細胞構造生物学

(1)

2012 6

2

東京大学大学院理学研究科

^小澤 ^岳昌

4

細胞構造生物学

in-cell NMRを用いたアプローチ

首都大学東京大学院理工学研究科

伊藤隆

10

世界最大規模の食中毒シガテラを予防する

抗シガトキシン抗体の作製とシガトキシンの微量検出法の開発

大阪府立大学大学院理学研究科

^{円谷健}

18

細胞外マトリックスのペプチド科学

メラニンの分子解剖と医薬分野への応用

東京薬科大学薬学部

野水基義

23

東京大学大学院理学研究科化学専攻博士課程１年

^{桂嘉宏}

名古屋大学大学院工学研究科化学・生物工学専攻博士後期課程３年

^内藤 ^豊裕

30 ドイツ・マックスプランク分子生理学研究所留学体験記

Max Planck Institute of Molecular Physiology, Department of Chemical Biology

高山浩

34

第６回バイオ関連化学シンポジウム（第 27 回生体機能関連化学シンポジウム、第 15 回バイオテクノロジー部会シンポジウム、第 15 回生命化学研究会シンポジウム）

第 39 回国際核酸化学シンポジウム (ISNAC2012)

アンチセンス・遺伝子・デリバリーシステムシンポジウム 2012

第２回アジアケミカルバイオロジー会議（ACBC2）（第 15 回生命化学研究会）

編集後記

(2)

4 3

10

IF

(3)

20

2

(4)

in-cell NMR

[email protected]

300 400 mg/mL

macromolecular crowding [1]

in vitro

NMR

in-cell NMR

[2] in-cell

NMR

[3,4] in-cell NMR

in-cell NMR In-cell NMR

NMR

(5)

in vivo NMR

1990

NMR

13C ¹⁵N

13C/¹⁵N

NMR

2001 UCSF Dötsch

in-cell 2D ¹H-¹⁵N HSQC

in-cell NMR [5]

in-cell NMR

in-cell NMR [6,7] 2009

in-cell NMR [8]

[9] 1 in-cell NMR

In-cell NMR

[10]

In-cell NMR

2 ¹H-¹⁵N NMR

NMR NOE

in vitro

in-cell NMR

NMR 3D/4D NMR 1 In-cell NMR

2 [17]

(6)

3D/4D NMR in vitro

In-cell NMR

http://www.thermus.org/j_index.htm 100

20 in-cell NMR

NMR TTHA1718

66

6 3 3

NMR

NMR NMR NMR

6 85%

6

3 NMR

in vitro

nonlinear sampling

maximum entropy

[4,11,12]

1/8

3 NMR

NMR 2

2 TTHA1718 NMR

1H-¹⁵N HSQC

NMR NMR

Leu41 A46

3 TTHA1718 ¹H

1H-¹³C HMQC

NOE

(7)

1H/¹³C ²H

NMR [13]

Stokes-Einstein-Debye in vitro

NMR

1H 3D ¹³C/¹³C-separated NOESY

NOE

13C/¹⁵N 3D ¹⁵N-separated NOESY 3D ¹³C-separated NOESY

NOE

13C

2 2

Peter Güntert

CYANA v3.0[14]

RMSD 0.96 Å 4

NOE NOE

4

TTHA1718 C&EN Chemical Year in

Review 2009 9 1

in-cell NMR

TTHA1718 in-cell NMR

TTHA1718 3 4 mM

in-cell NMR 4

TTHA1718 NOE

protein G B1 GB1 CYANA

100 20

20

(8)

Tau 5 µM [15]

in-cell NMR macromolecular crowding 2

NMR

TTHA1718 in-cell NMR

1/10 200 500 µM protein G B1 GB1 66

1H

maximum entropy NOESY

NMR [16] TTHA1718

4 TTHA1718

GB1 2

In-cell NMR 2

in-cell NMR

intrinsically disordered proteins (IDPs)

macromolecular crowding [18]

[15]

in-cell NMR

[8]

15N

(9)

