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==Original Publications==
==Original Publications==
{{TOC limit|2}}
===2025===
== Original Papers ==
<ul>
== 2024 ==
<li>[[file:Liu_Neurosci_Res_2025.pdf|50px|border|right]]'''Liu, J., Goto, A. & Hayashi, Y. (in press)'''<br>Time-window of offline long-term potentiation in anterior cingulate cortex during memory consolidation and recall. ''Neurosci. Res.'' </li>
<li>[[file:Vikas Cell Rep 2025.pdf|50px|border|right]]'''Pandey,V., Hosokawa, T. Hayashi, Y. & Urakubo, H. (in press)'''<br>Multiphasic protein condensation
FAM81A is a postsynaptic protein that regulates the condensation of postsynaptic proteins via liquid-liquid phase separation. PLoS biology, 22(3), e3002006. [PubMed:38452102] [PMC] [WorldCat] [DOI]
governed by shape and valency. ''Cell Reports''</li>
==2023==
</ul>
Ripoli Sci Adv 2023.pdfRipoli, C., Dagliyan, O., Renna, P., Pastore, F., Paciello, F., Sollazzo, R., Rinaudo, M., Battistoni, M., Martini, S., Tramutola, A., Sattin, A., Barone, E., Saneyoshi, T., Fellin, T., Hayashi, Y., & Grassi, C. (2023).
=== 2024 ===
Engineering memory with an extrinsically disordered kinase. Science advances, 9(46), eadh1110. [PubMed:37967196] [PMC] [WorldCat] [DOI] [Google Scholar]
CaMKII binds both substrates and activators at the active site. Cell reports, 40(2), 111064. [PubMed:35830796] [PMC] [WorldCat] [DOI] [Google Scholar]
===2023===
==2021==
<ul>
Goto Science 2021.pdfGoto, A., Bota, A., Miya, K., Wang, J., Tsukamoto, S., Jiang, X., Hirai, D., Murayama, M., Matsuda, T., McHugh, T.J., Nagai, T., & Hayashi, Y. (2021).
Stepwise synaptic plasticity events drive the early phase of memory consolidation. Science (New York, N.Y.), 374(6569), 857-863. [PubMed:34762472] [WorldCat] [DOI] [Google Scholar]
</ul>
Cid Cell Rep 2021.pdfCid, E., Marquez-Galera, A., Valero, M., Gal, B., Medeiros, D.C., Navarron, C.M., Ballesteros-Esteban, L., Reig-Viader, R., Morales, A.V., Fernandez-Lamo, I., Gomez-Dominguez, D., Sato, M., Hayashi, Y., Bayés, À., Barco, A., Lopez-Atalaya, J.P., & de la Prida, L.M. (2021).
===2022===
Sublayer- and cell-type-specific neurodegenerative transcriptional trajectories in hippocampal sclerosis. Cell reports, 35(10), 109229. [PubMed:34107264] [WorldCat] [DOI] [Google Scholar]
<ul>
Takamura Mizuta J Neurosci 2021.pdfTakamura, R., Mizuta, K., Sekine, Y., Islam, T., Saito, T., Sato, M., Ohkura, M., Nakai, J., Ohshima, T., Saido, T.C., & Hayashi, Y. (2021).
Modality-Specific Impairment of Hippocampal CA1 Neurons of Alzheimer's Disease Model Mice. The Journal of neuroscience : the official journal of the Society for Neuroscience, 41(24), 5315-5329. [PubMed:33980545] [PMC] [WorldCat] [DOI] [Google Scholar]
</ul>
Hosokawa Liu Nat Neurosci 2021.pdfHosokawa, T., Liu, P.W., Cai, Q., Ferreira, J.S., Levet, F., Butler, C., Sibarita, J.B., Choquet, D., Groc, L., Hosy, E., Zhang, M., & Hayashi, Y. (2021).
