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Journal Article
Journal Article
Circulation, ISSN 0009-7322, 03/2007, Volume 115, Issue 10, pp. 1260 - 1268
Journal Article
Cephalalgia, ISSN 0333-1024, 1/2011, Volume 31, Issue 2, pp. 181 - 189
Objective: We pharmacologically characterized pituitary adenylate cyclase–activating polypeptides (PACAPs), vasoactive intestinal peptide (VIP) and the VPAC1,... 
PAC1 | PACAP38 | VPAC1 | VIP | VPAC2 | CYCLASE-ACTIVATING POLYPEPTIDE | RAT | IMMUNOHISTOCHEMICAL LOCALIZATION | MIGRAINE | NEUROSCIENCES | PEPTIDE | CLINICAL NEUROLOGY | PAC | VPAC | MESSENGER-RNA | HEADACHE | CEREBRAL-ARTERIES | HEALTHY-VOLUNTEERS | EXPRESSION | Pituitary Adenylate Cyclase-Activating Polypeptide - antagonists & inhibitors | Receptors, Vasoactive Intestinal Polypeptide, Type I - antagonists & inhibitors | Gene Expression - drug effects | Receptors, Vasoactive Intestinal Peptide, Type II - agonists | Humans | Middle Aged | Male | Peptide Fragments - pharmacology | Receptors, Vasoactive Intestinal Peptide - genetics | RNA, Messenger - metabolism | Receptors, Vasoactive Intestinal Peptide, Type II - genetics | Meningeal Arteries - physiology | Vasoactive Intestinal Peptide - pharmacology | Receptors, Vasoactive Intestinal Polypeptide, Type I - agonists | Gene Expression - physiology | Pituitary Adenylate Cyclase-Activating Polypeptide - pharmacology | Migraine Disorders - physiopathology | Adult | Female | Receptors, Pituitary Adenylate Cyclase-Activating Polypeptide, Type I - agonists | Vasodilation - physiology | Coronary Vessels - drug effects | Receptors, Vasoactive Intestinal Peptide, Type II - antagonists & inhibitors | Vasodilator Agents - pharmacology | Pituitary Adenylate Cyclase-Activating Polypeptide - genetics | Coronary Vessels - physiology | Pituitary Adenylate Cyclase-Activating Polypeptide - adverse effects | Meningeal Arteries - drug effects | Migraine Disorders - drug therapy | Receptors, Vasoactive Intestinal Polypeptide, Type I - genetics | Aged | Receptors, Vasoactive Intestinal Peptide - antagonists & inhibitors | Receptors, Pituitary Adenylate Cyclase-Activating Polypeptide, Type I - genetics | Vasodilation - drug effects | Receptors, Vasoactive Intestinal Peptide - agonists | Vasoactive Intestinal Peptide - analogs & derivatives | Receptors, Pituitary Adenylate Cyclase-Activating Polypeptide, Type I - antagonists & inhibitors
Journal Article
FASEB Journal, ISSN 0892-6638, 06/2016, Volume 30, Issue 6, pp. 2198 - 2210
Journal Article
Gene Therapy, ISSN 0969-7128, 07/2018, Volume 25, Issue 4, pp. 269 - 283
Type 2 diabetes mellitus (T2DM) is characterised by insulin resistance, glucose intolerance and beta cell loss leading to hyperglycemia. Vasoactive intestinal... 
MEDICINE, RESEARCH & EXPERIMENTAL | CYCLASE-ACTIVATING POLYPEPTIDE | MEAL INGESTION | BIOCHEMISTRY & MOLECULAR BIOLOGY | INSULIN-SECRETION | ADENOASSOCIATED VIRUS TRANSDUCTION | CELL-DEATH | ISLET FUNCTION | MURINE MODEL | THERAPY | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | GENETICS & HEREDITY | VIP | RECEPTORS | Diabetes Mellitus, Type 2 - genetics | Humans | Diabetes Mellitus, Experimental - genetics | Vasoactive Intestinal Peptide - administration & dosage | Glucose Intolerance | Diabetes Mellitus, Experimental - therapy | Lentivirus - metabolism | Vasoactive Intestinal Peptide - biosynthesis | Insulin-Secreting Cells - metabolism | Insulin Resistance - physiology | Diet, High-Fat | Diabetes Mellitus, Type 2 - therapy | Lentivirus - genetics | Diabetes Mellitus, Experimental - metabolism | Disease Models, Animal | Gene Transfer Techniques | Mice, Inbred C57BL | Diabetes Mellitus, Type 2 - prevention & control | Hep G2 Cells | Obesity - metabolism | Insulin - metabolism | Animals | Glucose - metabolism | Mice | Vasoactive Intestinal Peptide - genetics | Blood Glucose - metabolism | Cell proliferation | Type 2 diabetes | Control | Models | Research | Blood sugar | Peptides | Immunocytochemistry | Liver | Glucose | Hyperglycemia | Intestine | Vasoactive agents | Rodents | Human immunodeficiency virus--HIV | Pancreas | Diabetes mellitus (non-insulin dependent) | Enzyme-linked immunosorbent assay | Antiinflammatory agents | Gene transfer | Secretion | Diabetes mellitus | Inflammation | Gene expression | Insulin | Cholesterol | Glucose tolerance | Beta cells | Intolerance | Cell lines | Vasoactive intestinal peptide | Diabetes
Journal Article
Journal Article
Neuron, ISSN 0896-6273, 08/2013, Volume 79, Issue 4, pp. 712 - 724
Protein synthesis is critical for circadian clock function, but little is known of how translational regulation controls the master pacemaker in mammals, the... 