In-cell NMR

NOESY

NMR

1. Ellis, R.J., Trends. Biochem. Sci. 26, 597-604 (2001).

2. Ito, Y. & Selenko, P., Curr. Opin. Struct. Biol. 20, 640-648 (2010).

3. Sakakibara, D. et al., Nature 458, 102-105 (2009).

4. Ikeya, T. et al., Nat. Protoc. 5, 1051-1060 (2010).

5. Serber, Z. et al., J. Am. Chem. Soc. 123, 2446-2447 (2001).

6. Selenko, P. et al., Proc. Natl. Acad. Sci. USA 103, 11904-11909 (2006).

7. Sakai, T. et al., J. Biomol. NMR 36, 179-188 (2006).

8. Inomata, K. et al., Nature 458, 106-109 (2009).

9. Ogino, S. et al., J. Am. Chem. Soc. 131, 10834-10835 (2009).

10. Serber, Z. & Dotsch, V., Biochemistry 40, 14317-14323 (2001).

11. Barna, J. C. J. et al., J. Magn. Reson. 73, 69-77 (1987).

12. Rovnyak, D. et al., J. Magn. Reson. 170, 15-21 (2004).

13. Rosen, M.K. et al., J. Mol. Biol. 263, 627-636 (1996).

14. Güntert, P., Prog. Nucl. Mag. Res. Sp. 43, 105–125 (2003).

15. Bodart, J.F. et al., J. Magn. Reson. 192, 252-257 (2008).

16. Ikeya, T. et al., J. Biomol. NMR 50, 137-146 (2011).

17. Burz, D. S. et al., Nat. Methods. 3, 91–93 (2006).

18. Dedmon, M. M. et al., Proc. Natl. Acad. Sci. USA 99, 12681-12684 (2002).

(10)

[email protected]

5

1), 2)

5 6 7 8 9 13

30 3 nm 1 .

1989 ³⁾

2001 CTX3C

4), 5), 6)

O O O O

O

O O

O OH OH

H

H H H H H

H H

H H O H

O

O O

O

H H H H H

OH B C D

E F

H I

K

M A

R1

R2 H

HO OH CTX1B(1) : R₁ = CTX3C (2) : R₁, R₂ = H, n = 1

, R2 = OH, n = 0

G J

L n

3 nm

51-hydroxyCTX3C (3) : R₁= H, R₂ = OH, n = 1

HO OH

54-deoxyCTX1B (4) : R1 = , R2 = H, n = 0

477 Å² (A) HRP

(B)

(11)

7), 8), 9), 10)

CTX1B (1 µg)

11)

CTX1B CTX1B

CTX1B

12), 13)

1 (A) E 4

CTX3C (2) CTX3C (2)

200 400 Å²

CTX3C (2) 3 4 5

(ABC ABCD ABCDE )

253 318 398 Å² 2

ABC: 253 Å² ABCD: 318 Å²

ABCDE: 398 Å² IJKLM: 477 Å²

(12)

CTX3C(2)

5 ABCDE

5 5 5 ABCDE

398 Å²

400 Å²

5 A E

5 CTX3C

CTX3C 5 6 IJKLM

:477 Å² 5 6 CTX3C(2)

5 6 BSA

KLH

7), 9)

5 5 KLH 7 5 3

7 BSA

8 6

IgG IgG+M

6

(K_d) 6 5

11 K_d 0.8 nM 10.8 nM

10C9 10C9 4 12 K_d 1.9 µM 11

2000 3 13 73.6 µM 4 12

30 1

CTX3C 14

O OH HO

H H

OH H HOH

H D C B

A O O

O H

H E

R O

O O

O O O

O H

H H H

O OH

H H H H

I K

M HO O

7: R = KLH

8: R = BSA 9: R = KLH

10: R = BSA J

L

5 6

O OH HO

H H

OH H HOH

H D B C

A O O

O H

H E

OH O

n

O O

O O O

O H

H H H

O OH

H H H H

I K

M R O

J L

n

(13)

CTX3C IJKLM 6 KLH 9

IgG 3D11 3D11 5 14

ELISA Kd 5

14 Kd 4 nM 3D11 CTX3C

Kd 122 nM

A (Kd = 43 µM) B

8), 9)

