P transmission of nerve impulse 1.8e-07 0.0036
P nervous system development 3e-06 0.029
P synaptic transmission 9.9e-06 0.065
P multicellular organismal development 3.6e-05 0.18
P cAMP metabolic process 4.8e-05 0.19
P system development 0.00012 0.37
P regulation of cAMP metabolic process 0.00015 0.37
P cyclic-nucleotide-mediated signaling 0.00015 0.37
P neurogenesis 0.0002 0.43
P regulation of cAMP biosynthetic process 0.00029 0.44
P glycosaminoglycan metabolic process 0.00029 0.44
P cyclic nucleotide metabolic process 0.00022 0.44
P cAMP-mediated signaling 0.00026 0.44
P inhibition of adenylate cyclase activity by G-protein signaling pathway 0.00034 0.45
P cAMP biosynthetic process 0.00034 0.45
P negative regulation of cyclase activity 0.00043 0.52
P generation of neurons 0.0006 0.59
P negative regulation of lyase activity 0.00055 0.59
P polysaccharide biosynthetic process 0.0006 0.59
P neuron differentiation 0.0006 0.59
P aminoglycan metabolic process 0.00066 0.61
P developmental process 0.00072 0.64
P negative regulation of adenylate cyclase activity 0.00075 0.64
P glycosaminoglycan biosynthetic process 0.001 0.78
P regulation of adenylate cyclase activity 0.001 0.78
P regulation of cyclic nucleotide metabolic process 0.001 0.78
P aminoglycan biosynthetic process 0.0011 0.81
P neuron development 0.0012 0.82
P polysaccharide metabolic process 0.0012 0.83
P regulation of cyclic nucleotide biosynthetic process 0.0014 0.9
P activation of protein kinase A activity 0.0015 0.91
P muscarinic acetylcholine receptor signaling pathway 0.0015 0.91
P central nervous system development 0.0016 0.93
P regulation of cyclase activity 0.0017 0.98
P G-protein signaling, coupled to cAMP nucleotide second messenger 0.0051 1
P transcription from RNA polymerase II promoter 0.0066 1
P G-protein signaling, coupled to cyclic nucleotide second messenger 0.0037 1
P myelination 0.01 1
P heart development 0.0075 1
P regulation of action potential in neuron 0.01 1
P regulation of ossification 0.0029 1
P cell morphogenesis involved in neuron differentiation 0.0097 1
P positive regulation of bone mineralization 0.0079 1
P regulation of lipid kinase activity 0.0095 1
P cellular response to glucagon stimulus 0.0018 1
P regulation of nucleotide biosynthetic process 0.0025 1
P brain development 0.0025 1
P forebrain development 0.0066 1
P proteoglycan biosynthetic process 0.0064 1
P regulation of fat cell differentiation 0.0077 1
P neuron projection development 0.0055 1
P peptidyl-tyrosine dephosphorylation 0.0088 1
P neurotransmitter secretion 0.0068 1
P positive regulation of blood vessel endothelial cell migration 0.0075 1
P response to glucagon stimulus 0.0083 1
P regulation of neurotransmitter levels 0.0048 1
P peptidyl-threonine modification 0.004 1
P cyclic nucleotide biosynthetic process 0.0033 1
P positive regulation of calcium ion-dependent exocytosis 0.0019 1
P regulation of lyase activity 0.0034 1
P regulation of bone mineralization 0.0092 1
P response to laminar fluid shear stress 0.0087 1
P consequence of signal transmission 0.0042 1
F voltage-gated potassium channel activity 5.5e-05 0.079
F adenyl ribonucleotide binding 4.9e-05 0.079
F adenyl nucleotide binding 0.00027 0.11
F ATP binding 0.00012 0.11
F voltage-gated cation channel activity 0.00026 0.11
F purine ribonucleotide binding 0.00016 0.11
F ribonucleotide binding 0.00026 0.11
F potassium channel activity 0.00055 0.2
F purine nucleotide binding 0.00071 0.23
F SMAD binding 0.00083 0.24
F inward rectifier potassium channel activity 0.0012 0.32
F voltage-gated channel activity 0.0016 0.35
F voltage-gated ion channel activity 0.0016 0.35
F receptor signaling complex scaffold activity 0.0019 0.39
F protein kinase activity 0.002 0.39
F protein serine/threonine kinase activity 0.0025 0.42
F delayed rectifier potassium channel activity 0.0025 0.42
F nucleotide binding 0.0027 0.44
F nucleoside-triphosphatase regulator activity 0.0039 0.5
F cytoskeletal protein binding 0.0039 0.5
F phosphotransferase activity, alcohol group as acceptor 0.0039 0.5
F gated channel activity 0.0039 0.5
F kinase activity 0.0037 0.5
F GTPase regulator activity 0.0043 0.51
F neuropeptide binding 0.0044 0.51
F magnesium ion binding 0.0076 0.58
F metal ion binding 0.0052 0.58
F acetylgalactosaminyltransferase activity 0.0057 0.58
F small GTPase regulator activity 0.0062 0.58
F guanyl-nucleotide exchange factor activity 0.007 0.58
F protein binding 0.0073 0.58
F UDP-galactosyltransferase activity 0.0055 0.58
F ligand-gated channel activity 0.0075 0.58
F protein complex scaffold 0.0059 0.58
F S-acyltransferase activity 0.0067 0.58
F palmitoyltransferase activity 0.0076 0.58
F ligand-gated ion channel activity 0.0075 0.58
F transmembrane receptor protein kinase activity 0.0068 0.58
F G-protein activated inward rectifier potassium channel activity 0.0081 0.59
F cation binding 0.0079 0.59
F manganese ion binding 0.0083 0.59
F UDP-glycosyltransferase activity 0.0089 0.61
F spectrin binding 0.0091 0.61
F protein-cysteine S-acyltransferase activity 0.0093 0.61
F cation channel activity 0.0096 0.62
C neuron projection 1.5e-05 0.034
C postsynaptic density 0.00016 0.12
C synapse 0.00011 0.12
C potassium channel complex 0.00041 0.13
C Golgi membrane 0.0003 0.13
C voltage-gated potassium channel complex 0.00036 0.13
C dendrite 0.00032 0.13
C cytoplasm 0.00071 0.2
C postsynaptic membrane 0.00092 0.22
C axon 0.00098 0.22
C cell body 0.0012 0.25
C Golgi apparatus 0.0015 0.27
C cell projection 0.0023 0.4
C Golgi apparatus part 0.0029 0.46
C intracellular 0.0042 0.61
C cation channel complex 0.0046 0.63
C neuronal cell body 0.0076 0.93
C Golgi cisterna membrane 0.0075 0.93
C myelin sheath 0.0084 0.95
C synapse part 0.0095 0.95
C intracellular part 0.0088 0.95
C neuron projection membrane 0.0092 0.95