Doctor of Medicine

Neuroscience-general, Neurochemistry and Neuropharmacology

Psychiatry, Psychiatric science

Neuroscience-general, Neurophysiology / General neuroscience

Neurology, Neurology

2017
Dept Mol & Cell Physiol, Shinshu Univ Academic Assembly, Inst Medicine,Specially appointed Professor

2014 - 2017
Dept Biological Sciences for Intractable Neurological Diseases, Inst Biomed Sci, Interdisciplinary Cluster for Cutting Edge Res, Shinshu Univ, Professor (concurrent)

2012 - 2017
Dept Neuroplasticity, Inst Pathogenesis & Disease Prevention, Shinshu Univ Grad Sch Med, Professor

2003 - 2012
Dept Neuroplasticity, Inst Aging & Adaptation, Shinshu Univ Grad Sch Med, Professor

1995 - 2003
Dept Neuroplasticity, Research Center on Aging and Adaptation, Shinshu Univ Sch Med, Professor

1991 - 1995
Dept Biochemistry, Nagoya City Univ Med Sch, Associate Professor

1989 - 1991
Dept Biochemistry, Nagoya City Univ Med Sch, Lecturer

1988 - 1989, University of Texas Medical School at Houston

1987 - 1988, Rockefeller University

1983, Nagoya City University, 医学

1979, Nagoya City University, Faculty of Medicine

Non-microtubule tubulin-based backbone and subordinate components of postsynaptic density lattices
Tatsuo Suzuki, Nobuo Terada, Shigeki Higashiyama, Kiyokazu Kametani, Yoshinori Shirai, Mamoru Honda, Tsutomu Kai, Weidong Li, and Katsuhiko Tabuchi
Life Science Alliance, 18 May 2021, Refereed

IQSEC3 Deletion Impairs Fear Memory Through Upregulation of Ribosomal S6K1 Signaling in the Hippocampus
Kim, Dongwook Jung, Hyeji Shirai, Yoshinori Kim, Hyeonho Kim, Jinhu Lim, Dongseok Mori, Takuma Lee, Hyojeong Park, Dongseok Kim, Hee Young Guo, Qi Pang, Bo Qiu, Wen Cao, Xueshan Kouyama-Suzuki, Emi Uemura, Takeshi Kasem, Enas Fu, Yu Kim, Seungjoon Tokunaga, Akinori Yoshizawa, Takahiro Suzuki, Tatsuo Sakagami, Hiroyuki Lee, Kea Joo Ko, Jaewon Tabuchi, Katsuhiko Um, Ji Won
Biological Psychiatry, 2021, Refereed, Not invited

Protein components of postsynaptic density lattice, a backbone structure for type I excitatory synapses.
Suzuki T, Kametani K, Guo W and Li W
J. Neurochem., 144, 390-407, 2018, Refereed

Role of splice variants of Gtf2i, a transcription factor localizing at postsynaptic sites, and its relation to neuropsychiatric diseases.
Shirai Y, Li W, Suzuki T
Int. J. Mol. Sci., 18(2), 15 Feb. 2017, Refereed

Protein components of the backbone structure of PSDs of type I excitatory synapses.
Guo W, Liu Q, and Suzuki T Guo W, Liu Q, and Suzuki T
Shinshu Med. J., 65(4), 211-224, 2017, Refereed

Polyhydramnios in Lrp4 knockout mice with bilateral kidney agenesis: Defects in the pathways of amniotic fluid clearance.
Tanahashi, H., Tian, Q. B., Hara, Y., Sakagami, H., Endo, S. and Suzuki, T.
SCIENTIFIC REPORTS, 6, 20241, 05 Feb. 2016

Novel splice variants in the 5’UTR of Gtf2i expressed in the rat brain: alternative 5’UTRs and differential expression in the neuronal dendrites.
Yoshinori Shirai, Masahiko Watanabe, Hiroyuki Sakagami and Tatsuo Suzuki
J. Neurochem., 134, 578-589, 2015, Refereed

Detergent-dependent separation of postsynaptic density (PSD), membrane rafts and other subsynaptic structures from the synaptic plasma membrane of rat forebrain.
LiYing Zhao, Hiroyuki Sakagami and Tatsuo Suzuki
J. Neurochemistry, 131, 147-162, 2014

