機器センターたよりNo.4(2011)(54.1MB)
Contents
1. NORE LK 5 5 5 572. 3 Ru Ru 4
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4. XA Ua Meer eum Tar RAUS JAM eem 5 45 7 2 2
5. HORIBA SPEX Fluorolog 3 21 8 21 250 nm 1500 nm 0 5 nm SW peu A 2 7 5 4000 1 XR LH 928 R5509 73 GEL ERR S AA 450W Xe 150 nm sec TES 42 SPEX
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13. t diamond Highly Oriented Pyrolytic Graphite a amorphous carbon Single Wall Carbon nanoHorn 1600 1400 Raman Shift cm gt wn 9 1 1 sp HOPG 1581 cm 1580 cm 1360 cm 1332 cm sp
14. 3 10 3 3 1 REWI 4 207 2 3
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17. Eu Sr 1 M H Phan EujSr4GagGe s H REDA Eu Ga Ge T X Rietveld Eu 2a 76 15K 6d Eu a X Eu
18. 7 26 202 Wavelength Scan L ED
19. MALDT TOF MS MALDI TOF MS MALDIU A 5 4 F zAUGASAUC TOF MS 0 05 External Calibration 0 0296 Internal Calibration 0
20. 2 e 2 TEL OO TS Jo 1 CW TiSapphire Spectra Physics Quantronix V eut ce R3 3X Millennia Tsunami TITAN TOPAS Q Switch Nd YLF 10 790 nm 2 108 mJ CZ fid 395 nm 490 800 nm at TOPAS 400 OPA TOPAS 400 Travelling 1180 1700 nm at TOPAS 800 wave Optical Parametric Amplifier of gt 80 mW at 550 nm 5 1 Superfluorescence 400 gt 100 mW at 1300 nm S T 057 mJ OPA TOPAS RGA 1 7 W at 790 nm 800 Pump YLF
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33. ID GE Cun ID E Te LS D A pomis Q amp A 5 9 3
34. GroEL MgATP 2 2 1 GroEL MgATP K BB LCS GroEL K 3 a K GroEL Y485W MgATP 3 b 3 c X 58 Oo 8 0 Fluorescence a u 0 0 0 3 0 6 0 9 Time s In Q a u 5 0 300 600 900 MgATP2 uM 3 a GroEL MgATP amp SB fir MgATP K Y485 b GroEL Y485W MgATP GroEL YA85W 0 5 uM KK
35. BIET SER BEAT AGE acil CRIDER EAD AEC UD 9 Biel ont s LN Nes EPTFE I7 1 1 7 8 2 Ru
36. MgATPC MgATP m PD L 0 KEEA P CL E 23 2 8 PL 2 PL AFE LIELIE E 00 x 10 s M 3 5 A 4 kcal mol 4 GroEL MgATP PL gt PL GroEL 5 a
37. 2011 4 6 1 M H Phan V Franco A Chaturvedi S Stefanoski G S Nolas H Srikanth Phys Rev B 84 2011 054436 2 s H3RTE GR P Quynh 1 Eu Ga Ge 66 25aT 7 3 2011 3 ME WU T Wu Eu Sr Gar Ge 70 amp 9 2011 22D Ds 10 22 22 1 1 C KITAMURA H TSUKUDA YONEDA T KAWASE T KOBAYASHI and H NAITO 14 7 10 Tetraisoa
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52. Nd YAG Coherent Lambda Physik Compex Pro 110 LPD3002 20 4 320 970 nm 2 260 948 nm 10m pulse at 580 nm Sspectra Physics Lambda Physik 4X GCR 250 Scanmate OPPO 7 Lambda Physik Compex 110F 7 40 oignal 426 710 nm Idler 710 2135 nm 10m pulse at 580 nm 0 15 cm 12 S 10