E 4 1

4

M OH

(CTX1B 51-hydroxyCTX3C )

5

> 400~500 Å² M OH

6 15 5 15 KLH BSA

16, 17 KLH 16 4

3

7C9, 8B9, 8H4 HIJKLM 18 (Kd) ELISA

407, 108, 48 nM 8H4

8H4 CTX1B Kd =

20.4 nM 51-hydroxy- CTX3C Kd = 13.6 nM

M OH

O O

O O O

O O O O OHC

H H H H H H H H H

H H H H H H

H OH

F D

I H A

C B O

O O

O O O H H H H H H H H H

H H H H

H H H OH

O

B A D C F H I

K E

G J

O OH HO

H H

OH H HOH

H D C B

A O OH

OH H

H

E O

O H HO O

OH H H

OH H HO

OMe

A B C

O OH HO

H H

OH H HO

OH H OH

H D B C A

11 12 13

HO O

O O

O O OH

H H H H H

H H H

HO

I K

M O

O HO2C

O O

OH O H

H H

HOH

H H

OH B

A C D F

O

O O

O

O O

O OHH

OH

H H H HH

H H

H O

O O

H OH

O H

H

O

O H

H

O

OH OH

O HOH O O

H HO

H

OHH

OH H

H OH

H OH O

O O

O OH

OH

H

HOH H H H

H H OHH

H H NaO3SO

OH

O O

O HO

HO OH

OH HO

H H H

OHH H H H H OSO3Na OH

HO OH

O

O H

H OH

O

O H

H

H H

H H HO

OH H

HO O P

K F

D C

B H

T

S R

Q

N M I

A

Y X W

V U

14 J

L

Brevetoxin A (BTX A) Brevetoxin B (BTX B)

J

G E

Okadaic acid (OA)

L G J

E F' E' D' C' B'

A' Z

Maitotoxin (MTX) G

E

O O Me Me OH O OH O O

Me

Me H H H

H H H H HO J

L Me

H

I K

M O O H

R O

16: R = KLH 17: R = BSA

O O OH Me Me O OH O O

Me

Me H H H

H H H HOH J

L Me

H

I K

M HOHO H

18 O O

OH Me Me O OH O O

Me

Me H H H

H H H

HOH J

L Me

H

I K

M O O H

R O

n 15: R = OH

(14)

CTX3C Kd = 3.2 µM 8H4 M OH

8H4 (BTX-A, BTX-B, OA, MTX)

CTX1B

51-hydorxyCTX3C .

10)

A

CTX1B CTX1B

CTX1B ¹²⁾

CTX1B A

CTX1B CTX1B

5 19

19

DTSSP BSA KLH

TCEP

BSA KLH

22 (BSA) 23 (KLH) 22

23 19

BSA KLH 24

25 KLH

25 4

ELISA BSA 24 IgG

3G8

3G8 ABCDE 26 (Kd) ELISA 1.5 nM

3G8 CTX1B Kd = 14.9

nM A CTX3C

3G8 A

3G8 ABC 27 Kd 410 nM ABCDE 26

270 3G8 CTX1B (1)

ABCDE 3G8

(BTX-A, BTX-B, OA)

O

O O

H H

H H OH

O O

HO

H H H

H H

HO H OH

O NH

O N O

O

19

S O

O N

O

NaO3S S R

O

O O

H H

H H OH

O O

HO

H H H

H H

HO H OH

O NH

O N O

O S

O R S

O O N

O

NaO3S S O

O N O

O SO3Na DTSSP

20: R = BSA (n = approx.13) 21: R = KLH

HS R

O

22: R = BSA 23: R = KLH 24: R = BSA (n = approx.10)

25: R = KLH

BSA, PBS buffer or KLH, PBS buffer

TCEP PBS buffer 14, DMF

PBS buffer

A B C D

E

A B C D

E

n

n n

O

O O

H H

H H OH

O O

HOH

H H H

H H

HO H

OH 26

A B C D

E ^O

O O

H H

H H H OH HO OH

27

A B C

(15)

7), 8), 9), 10)

2

3 nm

2 2

4 7

CTX1B

3G8

8H4 CTX1B

ELISA 3G8 CTX1B

8H4

0.28 ng/mL CTX1B 8

CTX3C

CTX1B

CTX3C

10C9 3D11

51-hydroxyCTX3C 10C9

8H4 CTX3C 51-hydroxyCTX3C

54-deoxyCTX1B 3G8 3D11

[CTX1B] (µM)

Absorbance (490 nm)

(16)

14)

1994

17~8

1) Scheuer, P. J., Ciguatera and its off-shoots chance encounters en route to a molecular structure, Tetratedron 1994, 50, 3.

