TEM 300kV

Transmisyjne Mikroskopy Elektronowe

Gama 300 kV Transmisyjnych Mikroskopów Elektronowych z działem FEG, opcjonalnie wyposażonych w zintegrowany filtr Omega.
Dedykowana wersja Cryo dla biologów JEM-3200FSC chłodzona ciekłym helem.

JEM-3200FSC Najbardziej zaawansowane narzędzie badawcze dla Biologów
 
JEM-3200FSCJEM-3200FSC

Transmisyjny Mikroskop Elektronowy JEOL JEM-3200FSC jest specjalnie zaprojektowanym instrumentem dedykowanym pracy z preparatami zamrożonymi w warunkach kriogenicznych. Jest to idealne rozwiązanie dla zaawansowanych badań biologicznych, chemicznych i przemysłowych dla wszystkich delikatnych i słabo kontrastowych preparatów wymagających analizy na najwyższym poziomie.

Mikroskop JEOL JEM-3200FSC jest wyposażony w najnowszy zaawansowany wewnątrz kolumnowy filtr Omega  trzeciej generacji, zapewniający wyjątkową trwałość i stabilność urządzenia. Przy użyciu tylko jednego przycisku możliwe jest uzyskiwanie wysoko kontrastowych zdjęć pozbawionych deformacji. Równie łatwe jest precyzyjne oznaczanie składu chemicznego oznaczanego poprzez analizę widma strat energii (EELS), badanie rodzaju wiązań w próbce oraz pomiaru jej grubości.

Zintegrowany filtr Omega, urządzenie wymyślone przez Castaing-a i Henry-ego w 1975 roku z łatwością współpracuje z dowolnym rodzajem kamery obrazowej, w istotny sposób podnosząc kontrast i jakość uzyskiwanych fotografii.

Innowacyjny kasetowy system wprowadzania próbek zapewnia ciągłość warunków kriogenicznych i brak kontaktu z atmosferą. Unikalny dwustopniowy układ chłodzenia preparatu umożliwia chłodzenie preparatów do temperatury ciekłego azotu lub ciekłego helu umożliwiając niespotykane możliwości badawcze. JEOL JEM-3200FSC łączy w sobie najnowsze osiągnięcia w dziedzinie wysoko rozdzielczej mikroskopii elektronowej z niespotykaną łatwością obsługi i stabilnością całego układu transmisyjnego mikroskopu elektronowego.

Rozdzielczość
Liniowa
Punktowa

0.204nm
0.17 nm
Napięcie przyśpieszające
100 - 300kV
Powiększenia
100x-1,200,000x (27")
Spektrometr Filtr Omega - w pełni zintegrowany
Stolik preparatu
Cryo-stolik chłodzony ciekłym helem
 

Publikacje

 

[1]

Y. Fujiyoshi, T. Mizusaki, K. Morikawa, H. Yamagishi, Y. Aoki, H. Kihara, and Y. Harada, “Development of a superfluid helium stage for high-resolution electron microscopy,” Ultramicroscopy, vol. 38, no. 3–4, pp. 241–251, Dec. 1991.

[2]

T. Goto, T. Ashina, Y. Fujiyoshi, N. Kume, H. Yamagishi, and M. Nakai, “Projection Structures of Human Immunodeficiency Virus Type 1 (HIV-1) Observed with High Resolution Electron Cryo-Microscopy,” J Electron Microsc (Tokyo), vol. 43, no. 1, pp. 16–19, Jan. 1994.

[3]

Y. Fujiyoshi, N. P. Kume, K. Sakata, and S. B. Sato, “Fine structure of influenza A virus observed by electron cryo-microscopy.,” The EMBO Journal, vol. 13, no. 2, p. 318, Jan. 1994.

