| scholarly article | Q13442814 |
| P50 | author | Lonny R. Levin | Q37373566 |
| Jennifer Martinez | Q61873164 | ||
| Jochen Buck | Q87376356 | ||
| P2093 | author name string | Elena Nikulina | |
| Jianwei Hou | |||
| Marie T Filbin | |||
| Alexander M Stessin | |||
| Aline Campana | |||
| P2860 | cites work | Somatic 'soluble' adenylyl cyclase isoforms are unaffected in Sacy tm1Lex/Sacy tm1Lex 'knockout' mice | Q21144234 |
| Kinetic properties of "soluble" adenylyl cyclase. Synergism between calcium and bicarbonate | Q24296362 | ||
| Molecular details of cAMP generation in mammalian cells: a tale of two systems | Q24622606 | ||
| Glial inhibition of CNS axon regeneration | Q24648851 | ||
| Calcium regulation of the soluble adenylyl cyclase expressed in mammalian spermatozoa | Q24685834 | ||
| Persistent cAMP-signals triggered by internalized G-protein-coupled receptors | Q27329609 | ||
| Intracellular cAMP signaling by soluble adenylyl cyclase. | Q27691286 | ||
| G-protein-coupled receptors: from classical modes of modulation to allosteric mechanisms | Q28288332 | ||
| Soluble adenylyl cyclase is required for netrin-1 signaling in nerve growth cones | Q28577214 | ||
| Soluble adenylyl cyclase mediates nerve growth factor-induced activation of Rap1 | Q28583173 | ||
| The "soluble" adenylyl cyclase in sperm mediates multiple signaling events required for fertilization | Q30499872 | ||
| Mice deficient for soluble adenylyl cyclase are infertile because of a severe sperm-motility defect | Q30539902 | ||
| Growth-cone attraction to netrin-1 is converted to repulsion by laminin-1. | Q33873943 | ||
| Soluble adenylyl cyclase as an evolutionarily conserved bicarbonate sensor. | Q33911593 | ||
| Compartmentalization of bicarbonate-sensitive adenylyl cyclase in distinct signaling microdomains | Q34163828 | ||
| Metabolic communication between astrocytes and neurons via bicarbonate-responsive soluble adenylyl cyclase | Q34301133 | ||
| cAMP-dependent growth cone guidance by netrin-1. | Q34451954 | ||
| Sustained cyclic AMP production by parathyroid hormone receptor endocytosis. | Q34544553 | ||
| Detecting cAMP-induced Epac activation by fluorescence resonance energy transfer: Epac as a novel cAMP indicator | Q34650064 | ||
| Signaling pathways for PC12 cell differentiation: making the right connections | Q34662640 | ||
| Myelin-associated inhibitors of axonal regeneration in the adult mammalian CNS. | Q35209949 | ||
| Regulation of anterior chamber drainage by bicarbonate-sensitive soluble adenylyl cyclase in the ciliary body | Q35842125 | ||
| Soluble adenylyl cyclase activity is necessary for retinal ganglion cell survival and axon growth | Q36024175 | ||
| Imaging the cAMP-dependent signal transduction pathway. | Q36295432 | ||
| Bicarbonate-responsive "soluble" adenylyl cyclase defines a nuclear cAMP microdomain | Q36321851 | ||
| Regulation of neuronal PKA signaling through AKAP targeting dynamics | Q36407666 | ||
| Intra-axonal translation of RhoA promotes axon growth inhibition by CSPG. | Q36431224 | ||
| Cyclic nucleotide-gated channels colocalize with adenylyl cyclase in regions of restricted cAMP diffusion | Q36436363 | ||
| A-kinase anchoring proteins take shape | Q36463252 | ||
| Glucose and GLP-1 stimulate cAMP production via distinct adenylyl cyclases in INS-1E insulinoma cells | Q36843192 | ||
| Neuronal expression of soluble adenylyl cyclase in the mammalian brain | Q36920443 | ||
| A-kinase anchoring proteins: from protein complexes to physiology and disease | Q37192490 | ||
| CO2/HCO3(-)- and calcium-regulated soluble adenylyl cyclase as a physiological ATP sensor | Q37311421 | ||
| Pharmacological distinction between soluble and transmembrane adenylyl cyclases | Q37331817 | ||
| Adenylyl cyclase--A-kinase anchoring protein complexes: the next dimension in cAMP signaling | Q37415827 | ||
| cAMP signal transduction in the heart: understanding spatial control for the development of novel therapeutic strategies | Q37445957 | ||
| Fluorescent indicators of cAMP and Epac activation reveal differential dynamics of cAMP signaling within discrete subcellular compartments | Q37692357 | ||
| Neurotrophin regulation of neural circuit development and function | Q38068714 | ||
