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  2. $BLx@n1&@iIW!$5(!!K11@(B, $B<,ID8xMx!$>.H(K.I'(B(2000.3)$B!!?@7PH/@8$H%t%'%7%/%k7?(BGABA$B%H%i%s%9%]!<%?!
  3. $B>.H(K.I'(B(2000.3) GABA$B$N=i4|H/@8$X$N$+$+$o$j!%Bh(B77$B2sF|K\@8M}3X2q%5%F%i%$%H%7%s%]%8%&%`!V%K%e!<%m%P%$%*%m%8!
  4. $B>o@nD>;R(B, $BCz!!F|9b(B, $B>.H(K.I'(B(2000.9)$B!!8}387A@.$K$*$1$k(BGABA$B$NLr3d!%Bh(B23$B2sF|K\?@7P2J3XBg2q(B($B2#IM(B).
  5. $B4XLnM4;R(B, $BD%!!>9(B, $B2CF#K.IW(B, $BCSED??9T(B, $B>.H(K.I'(B, $BGrHxCRL@(B(2000.9)$B!!%"%G%N%7%s#A#1
  6. $BLx@n1&@iIW(B, $B3$O786Mx;^(B, $B<,ID8xMx(B, $B>.H(K.I'(B(2000.9)$B!!%^%&%9%t%'%7%/%k7?(BGABA$B%H%i%s%9%]!<%?!<0dEA;R$N9=B$$HH/8=D4@a5!9=!%Bh(B23$B2sF|K\?@7P2J3XBg2q(B($B2#IM(B).
  7. $B7s;R9,0l(B, $B>.H(K.I'(B(2000.9)$B!!%0%k%?%_%s;@C&C:;@9ZAG(B65$B%N%C%/%"%&%H%^%&%9Y(EmBN30B&3K$K$*$1$k6=J3@-%7%J%W%9EAC#$NP6?J!%Bh(B23$B2sF|K\?@7P2J3XBg2q(B($B2#IM(B).
  8. $B<,ID8xMx(B, $B>.H(K.I'(B, $BLx@n1&@iIW(B(2000.9)$B!!%^%&%9G>H/@82aDx$K$*$1$k%Y%'%7%/%k7?#G#A#B#A%H%i%s%9%]!<%?!<$NH/8=!%Bh(B23$B2sF|K\?@7P2J3XBg2q(B($B2#IM(B).
  9. Ding R, Tsunekawa N, Kaneko K, Kanbara N, Asada H, Obata K (2000.11) Cleft palate induced by GABA deficiency in mice. 30th Annual Meeting of Society for Neuroscience (New Orleans, USA).
  10. Kaneko K, Obata K (2000.11) An increase in excitatory synaptic transmission in the lateral amygdala of adult GAD65 knockout mice.30th Annual Meeting of Society for Neuroscience (New Orleans, USA).
  11. Makinae K, Obata K, Yanagawa Y (2000.11) Developmental expression of vesicular GABA transporter in mouse brain.30th Annual Meeting of Society for Neuroscience (NewOrleans, USA).
  12. Stork O, Stork S, Pape HC, Obata K (2000.11) Differential gene-expression in the amygdala during consolidation of fear memory. 30th Annual Meeting of Society for Neuroscience (New Orleans, USA).

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  2. Kuniaki Nagayama (2000.5) Complex Electron Microsocpy- A New Biophysical Tool for Molecular and Cellular Physiology.  Third East Asian BiophysicsSymposium (Korea).
  3. $B:#LnBn!$3yB-M:;J!$EDCfD>9r!$(BC.Dobson$B!$1J;3T">uBV$N9=B$!%CAGr9gF1G/2qEl5~(B2000$B!JBh(B51$B2s%?%s%Q%/
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  6. $B%@%M%U!&%i%I%9%A%s!$?yC+@5;0!$Bg2O869@!$Be$NDjNL2r@O!%CAGr9gF1G/2qEl5~(B2000$B!JBh(B51$B2s%?%s%Q%/
  7. Nagayama K, Danev R, Okawara H, Murata K (2000.6) Complex Electron Microscopy Surmounting The Scherzer Limit.  7th Asia-Pacific Electron Microscopy Conference$B!H(BPerspective Imaging$B!I(B(Singapore).
  8. Nagayama K, Danev R, Sugitani S, Okawara H, Nagayama K (2000.6) Aberration-free Electron Phase Microscopy.  7thAsia-Pacific Electron Microscopy Conference$B!H(BPerspective Imaging$B!I(B(Singapore$B!K(B.
  9. Majorovits E, Nagayama K, Schroeder R R (2000.7) Assessment of the experimental constraints for phase contrast EM and complex object reconstruction.  12thEuropean Congress on Electron Microscopy (Czech Republic).
  10. Nagayama K, Danev R , Okawara H, Murata K (2000.7) Complex electron microscopy.  12th European Congress on Electron Microscopy (Czech Republic).
  11. $B:#LnBn!$4d2<=a!$1J;3T">uBV$NFC0[E*0BDj2=!%F|K\@8J*J*M}3X2qBh(B38$B2sG/2q!J5\>k!K!%(B
  12. $B1J;3T">pJs7O$N5f6KE*B,Dj%7%9%F%`!%F|K\@8J*J*M}3X2qBh(B38$B2sG/2q!J5\>k!K!%(B
  13. $B9b66BnLi!$1J;3T">k!K!%(B
  14. $B1J;3T">8E20!K(B
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  17. Murata M, (2000.10) MEK and Cdc2 kinase are sequentially required for Golgi disasssembly in MDCK cells by the mitotic Xenopus extracts.  $BBh(B73 $B2sF|K\@82=3X2qBg2q%7%s%]%8%&%`!V;i
  18. $BB;G7!J(B2000.10$B!K(BGFP$B2D;k2=5;=Q$H%;%_%$%s%?%/%H:YK&7O$rMQ$$$?%*%k%,%M%iKl%@%$%J%_%/%9$N8&5f!%Bh(B53$B2sF|K\:YK&@8J*3X2qBg2q%7%s%]%8%&%`!V:YK&5!G=$r8+$F!$CN$k!W!JGnB?!K!%(B
  19. $B2CG<$U$_!$B;G7!J(B2000.11$B!K%;%_%$%s%?%/%H(BMDCK$B:YK&$rMQ$$$?#M4|%4%k%8BN%G%#%9%"%C%;%s%V%j!<2aDx$N:F9=@.!%Bh(B53$B2sF|K\:YK&@8J*3X2qBg2q%7%s%]%8%&%`!V>.K&BN(B-$B%4%k%8BN$N%a%s%V%l%s!&%H%i%U%#%C%/$H%P%$%*%8%'%M%7%9!W!JGnB?!K!%(B
  20. $BB;G7!J(B2000.12$B!K%;%_%$%s%?%/%H(BCHO$B:YK&$rMQ$$$?!$C10l:YK&Fb$G$N(BER—$B%4%k%8BN4V>.K&M"Aw2aDx$N:F9=@.$H$=$N2r@O!%Bh(B23$B2sF|K\J,;R@8J*3X2qG/2q%7%s%]%8%&%`!V:YK&Fb$NJ,;R<1JL$HM"Aw$N%a%+%K%:%`!W!J?@8M!K!%(B
  21. $BB;G7!J(B2000.12$B!K%;%_%$%s%?%/%H:YK&$rMQ$$$?%*%k%,%M%i%P%$%*%8%'%M%7%9$N8&5f!%Bh(B41$B2sF|K\AH?%:YK&2=3X2qAm2q!&3X=Q=82q%7%s%]%8%&%`!V@8BNKl$N9=B$$H5!G=2r@O!W!J9bCN!K!%(B
  22. $B2CG<$U$_!$:49CLw;V!$B?2lC+8wCK!$LxEDIRM:!$B;G7!J(B2000.10$B!K%;%_%$%s%?%/%H(BCHO$B:YK&$K$*$1$k(BBFA$BM6F3$K$h$k%4%k%8%A%e!<%V7A@.$H(BER$BKl$H$NM;9g2aDx$N:F9=@.!%Bh(B73$B2sF|K\@82=3X2qBg2q!J2#IM!K!%(B
  23. $B2CG<$U$_!$6aF#5WM:!$:Y@nD*;R!$1JEDOB9(!$B;G7!J(B2000.12$B!K>.K&BN%M%C%H%o!<%/$N:YK&<~4|0MB8E*Kl%@%$%J%_%/%9$N:F9=@.!%Bh(B23$B2sF|K\J,;R@8J*3X2qG/2q!J?@8M!K!%(B
  24. $B9-ED5#!$80OBEDAo!$3^86OB5/!$2,Ln=S9T!$B;G7!$?>2LBN:YK&$N%a%i%H%K%sJ,Hg5!9=$N2r@O!%Bh(B73$B2sF|K\@82=3X2qBg2q0lHL9V1i!J%]%9%?!
  25. Hirota T, Kagiwada S, Kasahara T, Okano T, Murata M, Fukada Y (2000.8) Effect of brefeldin A on melatonin secretion of chick pineal cells. Gordon ResearchConference on Pineal Cell Biology$B0lHL9V1i!J%]%9%?!
  26. $B@PF2H~OB;R(B, $B;3K\>O;L(B, $BKLB<=SM:(B, $B1J;3T"><(B, $BBg66@5?M!J(B2000.10$B!K8e4|%(%s%I%=!<%`$+$i%H%i%s%9%4%k%8%M%C%H%o!<%/$X$NM"Aw$K$*$1$k%3%l%9%F%m!<%k$NI,MW@-!%Bh(B53$B2sF|K\:YK&@8J*3X2qBg2q!JJ!2,(B).
  27. $BBg66@5?M(B, $B@PF2H~OB;R(B, $B;3K\>O;L(B, $BKLB<=SM:(B, $B1J;3T">
  28. $B>>K\M'<#!$B
  29. $BB<>e@/N4!$5HB<7<0l!$@%@n>45W!$(BLoffredo F, Riva A $B!J(B2000.3$B!K4CN.%i%C%H<*2
  30. $B5HB<7<0l!$B<>e@/N4!J(B2000.3$B!K<*2
  31. $B8E;3IY;NLo!$Bg4dN4B'!$B<>e@/N4!$@>Ln?NM:!J(B2000.3$B!K29G.@-BC1UJ,Hg0dEAE*9b?J$X$N3\2
  32. Murakami M, Yoshimura K, Sugiya H, Segawa A, Loffredo F, Testa-Riva F, Riva A (2000.4) Fluid and amylase secretion by perfused parotid gland: physio- morphological approach.  International symposium on Exocrine Glands (Seoul, Korea).
  33. Riva A, Murakami M (2000.5) Fluid and protein secretion by perfused salivary glands: physio-morphological approach. (part 1) 3rd meeting of International Collaborative Research Project on Coupling Mechanisms of Fluid Secretion andExocytosis (Okazaki)
  34. Murakami M, Seo Y (2000.5) NMR studies on electrolyte transport and energy metabolism in salivary gland. Sym- posium on Membrane Transport in Health and Disease at Physiological Society of Thailand (Phitsanulok, Thailand$B!K!%(B
  35. Murakami M, Riva A, Segawa A, Yoshimura K, Sugiya H (2000.9) Fluid and protein secretion by perfused salivary glands: physio-morphological approach (part 2). 3rd meeting of International Collaborative Research Project on Coupling Mechanisms of Fluid Secretion and Exocytosis (Okazaki).
  36. $BB<>e@/N4(B(2000.12)$BB!4o4CN.K!$K$h$k?e!&%$%*%sM"Aw5Z$S%?%s%Q%/J,Hg5!9=$X$N%"%W%m!<%A!%Bh(B44$B2sF|K\BC1UA#3X2q%7%s%]%8%&%`!JEl5~(B).

