about
Postnatal deamidation of 4E-BP2 in brain enhances its association with raptor and alters kinetics of excitatory synaptic transmissionTwo-stage translational control of dentate gyrus LTP consolidation is mediated by sustained BDNF-TrkB signaling to MNKSustained Arc/Arg3.1 synthesis controls long-term potentiation consolidation through regulation of local actin polymerization in the dentate gyrus in vivoDCLK1 variants are associated across schizophrenia and attention deficit/hyperactivity disorderSelective survival and maturation of adult-born dentate granule cells expressing the immediate early gene Arc/Arg3.1.Dynamic Arc SUMOylation and Selective Interaction with F-Actin-Binding Protein Drebrin A in LTP Consolidation In Vivo.BDNF function in adult synaptic plasticity: the synaptic consolidation hypothesis.Paraneoplastic CDR2 and CDR2L antibodies affect Purkinje cell calcium homeostasis.From acquisition to consolidation: on the role of brain-derived neurotrophic factor signaling in hippocampal-dependent learningTime course of immediate early gene protein expression in the spinal cord following conditioning stimulation of the sciatic nerve in rats.Social Defeat during Adolescence and Adulthood Differentially Induce BDNF-Regulated Immediate Early GenesBalancing Arc synthesis, mRNA decay, and proteasomal degradation: maximal protein expression triggered by rapid eye movement sleep-like bursts of muscarinic cholinergic receptor stimulation.Brain-derived neurotrophic factor and control of synaptic consolidation in the adult brain.Control of synaptic consolidation in the dentate gyrus: mechanisms, functions, and therapeutic implications.The immediate early gene arc/arg3.1: regulation, mechanisms, and function.Object-place recognition learning triggers rapid induction of plasticity-related immediate early genes and synaptic proteins in the rat dentate gyrus.Differential regulation of mature and precursor microRNA expression by NMDA and metabotropic glutamate receptor activation during LTP in the adult dentate gyrus in vivo.Local protein synthesis, actin dynamics, and LTP consolidation.Variants in doublecortin- and calmodulin kinase like 1, a gene up-regulated by BDNF, are associated with memory and general cognitive abilities.NMDA receptor-dependent regulation of miRNA expression and association with Argonaute during LTP in vivo.The Arc of synaptic memory.BDNF mechanisms in late LTP formation: A synthesis and breakdown.Arc is a flexible modular protein capable of reversible self-oligomerization.Tuning Specific Translation in Cancer Metastasis and Synaptic Memory: Control at the MNK-eIF4E Axis.Novel translational control in Arc-dependent long term potentiation consolidation in vivoChronic fluoxetine treatment induces brain region-specific upregulation of genes associated with BDNF-induced long-term potentiation.Modulation of neuronal calcium signaling by neurotrophic factors.Impairment of in vivo theta-burst long-term potentiation and network excitability in the dentate gyrus of synaptopodin-deficient mice lacking the spine apparatus and the cisternal organelle.Delta opioid receptor activation is required to induce LTP of synaptic transmission in the lateral perforant path in vivo.The coupling of a trkB tyrosine residue to LTP.Bursts of high-frequency stimulation trigger rapid delivery of pre-existing alpha-CaMKII mRNA to synapses: a mechanism in dendritic protein synthesis during long-term potentiation in adult awake rats.BDNF-induced LTP in dentate gyrus is impaired with age: analysis of changes in cell signaling events.Distribution of glutamate-like immunoreactivity in excitatory hippocampal pathways: a semiquantitative electron microscopic study in rats.Unique patterns of FOS, phospho-CREB and BrdU immunoreactivity in the female rat brain following chronic stress and citalopram treatment.The RNA-Binding Protein hnRNP K Mediates the Effect of BDNF on Dendritic mRNA Metabolism and Regulates Synaptic NMDA Receptors in Hippocampal Neurons.PKR Inhibition Rescues Memory Deficit and ATF4 Overexpression in ApoE ε4 Human Replacement Mice.BDNF regulation of synaptic structure, function, and plasticity.Arachidonic acid and diacylglycerol ACT synergistically through protein kinase C to persistently enhance synaptic transmission in the hippocampus.Suppression of long-term potentiation induction during alert wakefulness but not during 'enhanced' REM sleep after avoidance learning.The changing brain--insights into the mechanisms of neural and behavioral adaptation to the environment.
