation; cGMP biosynthetic process; signal transduction.

Cyclic nucleotide-gated ion channel subunit A (CngA) encodes a non-selective cation channel related to the superfamily of voltage-gated ion channels. It is involved in both excitation and adaptation of sensory cells, as well as in Ca[2+] response in the mushroom bodies.

Soluble guanylate cyclase 88E; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Cyclic nucleotide-gated ion channel subunit A (CngA) encodes a non-selective cation channel related to the superfamily of voltage-gated ion channels. It is involved in both excitation and adaptation of sensory cells, as well as in Ca[2+] response in the mushroom bodies.

Soluble guanylate cyclase 89Da; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Cyclic nucleotide-gated ion channel subunit A (CngA) encodes a non-selective cation channel related to the superfamily of voltage-gated ion channels. It is involved in both excitation and adaptation of sensory cells, as well as in Ca[2+] response in the mushroom bodies.

Soluble guanylate cyclase 89Db; Heterodimers with Gyc88E are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

ATP binding; guanylate cyclase activity; peptide receptor activity; signaling receptor activity. It is involved in the biological process described with: cGMP biosynthetic process; signal transduction; cGMP-mediated signaling; receptor guanylyl cyclase signaling pathway; protein phosphorylation.

High affinity cGMP-specific 3',5'-cyclic phosphodiesterase 9A; Specifically hydrolyzes the second messenger cGMP, which is a key regulator of many important physiological processes. Highly specific: compared to other members of the cyclic nucleotide phosphodiesterase family, has the highest affinity and selectivity for cGMP.

Soluble guanylate cyclase 88E; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Guanylate cyclase; Signaling receptor activity; guanylate cyclase activity; peptide receptor activity; ATP binding. It is involved in the biological process described with: cGMP-mediated signaling; receptor guanylyl cyclase signaling pathway; protein phosphorylation; cGMP biosynthetic process; signal transduction.

Soluble guanylate cyclase 88E; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Cyclic nucleotide-gated ion channel subunit A (CngA) encodes a non-selective cation channel related to the superfamily of voltage-gated ion channels. It is involved in both excitation and adaptation of sensory cells, as well as in Ca[2+] response in the mushroom bodies.

Soluble guanylate cyclase 88E; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Soluble guanylate cyclase 89Da; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Soluble guanylate cyclase 88E; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Soluble guanylate cyclase 89Db; Heterodimers with Gyc88E are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Soluble guanylate cyclase 88E; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Head-specific guanylate cyclase; Guanylyl cyclase alpha-subunit at 99B (Gycalpha99B) encodes a guanylate cyclase involved in cyclic GMP biosynthesis and phototaxis mediated by rhodopsin.

Soluble guanylate cyclase 88E; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Guanylyl cyclase beta-subunit at 100B (Gycbeta100B) encodes an enzyme that synthesizes cyclic GMP and is activated by nitric oxide; Belongs to the adenylyl cyclase class-4/guanylyl cyclase family.

Soluble guanylate cyclase 88E; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

High affinity cGMP-specific 3',5'-cyclic phosphodiesterase 9A; Specifically hydrolyzes the second messenger cGMP, which is a key regulator of many important physiological processes. Highly specific: compared to other members of the cyclic nucleotide phosphodiesterase family, has the highest affinity and selectivity for cGMP.

Soluble guanylate cyclase 89Da; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Cyclic nucleotide-gated ion channel subunit A (CngA) encodes a non-selective cation channel related to the superfamily of voltage-gated ion channels. It is involved in both excitation and adaptation of sensory cells, as well as in Ca[2+] response in the mushroom bodies.

Soluble guanylate cyclase 89Da; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Soluble guanylate cyclase 88E; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Soluble guanylate cyclase 89Da; Heterodimers with Gyc-89Da and Gyc-89Db are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.

Soluble guanylate cyclase 89Db; Heterodimers with Gyc88E are activated in response to changing oxygen concentrations, alerting flies to hypoxic environments. Under normal oxygen concentrations, oxygen binds to the heme group and results in low levels of guanylyl cyclase activity. When exposed to reduced oxygen concentrations, the oxygen dissociates from the heme group resulting in activation of the enzyme.