2) Lewis, R. J., The changing face of ciguatera, Toxicon 2001, 39, 97.

3) Murata, M., Legrand, A. M., Ishibashi, Y., Yasumoto, T., Structures of Cigutoxin and Its Congener, J. Am.

Chem. Soc. 1989, 111, 8929.

4) Hirama, M., Oishi, T., Uehara, H., Inoue, M., Maruyama, M., Oguri, H., Satake, M., Total Synthesis of Cigutaoxin CTX3C, Science 2001, 294, 1904.

5) Inoue, M., Miyazaki, K., Uehara, H., Maruyama, M., Hirama, M., Frist- and second-generation total synthesis of ciguatoxin CTX3C, Proc. Natl. Acad. Sci. USA 2004, 101, 12013.

6) Inoue, M., Miyazaki, K., Ishihara, Y., Tatami, A., Ohnuma, Y., Kawada, Y., Komano, K., Yamashita, S., Lee, N., Hirama, M., Total Synthesis of Cigatoxin and 51-HydroxyCTX3C, J. Am. Chem. Soc. 2006, 128, 9352.

7) Oguri, H., Hirama, M., Tsumuraya, T., Fujii, I., Maruyama, M., Uehara, H., Nagumo, Y. , Synthsis-Based Approach toward Direct Sandwich Immunoassay for Ciguatoxin CTX3C, J. Am. Chem. Soc. 2003, 125, 7608.

8) Tsumuraya, T., Fujii, I., Inoue, M., Tatami, A., Miyazaki, K., Hirama, M., Production of monoclonal antibodies for sandwich immunoassay detection of ciguatoxin 51-hydroxyCTX3C, Toxicon 2006, 48, 287.

9) Tsumuraya, T., Fujii, I., Hirama, M., Production of monoclonal antibodies for sandwich immuoassay detection of Pacific ciguatoxins, Toxicon 2010, 56, 797.

10) Tsumuraya, T., Takeuchi, K., Yamashita, S., Fujii, I., Hirama, M., Development of a monoclonal antibody against the left wing of ciguatoxin CTX1B: Thiol strategy and detection using a sandwich ELISA, Toxicon 2012, doi:10.1016/j.toxicon.2012.04.347.

11) Hokama, Y., Hong, T. W. P., Isobe, M., Ichikawa, Y., Yasumoto, T., Cross-Reactivity of Highly Purified

(17)

Okadaic Acid (OA), Synthetic, Spiroketal East Sphere of OA and Cigutoxin, J. Clinical Anal. 1992, 6, 54.

12) Oguri, H., Tanaka, S., Hishiyama, S., Oishi, T., Hirama, M., Tsumuraya, T., Tomioka, Y., Mizugaki, M., Designed Hapten Aimed at Anti-ciguatoxin Monoxlonal Antibody: Synthsis, Immunization and Discrimination of the C2 Configuration, Synthsis 1999, 1431.

13) Nagumo, Y., Oguri, H., Shinodo, Y., Sasaki, S., Oishi, T., Hirama, M., Tomioka, Y., Mizugaki, M., Tsumuraya, T., Concise Synthesis of Ciguatoxin ABC-Ring Fragments and Surface Plasmon Resonance Study of the Interaction of Their BSA Conjugates with Monoclonal Antibodies, Bioorg. Med. Chem. Lett.

2001, 11, 2037.

14) Inoue, M., Lee, N., Tsumuraya, T., Fujii, I., Hirama, M., Use of monoclonal antibodies as an effective strategy for treatment of ciguatera poisoning, Toxicon 2009, 53, 802.

