review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Chen X | |
Qiu L | |||
Storm DR | |||
LeBel RP | |||
P2860 | cites work | Flagellar synchronization through direct hydrodynamic interactions | Q21128775 |
Cloning, chromosomal mapping, and regulatory properties of the human type 9 adenylyl cyclase (ADCY9) | Q24336016 | ||
A motility in the eukaryotic flagellum unrelated to flagellar beating | Q24562713 | ||
The role of primary cilia in neuronal function | Q24632925 | ||
The primary cilium as a dual sensor of mechanochemical signals in chondrocytes | Q26863504 | ||
Modelling kidney disease with CRISPR-mutant kidney organoids derived from human pluripotent epiblast spheroids | Q27319887 | ||
A gain-of-function mutation in adenylate cyclase 3 protects mice from diet-induced obesity | Q27335317 | ||
Adult type 3 adenylyl cyclase-deficient mice are obese | Q27342322 | ||
A septin diffusion barrier at the base of the primary cilium maintains ciliary membrane protein distribution | Q28000024 | ||
The major alpha-tubulin K40 acetyltransferase alphaTAT1 promotes rapid ciliogenesis and efficient mechanosensation | Q28000035 | ||
Ciliogenesis: building the cell's antenna | Q28000047 | ||
Intraflagellar transport | Q28131775 | ||
Disruption of the type III adenylyl cyclase gene leads to peripheral and behavioral anosmia in transgenic mice | Q28142480 | ||
Molecular and biochemical evidence for the presence of type III adenylyl cyclase in human platelets | Q28181440 | ||
Reduced olfactory bulb volume and olfactory sensitivity in patients with acute major depression | Q28282543 | ||
Phosphorylation and inhibition of olfactory adenylyl cyclase by CaM kinase II in Neurons: a mechanism for attenuation of olfactory signals | Q28285141 | ||
Phosphorylation and inhibition of type III adenylyl cyclase by calmodulin-dependent protein kinase II in vivo | Q28289372 | ||
The type 3 adenylyl cyclase is required for the survival and maturation of newly generated granule cells in the olfactory bulb | Q28390576 | ||
Leptin resistance is a secondary consequence of the obesity in ciliopathy mutant mice | Q28504740 | ||
Golf: an olfactory neuron specific-G protein involved in odorant signal transduction | Q28507334 | ||
Neuropeptide Y family receptors traffic via the Bardet-Biedl syndrome pathway to signal in neuronal primary cilia | Q28513272 | ||
Cilia, tubby mice, and obesity | Q39859738 | ||
Adenylyl cyclases and the interaction between calcium and cAMP signalling | Q40496494 | ||
In touch - the molecular basis of mechanosensory transduction | Q41565630 | ||
Motility and mechanosensitivity of macrocilia in the ctenophore Beroë. | Q41587303 | ||
Forskolin-stimulated platelet adenylyl cyclase activity is lower in persons with major depression | Q42439958 | ||
Platelet adenylyl cyclase activity: a biological marker for major depression and recent drug use. | Q42482528 | ||
Arborization of dendrites by developing neocortical neurons is dependent on primary cilia and type 3 adenylyl cyclase. | Q42825721 | ||
Ciliary dysfunction and obesity | Q43227936 | ||
Characterization of adenylyl cyclase isoforms in rat peripheral pulmonary arteries | Q43606187 | ||
Adenylyl cyclase 3 mediates prostaglandin E(2)-induced growth inhibition in arterial smooth muscle cells | Q43658451 | ||
Increased expression of adenylyl cyclase isoforms in the adrenal gland of diabetic Goto-Kakizaki rat. | Q44329653 | ||
Odorant-induced and sniff-induced activation in the cerebellum of the human. | Q46597273 | ||
Difference in physiogenomics between male and female infertility | Q46598174 | ||
Type III adenylyl cyclase localizes to primary cilia throughout the adult mouse brain | Q46959770 | ||
Genetic variation of the adenylyl cyclase 3 (AC3) locus and its influence on type 2 diabetes and obesity susceptibility in Swedish men. | Q46981721 | ||
Ablation of Type III Adenylyl Cyclase in Mice Causes Reduced Neuronal Activity, Altered Sleep Pattern, and Depression-like Phenotypes | Q47888461 | ||
Sniffing controls an adaptive filter of sensory input to the olfactory bulb. | Q48193538 | ||
Olfaction as a marker for depression in humans | Q48367564 | ||
The olfactory adenylyl cyclase type 3 is expressed in male germ cells | Q48491838 | ||
Comprehensive analysis of the expression patterns of the adenylate cyclase gene family in the developing and adult mouse brain | Q48583913 | ||
Transducing emotionality: the role of adenylyl cyclases | Q48612174 | ||
Olfactory bulb units: activity correlated with inhalation cycles and odor quality. | Q51107825 | ||