53. 2 S N y 450 nm 2 512 690 4010 44010 S N 450391 8033 5000004 itae 2 uere e A 4 Water Raman signal 397 nm _ 512 690 counts s 4000007 T 1 Right Angle View desde j i Em 365 450 nm Slits 5nm Ex 350nm Slits Snm 30000044 Incl Onm Int 0 5sec HV 950V Intensity counts s Background signal 4 010 counts s D0000 0 i E 380 400 420 440 Wavelength nm E12 2 3D AE IB MC YAG Yttrium Aluminum Garnet Nd YAG Y Nd AlO 3D NO 800 nm I 1064
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58. o GE Phonon Glass Electron Crystal PGEC PGEC Wiedemann Frantz x o ZT S gT x S 9 Gar Ge M Ba Sr Eu 1 Eu Gaj Ges Ga Ge Eu T 36 KK f RKKY
59. 62 I Eu Sr Gar Ge o ot o o o o t t n n 66 d 10 22 7 11 74 54 e Muere UE dX A EA TOARRE UC 2007 SU
60. 56 9 GroEL MgATP 1 in vitro CK GroEL with GroEL GroES with unfolded polypeptide enclosed polypeptide 10 GroEL CE 1 GroEL
61. 40 4 5000 mile MAERT 4 4 209 E E 2 7 ESR ESR Bruker Bruker EMX Plus
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64. HEHHE START 12 3 7471 4553 090 4082 Eb CREARE ANIR 3 um 6162 4 9 5 22 1L 71 5 1 e 4 2 2 lt gt
65. sp kt ea LEO TERRI TECH EZ LR TUS s 20 mm x 50 mm 47 7
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71. 1 1 GroEL Y485W 95 x 10 M GroEL Y485W MgATP 9 Time min Time min 0 10 20 30 40 50 0 10 20 40 0 10 0 00 8 0 10 8 ET 0 20 0 30 0 00 t 060 o T Z 1 20 o E 1 80 6 2 40 b 3 00 0 5 10 15 20 25 30 35 0 5 10 15 20 25 30 35 Molar Ratio Molar Ratio 4 GroEL Y485W a GroEL wild type b MgATPS pH 7 5 5 1 2 3 KT 5 C 25 C GroEL Y485 MgATP A AS MgATP
72. mia 1518 HUY 21 6 1 Bruker EMX Plus 002 Bruker E500 OO 1 Bruker E680 OO 1 PRIR 2 SQUID Quantum Design MPMS 7 006 Quantum Design MPMS XL7 006 3 X Higaku MERCURY CCD 1 R AXIS IV B04 Higaku MERCURY CCD 2 B04 Rigaku MERCURY CCD 3 B04 4 WA X Rigaku RHINT Ultimalll 3 5 MicroCal VP DSC 4 101 MiereGsl iT Oog 4 101 TA Instruments TGA2950 SDT2960 DSC2920 1 6 Applied Biosystems Voyager DE STR 4 403 7 v Yanaco CHN MT 6 4
73. US 1R e KIF UW620H 16 4 22 22 SQUID mum ESR M 7 Voyager DE STR 3 Te j EAS X CCD 4 m Dm mm erm X Rigaku 7 Ee 4176F07 MERCURY CCD 3 X Rigaku RINT Ultimalll JEEE 5 l TA Instruments we DSC2920
74. 9 9 2A 33 x 4 A CD 9 mdeg 0 5msec 1686 1 5000nm min 200mdeg 100mdeg 2000mdeg 1000mdeg 0 01mdeg 100mdeg 0 1mdeg 1000mdeg 165nm 0 05mdeg 200nm 004mdeg o00nm 0 035mdeg HH LLLI Ill lll Yrs cem JASCO J 720WI FAFE 8 FE 0 2mdeg hr 0 5Abs 001Abs 450W Xe pee 165 1100nm 165 180nm 02nm 180 250nm Qlnm 250 500nm 0 3nm 500 800nm 0 8nm 800 1100nm 20nm JVI BT 1 8 0 1 10nm lt 1 3000 m lt MCD 44
