about
Methionine sulfoxide reductase A negatively controls microglia-mediated neuroinflammation via inhibiting ROS/MAPKs/NF-κB signaling pathways through a catalytic antioxidant functionPropranolol decreases retention of fear memory by modulating the stability of surface glutamate receptor GluA1 subunits in the lateral amygdalaDimethyl sulfide protects against oxidative stress and extends lifespan via a methionine sulfoxide reductase A-dependent catalytic mechanism.Rapid Antidepressant Effect of Hydrogen Sulfide: Evidence for Activation of mTORC1-TrkB-AMPA Receptor Pathways.Resveratrol preconditioning increases methionine sulfoxide reductases A expression and enhances resistance of human neuroblastoma cells to neurotoxins.Sinomenine Protects PC12 Neuronal Cells against H2O2-induced Cytotoxicity and Oxidative Stress via a ROS-dependent Up-regulation of Endogenous Antioxidant System.Activity-Dependent Sulfhydration Signal Controls N-Methyl-D-Aspartate Subtype Glutamate Receptor-Dependent Synaptic Plasticity via Increasing d-Serine Availability.A specific and rapid colorimetric method to monitor the activity of methionine sulfoxide reductase A.Regulation of emotional memory by hydrogen sulfide: role of GluN2B-containing NMDA receptor in the amygdala.Sulfite triggers sustained calcium overload in cultured cortical neurons via a redox-dependent mechanism.HFS-Triggered AMPK Activation Phosphorylates GSK3β and Induces E-LTP in Rat Hippocampus In Vivo.Protection of L-methionine against H₂O₂-induced oxidative damage in mitochondria.Determination of protein-bound methionine oxidation in the hippocampus of adult and old rats by LC-ESI-ITMS method after microwave-assisted proteolysisOrexin-A activates hypothalamic AMP-activated protein kinase signaling through a Ca²⁺-dependent mechanism involving voltage-gated L-type calcium channelAggravation of seizure-like events by hydrogen sulfide: involvement of multiple targets that control neuronal excitability
P50
Q35199303-AD1CE287-0B4F-4807-AF96-937A48A6D02BQ36394973-1AE5941E-E373-4D4B-93F7-E765B73B36B5Q37678175-6E77825F-7EBE-4572-BED6-57C35B0BB78DQ38980422-51C86B9B-7CD1-4A7F-A579-355A592F7D65Q39269276-E9CB4462-F076-4776-8798-FD16DB8A3B3CQ46423344-BF35BBB4-6084-4D5C-94A1-F9EF1923158CQ46437308-F1A70217-41F7-42F3-A351-1B739DF03144Q46733163-74F54EDE-5028-4FC6-B914-211ACFE9C948Q47805373-FDF9ABCB-EA3E-41ED-AD1E-520B094F285AQ48670963-5C644CDD-1FD9-4A41-B071-6FEDCF5F349DQ48805573-56B6E559-764D-42FC-B83C-4AB9B1849BA7Q51758989-858690CC-A6A0-4810-85DC-27E5FD1AECB8Q83130972-4EF582F4-3195-46CB-82A5-B5BC0B146075Q86040261-48F2B6B6-C9D6-4907-BD52-5D8267786540Q87198630-E8F221B4-39C7-4C3D-BAB3-8ABC21DB325F
P50
description
researcher ORCID ID = 0000-0001-6512-0837
@en
wetenschapper
@nl
name
Xin-Lei Guan
@ast
Xin-Lei Guan
@en
Xin-Lei Guan
@es
Xin-Lei Guan
@nl
type
label
Xin-Lei Guan
@ast
Xin-Lei Guan
@en
Xin-Lei Guan
@es
Xin-Lei Guan
@nl
prefLabel
Xin-Lei Guan
@ast
Xin-Lei Guan
@en
Xin-Lei Guan
@es
Xin-Lei Guan
@nl
P1153
39862790900
P31
P496
0000-0001-6512-0837