[4]

A. Knoblich, M. Matsumoto, K. Murata, and Y. Fujiyoshi, “Cryogenic Transmission Electron Microscopic Studies of Micellar Structure Correlated with Solution Viscosity on Perfluorooctyl Sufonates and Their Mixtures with a Nonionic Surfactant,” Langmuir, vol. 11, no. 7, pp. 2361–2366, Jul. 1995.

[5]

A. Knoblich, M. Matsumoto, R. Ishiguro, K. Murata, Y. Fujiyoshi, Y. Ishigami, and M. Osman, “Electron cryo-microscopic studies on micellar shape and size of surfactin, an anionic lipopeptide,” Colloids and Surfaces B: Biointerfaces, vol. 5, no. 1–2, pp. 43–48, Sep. 1995.

[6]

Y. Mimori-Kiyosue, F. Vonderviszt, I. Yamashita, Y. Fujiyoshi, and K. Namba, “Direct interaction of flagellin termini essential for polymorphic ability of flagellar filament,” PNAS, vol. 93, no. 26, pp. 15108–15113, Dec. 1996.

[7]

M. Tosaka, N. Hamada, M. Tsuji, S. Kohjiya, T. Ogawa, S. Isoda, and T. Kobayashi, “Crystallization of Syndiotactic Polystyrene in β-Form. 1. Positional Identification of Stacking Faults in the Solution-Grown Single Crystals,” Macromolecules, vol. 30, no. 14, pp. 4132–4136, Jul. 1997.

[8]

T. Ogawa, S. Isoda, and T. Kobayashi, “Structure Analysis of C              60              Low-Temperature Phase by Electron Crystallography with Cryo-TEM,” Acta Crystallographica Section B Structural Science, vol. 53, no. 5, pp. 831–837, Oct. 1997.

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W. Helbert, J. Sugiyama, S. Kimura, and T. Itoh, “High-resolution electron microscopy on ultrathin sections of cellulose microfibrils generated by glomerulocytes in<i>Polyzoa vesiculiphora</i>,” Protoplasma, vol. 203, no. 1, pp. 84–90, 1998.

[10]

I. Ikeda-Yamasaki, T. Odahara, K. Mitsuoka, Y. Fujiyoshi, and K. Murata, “Projection map of the reaction center-light harvesting 1 complex from Rhodopseudomonas viridis at 10 Å resolution,” FEBS Letters, vol. 425, no. 3, pp. 505–508, Apr. 1998.

[11]

M. Tosaka, M. Tsujl, L. Cartier, B. Lotz, S. Kohjiya, T. Ogawa, S. Isoda, and T. Kobayashi, “High-resolution TEM of the melt-crystallized modification of syndiotactic polystyrene,” Polymer, vol. 39, no. 21, pp. 5273–5275, Oct. 1998.

[12]

T. Hirai, K. Murata, K. Mitsuoka, Y. Kimura, and Y. Fujiyoshi, “Trehalose embedding technique for high-resolution electron crystallography: application to structural study on bacteriorhoposin,” J Electron Microsc (Tokyo), vol. 48, no. 5, pp. 653–658, Jan. 1999.

[13]

M. Tosaka, M. Tsuji, S. Kohjiya, L. Cartier, and B. Lotz, “Crystallization of Syndiotactic Polystyrene in β-Form. 4. Crystal Structure of Melt-Grown Modification,” Macromolecules, vol. 32, no. 15, pp. 4905–4911, Jul. 1999.

[14]

M. Matsumoto, C. E. McNamee, D. P. Bossev, M. Nakahara, and T. Ogawa, “Structure of salted-out, solubilized micelles and microemulsions on the perfluorinated anionic surfactant tetraethylammonium perfluorooctyl sulfonate studied by cryogenic transmission electron microscopy,” Colloid & Polymer Science, vol. 278, no. 7, pp. 619–628, 2000.