Arc self-association and formation of virus-like capsids are mediated by an N-terminal helical coil motif. The FEBS journal, 288(9), 2930-2955. [PubMed:33175445] [WorldCat] [DOI] [Google Scholar]
</ul>
Sato Mizuta Cell Report 2020.pdfSato, M., Mizuta, K., Islam, T., Kawano, M., Sekine, Y., Takekawa, T., Gomez-Dominguez, D., Schmidt, A., Wolf, F., Kim, K., Yamakawa, H., Ohkura, M., Lee, M.G., Fukai, T., Nakai, J., & Hayashi, Y. (2020).
===2020===
Distinct Mechanisms of Over-Representation of Landmarks and Rewards in the Hippocampus. Cell reports, 32(1), 107864. [PubMed:32640229] [PMC] [WorldCat] [DOI] [Google Scholar]
<ul>
Luchetti J Neurosci 2020.pdfLuchetti, A., Bota, A., Weitemier, A., Mizuta, K., Sato, M., Islam, T., McHugh, T.J., Tashiro, A., & Hayashi, Y. (2020).
Two Functionally Distinct Serotonergic Projections into Hippocampus. The Journal of neuroscience : the official journal of the Society for Neuroscience, 40(25), 4936-4944. [PubMed:32414785] [PMC] [WorldCat] [DOI] [Google Scholar]
Shank3 Binds to and Stabilizes the Active Form of Rap1 and HRas GTPases via Its NTD-ANK Tandem with Distinct Mechanisms. Structure (London, England : 1993), 28(3), 290-300.e4. [PubMed:31879129] [WorldCat] [DOI] [Google Scholar]
Kojima Neurobiol Learn Mem 2019.pdfKojima, H., Rosendale, M., Sugiyama, Y., Hayashi, M., Horiguchi, Y., Yoshihara, T., Ikegaya, Y., Saneyoshi, T., & Hayashi, Y. (2019).
===2019===
The role of CaMKII-Tiam1 complex on learning and memory. Neurobiology of learning and memory, 166, 107070. [PubMed:31445077] [WorldCat] [DOI] [Google Scholar]
Saneyoshi Neuron 2019.pdfSaneyoshi, T., Matsuno, H., Suzuki, A., Murakoshi, H., Hedrick, N.G., Agnello, E., O'Connell, R., Stratton, M.M., Yasuda, R., & Hayashi, Y. (2019).
Reciprocal Activation within a Kinase-Effector Complex Underlying Persistence of Structural LTP. Neuron, 102(6), 1199-1210.e6. [PubMed:31078368] [PMC] [WorldCat] [DOI] [Google Scholar]
Grandour Nature Comm 2019.pdfGhandour, K., Ohkawa, N., Fung, C.C.A., Asai, H., Saitoh, Y., Takekawa, T., Okubo-Suzuki, R., Soya, S., Nishizono, H., Matsuo, M., Osanai, M., Sato, M., Ohkura, M., Nakai, J., Hayashi, Y., Sakurai, T., Kitamura, T., Fukai, T., & Inokuchi, K. (2019).
Kobayashi Sci Rep 2019.pdfKobayashi, T., Islam, T., Sato, M., Ohkura, M., Nakai, J., Hayashi, Y., & Okamoto, H. (2019).
Wide and Deep Imaging of Neuronal Activities by a Wearable NeuroImager Reveals Premotor Activity in the Whole Motor Cortex. Scientific reports, 9(1), 8366. [PubMed:31182818] [PMC] [WorldCat] [DOI] [Google Scholar]
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<li>[[File:Kashino Int J Mol Sci.pdf|50px|thumbnail|right]]<pubmed> 29996472 </pubmed>
<li>[[File:Kashino Int J Mol Sci.pdf|50px|border|right]]<pubmed> 29996472 </pubmed>
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<pubmed> 26291163 </pubmed>
<pubmed> 26291163 </pubmed>
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<pubmed> 25533481 </pubmed>
<pubmed> 25533481 </pubmed>
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<pubmed>25946002</pubmed>
<pubmed>25946002</pubmed>
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<pubmed>26004915</pubmed>
<pubmed>26004915</pubmed>
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<pubmed>24742465</pubmed>
<pubmed>24742465</pubmed>
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<pubmed>22101241</pubmed>
<pubmed>22101241</pubmed>
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<pubmed>19345194</pubmed>
<pubmed>19345194</pubmed>
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<pubmed>15607982</pubmed>
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<pubmed>15476377</pubmed>
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2023
Ripoli, C., Dagliyan, O., Renna, P., Pastore, F., Paciello, F., Sollazzo, R., Rinaudo, M., Battistoni, M., Martini, S., Tramutola, A., Sattin, A., Barone, E., Saneyoshi, T., Fellin, T., Hayashi, Y., & Grassi, C. (2023).
