about
The nephronophthisis-related gene ift-139 is required for ciliogenesis in Caenorhabditis elegansKIF19A is a microtubule-depolymerizing kinesin for ciliary length controlAutoinhibition of a Neuronal Kinesin UNC-104/KIF1A Regulates the Size and Density of Synapses.Molecular motors in neurons: transport mechanisms and roles in brain function, development, and disease.Kinesin superfamily proteins and the regulation of microtubule dynamics in morphogenesis.A molecular motor, KIF13A, controls anxiety by transporting the serotonin type 1A receptor.KIF1Bbeta- and KIF1A-mediated axonal transport of presynaptic regulator Rab3 occurs in a GTP-dependent manner through DENN/MADD.Structural basis for CRMP2-induced axonal microtubule formation.Immobilization of Caenorhabditis elegans to Analyze Intracellular Transport in Neurons.Characterizing KIF16B in neurons reveals a novel intramolecular "stalk inhibition" mechanism that regulates its capacity to potentiate the selective somatodendritic localization of early endosomes.Non-invasive force measurement reveals the number of active kinesins on a synaptic vesicle precursor in axonal transport regulated by ARL-8.The Molecular Motor KIF1A Transports the TrkA Neurotrophin Receptor and Is Essential for Sensory Neuron Survival and Function.Streptothricin acetyl transferase 2 (Sat2): A dominant selection marker for Caenorhabditis elegans genome editing.BORC Regulates the Axonal Transport of Synaptic Vesicle Precursors by Activating ARL-8.A homozygous loss-of-function CAMK2A mutation causes growth delay, frequent seizures and severe intellectual disability.[The role of kinesin superfamily proteins in morphogenesis]KIF1Bβ mutations detected in hereditary neuropathy impair IGF1R transport and axon growthDisease-associated mutations hyperactivate KIF1A motility and anterograde axonal transport of synaptic vesicle precursors
P50
Q27317381-7DBF9873-D8B4-4384-A4F1-1A5D9FED2D11Q28590268-99552832-6416-4283-B98E-8A640CA32B4CQ33688210-A217C447-3E42-49F2-B971-BB085FA4E853Q37811131-2A4E7FB3-924A-4BB1-8711-13778ADB201BQ38263021-A667ED74-3A42-4E52-A04E-A017381CA443Q39189045-46F73B0B-C7F4-4022-937C-9AB69698338FQ39752721-F0777424-8482-4CE7-A01F-BCDDFFEA6082Q41633223-CDB261A1-9F96-461C-87E7-15ADFC5B88EBQ47384745-2C93EC3D-BD38-49A1-B791-0015AAAA3AD5Q48211544-507F4458-A763-4F7D-A520-3D8DF3494BE7Q49939727-02FC60CE-D8B6-4643-828D-D4A0348F1CF3Q51719447-FD4CE601-8670-4398-A263-43011C31E411Q53685393-D6FC2F90-8CB1-405E-B7EF-C32CE93A4CB6Q53789913-75E033CD-EC39-4FD1-936F-AA2CCA6B4C82Q54963859-A141E68B-8765-4FA6-AE42-84288EFEB950Q85758287-8DFFAA85-17C4-476F-AED0-F51B19510E09Q91046313-8D943943-1D4E-4928-984A-D7A2A7633866Q92913128-C9E7E403-1685-4B5A-ACA3-17D6AC9C739D
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Shinsuke Niwa
@ast
Shinsuke Niwa
@en
Shinsuke Niwa
@es
Shinsuke Niwa
@nl
type
label
Shinsuke Niwa
@ast
Shinsuke Niwa
@en
Shinsuke Niwa
@es
Shinsuke Niwa
@nl
prefLabel
Shinsuke Niwa
@ast
Shinsuke Niwa
@en
Shinsuke Niwa
@es
Shinsuke Niwa
@nl
P106
P31
P496
0000-0002-8367-9228