Molecular and Structural Bases for Postsynaptic Signal Processing and Synaptic Plasticity: Postsynaptic density (PSD) and Postsynaptic Membrane Rafts (PSR).
Suzuki T and Yao WD
J. Neurorestoratology, 2, 1-14, 2014

Specific interaction of postsynaptic densities with membrane rafts isolated from synaptic plasma membranes.
Qian Liu, Wei-Dong Yao and Tatsuo Suzuki
J. Neurogenetics., 27(1-2), 43-58, 2013, Refereed

Phosphorylation of collapsin response mediator protein-2 regulates its localization and association with hippocampal cholinergic neurostimulating peptide precursor in the hippocampus.
Mizuno Masayuki, Kato Daisuke, Kanamori Tetsuko, Toyoda Takanari, Suzuki Tatsuo, Ojika, Kosei, Matsukawa, Noriyuki
Neurosci. Let., 535, 122-127, 2013

Co-localization of hippocampal cholinergic neurostimulating peptide precursor with collapsin response mediator protein-2 at presynaptic terminals in hippocampus.
Daisuke Kato, Shigehisa Mitake, Masayuki Mizuno, Tetsuko Kanamori, Tatsuo Suzuki, Kosei Ojika, Noriyuki Matsukawa
Neurosci. Let, 517, 92-97, 2012

Association of membrane rafts and postsynaptic density: proteomics, biochemical, and ultrastructural analyses
Suzuki T, Zhang J, Miyazawa S, Liu Q, Farzan MR, Yao WD
J Neurochem, 119(1), 64-77, 30 Jul. 2011

SynArfGEF is a guanine nucleotide exchange factor for Arf6 and localizes preferentially at postsynaptic specializations of inhibitory synapses.
Fukaya M, Kamata A, Hara Y, Tamaki H, Katsumata O, Ito N, Takeda S, Hata Y, Suzuki T, Watanabe M, Harvey RJ and Sakagami H
J. Neurochem., 116(6), 1122-1137, 2011

LRP4,シナプスをめぐるシグナリング
棚橋　浩，鈴木龍雄
生体の科学, 61, 392-393, 2010

synGAP,シナプスをめぐるシグナリング
鈴木龍雄
生体の科学, 61, 428-429, 2010

TANC,シナプスをめぐるシグナリング
鈴木龍雄
生体の科学, 61, 500-501, 2010

p55,シナプスをめぐるシグナリング
鈴木龍雄
生体の科学, 61, 510-511, 2010

BAALC 1-6-8,シナプスをめぐるシグナリング
鈴木龍雄
生体の科学, 61, 514-515, 2010

Regulation of CaMKII by Phospho-Thr253 or Phospho-Thr286 Sensitive Targeting Alters Cellular Function.
Skelding K.A.,Tatsuo Suzuki T., Gordon S., Xue J., Verrills N.M., Dickson P.W., Rostas. A.P.
Cellular Signalling, 22, 759-769, 2010

新規シナプス後部タンパク質の同定と機能の解明： 特にLRP4研究の進展について
信州医学雑誌, 57(2), 63-70, Apr. 2009

IQ-ArfGEF/BRAG1 is a guanine nucleotide exchange factor for Arf6 that forms a protein complex with PSD-95 at the postsynaptic density.
Sakagami H, Sanda M, Fukaya M, MiyazakiT, Sukegawa J, Yanagisawa T, Suzuki T, Fukunaga K, Watanabe M, and Kondo H
Neurosci. Res., 60(2), 199-212, 2008

Differential distribution of synGAPα1 and synGAPβ isoforms in rat neurons.
Moon I-S, Sakagami H, Nakayama J and Suzuki T
Brain Res., 1241, 62-75, 2008

MINK as a Rap2 effector for phosphorylation of the postsynaptic scaffold protein TANC1.
Nonaka H, Takei K, Umikawa M, Oshiro M, Kuninaka K, Bayarjargal M, Asato T, Yamashiro Y, Uechi Y, Endo S, Suzuki T, Kariya K
Biochem. Biophys. Res. Commun., 377, 573-578, 2008

LRP4 serves as a co-receptor of agrin.
Zhang B, Luo S, Wang Q, Suzuki T, XiongW-C, Mei L
NEURON, 60, 285-297, 2008

CaM kinase IIα clusters are associated with stable lipid rafts and their formation traps PSD-95.
Suzuki1 T, Du F, TianQB, Zhang JP and Endo S
J. Neurochem., 104, 596-610, 2008