IN-VITRO | PHASE | VPAC RECEPTOR | RHYTHMS | NUCLEUS | MOUSE | GENE-EXPRESSION | NEURONS | PACEMAKER | NEUROSCIENCES | JET-LAG | RNA, Small Interfering - genetics | Vasoactive Intestinal Peptide - metabolism | Nitriles - pharmacology | RNA, Messenger - metabolism | TOR Serine-Threonine Kinases - antagonists & inhibitors | Phosphorylation - genetics | Period Circadian Proteins - genetics | Light | Indoles - pharmacology | Suprachiasmatic Nucleus - metabolism | TOR Serine-Threonine Kinases - physiology | Phosphoproteins - physiology | Phosphorylation - drug effects | Carrier Proteins - physiology | Butadienes - pharmacology | Purines - pharmacology | Mice, Inbred C57BL | Enzyme Inhibitors - pharmacology | Gene Expression Regulation - physiology | Circadian Rhythm - physiology | Signal Transduction - genetics | Sirolimus - pharmacology | Mice, Knockout | Gene Expression Regulation - drug effects | Animals | Period Circadian Proteins - metabolism | Signal Transduction - drug effects | Phosphoproteins - deficiency | Cell Line, Tumor | Signal Transduction - physiology | Anthraquinones - pharmacology | Mice | Vasoactive Intestinal Peptide - genetics | RNA, Small Interfering - metabolism | Protein biosynthesis | RNA | Vasoactive intestinal peptides | Genetic translation | Protein binding | Medical research | Circadian rhythm | Kinases | Rodents | Genes | mRNA translation | entrainment | mTOR | 4E-BP1 | VIP | circadian clock | synchrony | SCN
Journal Article
Neuron, ISSN 0896-6273, 08/2017, Volume 95, Issue 4, pp. 884 - 895.e9
GABAergic interneurons play important roles in cortical circuit development. However, there are multiple populations of interneurons and their respective... 
cortex | development | ErbB4 | somatostatin | cholinergic | interneuron | visual | GABAergic | VIP | gCAMP6 | PARVALBUMIN-POSITIVE INTERNEURONS | DORSOLATERAL PREFRONTAL CORTEX | INHIBITORY INTERNEURONS | GAMMA-BAND SYNCHRONIZATION | DEVELOPING NEOCORTEX | SOMATOSENSORY CORTEX | FRONTAL-CORTEX | GABAERGIC INTERNEURONS | LONG-TERM POTENTIATION | NEUROSCIENCES | MOUSE VISUAL-CORTEX | Receptor, ErbB-4 - metabolism | Signal Detection, Psychological - physiology | Vasoactive Intestinal Peptide - metabolism | Calcium - metabolism | Homeodomain Proteins - metabolism | Cerebral Cortex - pathology | Gene Expression Regulation, Developmental - genetics | Developmental Disabilities - genetics | Developmental Disabilities - pathology | Visual Pathways - pathology | Spectrum Analysis | Somatostatin - metabolism | Disease Models, Animal | Animals, Newborn | Somatostatin - genetics | Visual Pathways - growth & development | Mice, Transgenic | Homeodomain Proteins - genetics | Interneurons - pathology | Action Potentials - physiology | Patch-Clamp Techniques | Animals | Interneurons - metabolism | Mice | Receptor, ErbB-4 - genetics | Vasoactive Intestinal Peptide - genetics | In Vitro Techniques | Photic Stimulation | GABA | Vasoactive intestinal peptides | Adolescence | Medical colleges | Neurosciences | Visual perception | Interneurons | Maturation | Neuregulin 1 | Neurons | Circuits | Cortex | Disorders | Schizophrenia | Neurodevelopmental disorders | Kinases | ErbB-2 protein | γ-Aminobutyric acid | Clonal deletion | Intestine | Vasoactive agents | Rodents | Vasoactive intestinal peptide | Deletion | Neuregulin | Sensory stimuli
Journal Article