| High-resolution measurements of cyclic adenosine monophosphate signals in 3D microdomains | Q40403453 | ||
| Gating of BDNF-induced synaptic potentiation by cAMP. | Q41673335 | ||
| "Soluble" adenylyl cyclase-generated cyclic adenosine monophosphate promotes fast migration in PC12 cells | Q41815192 | ||
| Neurotrophins elevate cAMP to reach a threshold required to overcome inhibition by MAG through extracellular signal-regulated kinase-dependent inhibition of phosphodiesterase. | Q42454534 | ||
| Fluorescence resonance energy transfer-based analysis of cAMP dynamics in live neonatal rat cardiac myocytes reveals distinct functions of compartmentalized phosphodiesterases | Q42462628 | ||
| Soluble adenylyl cyclase defines a nuclear cAMP microdomain in keratinocyte hyperproliferative skin diseases | Q42466818 | ||
| The inner and outer compartments of mitochondria are sites of distinct cAMP/PKA signaling dynamics | Q42538462 | ||
| Cyclic AMP produced inside mitochondria regulates oxidative phosphorylation | Q43124399 | ||
| Discrete microdomains with high concentration of cAMP in stimulated rat neonatal cardiac myocytes | Q43901717 | ||
| Regeneration of sensory axons within the injured spinal cord induced by intraganglionic cAMP elevation | Q44042967 | ||
| Spinal axon regeneration induced by elevation of cyclic AMP. | Q44042969 | ||
| Spatially Resolved Dynamics of cAMP and Protein Kinase A Subunits in Aplysia Sensory Neurons | Q45964672 | ||
| Conversion of neuronal growth cone responses from repulsion to attraction by cyclic nucleotides. | Q46084871 | ||
| cAMP-induced switching in turning direction of nerve growth cones. | Q46280291 | ||
| Soluble adenylyl cyclase is not required for axon guidance to netrin-1. | Q46653948 | ||
| Myelination in rat brain: method of myelin isolation | Q48629501 | ||
| cAMP-dependent axon guidance is distinctly regulated by Epac and protein kinase A. | Q51920488 | ||
| Prior Exposure to Neurotrophins Blocks Inhibition of Axonal Regeneration by MAG and Myelin via a cAMP-Dependent Mechanism | Q60228789 | ||
| Nerve growth factor | Q69848312 | ||
| A novel role for myelin-associated glycoprotein as an inhibitor of axonal regeneration | Q71647850 | ||
| Neurotrophin induced cAMP and IP3 responses in PC12 cells. Different pathways | Q72083184 | ||
| Mediation by a CREB family transcription factor of NGF-dependent survival of sympathetic neurons | Q73278662 | ||
| Lens injury stimulates axon regeneration in the mature rat optic nerve | Q73870779 | ||
| The relationship of epinephrine and glucagon to liver phosphorylase. IV. Effect of epinephrine and glucagon on the reactivation of phosphorylase in liver homogenates | Q74391533 | ||
| Mitochondrial Ca²⁺ uptake induces cyclic AMP generation in the matrix and modulates organelle ATP levels | Q86917903 | ||
| P433 | issue | 28 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 9281-9289 | |
| P577 | publication date | 2014-07-01 | |
| P1433 | published in | Journal of Neuroscience | Q1709864 |
| P1476 | title | Soluble adenylyl cyclase is necessary and sufficient to overcome the block of axonal growth by myelin-associated factors | |
| P478 | volume | 34 |
| Q90396242 | Compartmentalization of local cAMP signaling in neuronal growth and survival |
| Q92477726 | Effects of Timolol Treatment on Pancreatic Antioxidant Enzymes in Streptozotocin-induced Diabetic Rats: An Experimental and Computational Study |
| Q49830346 | Elevated intracellular cAMP exacerbates vulnerability to oxidative stress in optic nerve head astrocytes |
| Q88882229 | Pharmacological modulation of the CO2/HCO3-/pH-, calcium-, and ATP-sensing soluble adenylyl cyclase |
| Q37689215 | Role of cyclic AMP in the eye with glaucoma. |
| Q37316161 | Soluble Adenylyl Cyclase Is Required for Retinal Ganglion Cell and Photoreceptor Differentiation |
| Q90358061 | The Role of Axon Transport in Neuroprotection and Regeneration |
| Q37564498 | The metabolic/pH sensor soluble adenylyl cyclase is a tumor suppressor protein |
| Q26795534 | What makes a RAG regeneration associated? |
| Q29994681 | cAMP-dependent cell differentiation triggered by activated CRHR1 in hippocampal neuronal cells. |
Search more.