75. Eu Eu Ri x lt 2 SnGayGeg Eu Sr GaraGea x lt 2 Eu Eu RKKY x Eu Eu pEu x 1 Eu Eu Eu Sr Gai Gey 2 gt 20 A 4 x lt 2
76. R 0 7493 0 55 8 O ee SoSi S SAC C1 MP2 aen 129 0 10 130 0112 So MP2 6 31G d p 1275 00 PAH hat 1 130 0 25
77. PregLDumas a 18 2 Ai EDREMIT P MEM 10mg 2 3 makita ims ac jp 4 4 4F404 Yanaco 5
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80. GroES a GroEL a i e GroEL b GroEL c GroEL GroES GroEL GroEL 57000 14 7 GroEL lt MgATP ATP MgATP GroES 1
81. Pf ERE ASRA KEARI d I S 3 T3 2 c AA RAL X ESR SQUID X NMR ADRES FEET WATER DRETS HI sr 10 1 1 3 4 204 1 1 4 401 10 4 401 111 111 111 3 1
82. 33 5 suas 1 SQUID ERGUER TD FWA X CCD CCD 1 CCD SQUID MPMS MPMS XLZ 20 o G 22 E WE Sm y7 9 8 ma 6 89 A BEX
83. E mall ic pub ims ac p TEL 0564 55 7470 b 2 1 http www ims ac jp use joint_syosiki html F 6 1 X 4 3 3
84. GroEL GroES o Clarke GroES MgATP GroEL Y485W 1 A EZ wi Horwich GroEL GroES ADP e 2 0 References 1 Chen J Makabe K Nakamura T Inobe T amp Kuwajima K 2011 Dissecting a Bimolecular Process of MgATP Binding to the Chaperonin GroEL J Mol Biol 410 343 356 Inobe T Arai M Nakao M Ito K Kamagata K Makio T Amemiya Y Kihara H amp Kuwajima K 2003 Equilibrium and kinetics of the allosteric transition of GroEL studied by solution X ray scattering and fluorescence spectroscopy J Mol Biol 327 183 191 Chff MJ Limpkin C Cameron A Burston
85. TAinstrument TA RCS90 0 iTC200 52 LIS 19 43 4496 Q1 22 1 3 4 SQUID X
86. 7 85 nm DA 100 3200 cm CCD D78 X 386 Leica 1 IRTE RENISHAW inVia Reflex 21 l um x 100 488nm 532 nm 2 um 633 nm 785 nm x 100 16 250 mm f 250 mm cm 100 4000 cm 46 7
87. 7 pu pue 15 3 1 201 2 3 RP 3 Pa DP 10 Pa TS15 25 6 mm Yamato KFC2180 IUCHI EYELA NDO 400
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92. MicroCal iTC200 SQUID ESR MicroCal iTC200 MicroCal VP DSC X Rigaku RINT Ultimalll ESR SQUID X Rigaku 41 76F07 MERCURY CCD 3 TA Instruments DSC 90 SQUID X f X Higaku 41 bFO MERCURHY CCD 3 MicroCal VP DSC ESR DP MicroCal 200 ESR X Rigaku RINT UItimall ESR TA Instruments DSC2920
93. TATE 86 67 Bruker E 500 mpral ESR 9 4GHz X band Cw 4GHz Q band Cw 50G 14 5kG 3 8 300K ESR800 1 5 2008 510 3c888 fujiwwara ims ac jp 5 8 8 URL https chem eqnet ims ac jp system2 openreseInput do searchCondition equipmentIdEncrypted 2fa9 1838541 7cc66 2 lt 81108 10 2011 11 gt H 0 TR 43 E 3 2 4 B B B
