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Yoshida T., Takenaka KI., Sakamoto H., Kojima Y., Sakano T., Shibayama K., Nakamura K., Hanawa-Suetsugu K., Mori Y., Hirabayashi Y., Hirose K. & Takamori S. Compartmentalization of soluble endocytic proteins in synaptic vesicle clusters by phase separation.

iScience 106826 (2023).

 

Egashira Y., Katsurabayashi S. & Takamori S. Quantitative Analysis of Presynaptic Vesicle Luminal pH in Cultured Neurons. Methods Mol Biol 2417:45-58 (2022). 【Pubmed】

Hori T. & Takamori S. Physiological Perspectives on Molecular Mechanisms and Regulation of Vesicular Glutamate Transport: Lessons From Calyx of Held Synapses.

Front Cell Neurosci 15:811892 (2022). 【Pubmed】

López-Hernández T., Takenaka KI., Mori Y., Kongpracha P., Nagamori S., Haucke V., Takamori S. Clathrin-independent endocytic retrieval of SV proteins mediated by the clathrin adaptor AP-2 at mammalian central synapses.

Elife 11:e71198 (2022). 【Pubmed】

Mori Y., Takenaka KI., Fukazawa Y. & Takamori S. The endosomal Q-SNARE, Syntaxin 7, defines a rapidly replenishing synaptic vesicle recycling pool in hippocampal neurons.

Commun Biol 4(1):981 (2021). 【Pubmed】

Taoufiq Z., Ninov M., Villar-Briones A., Wang H-Y., Sasaki T., Roy MC., Beauchain F., Mori Y., Yoshida T., Takamori S., Jahn R. & Takahashi T. Hidden proteome of synaptic vesicles in the mammalian brain.

PNAS 117(52):33586-33596 (2020).【Pubmed】

Nakakubo Y., Abe S., Yoshida T., Takami C., Isa M., Wojcik S.M., Brose N., *Takamori S. & *Hori T. Vesicular Glutamate Transporter Expression Ensures High-Fidelity Synaptic Transmission at the Calyx of Held Synapses.

Cell Rep 32(7):108040 (2020). *Co-corresponding authors.【Pubmed】

Ono Y., Mori Y., Egashira Y., Sumiyama K. & Takamori S. Expression of plasma membrane calcuim ATPases confers Ca2+/H+ exchange in rodent synaptic vesicles.

Sci Rep 9(1):4289 (2019).【Pubmed】

 

Egashira Y., Mori Y., Yanagawa Y. & Takamori S. Development of lentiviral vectors for efficient glutamatergic-selective gene expression in cultured hippocampal neurons.

Sci Rep 8(1):15156 (2018) 【Pubmed】

Mori Y. & Takamori S. Molecular Signatures Underlying Synaptic Vesicle Cargo Retrieval.

Front Cell Neurosci 11:422. (2018)【Pubmed】

Egashira Y., Takase M., Watanabe S., Ishida J., Fukamizu A., Kaneko R., Yanagawa Y. & Takamori S. Unique pH dynamics in GABAergic synaptic vesicles illuminates the mechanism and kinetics of GABA loading.

PNAS 113(38):10702-7(2016)【Pubmed】

Takamori S. Presynaptic molecular determinants for quantal size.

Front Synaptic Neurosci 8;8:2(2016) (Invited Review)【Pubmed】

 

Takamori S. Vesicular glutamate transporters as anion channels?

Pflügers Arch 468(3):513-8 (2016) (Invited Review) 【Pubmed】

 

Tsujimura K., Irie K., Nakashima H., Egashira Y., Fukao Y., Fujiwara M., Itoh M., Uesaka M., Imamura T., Nakahata Y., Yamashita Y., Abe T., Takamori S. & Nakashima K. miR-199a Links MeCP2 with mTOR Signaling and Its Dysregulation Leads to Rett Syndrome Phenotypes.

Cell Rep 12: 1-15 (2015) 【PubMed】.

 

Egashira Y., Takase M. & Takamori S. Monitoring of Vacuolar-Type H+ ATPase-Mediated Proton Influx into Synaptic Vesicles.

J Neurosci 35(8):3701-10 (2015). 【PubMed】


Kumamaru E., Egashira Y., Takenaka R. & Takamori S. Valproic acid selectively suppresses the formation of inhibitory synapses in cultured cortical neurons.

Neurosci Lett 569, 142-7 (2014) .【PubMed】

 

Takamori S. Vesicle identities in motion.

Dev Cell 27(5):480-4 (2013). (Commentary)【PubMed】

 

 

Selected publication before Doshisha

 

Schenck S., Wojcik S.M., Brose N. & Takamori S. A chloride conductance in VGLUT1 underlies maximal glutamate loading into synaptic vesicles.

Nat Neurosci 12, 156-162 (2009).【PubMed】

 

Takamori S. VGLUT:‘exciting’ times for glutamatergic research?

Neurosci Res 55, 343-51 (2006). (Review article).【PubMed】

 

Takamori S., et. al. Molecular anatomy of a trafficking organelle.

Cell 127, 831-46 (2006).【PubMed】

 

Wojcik S.M., Rhee J.S., Herzog E., Sigler A., Jahn R., *Takamori S., *Brose N. & *Rosenmund C. An essential role for vesicular glutamate transporter 1 (VGLUT1) in postnatal development and control of quantal size.

PNAS 101, 7158-63 (2004). * corresponding authors.【PubMed】

 

Stobrawa S.M., et al. Disruption of ClC-3, a chloride channel expressed on synaptic vesicles, leads to a loss of the hippocampus.

Neuron 29, 185-196 (2001).【PubMed】

 

Takamori S., Rhee J.S., Rosenmund C. & Jahn R. Identification of a vesicular glutamate transporter that defines a glutamatergic phenotype in neurons.

Nature 407, 189-194 (2000) .【PubMed】

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