Glycolytic Enzymes Localize to Synapses under Energy Stress to Support Synaptic Function
about
Self-propelling vesicles define glycolysis as the minimal energy machinery for neuronal transport.PINK1/Parkin-Dependent Mitochondrial Surveillance: From Pleiotropy to Parkinson's Disease.Bioenergetic status modulates motor neuron vulnerability and pathogenesis in a zebrafish model of spinal muscular atrophy.The advantage of channeling nucleotides for very processive functionsThe need to connect: on the cell biology of synapses, behaviors, and networks in scienceThe glycolytic enzyme phosphofructokinase-1 assembles into filaments.Local translation in neuronal compartments: how local is local?Glycolytic Coupling to Mitochondrial Energy Production Ensures Survival in an Oxygen Rich Environment.Mitochondria Localize to Injured Axons to Support Regeneration.Cisplatin Toxicity in Dorsal Root Ganglion Neurons Is Relieved by Meclizine via Diminution of Mitochondrial Compromise and Improved Clearance of DNA Damage.Wnt5a Increases the Glycolytic Rate and the Activity of the Pentose Phosphate Pathway in Cortical Neurons.Spatial Organization of Metabolic Enzyme Complexes in Cells.Glucose metabolism in nerve terminals.GLUT4 Mobilization Supports Energetic Demands of Active Synapses.Augmentation of glycolytic metabolism by meclizine is indispensable for protection of dorsal root ganglion neurons from hypoxia-induced mitochondrial compromiseNeurons eat glutamate to stay alive.Differential Presynaptic ATP Supply for Basal and High-Demand Transmission.Glycolysis selectively shapes the presynaptic action potential waveform.Global ablation of the mitochondrial calcium uniporter increases glycolysis in cortical neurons subjected to energetic stressors.daf-16/FoxO promotes gluconeogenesis and trehalose synthesis during starvation to support survival.Clarinet (CLA-1), a novel active zone protein required for synaptic vesicle clustering and release.Lipid metabolic perturbation is an early-onset phenotype in adult spinster mutants: a Drosophila model for lysosomal storage disorders.Energy Scarcity Promotes a Brain-wide Sleep State Modulated by Insulin Signaling in C. elegans.Neuronal SIRT1 (Silent Information Regulator 2 Homologue 1) Regulates Glycolysis and Mediates Resveratrol-Induced Ischemic Tolerance.Glycolytic Enzymes Coalesce in G Bodies under Hypoxic Stress.Neuronal Stimulation Triggers Neuronal Glycolysis and Not Lactate Uptake.13 reasons why the brain is susceptible to oxidative stress.Ambient but not local lactate underlies neuronal tolerance to prolonged glucose deprivation.Synaptic activity-induced glycolysis facilitates membrane lipid provision and neurite outgrowth.Decipher reliable biomarkers of brain aging by integrating literature-based evidence with interactome data.Rapid and gentle hydrogel encapsulation of living organisms enables long-term microscopy over multiple hoursA Single-Cell Transcriptome Atlas of the Aging Drosophila BrainActivity-dependent bulk endocytosis proteome reveals a key presynaptic role for the monomeric GTPase Rab11Enzymatic complexes across scalesEmerging roles of mitochondria in synaptic transmission and neurodegenerationDysregulated Glucose Metabolism as a Therapeutic Target to Reduce Post-traumatic Epilepsy
