Related references
Note: Only part of the references are listed.Fidgetin impacts axonal growth and branching in a local mTOR signal dependent manner
Chao Ma et al.
EXPERIMENTAL NEUROLOGY (2023)
Role of microtubule dynamics in Wallerian degeneration and nerve regeneration after peripheral nerve injury
Jingmin Liu et al.
NEURAL REGENERATION RESEARCH (2022)
Microtubule Dynamics Following Central and Peripheral Nervous System Axotomy
Riya Kulkarni et al.
ACS CHEMICAL NEUROSCIENCE (2022)
A comparative analysis of differentially expressed genes in rostral and caudal regions after spinal cord injury in rats
Xue-Min Cao et al.
NEURAL REGENERATION RESEARCH (2022)
GIP-GIPR promotes neurite outgrowth of cortical neurons in Akt dependent manner
Long Teng et al.
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS (2021)
L-leucine promotes axonal outgrowth and regeneration via mTOR activation
Chao Ma et al.
FASEB JOURNAL (2021)
Environmental enrichment combined with fasudil treatment inhibits neuronal death in the hippocampal CA1 region and ameliorates memory deficits
Gao-Jing Xu et al.
NEURAL REGENERATION RESEARCH (2021)
Structural and Molecular Basis for Katanin-Mediated Severing of Glutamylated Microtubules
Sang Chul Shin et al.
CELL REPORTS (2019)
Fine structure and dynamics of EB3 binding zones on microtubules in fibroblast cells
V. V. Mustyatsa et al.
MOLECULAR BIOLOGY OF THE CELL (2019)
PKA-dependent phosphorylation of IP3K-A at Ser119 regulates a binding affinity with EB3
Seo Jung Mo et al.
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS (2019)
Activity-Dependent Nucleation of Dynamic Microtubules at Presynaptic Boutons Controls Neurotransmission
Xiaoyi Qu et al.
CURRENT BIOLOGY (2019)
Knockdown of Fidgetin Improves Regeneration of Injured Axons by a Microtubule-Based Mechanism
Andrew J. Matamoros et al.
JOURNAL OF NEUROSCIENCE (2019)
Differential Circular RNA Expression Profiles Following Spinal Cord Injury in Rats: A Temporal and Experimental Analysis
Ronghua Wu et al.
FRONTIERS IN NEUROSCIENCE (2019)
Tau Does Not Stabilize Axonal Microtubules but Rather Enables Them to Have Long Labile Domains
Liang Qiang et al.
CURRENT BIOLOGY (2018)
Cytoskeleton dynamics in axon regeneration
Oriane Blanquie et al.
CURRENT OPINION IN NEUROBIOLOGY (2018)
Dissecting spinal cord regeneration
Michael V. Sofroniew
NATURE (2018)
Probenecid Disrupts a Novel Pannexin 1-Collapsin Response Mediator Protein 2 Interaction and Increases Microtubule Stability
Xiaoxue Xu et al.
FRONTIERS IN CELLULAR NEUROSCIENCE (2018)
Spastin Interacts with CRMP5 to Promote Neurite Outgrowth by Controlling the Microtubule Dynamics
Zhisheng Ji et al.
DEVELOPMENTAL NEUROBIOLOGY (2018)
Required growth facilitators propel axon regeneration across complete spinal cord injury
Mark A. Anderson et al.
NATURE (2018)
Severing enzymes amplify microtubule arrays through lattice GTP-tubulin incorporation
Annapurna Vemu et al.
SCIENCE (2018)
Microtubule-severing enzymes: From cellular functions to molecular mechanism
Francis J. McNally et al.
JOURNAL OF CELL BIOLOGY (2018)
α-Tubulin Tyrosination and CLIP-170 Phosphorylation Regulate the Initiation of Dynein-Driven Transport in Neurons
Jeffrey J. Nirschl et al.
CELL REPORTS (2016)
Calpain 3 Expression Pattern during Gastrocnemius Muscle Atrophy and Regeneration Following Sciatic Nerve Injury in Rats
Ronghua Wu et al.
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2015)
Post-translational modifications of tubulin: pathways to functional diversity of microtubules
Yuyu Song et al.
TRENDS IN CELL BIOLOGY (2015)
Vertebrate Fidgetin Restrains Axonal Growth by Severing Labile Domains of Microtubules
Lanfranco Leo et al.
CELL REPORTS (2015)
Human fidgetin is a microtubule severing enzyme and minus-end depolymerase that regulates mitosis
Suranjana Mukherjee et al.
CELL CYCLE (2012)
HDAC5 is a novel injury-regulated tubulin deacetylase controlling axon regeneration
Yongcheol Cho et al.
EMBO JOURNAL (2012)
NIH Image to ImageJ: 25 years of image analysis
Caroline A. Schneider et al.
NATURE METHODS (2012)
Growing the growth cone: remodeling the cytoskeleton to promote axon regeneration
Eun-Mi Hur et al.
TRENDS IN NEUROSCIENCES (2012)
In Vitro Reconstitution of the Functional Interplay between MCAK and EB3 at Microtubule Plus Ends
Susana Montenegro Gouveia et al.
CURRENT BIOLOGY (2010)
Microtubule-severing enzymes
Antonina Roll-Mecak et al.
CURRENT OPINION IN CELL BIOLOGY (2010)
Post-translational modifications of tubulin in the nervous system
Nobuyuki Fukushima et al.
JOURNAL OF NEUROCHEMISTRY (2009)
Tubulin tyrosination navigates the kinesin-1 motor domain to axons
Yoshiyuki Konishi et al.
NATURE NEUROSCIENCE (2009)
Tubulin Tyrosination Is Required for the Proper Organization and Pathfinding of the Growth Cone
Severine Marcos et al.
PLOS ONE (2009)
Microtubule stabilization specifies initial neuronal polarization
Harald Witte et al.
JOURNAL OF CELL BIOLOGY (2008)
No evidence for chronic demyelination in spared axons after spinal cord injury in a mouse
Jurate Lasiene et al.
JOURNAL OF NEUROSCIENCE (2008)
The microtubule-severing proteins spastin and katanin participate differently in the formation of axonal branches
Wenqian Yu et al.
MOLECULAR BIOLOGY OF THE CELL (2008)
Guidelines for the conduct of clinical trials for spinal cord injury as developed by the ICCP panel: spontaneous recovery after spinal cord injury and statistical power needed for therapeutic clinical trials
J. W. Fawcett et al.
SPINAL CORD (2007)
The mouse fidgetin gene defines a new role for AAA family proteins in mammalian development
GA Cox et al.
NATURE GENETICS (2000)
Share Paper