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95. 1 nm TOPAS 800 TOPAS 400 Signal 1180 1700 Signal 490 800 Idler 2385 1475 Idler 2030 780 SHS 590 850 SHS 300 400 oHI 1180 740 DIS 3405990 SFS 474 538 SHI 105395 FHI 500 370 DFG 2400 10500 532nm CW 4 7 W 1 790 nm 80 MHz Nd YVO4 laser ML i Sapphire 200 fs 0 7 W laser 4 BBO Nd YLF laser eD n Regenerative Amplifier 790 nm 1 kHz 5ps 1 7 W OPA TOPAS 800 1 pq 1 TOPAS 400 Auto correlation time S EM UE NE Signal 600 nm Fitting functio KIRE aM 111 Y i Gaussian 5 TOPAS 400 EUH HA 4 Signal Idler Power mw 60 20 NMLLL LN M NEL 3 0 2 0 1 0 0 0 1 0 2 0 3 0 4 0 600 700 900 1100 1300 1500 1700 jme Wavelength nm ps 512 3 39 7
96. 4 2 X 2 1 MgATP 87 Fluorescence a u Time sec 2 MgATP GroEL Y485W pH 7 5 5 1 C 50 mM Tris HCI 10 mM MgCl 10 mM KCI 0 5 uM GroEL Y485W 85uM MgATP 12 4 5 122 6 4 5 5 50 7 0 88 s 15 3 0 013 5 43 3 295 nm 320 nm Bris tol Clarke GroEL 5 T R gt R gt R RA Ts R MgATP
97. C G VDP G PP G PH 27 7 1 1 0 G PH G PH 9 1 PH VDP PP HP G XPS Si 2p C 1s o _ PS 8 277977 1 E id xinaw Sag etg C E 98 80 G PH 0 5 nm 1 48 gt 99 6
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99. 5 5 X NEN 33 6 4 iu mmt 1 0 10 20 30 40 50 Q4 2 14 M 3 1 88 2 O 20 40 60 80 100 60 Q5 56 1 5 4 3 2 1 56 10 5 4 3 2 1 0 5 4 3 2 1
100. CHN MT 6 CHN CORDER MT 6 12 1 03 2011 10 01 21 21 32 ytical Data E 22011 8 28 1PD 0 5 400 Hg A N 10 No 2011 9 5UU Hg BE 1909 0 1006 1 hPa Zu 2011 08 26 14 52 21 1 1000zg ll counts 1638 25479 13153 E seti AH Hi S man T 2 6 5 1 8 53 Date 2011 08 26 Date 2011 08 28 11 10mg A 66 99660 ample weight 1 909 mg Sample weight 1 808 ng AU RIS 26 c 1 2mg 1 34 7 SOCRATES IB XX X X
101. Ru 3 G PH G VDP G PP XPS Si 2p C 1s Ru Si 2p XPS Si 2p C 1s 2 05 nm 3 nm Si 2p C 1s O E 7 Si amp EEG 3 1 G PH 0 5 nm 3 nm Si 2p C Is 1 48
102. URL Word http ic ims ac Jp tebiki shisetsu download report doc PDF http 1c 1ims ac jp tebiki shisetsu download report pdf 2 3 gt 1 111 gt ic office ims ac jp TEL 0564 55 7470 gt ic pub ims ac jp TEL 0564 55 7470 gt HP http ic ims ac jp index html 6 3 1 72 8 2 2 66 285 1 Ta
103. B B B B B B B B B 4 600MHZ JNM ECA S HU B B B EOL EM 2101F S_MIT B BLB AF JEOL JEM 2101F EOL EM 2101F S MIT B B B 2 4 1 JOD e bee 2 ID TID 2 5 sy ID URL URL URL http chem eqnetims acjp manuals 2011 11 15 09 00 2011 11 16 09 00 2011 11 14 10 00 2011 11 14 15 00 2011 10 04 10 15 2011 10 04 10 30 2011 10 04 10 00 2011 10 04 10 15
104. 93 41 H z 280 C z 190 TH5AT OS Windows Software Delta5 0 1 JEOL 23 TNM ECS400 NMR 1 H 1D Lambda500 15 VT 4 ECA600 H C N 3 NMR 2 2