シナプス構築におけるMAGuKファミリータンパクp55の関与
鈴木龍雄, Chiye Aoki
生体の科学, 58, 108-112, 2007

Characterization of mRNA species that are associatedwithpostsynapticdensity fraction by gene chip microarray analysis
Suzuki, T;Tian, QB; Kuromitsu, J; Kawai, T; Endo, S
Neurosci. Res., 57(1), 61-85, 2007

Proteolysis and membrane capture of F-spondin generates combinatorial guidance cues from a single molecule
Zisman, S; Marom, K; Avraham, O; Rinsky-Halivni, L; Gai, U; Kligun, G; Tzarfaty-Majar, V; Suzuki, T; Klar, A
J. Cell Biol., 178(7), 1237-1249, 2007

Interaction of membrane skeletal protein, protein 4.1B and p55, and sodium bicarbonate cotransporter1 in mouse renal S1-S2 proximal tubules
Terada, N; Ohno, N; Saitoh, S; Seki, G; Komada, M; Suzuki, T; Yamakawa, H; Soleimani, M; Ohno, S
J. Histochem. Cytochem., 55(12), 1199-1206, 2007

LRP4 may play a role in maintenance of synaptic integrity and neuronal cell survival through apoE/cholesterol.
Lu Y, Tian QB, Endo S and Suzuki T
Brain Res., 1177, 19-28, 2007

Localization of Ca2+/calmodulin-dependent proteinkinase II in the lipid raft microdomain
Suzuki, T; Du, F; Saitoh, F; Tian, QB
Neurosci.Res., 55, S75-S75, 2006

Mechanisms for association of Ca2+/calmodulin-dependent protein kinase II with lipid rafts
Du, F; Saitoh, F; Tian, QB; Miyazawa, S; Endo, S; Suzuki, T
Biochem. Biophys. Res. Commun., 347(3), 814-820, 2006

Interaction of LDL receptor-related protein 4 (LRP4) with postsynaptic scaffold proteins via its C-terminal PDZ domain-binding motif, and its regulationby Ca2+/calmodulin-dependent protein kinase II
Tian, QB; Suzuki, T; Yamauchi, T; Sakagami, H; Yoshimura, Y; Miyazawa, S; Nakayama, K; Saitoh, F; Zhang, JP; Lu, YH; Kondo, H; Endo, S
Eur. J. Neurosci., 23(11), 2864-2876, 2006

BAALC 1-6-8 protein is targeted to postsynaptic lipid rafts by its N-terminal myristoylation and palmitoylation, and interacts with alpha, but not beta, subunit of Ca2+/calmodulin-dependent protein kinase II
Wang X, Tian O-B, Okano A, Sakagami H, Moon II, KondoH, Endo S, Suzuki T
J. Neurochem., 92(3), 647-659, 2005

p55 protein is a member of PSD scaffold proteins in the rat brain and interacts with various PSD proteins
Zhang J-P, Tian O-B, Sakagami H, Endo S, Kondo H, Suzuki T
Mol. Brain Res., 135(1-2), 204-216, 2005

A novel scaffold protein, TANC, possibly a rat homolog of Drosophila rolling pebbles (rols), forms a multiprotein complex with various postsynaptic density proteins
Suzuki, T; Li, WD; Zhang, JP; Tian, QB; Sakagami, H; Usada, N; Kondo, H; Fujii, T; Endo, S
Eur. J. Neurosci., 21(2), 339-350, 2005

A novel scaffold protein, TANC, possibly a rat homolog of Drosophila rolling pebbles (rols), forms a multiprotein complex with various postsynaptic density proteins
Suzuki T, Li W, Zhang J-P, Tian Q-B, Sakagami H, Usuda N, Kondo H, Fujii T, Endo S
Eur. J. Neurosci., 21(3), 825-825, 2005

Brain-specific potential guanine nucleotide exchange factor for Arf,synArfGEF(Po),is localized to postsynaptic density
Inaba Y., Tian Q-B., Okano A., Zhang J-P., Sakagami H., Miyazawa S, Li W., Komiyama A., Inokuchi K., Kondo H., and Suzuki T.
J Neurochem, 89(6), 1347-1357, 2004