$B!T:YK&FbBe

  1. Mohri T, Oda S, Sato M, Miyazaki S (2000.3) Analysis of Ca2+ influx and Ca2+ oscillations in mouse eggs.  $BBh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
  2. Kobori H, Kuwabara Y, Miyazaki S (2000.3) Ca2+responses to progesterone and cyclic nucleotides in mouse spermatozoa.  $BBh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
  3. Shirakawa H, Miyazaki S (2000.3) Optical measurement of endoplasmic reticulum membrane potential during Ca2+ release.  $BBh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
  4. Ogata M, Awaji T, Iwasaki, N, Iwamoto Y, Miyazaki S (2000.3) Functional studies of wild-type and mutant HNF-4$B&A(B in living cells.$BBh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
  5. Miyazaki S (2000.3) Ca2+ signal and egg activation.  $BBh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
  6. $B>.KY9(G7!$:y0fL@90!$:4F#M:0l!$CfLn5A9(!$IpFbM5G7!$7,867D5*!$5\:j=S0l(B (2000.4) Progesterone$B$*$h$S(Bcyclic nucleotide$B$K$h$C$FM65/$5$l$k@:;R:YK&Fb(BCa2+$BA}2CH?1~$N2r@O(B.  $BBh(B52$B2sF|K\;:IX?M2J3X2q!JFAEg!K!%(B
  7. $BGr@n1Q3$BM6H/@-(BCa$BM7N%$KH<$&>.K&BNKlEE0LJQ2=(B.  $BBh(B38$B2sF|K\@8J*J*M}3X2q!J@gBf!K!%(B
  8. $BLSMxC#Ka(B, $BGr@n1Q2+$B?6F0;~$N%^%&%9Mq$N(BCa2+/Mn2+$B%@%$%J%_%C%/%9!%Bh(B53$B2sF|K\:YK&@8J*3X2qBg2q!JJ!2,!K!%(B
  9. Miyazaki S (2000.11) Cell signaling in early development. Seiriken Internatl Symp on Mechanisms of Cell Signaling in Early Development (Okazaki, Japan).
  10. Deguchi R (2000.11) Spatiotemporal patterns of Ca2+  increases at fertilization in bivalve and mouse eggs.  Seiriken Internatl Symp on Mechanisms of Cell Signaling in Early Development (Okazaki).
  11. Mohri T (2000.11) Ca2+/Mn2+influx and release during Ca2+ oscillations in mouse eggs.  Seirilen Internatl Symp on Mechanisms of Cell Signaling in Early Development (Okazaki).
  12. Deguchi R, Shirakawa H, Oda S, Mohri T, Miyazaki S (2000.11) Spatiotemporal analysis of Ca2+ waves during Ca2+oscillations in fertilized mouse eggs.  Seiriken Internatl Symp on Mechanisms of Cell Signaling inEarly Development (Okazaki).
  13. Shirakawa H, Mohri T, Miyazaki S (2000.11) Numerical simulation for Mn2+ quenching of fura-2 during Ca2+ oscillations in mouse eggs.  Seiriken Internatl Symp on Mechanisms of Cell Signaling in Early Development(Okazaki).
  14. Shirakawa H, Miyazaki S (2000.11) Dual-wavelength ratiometric fluorescence measurement of endoplasmic reticulum membrane potential using voltage-sensitive dyes.  Seiriken Internatl Symp on Mechanisms of Cell Signaling in Early Development (Okazaki).
  15. Sato M, Yoshitomo M, Mohri T, Sakurai A, Miyazaki S (2000.11) Ca2+ dynamics in mouse eggs after ICSI. Seiriken Internatl Symp on Mechanisms of Cell Signaling in Early Development (Okazaki,).
  16. Ogonuki N, Sankai T, Yagami K, Shikano T, Oda S, Miyazaki S, OguraA (2000.11) Activity of a sperm-borne oocyte-activating factor in sperm and spermatogenic cells from cynomolgus monkeys and its localization after oocyte activation.  Seiriken Internatl Symp on Mecha- nisms of Cell Signaling in Early Development (Okazaki).
  17. Kaji K, Oda S, Shikano T, Ohnuki T, Uematsu Y, Sakagami J, Tada N, Miyazaki S, Kudo A (2000.11) Cd9 on mouse egg microvilli participates in sperm-egg fusion.  Seiriken Internatl Symp on Mechanism of Cell Signaling in Early Development (Okazaki).
  18. Mohri T, Shirakawa H, Oda S, Sato MS, Mikoshiba K, Miyazaki S (2000.12) Ca2+/Mn2+ dynamics during Ca2+oscillations in mouse eggs injected with sperm extract. 40th Annual Meeting of American Society for Cell Biology (San Francisco$B!$(BUSA).
  19. Yada T, Muroya S, Takigawa M (2000.3) Insulin activatesglucose-responsive neurons in the mediobasal hypothalamus. $BBh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
  20. Uramura K, Yada T, Muroya S, Takigawa S (2000.3) Orexins activate Ca2+signaling in dopamine neurons in the ventral tegmental area.  $BBh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
  21. $BLpED=SI'(B, $BI{EgE5;R(B, $B<<20??Fs(B, $BBl@n8E20!K!%(B
  22. $BLpED=SI'!$2C7W@5J8!$Cf:jK~9@!$H,=EAROBO/!$E"CiOB(B(2000.0)$B%_%H%3%s%I%j%"$H>.K&BN$K$h$k%+%k%7%&%`%7%0%J%j%s%0$HJ,Hg$N@)8f%`%$%s%9%j%sJ,Hg!]:YK&$rNc$H$7$F!%Bh(B73$B2sF|K\LtM}3X2q%7%s%]%8%&%`!!!J2#IM!K!%(B
  23. $BCfED@5HO!$LpED=SI'!$2C7W@5J8!J(B2000.3$B!K(BHMG-CoA$B4T859ZAGAK32Lt$K$h$kg9:YK&(BCa2+$B%A%c%M%k!&(BCa2+$B%7%0%J%j%s%0!&%$%s%9%j%sJ,Hg$NM^@)!%Bh(B73$B2sF|K\LtM}3X2q%7%s%]%8%&%`!J2#IM!K!%(B
  24. $BLpED=SI'!$<<20??Fs!$1vED@6Fs!$:y0fIp!$Bl@npJsEAC#7PO)$H%/%m%9%H!<%/!%Bh(B105$B2sF|K\2rK63X2q%7%s%]%8%&%`!J2#IM!K!%(B
  25. $B=.665W9,!$LpED=SI'!$1vED@6Fs!J(B2000.3$B!K;k>22
  26. $BLpED=SI'!$<<20??Fs!$Bl@npJsEAC#7PO)$H(BPOMC$B$NLr3d!%Bh(B27$B2sF|K\?@7PFbJ,Hg3X2q%7%s%]%8%&%`!J?@8M!K!%(B