105. X X X X XX JEOL Hl 3C JSX 3400R TI 20 Na U 5 50 kV 1 mA 50 W Rh 4 1 mm 3mm 7 mm Si Li EAR HA ar 300 mm x 150 mm H
106. E500 17 10 X band 9 4 GHz X band 9 4 GHz 5 ile 145 T XEMX Q 9000 ESR900 3 8 300 K ESR910 1 5 300 ZEHE GAA Q band 34 GHz ESR900 3 8 300 K 4 300 K CF935 ER4131VT 100 300 K LN2 RT 500 K Air m T 45T TATA F I uA C A ed tes ECT oe ees CW 24 7 e EMX 24bit E500 YGA CW X band Q band e X band g X band f 4 mm 250 mm Q band 2 mm 100mm
107. 29 7 bj A X3 n Dr ee iet XX X PDF Powder Diffraction File 40 300 K WindwosXP JADE7 Nano Solver CBOSE S 1 Rigaku RINT UltimallI 17 1 50 nm Cu 40 kV 40 mA 16 kW
108. GroEL PDB 1OEL MgATP GroEL 1KP8 MgATP 1KP8 MgATP ySZ 5 ag Thr89 0 19 A P L gt PL GroEL 60 Reaction coordinate 5 a GroEL MgATP GroEL b GroEL MgATP v Bd 5 b PL A COET Mis JE AS GroEL MgATP
109. SPEX Fluorolog3 2 1 AAA ATP MicroCal iTC200 MicroCal iTC200 19 2199 E 28 MicroCal iTC200 E Rigaku RINT Ultimall so emm wm oo BEHOU X FU MicroCal iTC200 MicroCal VP DSC 41 m ETAUTVIUBEB ESR SQUID NS 32 A mA D 1 ETT
110. TRAR ENEI RENA CORI YY 28 8 GroEL MgATP 7 R GroEL GroES ATP X 0 LA 2 MgATP GroEL GroEL Y485W MgATP
111. 40Nm hr 50 Nm hr 40m 50m 60m x 24 7510 x 25 ln 10m 2 49 8 22 18 39 46 7 5 2 67 12 Dos Q2 22 1 Q 3 22 1 j 58 SQUID 7 X
112. 50 100 96 TD 40 50 96 IT 40 10 1 27 7 X X DIE um 3 S Rigaku ultraX18 Mercury CCD R AXIS IV 8 CDI COD 9p O3 05 LO mi AFC 7 Mercury CCD 100 400 K Crystal Clear Crystal Structure R AXIS 0 3 05 mm 8 5 o di
113. 192 11 3 tre 1e OO RA TET http icims ac jp kiki N2_user_manual2011pdf 1
114. 7 p 2 2 28 112 WET 8 2 8 88 2 1 COTE BE T OG WUDUS S 2 Hitachi K U 3500 8 18 200 nm 3200 nm VEZJU y R 928 Pbs 0 1 nm 0 5 nm WOCE AWER MATR UU w lt 0 002 Abs 240 850nm 6nm lt 0 004 Abs e50 2200nm lt X 0 008 Abs 220 2600nm
115. A 15 8 kcal mol amp 16 0 kcal mol C 56 6 0 kcal mol 1 3 kcal mol KCI 4 50 mM KCI 51 CCE MM 4 39s KX 283x10 M 1 GroEL Y485W GroEL wild type MgATP 10 mM MgCl pH 7 5 9 1 C Construct n K x 107 M GroEL Y485W 6 69 0 59 9 50 0 78 GroEL wild type 6 41 0 37 33 4 3 02 AH kcal mol AG kcalmol TAS kcal mol 154 021 0685 01 5 06 0 42 5 7 4 0 52 002 E 197 4 87 2 0 35 59 9 3 GroEL MgATP MgATP
116. CCD 38 108 mm x 82 mm WEEE RoHS ELV Cd Pb Hg Cr X X cc 35 7 NMR
117. IP 2 28 50kV 100mA kW RAPID teXsan 5 01 05 mm CCD 1 2 3 TH X X e PSA 1 100 K 2 00 7 N 100 K He 24 K N 240 He 150 He N N He N PSA He He
