| scholarly article | Q13442814 |
| review article | Q7318358 |
| P50 | author | Leslie C. Griffith | Q37373045 |
| John Ewer | Q38305801 | ||
| Tobias Langenhan | Q46024449 | ||
| Isabella Maiellaro | Q59698360 | ||
| P2093 | author name string | Paul H Taghert | |
| Michael R Bruchas | |||
| Kelly R Monk | |||
| Maureen M Barr | |||
| Benjamin H White | |||
| P2860 | cites work | Gating of the polycystin ion channel signaling complex in neurons and kidney cells | Q75433803 |
| Epac is a Rap1 guanine-nucleotide-exchange factor directly activated by cyclic AMP | Q22008544 | ||
| The human and mouse repertoire of the adhesion family of G-protein-coupled receptors | Q24297111 | ||
| PDF receptor expression reveals direct interactions between circadian oscillators in Drosophila | Q24599225 | ||
| A novel evolutionarily conserved domain of cell-adhesion GPCRs mediates autoproteolysis | Q24602445 | ||
| Mating behavior, male sensory cilia, and polycystins in Caenorhabditis elegans | Q26823989 | ||
| C. elegans ciliated sensory neurons release extracellular vesicles that function in animal communication | Q27316918 | ||
| A genetic RNAi screen for IP₃/Ca²⁺ coupled GPCRs in Drosophila identifies the PdfR as a regulator of insect flight | Q27320026 | ||
| Persistent cAMP-signals triggered by internalized G-protein-coupled receptors | Q27329609 | ||
| Crystal structure of rhodopsin: A G protein-coupled receptor | Q27625972 | ||
| Crystal structure of the human beta2 adrenergic G-protein-coupled receptor | Q27648868 | ||
| Genetically encoded calcium indicators for multi-color neural activity imaging and combination with optogenetics | Q27676694 | ||
| Adhesion G Protein-Coupled Receptors: From In Vitro Pharmacology to In Vivo Mechanisms | Q28087738 | ||
| A tethered agonist within the ectodomain activates the adhesion G protein-coupled receptors GPR126 and GPR133 | Q28119003 | ||
| Selective photostimulation of genetically chARGed neurons | Q28214704 | ||
| Genome editing. The new frontier of genome engineering with CRISPR-Cas9 | Q28252298 | ||
| The adhesion GPCR GPR126 has distinct, domain-dependent functions in Schwann cell development mediated by interaction with laminin-211 | Q28257321 | ||
| A G protein-coupled receptor is essential for Schwann cells to initiate myelination | Q28258127 | ||
| Natural variation in a neuropeptide Y receptor homolog modifies social behavior and food response in C. elegans | Q28282823 | ||
| Sticky signaling--adhesion class G protein-coupled receptors take the stage | Q28291130 | ||
| Organ-specific function of adhesion G protein-coupled receptor GPR126 is domain-dependent | Q28299560 | ||
| The Caenorhabditis elegans autosomal dominant polycystic kidney disease gene homologs lov-1 and pkd-2 act in the same pathway | Q28611304 | ||
| Optogenetics in neural systems | Q29618164 | ||
| Imaging neural activity in worms, flies and mice with improved GCaMP calcium indicators | Q29619969 | ||
| Command and compensation in a neuromodulatory decision network | Q30461245 | ||
| Characterization of the decision network for wing expansion in Drosophila using targeted expression of the TRPM8 channel | Q30489150 | ||
| Imaging analysis of clock neurons reveals light buffers the wake-promoting effect of dopamine | Q30524313 | ||
| PDF-1 neuropeptide signaling modulates a neural circuit for mate-searching behavior in C. elegans | Q30528762 | ||
| Genetically targeted optical electrophysiology in intact neural circuits | Q30560861 | ||
| DREADDs in Drosophila: a pharmacogenetic approach for controlling behavior, neuronal signaling, and physiology in the fly. | Q30564094 | ||
| Subcellular optogenetic inhibition of G proteins generates signaling gradients and cell migration | Q30585391 | ||
| The Caenorhabditis chemoreceptor gene families | Q30848285 | ||