NIDD, a Novel DHHC-containing Protein,Targets Neuronal Nitric-oxide Synthase(nNOS)to the Synaptic Membrane through a PDZ-dependent Interaction and Regulates nNOS Activity
Saitoh F, Tian QB ,Okano A, Sakagami H, Kondo H, Suzuki T
J. Biol. Chem., 279(28), 29461-29468, 2004

Huntingtin-interacting protein-1-related protein of rat (rHIPIR) is localized in the postsynaptic regions
Okano, A; Usuda, N; Furihata, K; Nakayama, K; Tian, QB; Okamoto,T; Suzuki, T
Brain Res., 967(1-2), 210-225, 2003

Localization of translational components at the ultramicroscopic level at postsynaptic sites of the rat brain
Asaki, C; Usuda, N; Nakazawa, A; Kametani, K; Suzuki, T
Brain Res., 972(1-2), 168-176, 2003

A novel ubiquitin-specific protease, synUSP, is localized at the post-synaptic density and post-synaptic lipid raft.
Tian QB, Okano A, Nakayama K, Miyazawa S, Shogo Endo, and Suzuki T
J. Neurochem., 87(3), 665-675, 2003

The postsynaptic density and dendritic raft localization of PSD-Zip70, which contains an N-myristoylation sequence and leucine-zippermotifs.
Konno D, Ko JA, Usui S, Hori K, Maruoka H, Inui M, Fujikado T, Tano Y, Suzuki T, Tohyama K and Sobue K
J. Cell. Sci., 115(23), 4695-4706, 2002

Lipid rafts at postsynaptic sites: distribution, function and linkage to postsynaptic density (PSD).
Suzuki T
Neurosci. Res., 44(1), 1-9, 2002

Biochemical evidence for localization of AMPA-type glutamate receptor subunits in the dendritic raft
Suzuki, T; Ito, J; Takagi, H; Saitoh, F; Nawa, H; Shimizu, H
Mol. Brain Res., 89(1-2), 20-28, 2001

Characterization of a novel synGAP isoform, synGAP-beta
Li W, Okano A, Tian QB, Nakayama K, Furihata T, Nawa H, and Suzuki T
J. Biol. Chem., 276(24), 21417-21424, 2001

Roles of molecular chaperones in the nervous system
Ohtsuka, K; Suzuki, T
Brain Res. Bull., 53(2), 141-146, 2000

Occurrence of a transcription factor, signal transducer and activators of transcription 3 (Stat3), in the postsynaptic density of the rat brain
Murata, S; Usuda,N; Okano, A; Kobayashi, S; Suzuki, T
Mol. Brain Res., 78(1-2), 80-90, 2000

Identification of mRNAs localizing in the postsynaptic region
Tian, QB; Nakayama, K; Okano, A; Suzuki, T
Mol. Brain Res., 72(2), 147-157, 1999

Presence of molecular chaperones, heat shock cognate (Hsc) 70 and heat shock proteins (Hsp) 40, in the postsynaptic structures of rat brain
Suzuki, T; Usuda, N; Murata, S; Nakazawa, A; Ohtsuka, K; Takagi, H
Brain Res., 816(1), 99-110, 1999

Presence of up-stream and downstream components of a mitogen-activated proteinkinase pathway in the PSD of the rat forebrain
Suzuki, T; Mitake, S; Murata, S
Brain Res., 840(1-2), 36-44, 1999

Presence of molecular chaperones, heat shock cognate (HSC) 70 and heat shock protein (HSP) 40, in the postsynaptic structures of rat brain.
Suzuki, T; Usuda, N; Murata, S; Nakazawa, A; Ohtsuka, K; Takagi, H
J. Neurochem., 70, S61-S61, 1998

Occurrence of a transcription factor, cAMP response element-binding protein (CREB), in the postsynaptic sites of the brain.
Suzuki T, 他5名
Mol. Brain Res., 61(1-2), 69-77, 1998

シナプスのMAPキナーゼ系
鈴木龍雄
生体の科学, 48, 97-100, 1997

Interaction of chicken gizzard smooth muscle calponin with brain microtubules
Fujii, T; Hiromori, T; Hamamoto, M; Suzuki, T
J. Biol. Chem., 122(2), 344-351, 1997

Presence of NF-kappa B-like and I kappa B-like immunoreactivities in postsynaptic densities
Suzuki, T; Mitake, S; OkumuraNoji, K; Yang, JP; Fujii, T; Okamoto, T
NEUROREPORT, 8(13), 2931-2935, 1997