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Hallin, E.I., Eriksen, M.S., Baryshnikov, S., Nikolaienko, O., Grødem, S., Hosokawa, T., Hayashi, Y., Bramham, C.R., & Kursula, P. (2018).
Structure of monomeric full-length ARC sheds light on molecular flexibility, protein interactions, and functional modalities. Journal of neurochemistry, 147(3), 323-343.
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Kashino, Y., Obara, Y., Okamoto, Y., Saneyoshi, T., Hayashi, Y., & Ishii, K. (2018).
ERK5 Phosphorylates Kv4.2 and Inhibits Inactivation of the A-Type Current in PC12 Cells. International journal of molecular sciences, 19(7).
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Sato, M., Kawano, M., Mizuta, K., Islam, T., Lee, M.G., & Hayashi, Y. (2017).
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Bosch, M., Castro, J., Sur, M., & Hayashi, Y. (2017).
Photomarking Relocalization Technique for Correlated Two-Photon and Electron Microcopy Imaging of Single Stimulated Synapses. Methods in molecular biology (Clifton, N.J.), 1538, 185-214.
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Sato, M., Kawano, M., Yanagawa, Y., & Hayashi, Y. (2016).
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A Temporary Gating of Actin Remodeling during Synaptic Plasticity Consists of the Interplay between the Kinase and Structural Functions of CaMKII. Neuron, 87(4), 813-26.
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A naturally occurring null variant of the NMDA type glutamate receptor NR3B subunit is a risk factor of schizophrenia. PloS one, 10(3), e0116319.
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Wang, D.O., Matsuno, H., Ikeda, S., Nakamura, A., Yanagisawa, H., Hayashi, Y., & Okamoto, A. (2012).
A quick and simple FISH protocol with hybridization-sensitive fluorescent linear oligodeoxynucleotide probes. RNA (New York, N.Y.), 18(1), 166-75.
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Mower, A.F., Kwok, S., Yu, H., Majewska, A.K., Okamoto, K., Hayashi, Y., & Sur, M. (2011).
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Hayashi, M.K., Tang, C., Verpelli, C., Narayanan, R., Stearns, M.H., Xu, R.M., Li, H., Sala, C., & Hayashi, Y. (2009).
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Motoneuron-specific NR3B gene: no association with ALS and evidence for a common null allele. Neurology, 70(9), 666-76.
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Kwok, S., Lee, C., Sánchez, S.A., Hazlett, T.L., Gratton, E., & Hayashi, Y. (2008).
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Okamoto, K., Narayanan, R., Lee, S.H., Murata, K., & Hayashi, Y. (2007).
The role of CaMKII as an F-actin-bundling protein crucial for maintenance of dendritic spine structure. Proceedings of the National Academy of Sciences of the United States of America, 104(15), 6418-23.
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Jourdi, H., Iwakura, Y., Narisawa-Saito, M., Ibaraki, K., Xiong, H., Watanabe, M., Hayashi, Y., Takei, N., & Nawa, H. (2003).
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Negishi, M., Sugimoto, Y., Hayashi, Y., Namba, T., Honda, A., Watabe, A., Narumiya, S., & Ichikawa, A. (1993).
Functional interaction of prostaglandin E receptor EP3 subtype with guanine nucleotide-binding proteins, showing low-affinity ligand binding. Biochimica et biophysica acta, 1175(3), 343-50.
[PubMed:8382086]
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Hayashi, Y., Momiyama, A., Takahashi, T., Ohishi, H., Ogawa-Meguro, R., Shigemoto, R., Mizuno, N., & Nakanishi, S. (1993).