118. S G amp Clarke A R 2006 Elucidation of steps in the capture of a protein substrate for efficient encapsulation by GroE J Brol Chem 281 21266 21275 Kovacs E oun Liu Ha 1 0 47 1 Karsisiotis A I Clarke A R Burston S G amp Lund P A 2010 Characterisation of a GroEL single ring mutant that supports growth of Escherichia coli and has GroES dependent ATPase activity J Mol Biol 396 1271 1263 Tyagi N K Fenton W A amp Horwich A L 2009 GroEL GroES cycling ATP binds to an open ring before substrate protein favoring protein binding and production of the native state Proc Natl Acad Sci U S A 106 20264 20209 6l 9 1
119. 404 8 X JEOL JSX 3400HII 101 9 9 1 21 JEOL JNM ECA600 5 JEOL JNM LA500 4 408 v JEOL JNM ECSAO00 4 408 10 Spectra Physics Quantronix Milennia Tsunami TITAN TOPAS BO8 11 Coherent Lambda Physik Compex Pro 1 10 803002 103 Nd YAG OPO Spectra Physics Lambda Physik GCR 250 Scanmate OPPO 102 Lambda Physik Compex 110F 105 12 HORIBA SPEX Fluorolog 3 2 101 111 22 6 13 JASCO J 0WI 4 406 Hitachi U 3500 101 EH RENISHAW inVia Reflex AER 10 ETER v Oxford Kelvinox 400 004 17 187 104 105 4000 U 35
120. 057 2 nm Ru 0 89 64 G PP 0 5 nm A Si 2p C 1s 4 14 3 nm 0 99 2 nm Ru 0 64 C G PP 2 nm 4 o Ru C 98 80 ee G PH 91 ee 99
121. N _ ous mE V Tt O _ J8 4 8 E 12 Belousov Zhabotin sky X LIESS C 0 MicroCal iTC200
122. http harukaims ac jp kogata silist kogataclhtml 1 8872272222 RY 2 22 838 Jo B TELS Wt a EIE E DIL Wo CD BANZ vs ppp JU ELO 2 X Y t He EE f DC TE A 720 CN NMR
123. 00896 External Calibration 0 00196 Internal Calibration Applied Biosystems Linear mode Voyager DE STR Reflector mode 2 12 Linear mode RefHlector mode 300000Da 80 BSA 1000 Myoglobin 3000 Angiotensin I 3500 ACTH 18 39 Linear mode 15000 bovine insulin Linear mode 1200 E coli Thioredoxin 7000 Angiotensin I Reflector mode 10000 ACTH Clips Reflector mode mass range 10000Da 33 7
124. 13 W lt ops 1 kHz e 1 1 TOPAS 800 38 7 BBO Crystal 3 1 2 790 nm BIS 4 TOPAS 400 NENO 2 SFI 593 gl5 2 2 TOPAS 400 TOPAS FHS 295 425 800
125. Hz 100Hz 193 nm 200m pulse 248 nm 400mJ 35 nm 150m pulse pecie 7 Fluorescence excitation spectrum of jet cooled naphthalene 2 Dispersed fluorescence spectrum of jet cooled pyrene 70 3 a 1 x 10 4 Fluorescence decay curve in cyclohexane Acenaphthene Anthracene Tes 34 T 47ns A ex P b dioc A AE es e E SATE 5 9 994
126. X 12 48 I 4 6 51 0 10 20 30 40 Q2 18 2 5 4 3 2 1 Q3 e o L E 4 3 6 1 2 1 0 53 5 7 6 1 5 4 3 2 1 69 11 Vossio Rigaku MERCURY CCD 3 MALDI TOF MS Applied Biosystems Voyager DE STR AE i CCD Rigaku MERCURY CCD2 Vo 5 OOE Po RENISHAW
