Ca2+-operated transcriptional networks: molecular mechanisms and in vivo models.
about
Nonthermal electromagnetic fields: from first messenger to therapeutic applicationsReduced phosphatidylinositol 4,5-bisphosphate synthesis impairs inner ear Ca2+ signaling and high-frequency hearing acquisitionCalcium signaling in the cochlea - Molecular mechanisms and physiopathological implications.ATP-mediated cell-cell signaling in the organ of Corti: the role of connexin channels.Induction of epithelial-mesenchymal transition (EMT) in breast cancer cells is calcium signal dependentDREAM controls the on/off switch of specific activity-dependent transcription pathways.DREAM (downstream regulatory element antagonist modulator) contributes to synaptic depression and contextual fear memory.Mechanisms of geomagnetic field influence on gene expression using influenza as a model system: basics of physical epidemiologySirtuin regulation of mitochondria: energy production, apoptosis, and signaling.Acid activation of Trpv1 leads to an up-regulation of calcitonin gene-related peptide expression in dorsal root ganglion neurons via the CaMK-CREB cascade: a potential mechanism of inflammatory pain.Molecular structure and target recognition of neuronal calcium sensor proteins.Building the DREAM interactome.Atmospheric oxygen tension slows myoblast proliferation via mitochondrial activationThe effect of low-frequency electromagnetic field on human bone marrow stem/progenitor cell differentiation.Phenotypic changes in mouse pancreatic stellate cell Ca2+ signaling events following activation in culture and in a disease model of pancreatitis.Separately or combined, LukG/LukH is functionally unique compared to other staphylococcal bicomponent leukotoxinsThe extracellular signal-regulated kinase mitogen-activated protein kinase/ribosomal S6 protein kinase 1 cascade phosphorylates cAMP response element-binding protein to induce MUC5B gene expression via D-prostanoid receptor signaling.Regulation of L-type Voltage Gated Calcium Channel CACNA1S in Macrophages upon Mycobacterium tuberculosis Infection.Decreased Expression of DREAM Promotes the Degeneration of Retinal Neurons.Induction of thioredoxin-interacting protein is mediated by oxidative stress, calcium, and glucose after brain injury in miceNuclear factor of activated T-cell isoform expression and regulation in human myometriumThe calmodulin-binding transcription activator CAMTA1 is required for long-term memory formation in mice.New insights into protease-activated receptor 4 signaling pathways in the pathogenesis of inflammation and neuropathic pain: a literature reviewCalcium channel blockers act through nuclear factor Y to control transcription of key cardiac genes.Ca2+-dependent transcriptional control of Ca2+ homeostasis.The coordination of nuclear and mitochondrial communication during aging and calorie restrictionSpecific cytoarchitectureal changes in hippocampal subareas in daDREAM mice.Diabetes induces and calcium channel blockers prevent cardiac expression of proapoptotic thioredoxin-interacting proteinDioxins: diagnostic and prognostic challenges arising from complex mechanismsLow pH environmental stress inhibits LPS and LTA-stimulated proinflammatory cytokine production in rat alveolar macrophages.Visinin-like proteins (VSNLs): interaction partners and emerging functions in signal transduction of a subfamily of neuronal Ca2+ -sensor proteins.Mitochondrial energy metabolism and redox signaling in brain aging and neurodegenerationCa2+ signaling in airway epithelial cells facilitates leukocyte recruitment and transepithelial migration.A pupal transcriptomic screen identifies Ral as a target of store-operated calcium entry in Drosophila neurons.KChIP2 is a core transcriptional regulator of cardiac excitability.Ion channels at the nucleus: electrophysiology meets the genome.The Mitochondrial Voltage-Dependent Anion Channel 1, Ca2+ Transport, Apoptosis, and Their Regulation.Calcium dysregulation and homeostasis of neural calcium in the molecular mechanisms of neurodegenerative diseases provide multiple targets for neuroprotection.The dynorphin/κ-opioid receptor system and its role in psychiatric disorders.Role of the nuclear envelope in calcium signalling.