(18)

[email protected]

(19)

Plate assay!

A10!

A13

!

A24!

A119!

A51!

A64!

B98!

B31!

AG10!

B54!

B133!

A167!

B160!

C28!

C64!

C68!

AG32!

A99!

C16!

AG73!

A208!

MRGSGTGAALLVLLASVLWVTVRSQQRGLFPAILNLATN!

AHISANATCGEKGPEMFCKLVEHVPGRPVRHAQCRVCDG!

NSTNPRERHPISHAIDGTNNWWQSPSIQNGRE!

ARKAKNSVSSLLSQLNNLLDQLGQLDTVDLN!

KLNEIEGSLNKAKDEMKASDLDRKVSDLESEARKQEAAI!

MDYNRDIAEIIKDIHNLEDIKKTLPTGCFNTPSIEKP!

A1! A2! A3!

A4!

A5! A6! A7!

A8! A9! A10!

C154! C155!

C156!

C157!

C158! C159!

C160! C161!

C162! C163!

C164! C165!

673 Synthetic peptides

!

Laminin-1! α1鎖!

β1鎖!

γ1鎖!

Screening of cell adhesive peptides !

(20)

細胞�

�

!

(21)

P D

P E T I E

P E P I T E D

-

E!

I!T!

D!

E!

P!

E! P!

I!T!

D!

E!

P! P!

E! T!

I!

D!

E!

P!

E! T!I! D!

E!

P!

(22)

1) Yamada, Y. & Kleinman, H. K. (1992) Current Opin. Cell Biol., 4, 819-823.

2) Nomizu, M., Kim, W. H., Yamamura, K., Utani, A., Song, S. -Y., Otaka, A., Roller, P. P., Kleinman, H.

K., & Yamada, Y. (1995) J. Biol. Chem., 270, 20583-20590.

3) Nomizu, M., Kuratomi, Y., Song, S.-Y., Ponce, L. M., Hoffman, M. P., Powell, S. K., Miyoshi, K., Otaka, A., Kleinman, H. K., & Yamada, Y. (1997) J. Biol. Chem., 272, 32198-32205.

4) Nomizu, M., Kuratomi, Y., Malinda, K. M., Song, S.-Y., Miyoshi, K., Otaka, A., Powell, S. K., Hoffman, M. P., Kleinman, H. K., & Yamada, Y. (1998) J. Biol. Chem., 273, 32491-32499.

5) Nomizu, M., Kuratomi, Y., Ponce, L. M., Song, S. -Y., Miyoshi, K., Otaka, A., Powell, S. K., Hoffman, M. P., Kleinman, H. K., & Yamada, Y. (2000) Arch. Biochem. Biophys., 378, 311-320.

6) Suzuki, N., Nakatsuka, H., Mochizuki, M., Nishi, N., Kadoya, Y., Utani, A., Oishi, S., Fujii, N., Kleinman, H. K., & Nomizu, M. (2003) J. Biol. Chem., 278, 45697-45705.

7) Hoffman, M. P., Nomizu, M., Roque, E., Lee, S., Jung, D. W., Yamada, Y., & Kleinman, H. K. (1998) J.

Biol. Chem., 273, 28633-28641.

8) Kadoya, Y., Nomizu, M., Sorokin, L. M., Yamashina, S., & Yamada, Y. (1998) Dev. Dyn., 212, 394-402.

9) Hoffman, M. P., Engbring, J. A., Nielsen, P. K., Vargas, J., Steinberg, Z., Karmand, A. J., Nomizu, M., Yamada, Y., & Kleinman, H. K. (2001) J. Biol. Chem., 276, 22077-22085.

10) Hozumi, K., Suzuki, N., Nielsen, P. K., Nomizu, M., & Yamada, Y. (2007) J. Biol. Chem., 281, 32929-32940.

11) Mochizuki, M., Kadoya, Y., Wakabayashi, Y., Kato, K., Okazaki, I., Yamada, M., Sato, T., Sakairi, N., Nishi, N., & Nomizu, M. (2003) FASEB J., 17, 875-877.