127. 0 G PH nm 1 27 99 90 G PH 2 nm 0 74 0 89 99 91 G PH 3 nm Dr al 87 G VDP 0 5 nm 1 59 42 80 G VDP 1 nm 0 95 39 84 G VDP 2nm 0 86 0 77 21 67 G VDP 3 11111 05 2 G PP 05 nm 414 12 74 G PP nm 2 20 62 G PP 2 Dt 1 34 0 64 D 09 G PP 3 nm 0 99 o4 G HP 2 nm 62 61 Ru 4 x 10 mol Ru SDS o fluoroacetophenone HCOONa 1 4 100 500 2 mL water 313 K 96 1 2007 2 M Tada S Muratsugu M Kinoshita T oasaki Y Iwasawa J Am Chem Soc 132 7113 724 2010 3 M Tada Bull Chem Soc Jpn 83 855 876 2010 4 Z Weng S Muratsugu N Ishiguro S Ohkoshi M Tada Dalton Trans 40 2338 2347 2011 5 Y Yang Z Weng S Muratsugu N Ishiguro S Ohkoshi M Tada Chem Eur J accepted 6 K Mosbach Chem Rev 100 2495 2504 2000 7 M Tada T Sasaki Y Iwasawa Phys Chem Chem Phys 4 4561 4574 2002 8 M Tada T Sasaki Y Iwasawa Phys Chem B 108 2918 2930 2004 65 9 I m 7 J Pu Sr Ga Ge e 0 2011 3 11
128. 0 Ver 1 24 0 2 ORIGIN ver 7 10 analysis MicroCal Te 21 31 7 TGA2950 7 RT 1000 C 0 1 ug 100 mg 100 BL CZ TTT 0 1 100 C min TA Instruments Hl x SDT2960 3 AERE 7 RT 1500 C EE 0 1 100 min 1000 zm O 01 25 min 1500 TGA DTA AM Instruments 111 600 C E Tec Up S OS Windows2000 TGA 61 1 Thermal Advantage DSC Universal Analysis DSC TA Instruments DSC2920 7 0 6 32 7
129. 1 Fluorolog DAT Ew EGUE AT pE 1500 nm IRER Ox C30 KIMARR EZ C O Double grating excitation spectrometer Y T a Te Single grating emission spectrometer T box sample compartment module 1 7 IOriginl FluorEssence 3D 1 S N E
130. 5 MgATP c 3 mM MgATP ET 4 C GroEL X 10 mM KCI R KK q K Aos O MgATP MgATP X 3 b T GroEL Y485W MgATP IMs 13 d An D MgATP P L os PL oft 1 TREND SST koa 3 b GroEL Y485W MgATP f ka An PEL ks LT 1 Anka lL L k off L M
131. ISSN 1884 1627 LEH OUSA NO 4 a 6 PES j MM Mi X SQUTD P24 i O5 r2 No 4 IE 1 PA 3 AP ds 8 E PPP 1 KE 2 PEPENDIT 3 t 7 1 41 8 5 6 88 8 smoke m M AR qo UR X Eo de dk AE Es 10 CN CPI 12 o oo eR 14 S327 317 127 52 103525 CE E xr 16 22 o o o o o o o nnn 17 22 0110071101070 01001110 o 8 e eee enn 29 NE 24 SQUID o o o mer nnn 26 uw mu M C I lc 2g Ud 596 88 5 8 8 6 9 98 30 JL C a
132. a peine c 11 00 15 30 d 8 30 17 15 E mail ic office ims ac jp e 8 1
133. gATP A 3 d 1 2 GroEL Y485W 2 MgATP Zik 0 k 7914 005 x 10 5 ks 1422 011 s kg 6 43 10 M 2 2 KK 45 MgATP GroEL ATP GroEL MgATP 4 MicroCal ITC K 51 C GroEL Y485W GroEL MgATP GroEL