Role of a metabotropic glutamate receptor in synaptic modulation in the accessory olfactory bulb. Nature, 366(6456), 687-90.
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1992
Sugimoto, Y., Namba, T., Honda, A., Hayashi, Y., Negishi, M., Ichikawa, A., & Narumiya, S. (1992).
Cloning and expression of a cDNA for mouse prostaglandin E receptor EP3 subtype. The Journal of biological chemistry, 267(10), 6463-6.
[PubMed:1372606]
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Namba, T., Sugimoto, Y., Hirata, M., Hayashi, Y., Honda, A., Watabe, A., Negishi, M., Ichikawa, A., & Narumiya, S. (1992).
Mouse thromboxane A2 receptor: cDNA cloning, expression and northern blot analysis. Biochemical and biophysical research communications, 184(3), 1197-203.
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Hayashi, Y., Tanabe, Y., Aramori, I., Masu, M., Shimamoto, K., Ohfune, Y., & Nakanishi, S. (1992).
Agonist analysis of 2-(carboxycyclopropyl)glycine isomers for cloned metabotropic glutamate receptor subtypes expressed in Chinese hamster ovary cells. British journal of pharmacology, 107(2), 539-43.
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1991
Hirata, M., Hayashi, Y., Ushikubi, F., Yokota, Y., Kageyama, R., Nakanishi, S., & Narumiya, S. (1991).
Cloning and expression of cDNA for a human thromboxane A2 receptor. Nature, 349(6310), 617-20.
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1990
Koshimura, K., Miwa, S., Lee, K., Hayashi, Y., Hasegawa, H., Hamahata, K., Fujiwara, M., Kimura, M., & Itokawa, Y. (1990).
Effects of choline administration on in vivo release and biosynthesis of acetylcholine in the rat striatum as studied by in vivo brain microdialysis. Journal of neurochemistry, 54(2), 533-9.
[PubMed:2299351]
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Hayashi, Y., Miwa, S., Lee, K., Koshimura, K., Hamahata, K., Hasegawa, H., Fujiwara, M., & Watanabe, Y. (1990).
Enhancement of in vivo tyrosine hydroxylation in the rat adrenal gland under hypoxic conditions. Journal of neurochemistry, 54(4), 1115-21.
[PubMed:1968954]
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1989
Lee, K., Miwa, S., Hayashi, Y., Koshimura, K., Fujiwara, M., & Orii, Y. (1989).
Effects of hypoxia on noradrenaline release and neuronal reuptake in isolated rabbit thoracic aortic strips. Naunyn-Schmiedeberg's archives of pharmacology, 339(5), 503-8.
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1988
Hayashi, Y., Miwa, S., Lee, K., Koshimura, K., Kamel, A., Hamahata, K., & Fujiwara, M. (1988).
A nonisotopic method for determination of the in vivo activities of tyrosine hydroxylase in the rat adrenal gland. Analytical biochemistry, 168(1), 176-83.
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Lee, K., Miwa, S., Hayashi, Y., Koshimura, K., Taniguchi, T., Orii, Y., & Fujiwara, M. (1988).
Effects of hypoxia on contractile responses of rabbit aortic strips to transmural electrical stimulation. Naunyn-Schmiedeberg's archives of pharmacology, 338(3), 275-81.
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Reviews and Commentaries
2017
Lissek, T., Adams, M., Adelman, J., Ahissar, E., Akaaboune, M., Akil, H., al'Absi, M., Arain, F., Arango-Lasprilla, J.C., Atasoy, D., Avila, J., Badawi, A., Bading, H., Baig, A.M., Baleriola, J., Belmonte, C., Bertocchi, I., Betz, H., Blakemore, C., Blanke, O., Boehm-Sturm, P., Bonhoeffer, T., Bonifazi, P., Brose, N., Campolongo, P., Celikel, T., Chang, C.C., Chang, T.Y., Citri, A., ..., & Hasan, M.T. (2017).
