Aim & Scope
Molecular Brain is an open access, peer-reviewed journal that considers manuscripts on all aspects of studies on the nervous system at the molecular, cellular, and systems level providing a forum for scientists to communicate their findings. Molecular brain research is a rapidly expanding research field in which integrative approaches at the genetic, molecular, cellular and synaptic levels yield key information about the physiological and pathological brain. These studies involve the use of a wide range of modern techniques in molecular biology, genomics, proteomics, imaging and electrophysiology. [1]
2024 - VOLUME 17, ISSUE 1
The duality of amyloid-β: its role in normal and Alzheimer’s disease states
Molecular Brain , 2024 - VOLUME 17, ISSUE 1
Modulation of synaptic transmission through O-GlcNAcylation.
S Han , JN Kim , CH Park , ... , HG Ko
Molecular Brain , 2024 - VOLUME 17, ISSUE 1 , p 1.
G Lim-Kian-Siang , AR Izawa-Ishiguro , Y Rao
Molecular Brain , 2024 - VOLUME 17, ISSUE 1 , p 2.
The brain cytokine orchestra in multiple sclerosis: from neuroinflammation to synaptopathology
R Amoriello , C Memo , L Ballerini , C Ballerini
Molecular Brain , 2024 - VOLUME 17, ISSUE 1 , p 4.
Outer layer of Vb neurons in medial entorhinal cortex project to hippocampal dentate gyrus in mice
N Yamamoto , J Yokose , K Ramesh , ... , SK Ogawa
Molecular Brain , 2024 - VOLUME 17, ISSUE 1 , p 5.
Correction: The deficiency of Maged1 attenuates Parkinson's disease progression in mice.
J Wang , SY Xu , ZY Ye , ... , J Gao
Molecular Brain , 2024 - VOLUME 17, ISSUE 1 , p 6.
P Padmanabhan , A Kneynsberg , E Cruz , ... , J Götz
Molecular Brain , 2024 - VOLUME 17, ISSUE 1 , p 7.
Deleting IP6K1 stabilizes neuronal sodium-potassium pumps and suppresses excitability.
H Jin , A Liu , AC Chin , ... , W Cheng
Molecular Brain , 2024 - VOLUME 17, ISSUE 1 , p 8.
In vitro modulation of mTOR and mGlur5 influence α-synuclein accumulation
V Xing , K Biggar , SSG Ferguson , S Hayley
Molecular Brain , 2024 - VOLUME 17, ISSUE 1 , p 9.
Editorial Retractions, Expressions of Concern and External Notices
The deficiency of Maged1 attenuates Parkinson's disease progression in mice.
J Wang , SY Xu , ZY Ye , ... , J Gao
Molecular Brain2023 - VOLUME 16, ISSUE 1 p 22.
2 44
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AG Kanthasamy , M Kitazawa , Y Yang , ... , A Kanthasamy
Molecular Brain2008 - VOLUME 1, ISSUE 1 p 12.
33 53
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ST Foliaki , B Schwarz , BR Groveman , ... , CL Haigh
Molecular Brain2021 - VOLUME 14, ISSUE 1 p 156.
23 94
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M Watchon , L Luu , KJ Robinson , ... , AS Laird
Molecular Brain2021 - VOLUME 14, ISSUE 1 p 128.
4 53
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S Phasuk , T Pairojana , P Suresh , ... , IY Liu
Molecular Brain2021 - VOLUME 14, ISSUE 1 p 42.
7 75
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Loss of GABAergic cortical neurons underlies the neuropathology of Lafora disease.
S Ortolano , I Vieitez , RC Agis-Balboa , C Spuch
Molecular Brain2014 - VOLUME 7, ISSUE 1 p 7.
33 69
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