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  1. $B:,K\CN8J!$LZB=UO:!!(B(2000.3) $BB?8w;RNe5/K!$K$h$k30J,HgA#3+8}J|=P$N2D;k2=!%Bh(B77$B2sF|K\@8M}3X2q!JEl5~!K!%(B
  2. $B9b66NQ;R!$LgOF9'!$2O@>=UO:(B (2000.5) $B%$%s%9%j%s$N%+%k%7%&%`Hs0MB8E*J,Hg$H(BCa/PKA$B%;%s%5!<5!9=!%Bh(B43$B2sE|G"IB3X2q!!(B($BL>8E20(B)$B!%(B
  3. $B5WLZEDJ8IW(B (2000.6) $B%A%c%M%k%]%"$N#3
  4. Kasai H (2000.7) Quantitative Ca2+ imaging ofcerebellar Purkinje neurons and their Ca2+ buffers. $BAm9gG>9q:]%o!<%/%7%g%C%W!!(B($B2,:j(B)$B!%(B
  5. $B>>:j@/5*!$(BGraham C. R. Ellis-Davies$B!$5\2=UO:!J(B2000.8$B!K(B2$B8w;RNe5/K!$K$h$k>.G>%W%k%-%s%(:YK&$N%0%k%?%_%s;@46
  6. $BCf@>7=;R!$5WLZEDJ8IW(B (2000.8) $BG]M\BgG>Hi
  7. Matsuzaki M, Tachikawa A Ellis-Dvaies GCR, Miyashita Y, Iino M, Kasai H (2000.11) Two-photon functional mapping of glutamate receptors in living hippocampalneurons.  Soc. Neurosci. (New Orleans)$B!%(B
  8. $B2O@>=UO:(B (2000.11) $B%+%k%7%&%`7k9gCAGr
  9. $B2O@>=UO:!$:,K\CN8J!$9b66NQ;R!$>>:j@55*(B (2000.12) $BB?8w;RNe5/K!$K$h$k?7$7$$@8BN5!G=2r@O!%%l!<%6!<82Hy6@8&5f2q(B ($BEl5~(B)$B!%(B

$B!T5!G=6(4X8&5fItLg!U(B

  1. Okada Y (2000.1) Roles of anion channel and ABC transporter in cell volume regulation.  International Symposium on the Role of Transporters in the Host Defense Mechanism (Tokyo, Japan).
  2. $BA0Ln7CH~!$6b4XW\!$2,EDBY?-(B (2000.1) $B?;F)05@-:YK&<}=L$K$h$k%"%]%H!<%7%9$NM6F3!%Bh(B46$B2sCfItF|K\@8M}3X2q(B (Nagoya, Japan).
  3. Maeno E, Kanaseki T, Ishizaki Y, Okada Y (2000.3) Role of cell shrinkage in apoptotic cell death. $BBh(B77$B2sF|K\@8M}3X2qBg2q(B (Yokohama, Japan).
  4. Dezaki K, Maeno E, Okada Y (2000.3) Fluorescence measurements of intracellular Cl- concentration during cell apoptosis. $BBh(B77$B2sF|K\@8M}3X2qBg2q(B (Yokohama, Japan).
  5. Shimizu T, Morishima S, Okada Y (2000.3) Regulation signaling of volume-sensitive Cl- channels: Involvement of Ca2+-sensing receptors. $BBh(B77$B2sF|K\@8M}3X2qBg2q(B (Yokohama, Japan).
  6. Morishima S, Zhang W-J, Ohara M, Okada Y (2000.3) Nuclear volume regulation under hypotonic conditions observed by multi-photon laser microscopy in vivo. $BBh(B77$B2sF|K\@8M}3X2qBg2q(B (Yokohama, Japan)$B!%(B
  7. Sabirov R, Lapointe J-Y, Bell PD, Okada Y (2000.3) Patch-clamping macula densa: a nifedipine-sensitive Ca-activated cation channel. $BBh(B77$B2sF|K\@8M}3X2qBg2q(B (Yokohama, Japan).
  8. Okada Y, Lapointe J-Y, Sabirov RZ, Hayashi S, Bell PD (2000.3) A maxi-Cl- channel in macula densa cells and its role in ATP release. $BBh(B77$B2sF|K\@8M}3X2qBg2q(B (Yokohama, Japan).
  9. Okada Y, Sabirov RZ, Hayashi S, Lapointe J-Y, Bell PD (2000.3) A Cl-/ATP channel in macula densa cells as a Na+sensor. $BBh(B77$B2sF|K\@8M}3X2qBg2q(B (Yokohama, Japan).
  10. Peti-Peterdi J, Morishima S, Miyoshi T, Bell PD, Okada Y (2000.4) Macula densa cell water transport assessed by two-photon laser scanning microscopy.Experimental Biology 2000 (San Diego, USA).
  11. Bell PD, Lapointe J-Y, Sabirov R, Hayashi S, Okada Y (2000.4) Maxi-chloride channel in macula densa cells: possible pathway for ATP release.  Experimental Biology 2000 (San Diego, USA).
  12. Morishima S, Zang W-J, Ohara M, Okada Y (2000.4) Cell volume measurements by the two-photon laser imaging system.  Experimental Biology 2000 (San Diego, USA).
  13. Shimizu T, Morishima S, Okada Y (2000.4) Extracellular Ca2+ sensitivity of swelling-activated Cl- currents. Inrelation to Ca2+-sensing receptor.  Experimental Biology2000 (San Diego, USA).
  14. Okada Y (2000.6) Volume-sensitive chloride channels and cell volume regulation. Symposium on Sensors andeffectors in cell volume regulation and their physio- logical role in secreting epithelia.  The 21st Congress of the European Society for Comparative Physiology and Biochemistry (Liege, Belgium).
  15. $B2,EDBY?-(B (2000.7) $B:YK&MF@QD4@a$K4XM?$9$kMF@Q%;%s%5!<%A%c%M%k$H%l%;%W%?!
  16. Okada Y (2000.9) Volume-activated ATP release.  XXth Congreso Latinoamericano de Ciencias Fisiologicas(Cancun, Mexico).
  17. $B??Fi7r0l!$=P:j9nLi!$?9EgHK!$2,EDBY?-(B (2000.10) $B%+%k%P%3!<%k;I7c$K$h$kBgD2>eHi(BT84$B:YK&$N7ABVJQ2=$H(BCa2+$BF00w!%Bh(B47$B2sCfItF|K\@8M}3X2q(B (Kanazawa, Japan).
  18. $B?9?.0lO:!$?9EgHK!$2,EDBY?-(B(2000.10) $B?@7P7OG]M\:YK&$K$*$1$kMF@Q46
  19. Abdullaev I, Sabirov R, Dezaki K, Okada Y (2000.10) Volume-sensitive Cl- currents in C127 cells stably transfected with CFTR. $BBh(B47$B2sCfItF|K\@8M}3X2q(B (Kanazawa, Japan).
  20. Maeno E, Kanaseki T, Ishizaki Y, Okada Y (2000. 11) Normotonic cell shrinkage is an early prerequisite to apoptotic cell death. $BBh(B53$B2sF|K\:YK&@8J*3X2qBg2q(B (Fukuoka, Japan).