12) Hozumi, K., Yamagata, N., Otagiri, D., Fujimori, C., Kikkawa, Y., Kadoya, Y., & Nomizu, M.(2009) Biomaterials, 30, 1596-1603.

13) Hozumi, K., Sasaki, A., Yamada, Y., Otagiri, D., Kobayashi, K., Fujimori, C., Katagiri, F., Kikkawa, Y., Nomizu, M. (2012) Biomaterials, 33, 4241-4250.

14) Ikemoto, S., Mochizuki, M., Yamada, M., Takeda, A., Uchinuma, E., Yamashina, S., Nomizu, M., &

Kadoya, Y. (2006) J. Biomed. Mater. Res. A, 79, 716-722.

15) Masuda, R., Mochizuki, M., Hozumi, K., Takeda, A., Uchinuma, E., Yamashina, S., Nomizu, M., &

Kadoya, Y. (2009) Wound Repair Regen., 17, 127-135.

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1 [email protected]

2

1 2

Spatiotemporal resolution of the Ntla transcriptome in axial mesoderm development.

Shestopalov IA, Pitt CL, Chen JK., Nat. Chem. Biol., 8, 270–276(2012).

(MO)

(cMO) MO

( .1(a))

Ntla cMO

Ntla ( .1(b))

(cFD) cMO

Ntla

(24)

Ntla

Ntla 100

Ntla 8

Ntla

Ntla 2 flh fgf8a

Ntla Ntla

Spatiotemporal control of gene expression by a light-switchable transgene system.

Xue Wang, Xianjun Chen, Yi Yang, Nat. Methods., 9 , 266–269 (2012).

400 nm

1 (a) (cMO) . (b) cMO (cFD)

. ( )

(25)

Vivid Gal4 ( .2(a))

2 1

2 100

LED Insulin

( .2(b))

Light-based feedback for controlling intracellular signaling dynamics.

Toettcher JE, Gong D, Lim WA, Weiner OD. Nat. Methods., 8 , 837–839 (2011).

2 (a) Vivid . (b)

. mCherry . mCherry

, mCherry . (

)

Vivid

(26)

PI3K PhyB PIF6

650 nm 750 nm

750 nm S/N

2 PI3K PI3K

PhyB PIF6 PI3K

PI3K (PIP₂)

(PIP₃) PI3K

PIP₃ Akt

PIP₃ .3(a),

(b) PIP₃ Akt PIP₃

.3(c)

PI3K PI3K

400 PI3K LY294002

PI3K

3 (a) PhyB PIF6 PI3K . PHAkt PIP₃ Akt .

(b) . (c)

(With feedback( )) (No feedback( )) . (

)

400 800

T (sec)

LY294002(PI3K )

Target function Light(650 nm) ight(650 nm)ight(650 nm)

PIF6 PhyB

(27)

3 [email protected]

in vivo

DNA

Asymmetry and aging of mycobacterial cells lead to variable growth and antibiotic susceptibility B. B. Aldridge, M. Fernandez-Suarez, D. Heller, V. Ambravaneswaran, D. Irimia, M. Toner, S. M. Fortune, Science, 355, 100–104 (2012).

150 HIV/

Mycobacterium tuberculsis

M. tuberculsis M.

smegmatis

1

10-17 µm 0.8-0.9 µm 2

(28)

Rapid, sensitive, and quantitative detection of pathogenic DNA at the point of care through microfluidic electrochemical quantitative loop-mediated isothermal amplification

K. Hsieh, A. S. Patterson, B. S. Ferguson, K. W. Plazco, H. T. Soh, Angew. Chem. Int. Ed., 51, 4896–4900 (2012).

(POC)

POC Hsieh

Salmonella enterica enterica MEQ-LAMP

MB LAMP

DNA MB

DNA DNA MB LAMP

DNA MB DNA

2 MB

LAMP

PCR 4 fg/µL

DNA POC

(29)

Human gut-on-a-chip inhabited by microbial flora that experiences intestinal peristalsis-like motions and flow