134. lkyltetracenes Tuning of Solid State Optical Properties and Fluorescence Quantum Yields by Peripheral Modulation Eur J Org Chem 2010 3033 3040 2010 2 C KITAMURA C MATSUMOTO A YONEDA T KOBAYASHI H NAITO and T KOMATSU Synthesis Optical Properties and Crystal Structure of 14 Dipropyltetracene Eur J Org Chem 2010 2571 2575 2010 3 C KITAMURA H TSUKUDA T KAWASE T KOBAYASHI and H NAITO 145 8 Tetraisopr opylanthracene Acta Crystallogr Sect E Struct Rep Online 66 02222 2010 4 C KITAMURA H TSUKUDA T KAWASE T KOBAYASHI and H NAITO 1 45 8 Tetra butylanthracene Acta Crystallogr Sect E Struct Reb Online 66 02565 2010 5 C KITAMURA T NAITO A YONEDA T KAWASE and T KOMATSU Synthesis and Crystal Structures of 1 48 11 Tetraalky1 6 13 diphenylpentacenes Chem Lett 39 771 773 2010 6 M ASHIZAW A Y YU T NIIMURA K TSUBOI H MATSUMOTO A TANIOKA and T MORI Development of f linked quaterthiophene and tetrathiafulvalene dimers as new organic semiconductors Physica B 405 S373 S377 2010 7 M ASHIZAWA K ISHIDZU M WATANABE T TANAHASHI T SHIRAHATA T KAWAMOTO T MORI and Y MISAKI Novel Bis fused z Electron Donor Composed of Tetrathiafulvalene and Tetraselenafulvalene Chem Lett 39 1093 1095 2010 8 K ONO T YAMAGUCHI and M TOMURA Structure and Photovoltaic Properties of 2 Cyano 3 4 diphenylamino phenyl acrylic Acid Sub
135. nm 700 nm 900nm 1000 nm 1100 nm 3 3D 1064 nm 1 Increment 2 nm Tntensity 1064 nm amp BE 1020 1040 wavelength nm Emission 1060 1080 1100 UoT1B TX mu U33UueTeABA 4 5 8 00E 007 6 00E 007 Intensity 4 00E 007 2 00E 007 3 43 7 CD
136. stituted by tert Butyl Groups Chem Lett 39 864 866 2010 9 K ONO A NAKASHIMA Y TSUJI T KINOSHITA M TOMURA J NISHIDA and Y YAMASHITA Synthesis and Properties of Terthiophene and Bithiophene Derivatives Functionalized by BF Chelation A New Type of Electron Acceptor Based on Quadrupolar Structures Chem Eur J 16 13559 13946 02010 7 10 28 10 T AKITSU Y ENDO M OKAWARA Y KIMOTO and M OHWA Influence of Water Molecules on Properties of Binuclear or Bridged Structures for Chiral Cu Ni Cu Pd and Cu Pt Tetracyano Bimetallic Assemblies The Open Crystallography Journal 4 2 7 2011 1 R NISIKIORI S MORIMOTO Y FUJIWARA A KATSUKI R MORGUNOV and Y TANIMOTO Magnetic Field Effect on Chemical Wave Propagation from the Belousov Zhabotinsky Reaction Phys Chem A 115 4592 4597 2011 123 M SAKAGUCHI T OHURA T IWATA S TAKAHASHI S AKAI T KAN H MURAI M FUJIWARA WATANABE and M NARITA Diblock Copolymer of Bacterial Cellulose and Poly methyl methacrylate Initiated by Chain End Type Radicals Produced by Mechanical Scission of Glycosidic Linkages of Bacterial Cellulose Bzomacromolecules 11 3059 3066 2010 2 1
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