[15]

W. Chen, G. Li, J.-O. Malm, Y. Huang, R. Wallenberg, H. Han, Z. Wang, and J.-O. Bovin, “Pressure dependence of Mn2+ fluorescence in ZnS : Mn2+ nanoparticles,” Journal of Luminescence, vol. 91, no. 3–4, pp. 139–145, Nov. 2000.

[16]

M. Tosaka, T. Kamijo, M. Tsuji, S. Kohjiya, T. Ogawa, S. Isoda, and T. Kobayashi, “High-Resolution Transmission Electron Microscopy of Crystal Transformation in Solution-Grown Lamellae of Isotactic Polybutene-1,” Macromolecules, vol. 33, no. 26, pp. 9666–9672, Dec. 2000.

[17]

B. p. Binks, “Macroporous Silica From Solid-Stabilized Emulsion Templates,” Advanced Materials, vol. 14, no. 24, pp. 1824–1827, 2002.

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P. J. Holm, R. Morgenstern, and H. Hebert, “The 3-D structure of microsomal glutathione transferase 1 at 6 Å resolution as determined by electron crystallography of p22121 crystals,” Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology, vol. 1594, no. 2, pp. 276–285, Feb. 2002.

[19]

S. Hahakura, S. Isoda, T. Ogawa, S. Moriguchi, and T. Kobayashi, “Formation of ultrafine platinum particles in an aqueous solution with a surfactant,” Journal of Crystal Growth, vol. 237–239, Part 3, no. 0, pp. 1942–1945, Apr. 2002.

[20]

T. Nagata, “The Utility Value of High Voltage Electron Microscopy for X-Ray Microanalysis,” Acta Histochemica Et Cytochemica, vol. 36, no. 4, pp. 299–315, 2003.

[21]

Y. Yoshioka, M. Tsujimoto, M. Koshino, T. Nemoto, T. Ogawa, H. Kurata, and S. Isoda, “Characterization of GrÄTzel Dye on Tio 2 Particles by Transmission Electron Microscopy,” Molecular Crystals and Liquid Crystals, vol. 424, no. 1, pp. 95–102, 2004.

[22]

N. Gyobu, K. Tani, Y. Hiroaki, A. Kamegawa, K. Mitsuoka, and Y. Fujiyoshi, “Improved specimen preparation for cryo-electron microscopy using a symmetric carbon sandwich technique,” Journal of Structural Biology, vol. 146, no. 3, pp. 325–333, Jun. 2004.

[23]

M. Steinhart, S. Murano, A. K. Schaper, T. Ogawa, M. Tsuji, U. Gösele, C. Weder, and J. H. Wendorff, “Morphology of Polymer/Liquid-Crystal Nanotubes: Influence of Confinement,” Advanced Functional Materials, vol. 15, no. 10, pp. 1656–1664, 2005.

[24]

Y. Kaneko, R. Danev, K. Nitta, and K. Nagayama, “In vivo subcellular ultrastructures recognized with Hilbert differential contrast transmission electron microscopy,” J Electron Microsc (Tokyo), vol. 54, no. 1, pp. 79–84, Jan. 2005.

[25]

A. K. Schaper, T. Yoshioka, T. Ogawa, and M. Tsuji, “Electron microscopy and diffraction of radiation-sensitive nanostructured materials,” Journal of Microscopy, vol. 223, no. 2, pp. 88–95, 2006.

[26]

Y. Kaneko, R. Danev, K. Nagayama, and H. Nakamoto, “Intact Carboxysomes in a Cyanobacterial Cell Visualized by Hilbert Differential Contrast Transmission Electron Microscopy,” J. Bacteriol., vol. 188, no. 2, pp. 805–808, Jan. 2006.

[27]

A. Ohta, R. Danev, K. Nagayama, T. Mita, T. Asakawa, and S. Miyagishi, “Transition from Nanotubes to Micelles with Increasing Concentration in Dilute Aqueous Solution of Potassium N-Acyl Phenylalaninate,” Langmuir, vol. 22, no. 20, pp. 8472–8477, Sep. 2006.