| Measuring calcium signaling using genetically targetable fluorescent indicators | Q33280954 | ||
| Latrophilin signaling links anterior-posterior tissue polarity and oriented cell divisions in the C. elegans embryo | Q33642220 | ||
| Gq/5-HT2c receptor signals activate a local GABAergic inhibitory feedback circuit to modulate serotonergic firing and anxiety in mice | Q33674169 | ||
| PKA dynamics in a Drosophila learning center: coincidence detection by rutabaga adenylyl cyclase and spatial regulation by dunce phosphodiesterase. | Q34100938 | ||
| Power tools for gene expression and clonal analysis in Drosophila | Q34243445 | ||
| The circadian neuropeptide PDF signals preferentially through a specific adenylate cyclase isoform AC3 in M pacemakers of Drosophila. | Q34279865 | ||
| The GPS motif is a molecular switch for bimodal activities of adhesion class G protein-coupled receptors. | Q34296958 | ||
| Dual PDF signaling pathways reset clocks via TIMELESS and acutely excite target neurons to control circadian behavior | Q34410822 | ||
| PDF and cAMP enhance PER stability in Drosophila clock neurons | Q34413972 | ||
| PDF receptor signaling in Drosophila contributes to both circadian and geotactic behaviors | Q34461812 | ||
| Detecting cAMP-induced Epac activation by fluorescence resonance energy transfer: Epac as a novel cAMP indicator | Q34650064 | ||
| Circuit-breakers: optical technologies for probing neural signals and systems | Q34654330 | ||
| Cloning of the gene and cDNA for mammalian beta-adrenergic receptor and homology with rhodopsin | Q34684390 | ||
| A ternary complex model explains the agonist-specific binding properties of the adenylate cyclase-coupled beta-adrenergic receptor | Q34708055 | ||
| Subcellular optogenetics - controlling signaling and single-cell behavior. | Q34803206 | ||
| A study of the adrenotropic receptors | Q34854653 | ||
| Temporally precise in vivo control of intracellular signalling | Q34964618 | ||
| Chemogenetic synaptic silencing of neural circuits localizes a hypothalamus→midbrain pathway for feeding behavior | Q35012823 | ||
| Dynamics of learning-related cAMP signaling and stimulus integration in the Drosophila olfactory pathway. | Q35014955 | ||
| Neuropeptides and neuropeptide receptors in the Drosophila melanogaster genome | Q35033291 | ||
| Altered trafficking and stability of polycystins underlie polycystic kidney disease | Q35145360 | ||
| Plug-and-play genetic access to drosophila cell types using exchangeable exon cassettes | Q35216826 | ||
| Ciliary ectosomes: transmissions from the cell's antenna | Q35537057 | ||
| Adhesion G protein-coupled receptors are activated by exposure of a cryptic tethered agonist | Q35616282 | ||
| A New DREADD Facilitates the Multiplexed Chemogenetic Interrogation of Behavior. | Q35637848 | ||
| A novel approach for directing transgene expression in Drosophila: T2A-Gal4 in-frame fusion | Q35810786 | ||
| Postgenomic characterization of G-protein-coupled receptors | Q35873683 | ||
| A Perspective on Studying G-Protein-Coupled Receptor Signaling with Resonance Energy Transfer Biosensors in Living Organisms | Q35999782 | ||
| Essential role of cleavage of Polycystin-1 at G protein-coupled receptor proteolytic site for kidney tubular structure. | Q36276959 | ||
| Widespread receptivity to neuropeptide PDF throughout the neuronal circadian clock network of Drosophila revealed by real-time cyclic AMP imaging | Q36982480 | ||
| Daily rhythms in locomotor circuits in Drosophila involve PDF | Q37094106 | ||
| Sensory regulation of C. elegans male mate-searching behavior | Q37120365 | ||
| Injectable, cellular-scale optoelectronics with applications for wireless optogenetics. | Q37162596 | ||
| Adenylyl cyclase--A-kinase anchoring protein complexes: the next dimension in cAMP signaling | Q37415827 | ||
| 5-HT stimulation of heart rate in Drosophila does not act through cAMP as revealed by pharmacogenetics | Q37441142 | ||