$B!T?@7P>pJs8&5fItLg!U(B

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  2. $BGO>l9-;R!$HtED=(Ln?NM:(B (2000.3) $B9bNO2A%l%H%m%&%#%k%9$rMQ$$$??@7P44:YK&$X$N0dEA;RF3F~!%Bh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
  3. $BCSCf0lM5(B(2000.3) $B%i%s%S%(9JNX<~JU$X$NEE0L0MB8E*%+%j%&%`%A%c%M%k=8@Q5!9=$H$=$N@8M}E*0U5A!%Bh(B5$B2sBg:eBg3XCAGr
  4. $BCSCf0lM5(B(2000.3) $BCf?u%_%(%j%s7A@.:YK&$NH/@8$HJ,2=!%Bh(B77$B2sF|K\@8M}3X2qBg2q%5%F%i%$%H%7%s%]%8%&%`!JEl5~!K!%(B
  5. $BCSCf0lM5(B(2000.6) Glial development in the rodent central nervous system. $BF|K\@82=3X2q=U5(%7%s%]%8%&%`!JJ!2,!K!%(B
  6. Wada T, Kagawa T, Ivanova A, Zalc B, Shirasaki R,Murakami F, Iemura S, Ueno N, Ikenaka K (2000.7) Dorsal spinal cord inhibits oligodendrocyte development. Gordon Research Conference (Rhode Island, USA).
  7. Wada T, Kagawa T, Zalc B, Shirasaki R, Murakami F, Ikenaka K (2000.8) Dorsal spinal cord inhibits oligo- dendrocyte development. International Society Devel- opmental Neuroscience (Heidelberg, Germany).
  8. $B.G>pyN3:YK&$K$*$1$kEE0L0MB8@-(BK+$B%A%c%M%k$N6I:_2=5!9=!%Bh(B23$B2sF|K\?@7P2J3XBg2q!&Bh(B10$B2sF|K\?@7P2sO)3X2qBg2q9gF1Bg2q!J2#IM!K!%(B
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  22. Nakakita S, Ikenaka K, Hase S (2000.10) Detection of tissue specific sugar chains by a 2-dimensional HPLC sugar mapping of pyridylaminated sugar chains. $B90A09q:]0e3X%U%)!<%i%`!J90A0!K!%(B
  23. $BD9C+@nL@;R!$4d:jLwG5!$;3ED??5W!$>.@n@5@2!$CSCf0lM5(B(2000.11) $B%7%9%F%$%s%W%m%F%"!<%<$NFb0x@-AK320x;R$K$h$k%"%9%H%m%5%$%H$NJ,2=M6F35!9=!%Bh#52s%0%j%"8&5f2q!JL>8E20!K!%(B
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  27. $BCSCf0lM5(B(2000.11) $B%0%j%*!<%^!'9bNO2A%l%H%m%&%#%k%9$K$h$k0dEA;R<#NE!%Bh(B13$B2sF|K\%R%H:YK&3X2q!&=)4|9q:]%7%s%]%8%&%`!J?73c!K!%(B

$B!T1U@->pJs8&5fItLg!U(B

  1. Protaso F, Franzini-Armstrong C, Takekura H, Wang Y, Nakai J, Allen PD (2000.2) The RYR1 2659-3720 (R9) region is sufficient to restore RYR-DHPR link.Bio- physical Society 44th Annual Meeting (New Orleans).
  2. O'Brien JJ, Proenza C, Nakai J, Allen PD, Beam KG (2000.2) Role of RYR1 residues 1837-2154 in reciprocal communication with $B&A(B1s.  Biophysical Society 44thAnnual Meeting (New Orleans).
  3. Ohkura M, Imoto K, Nakai J (2000.2) Sorting signal sequence of triadin, an associated protein of ryanodine receptor/ Ca2+ release channel.  Biophysical Society 44th Annual Meeting (New Orleans).
  4. $B
  5. $B86M:Fs!$9)F#=c!$@6?e?.5A!$0fK\7IFs!$?9BY@8!J(B2000.3$B!K%^%&%9(BTRPC7$B%[%b%m%0$NJ,;R5!G=2r@O!%Bh(B73$B2sF|K\LtM}3X2qG/2q!J2#IM!K!%(B
  6. $B?9BY@8!$2+$B%;%s%5!<5!G=!%Bh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
  7. $B.G>JQ@->I%^%&%9$N%+%k%7%&%`%A%c%M%k!%Bh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
  8. $B0fK\7IFs!$2+$B%A%c%M%k$H?@7P<@45!%Bh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
  9. Nakai J, Ohkura M, Beam KG (2000.6) Excitation- Contraction coupling depends on conformational change not reflected in charge movement.  Gordon ResearchConference (New England, New Hampsher).
  10. $B?@5H=(L@!$LZ23$B
  11. $B>>2<$+$*$j!$>;3A12+$B%A%c%M%k3h@-$NJQ2=!%Bh(B23$B2sF|K\?@7P2J3X2q!&Bh(B10$B2sF|K\?@7P2sO)3X2q9gF1Bg2q!J2#IM!K!%(B
  12. $B?9BY@8!J(B2000.10$B!K(BPI$B1~Ez$K4XO"$7$?%+%k%7%&%`%A%c%M%k72$NJ,;RE*
  13. $BFnOB;V!$(BSeagar MJ$B!$BgC]FX;R!$9b66@5?H!$?9BY@8!$:4F#0l5*!J(B2000.10$B!K(BP/Q$B7?(BCa$B%A%c%M%kFC0[E*&X(B-conotoxin MVIIC$B%"%J%m%09g@.$N$?$a$N(BThr11$BCV49!%Bh(B73$B2sF|K\@82=3X2qBg2q!J2#IM!K!%(B
  14. $BBgAR@5F;!$0fK\7IFs!$Cf0f=_0l!J(B2000.10$B!K%j%"%N%8%s%j%;%W%?!
  15. $B?9@?G7!$:#LnBn!$1J;3T">
  16. $B:4!9LZBg2p!$@6?e=S0l!$FbF#?5Fs!$?9BY@8!$LZFbM4Fs!J(B2000.10$B!K(BNO$B$K$h$kE>2+$B$NLr3d!%Bh(B73$B2sF|K\@82=3X2qBg2q!J2#IM!K!%(B
  17. Kang MG, Chen CC, Felix R, Letts VA, Frankel WN,Mori Y, Campbell KP (2000.11) Inhibition of neuronal voltage-gated Ca2+ channels by $B&C(B2 subunit. Society for Neuroscience 30th Annual Meeting (New Orleans).
  18. Yoshinaga T, Ino M, Wakamori M, Nishizawa Y, Tanaka I, Niidome T, Sawasa K, Mori Y (2000.11) Altered function of the sympathetic nerve in mice with disrupted alpha- 1B subunit of N-type calcium channel.  Society forNeuroscience 30th Annual Meeting (New Orleans).
  19. Akiba I, Seki T, Mori M, Iizuka M, Nishimura S, Imoto K, Barsoumian EL (2000.11) Stable expression andcharacterization of human PN1 and PN3 sodium channels. Society for Neuroscience 30th Annual Meeting (New Orleans).
  20. Matsuyama Z, Hozumi I, Inuzuka T, Wakamori M, Mori Y, Imoto K (2000.11) Apoptosis induced by polyglutamine expansion of the P/Q type Ca2+channel.  Society forNeuroscience 30th Annual Meeting (New Orleans).
  21. Okada T, Shimizu S, Wakamori M, Yamada H, Imoto K, Mori Y (2000.11) Ca2+/calmodulin-dependent myosine light chain kinase is essential for the activation of neuronal TRP5 channels.  Society for Neuroscience 30th Annual Meeting (New Orleans).
  22. Yamada H, Wakamori M, Hara Y, Imoto K, Mori Y (2000.11) Spontaneous single-channel activity of recombinant TRP5channel expressed in HEK293 cells.  Society for Neuro- science 30th Annual Meeting (New Orleans).
  23. $B86M:Fs!$9)F#=c!$@6?e?.5A!$0fK\7IFs!$?9BY@8!J(B2000.12$B!K(BMolecular cloning and characterization of mouse homologue of TRPC7 (mTRPC7).  $BBh(B23$B2sF|K\J,;R@8J*3X2qG/2q!J?@8M!K!%(B

$B!T9b

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  2. $B@h:j9@.@n@5@2!$H,LZ!!7r!J(B2000.10$B!KBgG>Hi
  3. $BH,LZ!!7r!J(B2000.9$B!KBgG>Hi
  4. $B_@ED9a@$;R!$H,LZ!!7r!J(B2000.8$B!KS.F}9TF0$H(BFyn$B7gB;%^%&%9!%(B2000$BG/9qN)0dEA3X8&5f=j8&5f2q!VF0J*9TF0$N0dEA3X!W!J;0Eg!K!%(B
  5. $BH,LZ!!7r!$?yLn1QI'!$J?;398@F!$_@ED!!=S!$@h:j9@
  6. Yagi T (2000.8) Signalling cascade of CNR cadherins (reelin receptors) in the mammalian brain. Society for Experi-mental Biology, SEB Annual Symposium (Cambridge).
  7. Yagi T (2000.8) Fyn regulates NMDA-receptor activity and couples a novel cadherin (CNR) family at a synaptic complex. ISBRA Symposium (Yokohama).