P2860
Q30826395-E8DEB1C1-7E74-43E7-ADAE-85624A472AEFQ33619324-59366CE4-9765-40D5-8375-FB859EF2B0CBQ33638307-98882290-7263-4231-AD86-4D5C1315877AQ33806597-6779E7F5-E5F9-4EBA-A6A9-9C1306CCAD51Q36178805-48B741DA-138A-4DE4-84B9-C7AAE56B6211Q38711257-6828E6CF-0B2B-4428-94F3-1B3D259176BDQ38731026-8B2B3953-33EC-4705-A20E-437C68B63E93Q38903447-1ABC270C-CAFC-4C5B-A1D2-52D44B13B787Q39069151-3BBAC4CF-06A5-4697-8226-F1E0DA596EACQ39178503-B916239B-D429-4FD0-812F-834187723023Q39335491-D43509A3-E7DC-4CED-89C1-21BE4677C0CCQ39350533-5EC4D8EA-43D0-4D8D-BEF7-E7CDD30A34FCQ39367131-E79B6324-6C68-4282-A251-993E3F184668Q39757226-F194E6D8-1859-4EA4-BD3E-6AD35AD4BE6CQ41642058-A2518BE7-1D59-4C3C-88B6-6A33DAEFF21FQ42292867-861DB763-76F1-437C-92B8-2578CCF47C51Q42320455-B56F91F0-E51C-42F8-9048-B206EA68CB7CQ42498674-B08105A4-C5D4-4B05-849B-D5D18C4D67CAQ42502542-949B006B-091F-42CE-AAE3-EA1B9F672FA9Q42637904-24A3780E-4C69-46AE-9186-E0F3F80A2BEAQ47163565-CC5C593E-35C7-4640-BBDE-FA69584A6E41Q47631886-DF3AED6C-B52C-4573-BC5C-4A1B58444A61Q47638791-DD65E288-0B28-4ED3-A8EE-821B45A23EB4Q47669174-0E41B9FC-3C5E-41EA-8A80-3C24F2CE2304Q48024704-243EC742-D503-4E4C-B9C5-A9849D331B62Q48169378-AEB0F961-9306-463B-85CD-E4E115320302Q50136704-430D01DB-D6A8-4903-8370-4013793B0728Q52607488-A7B4D5D8-4A9C-4E62-AC7B-18698C50E4C4Q52609135-5E27B075-67A2-44B0-AEC6-D0A4597C22BFQ55305444-FE12E72D-C062-4A79-982F-397462796FA7Q57143504-8EA00340-4AE6-4096-B9C3-8580E1895150Q57188247-5BA34BFC-2886-47DC-B592-8D692825AAB7Q57292170-4CC8E852-16DD-4292-B532-DCFD8C5A7AC9Q57470881-D0672A4D-213D-4501-8E5A-A0FC427C4BBFQ57497196-24358421-C99D-4E36-973C-190ED61EBAE2Q59136352-ED99EB82-2121-4DD1-9559-5421153DACF8
P2860
Glycolytic Enzymes Localize to Synapses under Energy Stress to Support Synaptic Function
description
2016 nî lūn-bûn
@nan
2016 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2016 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2016年の論文
@ja
2016年論文
@yue
2016年論文
@zh-hant
2016年論文
@zh-hk
2016年論文
@zh-mo
2016年論文
@zh-tw
2016年论文
@wuu
name
Glycolytic Enzymes Localize to Synapses under Energy Stress to Support Synaptic Function
@ast
Glycolytic Enzymes Localize to Synapses under Energy Stress to Support Synaptic Function
@en
type
label
Glycolytic Enzymes Localize to Synapses under Energy Stress to Support Synaptic Function
@ast
Glycolytic Enzymes Localize to Synapses under Energy Stress to Support Synaptic Function
@en
prefLabel
Glycolytic Enzymes Localize to Synapses under Energy Stress to Support Synaptic Function
@ast
Glycolytic Enzymes Localize to Synapses under Energy Stress to Support Synaptic Function
@en
P2093
P2860
P1433
P1476
Glycolytic Enzymes Localize to Synapses under Energy Stress to Support Synaptic Function
@en
P2093
Daniel A Colón-Ramos
Eric G Bend
Erik M Jorgensen
Felipe G Tueros
Jessica C Nelson
Katherine Underwood
Lucelenie Rodríguez-Laureano
Luis Cartagenova
P2860
P304
P356
10.1016/J.NEURON.2016.03.011
P407
P577
2016-04-05T00:00:00Z