about
Distinct predictive performance of Rac1 and Cdc42 in cell migrationMulti-cellular logistics of collective cell migrationFlexible search for single-axon morphology during neuronal spontaneous polarizationDiscovery of long-range inhibitory signaling to ensure single axon formation.Dynamic regulation of myosin light chain phosphorylation by Rho-kinase.Intercellular propagation of extracellular signal-regulated kinase activation revealed by in vivo imaging of mouse skin.Uncertainty-Dependent Extinction of Fear Memory in an Amygdala-mPFC Neural Circuit Model.Two New FRET Imaging Measures: Linearly Proportional to and Highly Contrasting the Fraction of Active MoleculesMulti-phasic bi-directional chemotactic responses of the growth cone.Fluctuation of Rac1 activity is associated with the phenotypic and transcriptional heterogeneity of glioma cells.Local signaling with molecular diffusion as a decoder of Ca2+ signals in synaptic plasticity.Nonrandom Germline Transmission of Mouse Spermatogonial Stem Cells.Revisiting chemoaffinity theory: Chemotactic implementation of topographic axonal projection.Reconstruction of Spatial Thermal Gradient Encoded in Thermosensory Neuron AFD in Caenorhabditis elegansHeterogeneity in ERK activity as visualized by in vivo FRET imaging of mammary tumor cells developed in MMTV-Neu mice.One-chip sensing device (biomedical photonic LSI) enabled to assess hippocampal steep and gradual up-regulated proteolytic activities.Stochastic control of spontaneous signal generation for gradient sensing in chemotaxis.Propagating Wave of ERK Activation Orients Collective Cell Migration.Nonrandom contribution of left and right testes to germline transmission from mouse spermatogonial stem cells.Mathematical modeling of neuronal polarization during development.A multiphysical model of cell migration integrating reaction-diffusion, membrane and cytoskeleton.Time-lapse observation of stepwise regression of Erk activity in zebrafish presomitic mesoderm.Identification of animal behavioral strategies by inverse reinforcement learning.Noise-resistant developmental reproducibility in vertebrate somite formationSomite boundary determination in normal and clock-less vertebrate embryos
P50
Q27304686-72C756FD-9903-4ED9-AE79-CF626E9F0FFDQ27312056-E867396B-7403-436B-B06A-BAA50B2683B3Q28477963-D53363E4-3407-4235-AB38-116CC1F3414DQ33835262-A72F1138-DAB9-41C6-8E59-845628122EBBQ34314357-A0BD13C3-4AFB-428B-B646-76E37074481DQ35111321-274C29F0-E754-44A9-BC1B-15F58C95A59AQ36129780-90D78D53-666C-40BC-A802-3E4E7B280909Q36174182-56F4BD9E-C3A9-47F0-9E3A-D3BC77338140Q37390312-A8F8C494-0462-4795-922A-7A4BD3458975Q38479861-2A7B4C2E-F098-4EDC-9136-1F8B98CF60F5Q40510120-CCC70CB5-B807-4BF1-83F0-30905007CD41Q40629380-B710DF6F-4307-4F89-A7C3-843434DBB029Q41456188-852A68DA-2739-4CFC-999F-0FF3D7ECD88CQ42014454-24086011-D5EB-4311-90AB-955A33D3D4CDQ42231213-A7365573-9E15-4AE8-AC81-048BDCF28977Q43606378-8116A53D-3FCD-4638-9365-B612D33B3C8CQ46370361-A5C1365F-2E3A-447F-9E17-6D547F63BF1CQ47430678-610679F2-0BFA-4449-8C5D-6E959EBC1DAFQ50026759-A832BD03-1DF2-479F-BC88-F34D628F457EQ51109645-274E3F62-D2A4-46CC-949E-40BB1632943DQ51547733-AD9A85C4-4A1D-4203-A298-44A384DBB103Q54967467-6F1ED65C-05C0-47BE-8CBD-7C4090961102Q55229208-0C0120DF-7AF0-49E2-9DF8-1853E6818380Q61800422-3A7278FD-933C-4FF3-8DF9-D2F1B24E3EF0Q89934436-F455F05A-29DB-4394-A87E-57D92E090930
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Honda Naoki
@ast
Honda Naoki
@en
Honda Naoki
@es
Honda Naoki
@nl
Honda Naoki
@sl
type
label
Honda Naoki
@ast
Honda Naoki
@en
Honda Naoki
@es
Honda Naoki
@nl
Honda Naoki
@sl
prefLabel
Honda Naoki
@ast
Honda Naoki
@en
Honda Naoki
@es
Honda Naoki
@nl
Honda Naoki
@sl
P214
P1053
N-5674-2017
P106
P214
P31
P3829
P496
0000-0001-6816-9126
P7859
viaf-189197188