$B!T>pJs5-218&5fItLg!U(B

  1. Imamura N, Hida H, Aihara N, Nishino H, Yamada K(2000.11) Degeneration of substantia nigra accompaningwith microglial invasion in collagenase-induced intrastriatal hemorrhage model rats. Society for Neuroscience (Florida).
  2. Hida H, Baba H, Nakajima K, Kodama Y, Nishino H(2000.11) Dopamine-depleted striatum offers a good condition for mesencephalic neuronal precursor cell differentiation to dopaminergic neurons. Society for Neuroscience (Florida).
  3. $B@>Ln?NM:(B(2000.1) $B@8M}3X$+$i$NE8K>!%Bh(B10$B2sF|K\IBBV@8M}3XBg2q!JJ!Eg!K!%(B
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  5. $BGO>l9-;R!$HtED=(Ln?NM:(B(2000.3) $B9bNO2A%l%H%m%&%$%k%9$rMQ$$$??@7P44:YK&$X$N0dEA;RF3F~!%Bh(B77$B2sF|K\@8M}3X2qBg2q!J2#IM!K!%(B
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  15. $B;y6LM4;J!$GO>l9-;R!$HtED=(Ln?NM:(B(2000.10) $B%Q!<%-%s%=%sIB%b%G%k%i%C%H$X$N0\?"$rL\E*$H$9$k%i%C%HB[;yM3Mh?@7P44:YK&$X$N#T#H(B($B%A%m%7%s?e;@2=9ZAG(B)$B0dEA;RF3F~!%Bh(B47$B2sCfItF|K\@8M}3X2qBg2q!J6bBt!K!%(B

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  2. Komatsu H (2000.9) Visual information processing across multiple visual areas.  $BBh(B23$B2sF|K\?@7P2J3X3X2q!J2#IM!K!%(B
  3. $BLZ2<@5<#!$>.>>1QI'(B (2000.9) $B%5%kBh0l
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  6. Kinoshita M, Komatsu H (2000.11) Temporal dynamics of the neural responses to the luminances of the surface stimuli in macaque striate cortex (V1). 30th Societyfor Neuroscience Meeting (New Orleans, U.S.A.).
  7. Hanazawa A, Komatsu H (2000.11) Extraction of texture features in macaque area V4. 30th Society for Neuro- science Meeting (New Orleans, U.S.A.).

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  7. $B?9!!LPH~!$Cfp#9n8J!$?9!!Bg;V!$5L!!FFF3!$9b?\@i;|;R!$?9!!>-9@!J(B2000.9$B!K%H%l%C%I%_%k>e$G$NJb9T1?F0$r3X=,$7$?@.%K%[%s%5%k$K$*$1$kJbMF$NJQ495!=x!%Bh(B23$B2sF|K\?@7P2J3XBg2q!J2#IM!K!%(B
  8. $B5\2<1Q;0!J(B2000.9$B!K>e;hE~C#1?F0?k9TCf$N%5%k1?F0Ln?@7P:YK&3hF0$N1?F0%Q%i%a!<%?$K$h$k@~7A=E2s5"2r@O!%Bh(B23$B2sF|K\?@7P2J3XBg2q!J2#IM!K!%(B
  9. $BEOn4@5!$6?860luBV0MB8@-$NZ!%Bh(B23$B2sF|K\?@7P2J3XBg2q!J2#IM!K!%(B
  10. $BCfp#9n8J!$?9!!Bg;V!$1|B
  11. $B1|B>;3@6<#!$?9!!LPH~!J(B2000.9$B!K%i%C%H9x?q$KJ,I[$9$k%3%j%s%(%9%F%i!<%
  12. $B5L!!FFF3!$?9!!Bg;V!$Cfp#9n8J!$9b?\@i;|;R!$?9!!LPH~!J(B2000.9$B!KMDN)FsB-Jb9T1?F0$N3X=,!%Bh(B23$B2sF|K\?@7P2J3XBg2q!J2#IM!K!%(B
  13. Mori F, Tachibana A, Takasu C, Nakajima K, Mori S (2000.10) A new Japanese monkey model for the study of bipedal locomotion: strategies for obstacle clearance and recovery from stumbling. IX International Sympo- sium on Motor Control (Varna, Bulgaria).
  14. Mori S, Nakajima K, Mori F, Tachibana A, Takasu C, Mori M (2000.11) Hip strategy involves in the conversion from quadrupedal to bipedal walking in the Japanese monkey (M. fuscata). 30th Annual Meeting of Society for Neuro- science (New Orleans, USA).
  15. Mori F, Tachibana A, Nakajima K, Takasu C, Okumura T, Mori M, Mori S (2000.11) When walking bipedally, the Japanese monkey (M. fuscata), employs anticipatory and reactive neural mechanisms to adjust to external perturbations. 30th Annual Meeting of Society for Neuroscience (New Orleans, USA).
  16. Okumura T, Dobolyi A, Matsuyama K, Mori F, and Mori S and Ogawa T (2000.11) Serotonergic innervation of output neurons in the caudate nucleus of the cat. 30th Annual Meeting of Society for Neuroscience (New Orleans, USA).
  17. Tachibana A, Mori F, Nakajima K, Takasu C, Mori M, and Mori S (2000.11) Developmental features of the acquisition of an upright standing posture and bipedal locomotion by the Japanese monkey, M. fuscata. 30th Annual Meeting of Society for Neuroscience (New Orleans, USA).
  18. $B?9!!Bg;V!$Cfp#9n8J!$?9!!LPH~!J(B2000.12$B!K%K%[%s%5%k!J(BM. fuscata$B!K$ND>N)FsB-Jb9T1?F0!'1?F0NO3XE*2r@O!%Bh(B30$B2sF|K\NW>2?@7P@8M}3X2q3X=QBg2q!J%7%s%]%8%&%`!VJb9T$NNW>2?@7P@8M}3X!W!K!J5~ET!K!%(B