P2860
Q28290660-D7367392-8CD5-4DAA-B561-C54DB049AFFEQ28728028-F9F57B7B-2BB4-436F-8F74-F4E57A336DC6Q30465350-3AE69852-D2A2-40AF-AFE2-B51FF29C72BFQ30495800-55233981-CEAF-47C7-B83C-7D2E70335774Q30571243-525F8F95-52A1-4C4B-BB57-E5C7AABBA3C8Q33623164-A23B2E50-D53E-4F3E-9880-8866A2229821Q33657452-7DEEE4D7-06D8-479A-B92C-8CE34536B1F0Q33858765-B22C1947-B8E7-4647-BE1C-FCE0DC070BFDQ34024056-77E5FADF-9E76-42E8-88D5-004154A085B2Q34029307-6169545E-2E75-407C-A263-D01E1ADD1A70Q34169744-38996488-6A73-4D9E-BA35-968A92867F73Q34203249-A4B716A1-6B4B-49AE-9C57-A42E1265529BQ34399478-BE9EAB23-4C30-4C21-B99B-6AEDDC246F10Q34479266-F08BE85C-C78F-4B93-9DEE-F1DF8FCF20D8Q34542045-665CA944-5A82-4C0F-A105-9602370CF01CQ35107040-DB21E40D-20B4-4D7E-9A87-B0876A6D0DCEQ35310522-13E65592-954C-4470-8347-51670FC05340Q35542683-8F1AA8A8-8877-4AA9-9D96-F453F70853ACQ35644976-7B82B894-7D04-48B0-8BA0-BC65A210A2CEQ35881666-6870249B-9B4F-4F6D-A5FA-9190C2D9ED3EQ35913596-B507DEB2-D74B-47BC-A7A1-0DCE7E85DE28Q36021971-71A1CFAC-7036-46BD-A096-0EE72DE12C59Q36125100-D998760E-0B81-4E35-AC49-A9940B8F1705Q36174757-A1A58A05-7CCB-40FC-A5D9-E61745CCE843Q36234688-57131FD5-9624-48F3-91CC-B3C6D55D28DBQ36433751-D334DCE5-0EA0-4721-AD84-6019F9065123Q36634156-E9F12FDE-D10C-490D-B84E-AC4A96571726Q37190118-3D314737-6AEE-4F4B-9111-C58C4076628EQ37255560-85837DDE-A644-4B04-89BC-DC10348ABB35Q37316267-6F4BB6C5-0D06-4F64-95AA-E50138DB6E59Q37319475-EE80EFAC-F5DC-4F75-8F2D-4B5F976D5E86Q37460232-93092F9F-BED2-4F0E-9C40-643C8B747AB1Q37552431-CBD28A15-DEB7-43E0-9F22-AF8C00B400D2Q37640248-FF6D9B35-8924-4113-BF37-094BC59376BBQ37682779-D9A901EE-0745-46B3-944B-09A708174A8FQ37735568-DF391AB2-620B-4B8B-9FBC-E9128C969070Q37742829-C49E70F0-B1DD-4BCD-9F89-90E02AB1E2ACQ37771025-E8A1FA4E-99AA-4BAA-8F00-64262517C57EQ37946259-0F2D45CB-08DA-4B2C-8C84-21410F0E2548Q37970419-F7D73870-1CD9-4E52-A6BC-FA056C4526FA
P2860
Ca2+-operated transcriptional networks: molecular mechanisms and in vivo models.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on April 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Ca2+-operated transcriptional networks: molecular mechanisms and in vivo models.
@en
Ca2+-operated transcriptional networks: molecular mechanisms and in vivo models.
@nl
type
label
Ca2+-operated transcriptional networks: molecular mechanisms and in vivo models.
@en
Ca2+-operated transcriptional networks: molecular mechanisms and in vivo models.
@nl
prefLabel
Ca2+-operated transcriptional networks: molecular mechanisms and in vivo models.
@en
Ca2+-operated transcriptional networks: molecular mechanisms and in vivo models.
@nl
P2860
P1476
Ca2+-operated transcriptional networks: molecular mechanisms and in vivo models
@en
P2093
Britt Mellström
Magali Savignac
P2860
P304
P356
10.1152/PHYSREV.00041.2005
P577
2008-04-01T00:00:00Z