| Molecular motor KIF5A is essential for GABA(A) receptor transport, and KIF5A deletion causes epilepsy. Nakajima K., Yin X., Takei Y., Seog D.H., Homma N., Hirokawa N.
Neuron 76:945-961(2012) · Mapped (6) |
| KIF19A is a microtubule-depolymerizing kinesin for ciliary length control. Niwa S., Nakajima K., Miki H., Minato Y., Wang D., Hirokawa N.
Dev. Cell 23:1167-1175(2012) · UniProtKB (1) · Mapped (3) |
| Regulation of NMDA receptor transport: a KIF17-cargo binding/releasing underlies synaptic plasticity and memory in vivo. Yin X., Feng X., Takei Y., Hirokawa N.
J. Neurosci. 32:5486-5499(2012) · Mapped (6) |
| Motor protein KIF1A is essential for hippocampal synaptogenesis and learning enhancement in an enriched environment. Kondo M., Takei Y., Hirokawa N.
Neuron 73:743-757(2012) · Mapped (17) |
| Phosphatidylinositol 4-phosphate 5-kinase alpha (PIPKalpha) regulates neuronal microtubule depolymerase kinesin, KIF2A and suppresses elongation of axon branches. Noda Y., Niwa S., Homma N., Fukuda H., Imajo-Ohmi S., Hirokawa N.
Proc. Natl. Acad. Sci. U.S.A. 109:1725-1730(2012) · Mapped (6) |
| Preferential binding of a kinesin-1 motor to GTP-tubulin-rich microtubules underlies polarized vesicle transport. Nakata T., Niwa S., Okada Y., Perez F., Hirokawa N.
J. Cell Biol. 194:245-255(2011) · Mapped (16) |
| Molecular motor KIF17 is fundamental for memory and learning via differential support of synaptic NR2A/2B levels. Yin X., Takei Y., Kido M.A., Hirokawa N.
Neuron 70:310-325(2011) · Mapped (12) |
| KIF16B/Rab14 molecular motor complex is critical for early embryonic development by transporting FGF receptor. Ueno H., Huang X., Tanaka Y., Hirokawa N.
Dev. Cell 20:60-71(2011) · UniProtKB (3) · Mapped (32) |
| Kinesin-1/Hsc70-dependent mechanism of slow axonal transport and its relation to fast axonal transport. Terada S., Kinjo M., Aihara M., Takei Y., Hirokawa N.
EMBO J. 29:843-854(2010) · Mapped (20) |
| Left-right determination: involvement of molecular motor KIF3, cilia, and nodal flow. Hirokawa N., Tanaka Y., Okada Y.
Cold Spring Harb Perspect Biol 1:a000802-a000802(2009) · Mapped (15) |
| KIF26A is an unconventional kinesin and regulates GDNF-Ret signaling in enteric neuronal development. Zhou R., Niwa S., Homma N., Takei Y., Hirokawa N.
Cell 139:802-813(2009) · UniProtKB (2) · Mapped (24) |
| KIF1Bbeta- and KIF1A-mediated axonal transport of presynaptic regulator Rab3 occurs in a GTP-dependent manner through DENN/MADD. Niwa S., Tanaka Y., Hirokawa N.
Nat. Cell Biol. 10:1269-1279(2008) · Mapped (4) |
| Structural model for strain-dependent microtubule activation of Mg-ADP release from kinesin. Nitta R., Okada Y., Hirokawa N.
Nat. Struct. Mol. Biol. 15:1067-1075(2008) · UniProtKB (1) · Mapped (9) |
| Disruption of KIF17-Mint1 interaction by CaMKII-dependent phosphorylation: a molecular model of kinesin-cargo release. Guillaud L., Wong R., Hirokawa N.
Nat. Cell Biol. 10:19-29(2008) · Mapped (11) |
| High-resolution cryo-EM maps show the nucleotide binding pocket of KIF1A in open and closed conformations. Kikkawa M., Hirokawa N.
EMBO J. 25:4187-4194(2006) · Mapped (6) |
| KIF4 motor regulates activity-dependent neuronal survival by suppressing PARP-1 enzymatic activity. Midorikawa R., Takei Y., Hirokawa N.
Cell 125:371-383(2006) · Mapped (3) |
| The transcriptional landscape of the mammalian genome. Carninci P., Kasukawa T., Katayama S., Gough J., Frith M.C., Maeda N., Oyama R., Ravasi T., Lenhard B., Wells C. et al.
Science 309:1559-1563(2005) · UniProtKB (10,350) · Mapped (36,265) |
| Analysis of the kinesin superfamily: insights into structure and function. Miki H., Okada Y., Hirokawa N.
Trends Cell Biol. 15:467-476(2005) · Mapped (47) |
| Mechanism of nodal flow: a conserved symmetry breaking event in left-right axis determination. Okada Y., Takeda S., Tanaka Y., Izpisua Belmonte J.C., Hirokawa N.
Cell 121:633-644(2005) · Mapped (8) |
| FGF-induced vesicular release of Sonic hedgehog and retinoic acid in leftward nodal flow is critical for left-right determination. Tanaka Y., Okada Y., Hirokawa N.
Nature 435:172-177(2005) · Mapped (19) |
| The KIF3 motor transports N-cadherin and organizes the developing neuroepithelium. Teng J., Rai T., Tanaka Y., Takei Y., Nakata T., Hirasawa M., Kulkarni A.B., Hirokawa N.
Nat. Cell Biol. 7:474-482(2005) · Mapped (68) |
| Kinesin transports RNA: isolation and characterization of an RNA-transporting granule. Kanai Y., Dohmae N., Hirokawa N.
Neuron 43:513-525(2004) · UniProtKB (1) · Mapped (7) |
| KIF1A alternately uses two loops to bind microtubules. Nitta R., Kikkawa M., Okada Y., Hirokawa N.
Science 305:678-683(2004) · UniProtKB (2) · Mapped (9) |
| Dynein and kinesin share an overlapping microtubule-binding site. Mizuno N., Toba S., Edamatsu M., Watai-Nishii J., Hirokawa N., Toyoshima Y.Y., Kikkawa M.
EMBO J. 23:2459-2467(2004) · Mapped (1) |
| Gem GTPase and tau: morphological changes induced by gem GTPase in cho cells are antagonized by tau. Oyama F., Kotliarova S., Harada A., Ito M., Miyazaki H., Ueyama Y., Hirokawa N., Nukina N., Ihara Y.
J. Biol. Chem. 279:27272-27277(2004) · Mapped (5) |