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  3. $BJ]A0J89b(B, $B66K\N60lO:(B, $BCfEh5~0l(B, $B5\2
  4. $BM{!!1Y6U(B, $B66K\N45*(B, $BFA;3!!@k(B, $B5\244$K$*$1$kG>M3Mh?@7P1IM\0x;R(BBDNF$B$NH/8=M6F3!%Bh(B22$B2sF|K\?@7P2J3XBg2qBh(B10$B2sF|K\?@7P2sO)3X2qBg2q9gF1Bg2q!!!J2#IM!K!%(B
  5. $B66K\N45*(B, $B1|Ln9@9T(B, $BFA;3!!@k(B, $BM{!!1Y6U(B, $B5\2$B#z#i#f(B$B#2#6#8$NFC0[E*H/8=%Q%?!<%s!%Bh(B22$B2sF|K\?@7P2J3XBg2q(B  $BBh(B10$B2sF|K\?@7P2sO)3X2qBg2q9gF1Bg2q!J2#IM!K!%(B
  6. $BFA;3!!@k(B, $B1|Ln9@9T(B, $B66K\N45*(B, $BM{!!1Y6U(B, $B5\2H>5eN%%6%k$rMQ$$$?DjNLE*2r@O!%Bh(B22$B2sF|K\?@7P2J3XBg2qBh(B10$B2sF|K\?@7P2sO)3X2qBg2q9gF1Bg2q!J2#IM!K!%(B
  7. $BFbED0JBg(B, $B55;3@,;K(B, $BC]Cf6G(B, $B@P1:9@G7(B, $B5K9<1Q9,(B,$B5\2Hi
  8. Naya Y, Yoshida M, Ihara T, Nagao S, Miyashita Y (2000.11) Spatial distribution of memory-related cells in monkey area 36 and area TE during pair-association task.30th Annual Meeting of Society for Neuroscience (New Orleans, USA).
  9. Yoshida M, Naya Y, Ito A, Shibata S, Miyashita Y(2000.11) A combined study of tract-tracing and elec- trophysiological mapping in area TE and area 36 ofmacaque monkeys. 30th Annual Meeting of Society for Neuroscience (New Orleans, USA).
  10. Tokuyama W, Okuno H, Hashimoto T, Li Y.X, Takahashi E, Miyashita Y (2000.11) Induction of BDNF mRNA during visual paired associate learning in the inferior temporal cortex of macaque monkeys. 30th Annual Meeting of Society for Neuroscience (New Orleans, USA).
  11. Okuno H, Tokuyama W, Hashimoto T, Li Y.X, Koyama M, Miyashita Y (2000.11) Induction on ZIF268 mRNA in perirhinal cortex during memory formation for visual paired associated in macaque monkeys. 30th Annual Meeting of Society for Neuroscience (New Orleans, USA).
  12. Li Y.X, Hashimoto T, Tokuyama W, Miyashita Y, Nagao S, Okuno H (2000.11) BDNF induction in vestibulo- olivary network following unilateral labyrinthectomy in rats as revealed by quantitative RT-PCR analysis. 30thAnnual Meeting of Society for Neuroscience$B!%(B(New Orleans, USA).
  13. Fukushima T, Hasegawa I, Miyashita Y (2000.11) Modulation of neuronal activities in macaque dorsal periarcuate area by target-shift cues. 30th Annual Meeting of Society for Neuroscience (New Orleans, USA).
  14. Ohbayashi M, Miyashita Y (2000.11) Linkage ofvisuospatial information and saccade preparation inmonkey premotor cortex during an oculomotor sequence task.  30th Annual Meeting of Society for Neuroscience(New Orleans, USA).
  15. Hashimoto T, Li Y.X, Okuno H, Tokuyama W, Takahashi E, Miyashita Y (2000.11) BDNF mRNA expression in rat inferior olive after unilateral labyrinthectomy: in situ hybridization analysis. 30th Annual Meeting of Society for Neuroscience (New Orleans, USA).

$B!TG>7ABV2r@O8&5fItLg!U(B

  1. Shigemoto P, Masugi M, Fujimoto K (2000.9) Ultrastruc- tural localization of metabotropic glutamate receptors in the rat CNS as revealed by conventional and replica immunogold labeling. International Symposium for Morphological Sciences (Kyoto, Japan).
  2. $BLb;3=SI'(B (2000.3) $BCf?u%I!<%Q%_%s(BD2$B%?%$%W
  3. $BGO?yH~OB;R!$Ge5!G=J,;R$N6&B8$N2r@O!%Bh(B23$B2sF|K\?@7P2J3XBg2q!$Bh(B10$B2sF|K\?@7P2sO)3X2qBg2q!!9gF1Bg2q!J2#IM!K!%(B
  4. $B9bED>;I'!$6bED>!9,!$:#@>H~CN;R!$FALnGn?.!$FnIt!!FF!$=EK\N40l!J(B2000.9$B!K%Q!<%-%s%=%sIB%b%G%kF0J*$K$*$1$kBgG>4pDl3K$NBe
  5. Momiyama A (2000.9) Control of the excitability of identified spinothalamic tract neurons via metabotropic glutamate receptors. The Japan Neuroscience Society, 23rd Annual Meeting (Yokohama, Japan).

$B!TBgG>?@7P2sO)O@8&5fItLg!U(B

  1. Kawaguchi Y (2000.7) Specific synaptic connections and firing characteristics in cortical interneuron types. 22nd CINP Congr (Brussels, Belgium$B!K!%(B
  2. Kawaguchi Y (2000.7) Synaptic connections and firing patterns of GABAergic interneuron types.  GABA 2000 Int. Conf. on GABA and Glycine Receptors (Cains, Australia$B!K!%(B
  3. Kawaguchi Y (2000.8) Morphology and physiology of CCK inteneurons in the rat prefrontal cortex. Gordon Research Conf. on Neuronal Cholecystokinin (Oxford, UK$B!K!%(B
  4. $B:,El3P!$@n8}BYM:(B (2000.9) $BBgG>Hi
  5. $BNkLZOBH~!$7&EDK'G7!$4#ItE_5*!$@n8}BYM:(B (2000.9) $BBgG>Hi
  6. $B7&EDK'G7!$@n8}BYM:(B (2000.9) $BBgG>Hi
  7. Kawaguchi Y (2000.11) Synaptic connections and syn- chronized firing of cortical interneuron. Physiology and anatomy of the local circuit of the brain$B!J2,:j!K!%(B
  8. Kondo S, Kawaguchi Y (2000.11) Slow synchronized bursts of inhibitory postsynaptic currents in the rat frontal cortex in vitro. 30th Annual Meeting of Society for Neurosciety for Neuroscience (New Orleans, USA).
  9. $B@n8}BYM:(B (2000.12) $BC10l?@7P3hF0$+$i8+$?G>GHN'F0!%Bh(B30$B2sF|K\NW>2?@7P@8M}3X2q3X=QBg2q!J5~ET!K!%(B