Sniffing longer rather than stronger to maintain olfactory detection threshold | Q73431600 | ||
Some evidence for a mechanical receptor in olfactory function | Q79088324 | ||
Central nervous system control of metabolism. | Q38059776 | ||
Primary cilia and graded Sonic Hedgehog signaling | Q38116920 | ||
Primary cilia in neurodevelopmental disorders | Q38168054 | ||
Influences of primary cilia on cortical morphogenesis and neuronal subtype maturation | Q38205163 | ||
The primary cilium as a cellular receiver: organizing ciliary GPCR signaling | Q38754528 | ||
'Smelling' the cerebrospinal fluid: olfactory signaling molecules are expressed in and mediate chemosensory signaling from the choroid plexus | Q38789681 | ||
Ciliary adenylyl cyclases control the Hedgehog pathway | Q38861982 | ||
Characterization of ciliary targeting sequence of rat melanin-concentrating hormone receptor 1. | Q39184362 | ||
Cholangiocyte primary cilia are chemosensory organelles that detect biliary nucleotides via P2Y12 purinergic receptors | Q28577465 | ||
Identification of a specialized adenylyl cyclase that may mediate odorant detection | Q28581625 | ||
Polycystin-2 localizes to kidney cilia and the ciliary level is elevated in orpk mice with polycystic kidney disease | Q28585961 | ||
The ciliary G-protein-coupled receptor Gpr161 negatively regulates the Sonic hedgehog pathway via cAMP signaling | Q28589325 | ||
Polycystin-2 and phosphodiesterase 4C are components of a ciliary A-kinase anchoring protein complex that is disrupted in cystic kidney diseases | Q28591325 | ||
Hedgehog signalling in the mouse requires intraflagellar transport proteins | Q28593010 | ||
Chlamydomonas IFT88 and its mouse homologue, polycystic kidney disease gene tg737, are required for assembly of cilia and flagella | Q28593253 | ||
When cilia go bad: cilia defects and ciliopathies | Q29547198 | ||
The vertebrate primary cilium in development, homeostasis, and disease | Q29614609 | ||
Proteomic analysis of a eukaryotic cilium | Q29614823 | ||
The primary cilium as the cell's antenna: signaling at a sensory organelle | Q29615165 | ||
Adenylate cyclase 3: a new target for anti-obesity drug development | Q30249873 | ||
Overexpression of the type 1 adenylyl cyclase in the forebrain leads to deficits of behavioral inhibition | Q30407430 | ||
dTULP, the Drosophila melanogaster homolog of tubby, regulates transient receptor potential channel localization in cilia. | Q30448964 | ||
Why sniff fast? The relationship between sniff frequency, odor discrimination, and receptor neuron activation in the rat. | Q30483660 | ||
C. elegans TRP family protein TRP-4 is a pore-forming subunit of a native mechanotransduction channel | Q30496277 | ||
Chemically inducible diffusion trap at cilia reveals molecular sieve-like barrier. | Q30560329 | ||
G protein-coupled odorant receptors underlie mechanosensitivity in mammalian olfactory sensory neurons | Q30616611 | ||
The type III calcium/calmodulin-sensitive adenylyl cyclase is not specific to olfactory sensory neurons | Q31001112 | ||
Force generation and dynamics of individual cilia under external loading | Q33568368 | ||
Soluble adenylyl cyclase as an evolutionarily conserved bicarbonate sensor. | Q33911593 | ||
Xenopus TRPN1 (NOMPC) localizes to microtubule-based cilia in epithelial cells, including inner-ear hair cells | Q33933817 | ||
Regulation and role of adenylyl cyclase isoforms | Q33939373 | ||
Genetic architectures of psychiatric disorders: the emerging picture and its implications | Q33949729 | ||
Primary cilium-dependent mechanosensing is mediated by adenylyl cyclase 6 and cyclic AMP in bone cells | Q34017092 | ||
Primary cilia are required in a unique subpopulation of neural progenitors | Q34119929 | ||
Genome-wide association study of major depressive disorder: new results, meta-analysis, and lessons learned | Q34147518 | ||
A cyclic nucleotide-gated conductance in olfactory receptor cilia | Q34162894 | ||
Intraflagellar transport and cilia-dependent diseases. | Q34166357 | ||
Cilia in the CNS: the quiet organelle claims center stage | Q34173153 | ||
All in a sniff: olfaction as a model for active sensing | Q34219082 | ||
Overexpression of type-1 adenylyl cyclase in mouse forebrain enhances recognition memory and LTP. | Q34319558 | ||
Genome-wide association and longitudinal analyses reveal genetic loci linking pubertal height growth, pubertal timing and childhood adiposity | Q34330305 | ||
Intraflagellar transport and cilia-dependent renal disease: the ciliary hypothesis of polycystic kidney disease. | Q34355892 | ||