H. J. Kim, D. Hub, G. Hamilton D. E. Ingber, Lab Chip, DOI: 10.1039/C2LC40074J (2012).

gut-on-a-chip 10 µm

50%

3 Caco-2 BBe 3

21 3

30-40 µm 6

3e

3-4 7

Lactobacillus rhamnosus GG (LGG) LGG

(30)

([email protected])

(Max Planck Institute of Molecular Physiology)

Herbert Waldmann 2011 3

4 Waldmann

Waldmann 1 2010 3

Waldmann Waldmann

(31)

2 Waldmann 2

Waldmann fellowship

NRW 59

30

Das Bitte! (

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8

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2010-2011 2011-2012

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SAR Study Pull Down Probe

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Andrey

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(34)

第６回バイオ関連化学シンポジウム

（第 27 回生体機能関連化学シンポジウム、第 15 回バイオテクノロジー部会シンポジウム、第 15 回生命化学研究会シンポジウム）

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第 39 回国際核酸化学シンポジウム

The 39

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1. Chemistry of Nucleosides, Nucleotides, and Their Analogues 2. Medicinal Chemistry of Nucleosides and Oligonucleotides 3. DNA/RNA Chemistry and Biochemistry

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(38)

第 2 回アジアケミカルバイオロジー会議（第 15 回生命化学研究会）

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[email protected]

細胞構造生物学

2

小澤 岳昌

4

細胞構造生物学

伊藤 隆

世界最大規模の食中毒シガテラを予防する

円谷 健

細胞外マトリックスのペプチド科学

野水 基義

23

桂 嘉宏

内藤 豊裕

30

ドイツ・マックスプランク分子生理学研究所留学体験記

高山 浩

34

in-cell NMR

1. Ellis, R.J., Trends. Biochem. Sci. 26, 597-604 (2001).

2. Ito, Y. & Selenko, P., Curr. Opin. Struct. Biol. 20, 640-648 (2010).

3. Sakakibara, D. et al., Nature 458, 102-105 (2009).

4. Ikeya, T. et al., Nat. Protoc. 5, 1051-1060 (2010).

5. Serber, Z. et al., J. Am. Chem. Soc. 123, 2446-2447 (2001).

6. Selenko, P. et al., Proc. Natl. Acad. Sci. USA 103, 11904-11909 (2006).

7. Sakai, T. et al., J. Biomol. NMR 36, 179-188 (2006).

8. Inomata, K. et al., Nature 458, 106-109 (2009).

9. Ogino, S. et al., J. Am. Chem. Soc. 131, 10834-10835 (2009).

10. Serber, Z. & Dotsch, V., Biochemistry 40, 14317-14323 (2001).

11. Barna, J. C. J. et al., J. Magn. Reson. 73, 69-77 (1987).

12. Rovnyak, D. et al., J. Magn. Reson. 170, 15-21 (2004).

13. Rosen, M.K. et al., J. Mol. Biol. 263, 627-636 (1996).

14. Güntert, P., Prog. Nucl. Mag. Res. Sp. 43, 105–125 (2003).

15. Bodart, J.F. et al., J. Magn. Reson. 192, 252-257 (2008).

16. Ikeya, T. et al., J. Biomol. NMR 50, 137-146 (2011).

17. Burz, D. S. et al., Nat. Methods. 3, 91–93 (2006).

18. Dedmon, M. M. et al., Proc. Natl. Acad. Sci. USA 99, 12681-12684 (2002).

!

!

第６回バイオ関連化学シンポジウム

第 39 回国際核酸化学シンポジウム

The 39

International Symposium on Nucleic Acids Chemistry (ISNAC2012)

アンチセンス・遺伝子・デリバリーシンポジウム 2012 http://res.tagen.tohoku.ac.jp/~antisens/index.html

第 2 回アジアケミカルバイオロジー会議（第 15 回 生命化学研究会）

The Second Asian Chemical Biology Conference (ACBC2) http://www.chem.sci.osaka-u.ac.jp/lab/fukase/acbc2

^小澤 ^岳昌

伊藤隆

^{円谷健}

野水基義

^{桂嘉宏}

^内藤 ^豊裕

高山浩

第 2 回アジアケミカルバイオロジー会議（第 15 回生命化学研究会）