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  1. $BEZEDN6O:(B, $B9b66HOM:(B, $B0KF#=U3$(B, $B@>_7DgI'(B, $BJFAR5A@2(B, $BDjF#5,90(B (2000.2) $BI8=`F~NO6J@~$rMQ$$$?Hs?/=1E*G>%V%I%&E|Be
  2. $BB11C-acetatePET$B$K$h$kA0N)A#4bE>0\Ac$NIA=PG=$N8!F$!%Bh(B50$B2sF|K\3K0e3X2qCfItCOJ}2q!J0&CN!K!%(B
  3. $B5HK\8w4n(B, $BOF!!8|@8(B, $BF#NSLw5W(B, $BDjF#5,90(B, $BJFAR5A@2(B(2000.2) [1-11C]Acetate$B$N
  4. $B?">>=(>;(B, $BA0ED@59,(B, $BDjF#5,90(B, $BLZB<9@I'(B, $B1[852BO:(B, $B;3ED90
  5. Uematsu H, Sadato N, Maeda M, Matsuda T, Koshimoto Y, Kimura H, Yamada H, Kawamura Y, Yonekura Y, Itoh H (2000.4) Quantitative measurement of an extraction fraction by double echo dynamic MRI. International Society for Magnetic Resonance in Medicine, Eighth Scientific Meeting and Exhibition (Denver, USA).
  6. Uematsu H, Maeda M, Sadato N, Matsuda T, Koshimoto Y, Kimura H, Yamada H, Kawamura Y, Yonekura Y, Itoh H (2000.4) Underestimation in MR measurement of blood volume of brain tumors. International Society for Magnetic Resonance in Medicine, Eighth Scientific Meeting and Exhibition (Denver, USA).
  7. $BB
  8. $B;3ED90;IW!$B$N(BfMRI$B!'BgG>Hi
  9. $B3qBt9(G7(B, $B9b66NI9T(B, $B2,EDCN5W(B, $BDjF#5,90(B, $BJFAR5A@2(B(2000.5) $B3H;6%F%s%=%k2hA|;#A|$K$*$1$kD69b<'>lAuCV$NM-MQ@-(B. $BBh(B8$B2sF|K\(BMR Angiography$B8&5f2q(B ($B0&I2(B)$B!%(B
  10. Ishizu K, Nakamura S, Shiozaki T, Sadato N, Takahashi N, Sugimoto K, Fujibayashi Y, Yonekura Y (2000.6) Increasing rate of FDG uptake from early to delayed PET images in lung tumors. Scientific Abstracts of the 47th Annual Meeting of the Society of Nuclear Medicine (St.Louis, USA).
  11. Omata N, Murata T, Fujibayashi Y, Waki A, Sadato N, Yoshimoto M, Wada Y, Yonekura Y (2000.6) Age-related changes in energy production in the brain slices of senescence-accelerated mouse as revealed by positron autoradiography technique.The 47th Annual Meeting of the Society of Nuclear Medicine (St.Louis, USA).
  12. Murata T, Omata N, Fujibayashi Y, Waki A, Sadato N, Yoshimoto M, Wada Y, Yonekura Y (2000.6) Neurotoxicity caused by hypoxia/reoxygenation as revealed by dynamic changes in glucose metabolism of living rat brain slices with a positron autoradiography technique.  The 47th Annual Meeting of the Society of Nuclear Medicine (St. Louis, USA).
  13. Tsuchida T, Sadato N, Nishizawa S, Yonekura Y, Itoh H (2000.6) Effect of postprandial hyperglycemia in noninva-sive measurement of cerebral metabolic rate of glucose in non-diabetic subjects.  Scientific Abstracts of the 47th Annual Meeting of the Society of Nuclear Medicine (St.Louis, USA).
  14. $BEZEDN6O:(B, $B0KF#=U3$(B, $B@>_7DgI'(B, $BJFAR5A@2(B, $BDjF#5,90(B (2000.6) $BI8=`F~NO6J@~$rMQ$$$?Hs?/=1E*G>%V%I%&E|Be
  15. $BEDCf2m?M(B, $B>e:d=(.<.AR5WOB(B (2000.8) $B%^%k%A%(!<%8%'%s%H%5!<%P!<$K$h$k0eMQ2hA|4IM}%7%9%F%`!JF02hA|$X$NBP1~!K!%Bh(B19$B2sF|K\0eMQ2hA|9)3X2qBg2q!JBg:e!K!%(B
  16. $B5HK\8w4n(B, $BOF!!8|@8(B, $BF#NSLw5W(B, $BDjF#5,90(B, $BJFAR5A@2(B (2000.8) [1-C-11]acetate$B$N
  17. $BEZEDN6O:!$0KF#=U3$!$@>_7DgI'!$JFAR5A@2!$DjF#5,90(B (2000.11) $BHs?/=1E*G>%V%I%&E|Be
  18. $B@PDE9@0l(B, $BDjF#5,90(B, $BJFAR5A@2(B (2000.11) $B%,%s%^%+%a%i7?(BPET$B$rMQ$$$?9b46EYCGAX;#1F$N3+H/!%Bh(B40$B2sF|K\3K0e3X2qAm2q!J?@8M!K!%(B
  19. Sadato N, Yonekura Y (2000.11) Plasticity of higher brain function: tactile to visual modalities.  Second In- ternational Workshop on Biomedical Imaging (FUKUI-2000) (Fukui, Japan).
  20. Sadato N, Okada T, Honda M, Yonekura Y (2000.11) Cortico-cortical circuitry of the cross-modal plasticity in the blind during Braille discrimination tasks.  The 30th Annual Meeting of the Society for Neuroscience (New Orleans, USA).
  21. $B5HK\8w4n(B, $BOF!!8|@8(B, $BF#NSLw5W(B, $BDjF#5,90(B, $BJFAR5A@2(B (2000.11) [1-11C]Acetate$B$N
  22. Sadato N. (2000, 12) Cortico-cortical circuitry of the cross-modal plasticity in the blind during Braille dis-crimination tasks.  2nd ISM International Symposium on Frontiers of Time Series Modeling (Nara, Japan).
  23. Sadato N, Yonekura Y (2000.12) Cortico-cortical circuitry of the cross-modal plasticity in the blind during Braille discrimination tasks. International Symposium on Inter- areal Functional Coupling (Kyoto, Japan).
  24. Hanakawa T, Honda M, Okada T, Sawamoto N, Fukuyama H, Shibasaki H (2000.0) Rostral dorsolateralpremotor activation in human cognitive tasks does not result from innerspeech. (New Orleans, USA).
  25. Sawamoto N, HanakawaT, Honda M, Shibasaki H (2000.0) Cognitive Processing is slow in Parkinson's Disease. (New Orleans, USA).
  26. $BK\ED!!3X(B (2000.12$B!K;v>]4XO"(BfMRI$B$NJ}K!O@$H1~MQ!%Bh(B30$B2sF|K\NW>2G>@8M}3X2q%7%s%]%8%&%`!V;v>]4XO"EE0L$H;v>]4XO"(BfMRI$B$N@\E@!W!J5~ET!K!%(B
  27. $BK\ED!!3X!$2CF#HfO$;R!$Bg86?.;J!$CSED>eM-;K!$;086Ci9I!$GO>l9%0l!$
  28. $B2V@n!!N4!$K\ED!!3X!$2,EDCN5W!$J!;3=(D>!$
  29. $BK\ED!!3X(B (2000.8) Imagine $B!AG>$N%$%a!<%85!G=!A!'G>$H?4$N%a%+%K%:%`Bh#12s2F$N%o!<%/%7%g%C%W!J5~ET!K!%(B
  30. $BK\ED!!3X(B(2000.7)$B!V1?F0!W$+$i!V;W9M!W$X!A%Q!<%-%s%=%sIB$NG>5!G=Ij3h8!::$K3X$V!%Bh(B15$B2sF|K\BgG>4pDl3K8&5f2q!J2b%v1:!K!%(B
  31. $BK\ED!!3X!$?N2J%(%_!$A0@nFDM:!$ITGKK\5A9'!$?9K\2m;R!$H,LZNh;R!$CfB2A!=%O%$%Q!<%=%K%C%/!&%(%U%'%/%H$K$D$$$F!%F|K\2;6A3X2q=U4|8&5fH/I=2q!JA%66!K!%(B
  32. $B2O9gFA;^!$K\ED!!3X!$CfBGH$K$h$k8!F$!%F|K\2;6A3X2q=U4|8&5fH/I=2q!JA%66!K!%(B
  33. $BCfB7lN.$K$h$k8!F$!%F|K\2;6A3X2q=U4|8&5fH/I=2q!JA%66!K!%(B
  34. $B?N2J%(%_!$ITGKK\5A9'!$?9K\2m;R!$2O9gFA;^!$K\ED!!3X!$Bg66!!NO(B(2000.3) $B%O%$%Q!<%=%K%C%/!&%(%U%'%/%H$N0lBPHf3SK!$K$h$k8!F$!%F|K\2;6A3X2q=U4|8&5fH/I=2q!JA%66!K!%(B
  35. $BBg66!!NO!$K\ED!!3X!$A0@nFDM:!$2O9gFA;^!$?N2J%(%_(B(2000.3) $B%O%$%Q!<%=%K%C%/%(%U%'%/%H$NFs

$B!T9b5!G=8&5f%W%m%8%'%/%H!U(B

  1. $B1sF#MxO/!$0K:4@5!J(B2000.9$B!K%i%C%H>e5V@uAX$N0[$J$k%K%e!<%m%s
  2. $B;32%I%Q%_%s:YK&$K$*$1$k%K%3%A%s7?%"%;%A%k%3%j%s
  3. $B:XF#9/I'!$0K:4@5!J(B2000.9$B!K>e5VAXFb!$AX4V$N%K%e!<%m%s=8CD$K$*$1$k6=J3@-7k9g!%Bh(B23$B2sF|K\?@7P2J3X3X2qBg2q!$Bh(B10$B2sF|K\?@7P2sO)3X2qBg2q!J2#IM!K!%(B
  4. $B0f>eM39a!$>.NS9/!$Aj_742!$0K:4@5!J(B2000.9$B!K%K%[%s%6%k5S66Ho383K$K$*$1$k%5%C%+!<%I2]Bj$X$NF05!IU$1$dJs=7$K4XO"$7$?%K%e!<%m%s3hF0!%Bh(B23$B2sF|K\?@7P2J3X3X2qBg2q!$Bh(B10$B2sF|K\?@7P2sO)3X2qBg2q!J2#IM!K!%(B
  5. Alstermark B, Isa T, Ohki Y, Saito Y (2000.11) C3-C4 propriospinal neurons mediate disynaptic pyramidal excitation to forelimb motoneurones in macaca fuscata.  Annual Meeting of Society for Neuroscience (New Orleans, USA).
  6. Kobayashi Y, Inoue Y, Yamamoto M, Aizawa H, Isa T (2000.11) Coding of multimodal signals in the pedunculopontine nucleus neurons related to performance of visually guided saccade task. Annual Meeting of Society for Neuroscience$B!%(B(New Orleans, USA).
  7. Saito Y, Isa T (2000.11) Intra- and interlaminar excitatory connections among neuronal populations in rat superior colliculus. Annual Meeting of Society for Neuroscience (New Orleans, USA).