Excitable membranes and synaptic transmission: postsynaptic mechanisms. Localization of alpha-internexin in the postsynaptic density of the rat brain
Suzuki, T; Mitake, S; OkumuraNoji, K; Shimizu, H; Tada, T; Fujii, T
Brain Res., 765(1), 74-80, 1997

Subcellular translocation of Ca2+(calmodulin-dependent protein kinase II: Fact or artifact? Reply
Suzuki, T
J. Neurochem., 69(1), 436-437, 1997

シナプス可塑性の分子基盤 - PSDタンパク質 -
鈴木龍雄
日本神経精神薬理学雑誌, 16, 53-58, 1996

記憶・学習の分子機構：長期増強をモデルとして
鈴木龍雄
信州医学会誌, 44, 395-404, 1996

Messengers from the synapses to the nucleus (MSNs) that establish late phase of long-term potentiation (LTP) and long-term memory
Suzuki, T
Neurosci. Res., 25(1), 1-6, 1996

NMDA receptor subunits ε1 (NR2A) and ε2 (NR2B) are substrates for Fyn in the postsynaptic density fraction isolated from the rat brain.
Suzuki T and Okumura-Noji K
Biochem. Biophys. Res. Commun., 216, 582-588, 1995

ERK2-type mitogen-activated protein kinase (MAPK) and its substrates in postsynaptic density fractions from the rat brain.
Suzuki T, Okumura-Noji K, and Nishida E
Neurosci. Res., 22, 277-285, 1995

Functional characterization of the promotor for the a-subunit of calcium/calmodulin-dependent protein kinase II.
Olson NJ, 他5名
Proc.Natl. Acad. Sci. USA, 92, 1659-1663, 1995

Mediation of pepsinogen secretion from guinea pig chief cells by Ca2+/calmodulin-dependent protein kinase II
Okayama N, Itoh M, Joh T, Miyamoto T, Tekeuchi T, Suzuki T, Moriyama A, and Kato T
Biochim. Biophys. Acta., 1268, 123-129, 1995

Amygdala kindling activates the phosphorylation of Ca2+/calmodulin-dependent protein kinase II in rat hippocampus.
Zhou X-R, Suzuki T, Shimizu H, and Nishino H
Neurosci. Lett., 171, 45-48, 1994

Dual regulation of Ca2+/calmodulin-dependent kinase II activity by membrane voltage and by Ca2+ influx.
Xiao R-P, Cheng H, Ledere WJ, Suzuki T, and Lakatta EG
Proc. Natl. Acad. Sci. USA, 91, 9659-9663, 1994

Protein kinases involved in the expression of long-term potentiation.
Suzuki, T
Int. J. Biochem., 26, 735-744, 1994

Rapid translocation of a-subunit of cytosolic Ca2+/calmodulin-dependent protein kinase II to particulate fraction after decapitation.
Suzuki T, 他3名
J. Neurochem., 63, 1529-1537, 1994

Characterization of protein kinase C activities in postsynaptic density fractions prepared from cerebral cortex, hippocampus and cerebellum.
Suzuki T, Okumura-Noji K, Tanaka R, Ogura A, Nakamura K, Kudo Y, and Tada T
Brain Res., 619, 69-75, 1993

記憶，学習タンパク質リン酸化反応
鈴木龍雄, 田中　亮
生体の科学, 44, 710-719, 1993

The presence of 17k Mr protein, a major specific substrate for kinase C, found in the Triton-insoluble fraction of synaptosome prepared from rat brain.
Suzuki T, Abe-Dohmae S, and Tanaka R
Neurochem. Res., 17, 1091-1097, 1992

Ca2+-binding proteins in rat synaptic fractions surveyed by 45Ca2+ overlay method.
Abe-Dohmae S, Suzuki T, and Tanaka R
Brain Res., 598, 225-232, 1992

Calpain may produce Ca2+-independent form of kinase C in long-term potentiation.
Suzuki T, Okumura-Noji K, Ogura A, Tanaka R, Nakamura K, and Kudo Y
Biochem. Biophys. Res. Commun., 189, 1515-1520, 1992