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2016
Kim, K., Saneyoshi, T., Hosokawa, T., Okamoto, K., & Hayashi, Y. (2016).
Interplay of enzymatic and structural functions of CaMKII in long-term potentiation. Journal of neurochemistry, 139(6), 959-972.
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2014
Saneyoshi, T., & Hayashi, Y. (2014).
Synapse reorganization-a new partnership revealed. The EMBO journal, 33(12), 1292-4.
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Kim, K., & Hayashi, Y. (2014).
CaMKII: the Swiss army knife of synaptic plasticity. The Journal of physiology, 592(22), 4807-8.
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2013
Ueda, Y., Kwok, S., & Hayashi, Y. (2013).
Application of FRET probes in the analysis of neuronal plasticity. Frontiers in neural circuits, 7, 163.
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2012
Saneyoshi, T., & Hayashi, Y. (2012).
The Ca2+ and Rho GTPase signaling pathways underlying activity-dependent actin remodeling at dendritic spines. Cytoskeleton (Hoboken, N.J.), 69(8), 545-54.
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Sakaguchi, M., & Hayashi, Y. (2012).
Catching the engram: strategies to examine the memory trace. Molecular brain, 5, 32.
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Hayashi, Y., Okamoto, K., Bosch, M., & Futai, K. (2012).
Roles of neuronal activity-induced gene products in Hebbian and homeostatic synaptic plasticity, tagging, and capture. Advances in experimental medicine and biology, 970, 335-54.
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Bosch, M., & Hayashi, Y. (2012).
Structural plasticity of dendritic spines. Current opinion in neurobiology, 22(3), 383-8.
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2010
Malinow, R., Hayashi, Y., Maletic-Savatic, M., Zaman, S.H., Poncer, J.C., Shi, S.H., Esteban, J.A., Osten, P., & Seidenman, K. (2010).
Introduction of green fluorescent protein (GFP) into hippocampal neurons through viral infection. Cold Spring Harbor protocols, 2010(4), pdb.prot5406.
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2009
Okamoto, K., Bosch, M., & Hayashi, Y. (2009).
The roles of CaMKII and F-actin in the structural plasticity of dendritic spines: a potential molecular identity of a synaptic tag? Physiology (Bethesda, Md.), 24, 357-66.
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2005
Hayashi, Y., & Majewska, A.K. (2005).
Dendritic spine geometry: functional implication and regulation. Neuron, 46(4), 529-32.
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[DOI]
K Futai, Y Hayashi
Dynamism of postsynaptic proteins as the mechanism of synaptic plasticity
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2000
Malinow, R., Mainen, Z.F., & Hayashi, Y. (2000).
LTP mechanisms: from silence to four-lane traffic. Current opinion in neurobiology, 10(3), 352-7.
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[WorldCat]
[DOI]
Malinow, R., Hayashi, Y., Maletic-Savatic, M., Zaman, S.H., Poncer, J.C., Shi, S.H., Esteban, J.A., Osten, P., & Seidenman, K. (2010).
Introduction of green fluorescent protein (GFP) into hippocampal neurons through viral infection. Cold Spring Harbor protocols, 2010(4), pdb.prot5406.
[PubMed:20360360]
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[WorldCat]
[DOI]
1996
Nakanishi, S., Nakajima, Y., Nomura, A., Masu, M., Iwakabe, H., Hayashi, Y., & Yokoi, M. (1996).
Functions and roles of glutamate receptors in synaptic transmission and plasticity. Cold Spring Harbor symposia on quantitative biology, 61, 67-75.
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1994
Nakanishi, S., Masu, M., Bessho, Y., Nakajima, Y., Hayashi, Y., & Shigemoto, R. (1994).
Molecular diversity of glutamate receptors and their physiological functions. EXS, 71, 71-80.
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1993
Narumiya, S., Hirata, N., Namba, T., Hayashi, Y., Ushikubi, F., Sugimoto, Y., Negishi, M., & Ichikawa, A. (1993).
Structure and function of prostanoid receptors. Journal of lipid mediators, 6(1-3), 155-61.
[PubMed:8395239]
[WorldCat]