P50
Q24304928-71EDAC6D-03EC-47A6-973A-430C5A78C8A4Q28564985-14141779-9098-49C4-86C9-3582B26E19B0Q28909843-01D454BA-2DCF-4E1C-977D-F5B2E997E870Q31059827-F93F9FD6-58F1-457A-93C3-94C5DDD4F221Q33418592-D6D230D9-1543-4513-A81D-B96F7B909802Q33662216-A9130DEB-1553-47DB-9A66-68066311BEE5Q34442760-ED5BF0EE-85DF-4D56-9E5F-A3D55B92A60BQ34507534-8ED84B08-6584-41AC-963D-CEBC1F87868CQ34931098-521E8B7F-674B-45F9-86B6-B700CFC706EAQ35364032-BE953BD1-2B57-4672-B4E6-09D622375B2BQ35504587-5248C35F-41BF-429C-9C19-2F4DAB086852Q36052569-440094CE-86EC-4893-8223-DBC5C98489C4Q36542068-ED960698-311D-413B-AAA2-3708A3206381Q36926866-E8CF5D3E-13F9-4308-830D-A962DAE926D1Q37041486-0AFFC3BE-E488-4593-82F0-6E7D70A5828BQ37073304-D3033A26-AAEB-405B-B819-2B61AD1DDD8AQ37218797-2E93A20F-09C1-455A-B799-6F06A91A6C3AQ37286426-1CA9F895-C41B-4E14-966F-40842F3777C1Q37383009-2D03A514-06C6-4A93-AF82-77BF51CD5E78Q37466814-A0FB355B-B834-463A-BD27-CF311424CC3EQ37582298-57B419B4-97BB-4DE3-A859-8C5753DF06E9Q38119799-11723050-DDEC-433F-AC08-1819B5D5BC47Q38902634-8A58C557-27BB-4A86-A938-345F50699C79Q38928234-F7AD2EC9-21E8-4FEC-9690-39341EDBECCEQ41813558-24A7F207-AE47-49E9-AD46-2582588B023FQ42092525-5297A2A9-33F4-4EE5-8826-BE54C0B26A1AQ42099043-E9D4FBF5-FA86-4396-A6A7-3BA0DC0CBE5CQ43426815-5775F469-9BE5-4FCE-B371-B5701AE3CC3BQ44132984-7D38C17A-769C-4083-8C5C-CA6E1DF23503Q44399813-7D0213B8-D0BF-4385-BA68-09137117D44AQ44489198-EC9BFB9B-86B6-4CAF-80B8-8ECC19F58A36Q45090949-E0FCC51F-D0A1-42A7-AB97-597C9F7B88B5Q45280778-4902532F-1753-4D78-9689-DB3DA2612B53Q46821673-8EAF598D-E9CC-4071-BBAA-6A140F0CD59DQ47102431-6EBDDD3C-7135-4BDF-959F-6D1C23530D76Q47641854-59DEBD25-65E8-4CF4-9233-55ACF6A43F50Q47712974-1A80895B-AA18-45EE-A3AF-FDBD043D1591Q48115846-BC2BBE8A-E9AF-45D3-A4F3-5B1AAA17E7D7Q48150485-7D2265AB-368B-4DE7-BF8C-66CECE09E572Q48182245-451B2C68-C266-44AE-AFFD-DCAD8A204C6C
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Clive R. Bramham
@ast
Clive R. Bramham
@en
Clive R. Bramham
@es
Clive R. Bramham
@nl
Clive R. Bramham
@sl
type
label
Clive R. Bramham
@ast
Clive R. Bramham
@en
Clive R. Bramham
@es
Clive R. Bramham
@nl
Clive R. Bramham
@sl
prefLabel
Clive R. Bramham
@ast
Clive R. Bramham
@en
Clive R. Bramham
@es
Clive R. Bramham
@nl
Clive R. Bramham
@sl
P106
P1153
6603997970
P21
P31
P496
0000-0001-5958-7115