シナプス後肥厚部における長期増強発現のメカニズム
鈴木龍雄
薬物.精神.行動, 12, 135-140, 1992

Antibody reacting specifically to the Thr-286-autophosphorylated a-subunit of the Ca2+/calmodulin-dependent protien kinase II.
Suzuki T, 他4名
Proc. Natl. Acad. Sci. USA, 89, 109-113, 1992

P400 protein is one of the major substrates for Ca2+/calmodulin-dependent protein kinase II in the postsynaptic density-enriched fractions isolated from rat cerebral cortex.
Suzuki T, Abe-Dohmae S, Tanaka R
Neurochem. Int., 20, 61-67, 1992, Refereed

シナプス後側における神経伝達効率制御のメカニズム - タンパク質リン酸化反応の役割
鈴木龍雄, 田中　亮
生化学, 63, 22-28, 1991

Stimulation by glia maturation factor of Ca2+-dependent phosphorylation of Mr 100 k protein in rat glioblasts.
Okumura-Noji K, Kato T, Ito J, Suzuki T, and Tanaka R
Neurochem. Int., 17, 559-571, 1990

Properties of a protein kinase C activity in synaptic plasma membrane and postsynaptic density fractions isolated from canine cerebral cortex.
Suzuki T, Siekevitz P
J. Neurochem., 53, 1751-1762, 1989, Refereed

The occurrence of microtubule-associated proteins 1 and 2 in a synaptic junction preparation from rat cerebrum.
Suzuki T, Sato C, and Tanaka R
Neurochem. Int., 13, 53-61, 1988

Independent protein kinases associated with rat cerebral synaptic junction: comparison with cyclic AMP-dependent and Ca2+/calmodulin-dependent protein kinases in synaptic junction.
Suzuki T, Fujii T, Tanaka R
J. Neurochem., 48, 1716-1724, 1987, Refereed

Specific interaction of synaptic junction with cytoskeletal proteins in brain cytosol.
Suzuki T, Fujii T, and Tanaka R
Biomed. Res., 8, 31-38, 1987

Cytoskeletal changes of glioblasts after morphological differentiation induced by glia maturation factor.
Suzuki T, Kato T, Fujii T, and Tanaka R
Neurochem. Int., 9, 305-313, 1986

Characterization of Ca2+/calmodulin-dependent protein kinase associated with rat cerebral synaptic junction: substrate specificity and effect of autophosphorylation.
Suzuki T, Tanaka R
J. Neurochem., 47, 642-651, 1986

Calcium/calmodulin-dependent inhibition of microtubule assembly by brain synaptic junction.
Suzuki T, Fujii T, and Tanaka R
Neurochem. Res., 11, 543-555, 1986

Postsynaptic density visualized by whole mount electron microscopy.
Suzuki T, Tanaka R
Neurosci. Res., 3, 226-236, 1986

Specific lysis by 6-hydroxydopamine of catecholaminergic synaptosomes prepared from rat cerebrum.
Suzuki T, Okumura-Noji K, and Tanaka R
Brain Res., 321, 374-376, 1984

Synaptosomal cytoskeleton visualized by whole mount electron microscopy.
Suzuki T, Fujii T, and Tanaka R
Neurochem. Int., 6, 573-587, 1984

Succinyl trialamine p-nitroanilide-hydrolytic enzyme from insoluble fraction of guinea pig kidney.
Suzuki T and Sasaki M
Nagoya Med. J., 28, 157-169, 1983

Neuroproteomics, second Edition
Tatsuo Suzuki, Yoshinori Shirai and Weidong Li, Joint work, Isolation of synapse sub-domains by subcellular fractionation using sucrose density gradient centrifugation – purification of the synaptosome, synaptic plasma membrane, postsynaptic density, synaptic membrane raft, and postsynaptic density lattice
Humana Press, 2019

Isolation of synapse-subdomains by subcellular fractionation using sucrose density gradient centrifugation. Neuroproteomics in the series “Neuromethods”
Tatsuo Suzuki, Single work
Humana Press, 2011
ISBN:10.1007/978-1-61779-111-6_4

海馬での長期増強(LTP)/長期抑圧(LTD), Bio Science 用語ライブラリー：脳・神経
鈴木龍雄（御子柴克彦 編）, Single work
羊土社, 1997

ninjurin, synGAP-d, rROK1L, rHIP1R, synGEF-ARF , rat lysophosphatidic acid acyltransferase-delta.
2000, Others

シナプス後肥厚部の分子構築