| Neural and hormonal control of postecdysial behaviors in insects | Q37461149 | ||
| WNT/Frizzled signalling: receptor-ligand selectivity with focus on FZD-G protein signalling and its physiological relevance: IUPHAR Review 3 | Q37635264 | ||
| E and M circadian pacemaker neurons use different PDF receptor signalosome components in drosophila. | Q37693825 | ||
| International Union of Basic and Clinical Pharmacology. LXXX. The Class Frizzled Receptors | Q37809668 | ||
| Imaging calcium in neurons | Q37992250 | ||
| Neuropeptide GPCRs in C. elegans | Q38069826 | ||
| Matching structure with function: the GAIN domain of adhesion-GPCR and PKD1-like proteins | Q38121316 | ||
| Chemogenetic tools to interrogate brain functions | Q38227125 | ||
| cAMP signaling microdomains and their observation by optical methods | Q38267382 | ||
| GW182 controls Drosophila circadian behavior and PDF-receptor signaling | Q39926033 | ||
| The ADPKD genes pkd1a/b and pkd2 regulate extracellular matrix formation | Q40236123 | ||
| Drosophila GPCR Han is a receptor for the circadian clock neuropeptide PDF. | Q40359248 | ||
| Novel single chain cAMP sensors for receptor-induced signal propagation. | Q40539533 | ||
| The polycystin-1 C-type lectin domain binds carbohydrate in a calcium-dependent manner, and interacts with extracellular matrix proteins in vitro | Q40798744 | ||
| Spatiotemporal control of opioid signaling and behavior | Q40980957 | ||
| The adhesion GPCR latrophilin/CIRL shapes mechanosensation. | Q40982130 | ||
| A polycystic kidney-disease gene homologue required for male mating behaviour in C. elegans | Q41695653 | ||
| The repertoire of G-protein-coupled receptors in fully sequenced genomes | Q44163792 | ||
| Imaging endoplasmic reticulum calcium with a fluorescent biosensor in transgenic mice | Q44911044 | ||
| A command chemical triggers an innate behavior by sequential activation of multiple peptidergic ensembles. | Q45974042 | ||
| odr-10 encodes a seven transmembrane domain olfactory receptor required for responses to the odorant diacetyl. | Q45994336 | ||
| Neurobiology of the Caenorhabditis elegans genome. | Q46229602 | ||
| The ion channel narrow abdomen is critical for neural output of the Drosophila circadian pacemaker | Q47072463 | ||
| Vertebrate cone opsins enable sustained and highly sensitive rapid control of Gi/o signaling in anxiety circuitry | Q47900441 | ||
| Light-induced activation of distinct modulatory neurons triggers appetitive or aversive learning in Drosophila larvae. | Q48430499 | ||
| Cell-type specific calcium signalling in a Drosophila epithelium. | Q52553810 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | model organism | Q213907 |
| G protein-coupled receptor | Q38173 | ||
| P304 | page(s) | 596-603 | |
| P577 | publication date | 2015-05-15 | |
| P1433 | published in | Molecular Pharmacology | Q1943386 |
| P1476 | title | Model Organisms in G Protein-Coupled Receptor Research | |
| P478 | volume | 88 |
| Q35999782 | A Perspective on Studying G-Protein-Coupled Receptor Signaling with Resonance Energy Transfer Biosensors in Living Organisms |
| Q28087738 | Adhesion G Protein-Coupled Receptors: From In Vitro Pharmacology to In Vivo Mechanisms |
| Q88537644 | Cell-cell communication via ciliary extracellular vesicles: clues from model systems |
| Q39004687 | Control of Adhesion GPCR Function Through Proteolytic Processing |
| Q47142589 | Engineering cell sensing and responses using a GPCR-coupled CRISPR-Cas system |
| Q90009869 | G-protein signaling is required for increasing germline stem cell division frequency in response to mating in Drosophila males |
| Q37490348 | Gpr126/Adgrg6 Has Schwann Cell Autonomous and Nonautonomous Functions in Peripheral Nerve Injury and Repair. |
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