$B!T463P!&1?F05!G=8&5f%W%m%8%'%/%H!U(B

  1. Watanabe S, Kakigi R, Koyama S, Kirino E (2000.1) Human Face Perception A Magnetoencephalographic Study.  Asian-Oseanian Symposium of Clinical Neuro- physiology (Manila, Philippins).
  2. Hoshiyama M, Kakigi R (2000.1) The New Smallest Multi-Channel Gradiometer. Application for Peripheral Conduction.  Asian-Oseanian Symposium of Clinical Neurophysiology (Manila, Philippins).
  3. Lam K, Kaneoke Y, Kakigi R (2000.1) Response Prop- erties of the Human Visual System to Global Motion. Asian-Oseanian Symposium of Clinical Neurophysiology (Manila, Philippins).
  4. Gunji A, Kakigi R, Hoshiyama M (2000.1) Spatiotemporal Sourse Analysis of Vocalization-Associated Magnetic Fields. Asian-Oseanian Symposium on Clinical Neurophysiology (Manila, Philippins).
  5. Itomi K, Kakigi R, Maeda K, Hoshiyama M (2000.1) Dermatone Versus Homunculus; Detailed Topography of the Primay Somatosensory Cortex Following Trunk Stimulation.  Asian-Oseanian Symposium on Clinical Neurophysiology (Manila, Philippins).
  6. Nakamura M, Kakigi R, Okusa T, Hoshiyama M (2000.1) Effects of check size on pattern reversal visual evoked magnetic field (VEF) and potential (VEP).  Asian-OseanianSymposium on Clinical Neurophysiology (Manila, Philippins).
  7. Koyama S, Sekiguchi T, Yamasaki H, Kakigi R (2000.8) Cortical magnetic responses from the left superior tem-poral area associated with visial word recognition.  12th International conference on Biomagnetism (Helsinki, Finland).
  8. Kaneoke Y, Kawakami O, Kakigi R (2000.8) Magnetic response property of the human extrtastriate cortex to various speed of real motion.  12th International con- ference on Biomagnetism (Helsinki, Finland).
  9. Watanabe S, Kakigi R, Puce A (2000.8) Cortical regions responding to eye movement: a magnetoencephalographic study.  12th International conference on Biomagnetism (Helsinki, Finland).
  10. Nihashi T, Kakigi R, Kawakami O, Hoshiyama M, Itomi K, Inao S, Yoshida J (2000.8) Somatosensory evoked magnetic fields following electrical stimulation of the ear.  12th International conference on Biomagnetism (Helsinki, Finland).
  11. Wang L, Kakigi R, Hoshiyama M, Koyama S, Watanabe S, Gunji A (2000.8) Neural activities during Wisconsin card sorting test-MEG observation.  12thInternational conference on Biomagnetism (Helsinki, Finland).
  12. Gunji A, Hoshiyama M, Kakigi R (2000.8) Identification of auditory evoked magnetic fields (AEF) of subject$B!G(Bs own voice.  12thInternational conference on Biomagnetism (Helsinki, Finland).
  13. Kawakami O, Kaneoke Y, Kakigi R (2000, 8) Assement of the magnetic response from the human extrastriate cortex to apparent motion compared with real motion. 10thEuropean Congress of Clinical Neurophysiology, (Lyon, France).
  14. Lam K, Kakigi R, Mukai T, Yamasaki H (2000.8) So- matosensory evoked Magnetic fields (SEFs) are affected by both attention and interference caused by visual stimulation.  10th European Congress of Clinical Neuro- physiology (Lyon, France).
  15. Kakigi R (2000.8) Magneto- and electro- encephalographic studies for pain perception in humans.  10th EuropeanCongress of Clinical Neurophysiology (Lyon, France).
  16. $B6b235H5/(B (2000.3) $BG><'?^$rMQ$$$?%R%H;k3P7O$N8&5f!%Bh(B2$B2s%R%HG>5!G=%^%C%T%s%08&5f2q3X=Q=82q!JEl5~!K!%(B
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  18. $BFbF#CRG7(B (2000.3) $B%R%H(BMT$BNNLn3hF0$N>e2<;kLn:9!%Bh(B2$B2s%R%HG>5!G=%^%C%T%s%08&5f2q3X=Q=82q!JEl5~!K!%(B
  19. $BJ8F2>;I'(B (2000.3) $B1?F0;k4XO"NN0h$N(BTranscallosal Connection $B$HH>5eM%0L@-$K4X$9$kG><'?^$K$h$k8!F$!%Bh(B2$B2s%R%HG>5!G=%^%C%T%s%08&5f2q3X=Q=82q!JEl5~!K!%(B
  20. $B4X8}5.M5(B (2000.3) $B4A;zC18l$KM6H/$5$l$?G><'>l$KBP$9$k2;1$H?I|$N8z2L!%Bh(B2$B2s%R%HG>5!G=%^%C%T%s%08&5f2q3X=Q=82q!JEl5~!K!%(B
  21. $BEOn4>;;R(B (2000.3) $B!VL\$NF0$-!WG'CN$K4X$9$kG>It0L6I:_!%Bh(B2$B2s%R%HG>5!G=%^%C%T%s%08&5f2q3X=Q=82q!JEl5~!K!%(B
  22. $B73;JFX;R(B (2000.3) $BD03P%^%9%-%s%0>r7o2<$NH/@<4XO"EE0L!%Bh(B2$B2s%R%HG>5!G=%^%C%T%s%08&5f2q3X=Q=82q!JEl5~!K!%(B
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  24. $B;e8+OBLi!$3ALZN42p!$JuO(B (2000.3) $BBN44$NHiIfJ,@aJL;I7c$K$h$kBN@-463PM6H/G><'?^!%Bh(B2$B2s%R%HG>5!G=%^%C%T%s%08&5f2q3X=Q=82q!JEl5~!K!%(B
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  26. $B;e8+OBLi(B (2000.3) $B%Q%?!<%s%j%P!<%5%k;k3PM6H/G><'3&$KBP$9$k%A%'%C%/%5%$%:$N1F6A!%F|K\G>EE<'?^%H%]%0%i%U%#!<8&5f2q!JKL6e=#!K!%(B
  27. $B2&!!No9H!$3ALZN42p!$Ju<'?^$rMQ$$$?(BWisconsin Card Sorting Test $B;n9TCf$NG>Fb>pJs=hM}2aDx$N8!F$!%Bh(B26$B2s@-3J!&9TF0$HG>GH8&5f2q!J5\8E!K!%(B
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  37. $BBgApCNM5!$3ALZN42p!$Ju<'>l$N?gL2$K$h$kJQ2=!%Bh(B30$B2sF|K\NW>2?@7P@8M}3X2q3X=QBg2q!J5~ET!K!%(B

$B!T7ABV>pJs2r@O<

  1. $B8E2H1`;R!$Hx:j5#!$KY@62.G>$K$*$1$k%(%s%I%;%j%s
  2. $BM-0fC#IW!J(B2000.9$B!KD69b05EE82$K$h$k%$%a!<%8%s%0%W%l!<%HA|$NFC@-(B VI$B!%F|K\J*M}3X2qBh(B55$B2sG/2q!J?73c!K!%(B
  3. Sengoku M, Ohno T, Arii T (2000.6) High-voltage and high-resolution electron microscopy of fine organic particles.  The 7th Asia-Pacific Electron Micros. Conf., Phys. (Singapore).
  4. $B0l3$9'8w!$M-0fC#IW(B (2000.9) $B%"%/%A%sMO1UCf$K7A@.$5$l$kHy>.7k>=>uN3;R$ND69b05EE;R82Hy6@2s@^A|!%F|K\@8J*J*M}3X2qBh(B38$B2sG/2q!J@gBf!K!%(B
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  6. $BJR6ME8;R!$JR6M9/M:!$M-0fC#IW!J(B2000.11$B!KL5@TDGF0J*!JJ"B-N`!K$N30EeAH?%$K$_$i$l$k6ZA!0]$ND69b05EE824Q;!!%F|K\EE;R82Hy6@3X2qBh(B45$B2s%7%s%]%8%&%`!J2,:j!K!%(B

$B!T@8BN>pJs=hM}<

  1. Tsubokawa H (2000.3) Non-uniform distribution of Na+-influx through Ih channels in the hippocampal CA1 pyramidal neurons. $BF|K\LtM}3X2q!J2#IM!K!%(B
  2. Tsubokawa H, Oguro K, Shimazaki K, Robinson H P C, Masuzawa T, Kawai N (2000.3) Contribution of inositol1,3,4,5-tetrakisphosphate to the abnormal Ca2+homeostasis in the hippocampal neurons after transient ischemia.$B!!F|K\@8M}3X2q!J2#IM!K!%(B
  3. Tsubokawa H (2000.3) Optical imaging of the PKC- translocation in Single Neuron of the Hippocampal Slice. $BF|K\@8M}3X2q!J2#IM!K!%(B
  4. Tsubokawa H, and Takagi S (2000. 11) Fluorescence imaging of the protein kinase C translocation in the hippocampal neurons.  Society for Neuroscience 30th Annual Meeting (New Orleans, USA).

$B!TF0J*

  1. Ishikawa K, Kono T, Ozaki T, Iwamoto J (2000.3) Direct evidence of NO production in LPS-sensitized rat hepatocytes and Kupffer cells.  77th Annual Meeting of Physiological Society of Japan (Tokyo)

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