How the olfactory system makes sense of scents | Q34370087 | ||
Sniffing and smelling: separate subsystems in the human olfactory cortex | Q34461883 | ||
Maternal behavior is impaired in female mice lacking type 3 adenylyl cyclase | Q34662005 | ||
Central role of soluble adenylyl cyclase and cAMP in sperm physiology. | Q34674355 | ||
Controlling fertilization and cAMP signaling in sperm by optogenetics. | Q34983253 | ||
The vertebrate primary cilium is a sensory organelle | Q35041118 | ||
Calmodulin-regulated adenylyl cyclases: cross-talk and plasticity in the central nervous system | Q35073678 | ||
Isoforms of mammalian adenylyl cyclase: multiplicities of signaling | Q35679436 | ||
A genome-wide association study of body mass index across early life and childhood | Q35749372 | ||
Meta-analysis identifies common variants associated with body mass index in east Asians | Q35785297 | ||
Disruption of intraflagellar transport in adult mice leads to obesity and slow-onset cystic kidney disease | Q36156370 | ||
The sniff as a unit of olfactory processing. | Q36336756 | ||
Cilia and centrosomes: a unifying pathogenic concept for cystic kidney disease? | Q36337939 | ||
Stimulation of electro-olfactogram responses in the main olfactory epithelia by airflow depends on the type 3 adenylyl cyclase | Q36423132 | ||
Dual functions of mammalian olfactory sensory neurons as odor detectors and mechanical sensors. | Q36430246 | ||
Disruption of polycystin-L causes hippocampal and thalamocortical hyperexcitability | Q36514620 | ||
Hepatic adenylate cyclase 3 is upregulated by Liraglutide and subsequently plays a protective role in insulin resistance and obesity | Q36548301 | ||
Primary cilia are not calcium-responsive mechanosensors | Q36852774 | ||
Genome-wide association analysis identifies three new susceptibility loci for childhood body mass index | Q36861322 | ||
Primary cilia regulate hippocampal neurogenesis by mediating sonic hedgehog signaling | Q36861834 | ||
High-Density Genetic Mapping Identifies New Susceptibility Variants in Sarcoidosis Phenotypes and Shows Genomic-driven Phenotypic Differences. | Q36916014 | ||
Type 3 Adenylyl Cyclase and Somatostatin Receptor 3 Expression Persists in Aged Rat Neocortical and Hippocampal Neuronal Cilia | Q36948633 | ||
The retinal ciliopathies. | Q36951820 | ||
Calcium-sensitive adenylyl cyclases in depression and anxiety: behavioral and biochemical consequences of isoform targeting | Q36966260 | ||
Testing the sorption hypothesis in olfaction: a limited role for sniff strength in shaping primary odor representations during behavior. | Q37008405 | ||
The sensory cilia of Caenorhabditis elegans | Q37020826 | ||
Functional expression of the olfactory signaling system in the kidney | Q37100981 | ||
Upregulation of adenylate cyclase 3 (ADCY3) increases the tumorigenic potential of cells by activating the CREB pathway | Q37381625 | ||
Capturing adenylyl cyclases as potential drug targets | Q37428727 | ||
Adenylyl cyclase 6 mediates loading-induced bone adaptation in vivo. | Q37594004 | ||
Mechanics of microtubules. | Q37611250 | ||
Olfactory signalling in vertebrates and insects: differences and commonalities | Q37690116 | ||
Structure and function of vertebrate cilia, towards a new taxonomy. | Q37961285 | ||
Targeting neuronal adenylyl cyclase for the treatment of chronic pain | Q37992353 | ||
Synaptic dysfunction in depression: potential therapeutic targets | Q38050123 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 95-108 | |
P577 | publication date | 2016-09-30 | |
P1476 | title | Type 3 adenylyl cyclase: a key enzyme mediating the cAMP signaling in neuronal cilia | |
P478 | volume | 8 |
Q64260759 | Comparative Phosphoproteomic Profiling of Type III Adenylyl Cyclase Knockout and Control, Male, and Female Mice |
Q89980676 | Diverged morphology changes of astrocytic and neuronal primary cilia under reactive insults |
Q42363242 | Drosophila Model for the Analysis of Genesis of LIM-kinase 1-Dependent Williams-Beuren Syndrome Cognitive Phenotypes: INDELs, Transposable Elements of the Tc1/Mariner Superfamily and MicroRNAs. |
Q55515250 | Interaction between an ADCY3 Genetic Variant and Two Weight-Lowering Diets Affecting Body Fatness and Body Composition Outcomes Depending on Macronutrient Distribution: A Randomized Trial. |
Q57040563 | Neuronal and Astrocytic Primary Cilia in the Mature Brain |
Q49721704 | Quantitative Comparison of Primary Cilia Marker Expression and Length in the Mouse Brain |
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