[28]

J. Evans, C. Hetherington, A. Kirkland, H. Stahlberg, and N. Browning, “Cs-Corrected Cryo-Electron Microscopy for Biological Samples,” Microscopy and Microanalysis, vol. 13, no. Supplement S02, pp. 1164–1165, 2007.

[29]

Y. Kimura, H. Takata, M. Terazima, T. Ogawa, and S. Isoda, “Preparation of Gold Nanoparticles by the Laser Ablation in Room-temperature Ionic Liquids,” Chemistry Letters, vol. 36, no. 9, pp. 1130–1131, 2007.

[30]

T. Nakanishi, K. Ariga, T. Michinobu, K. Yoshida, H. Takahashi, T. Teranishi, H. Möhwald, and D. G. Kurth, “Flower-Shaped Supramolecular Assemblies: Hierarchical Organization of a Fullerene Bearing Long Aliphatic Chains,” Small, vol. 3, no. 12, pp. 2019–2023, 2007.

[31]

A. K. Schaper, H. Kurata, T. Yoshioka, and M. Tsuji, “Composite Structure of Liquid Crystal/Polymer Nanotubes Revealed by High-Angle Annular Dark-Field Scanning Transmission Electron Microscopy,” Microscopy and Microanalysis, vol. 13, no. 05, pp. 336–341, 2007.

[32]

K. Yoshida, H. Minamikawa, S. Kamiya, T. Shimizu, and S. Isoda, “Formation of Self-Assembled Glycolipid Nanotubes with Bilayer Sheets,” Journal of Nanoscience and Nanotechnology, vol. 7, no. 3, pp. 960–964, 2007.

[33]

T. Oda, N. Hirokawa, and M. Kikkawa, “Three-dimensional structures of the flagellar dynein–microtubule complex by cryoelectron microscopy,” J Cell Biol, vol. 177, no. 2, pp. 243–252, Apr. 2007.

[34]

H. Jinnai, Y. Shinbori, T. Kitaoka, K. Akutagawa, N. Mashita, and T. Nishi, “Three-Dimensional Structure of a Nanocomposite Material Consisting of Two Kinds of Nanofillers and Rubbery Matrix Studied by Transmission Electron Microtomography,” Macromolecules, vol. 40, no. 18, pp. 6758–6764, Sep. 2007.

[35]

Y. Maitani, S. Igarashi, M. Sato, and Y. Hattori, “Cationic liposome (DC-Chol/DOPE = 1:2) and a modified ethanol injection method to prepare liposomes, increased gene expression,” International Journal of Pharmaceutics, vol. 342, no. 1–2, pp. 33–39, Sep. 2007.

[36]

S. Maki-Yonekura and K. Yonekura, “Electron Digital Imaging toward High-Resolution Structure Analysis of Biological Macromolecules,” Microscopy and Microanalysis, vol. 14, no. 04, pp. 362–369, 2008.

[37]

T. Nakanishi, T. Michinobu, K. Yoshida, N. Shirahata, K. Ariga, H. Möhwald, and D. G. Kurth, “Nanocarbon Superhydrophobic Surfaces created from Fullerene-Based Hierarchical Supramolecular Assemblies,” Advanced Materials, vol. 20, no. 3, pp. 443–446, 2008.

[38]

K. Sasaki, K. Kogure, S. Chaki, Y. Nakamura, R. Moriguchi, H. Hamada, R. Danev, K. Nagayama, S. Futaki, and H. Harashima, “An artificial virus-like nano carrier system: enhanced endosomal escape of nanoparticles via synergistic action of pH-sensitive fusogenic peptide derivatives,” Analytical and Bioanalytical Chemistry, vol. 391, no. 8, pp. 2717–2727, 2008.

[39]

A. Shah, S. May, J. Wen, X. Zhai, J. Eckstein, A. Bhattacharya, and J. Zuo, “Probing Asymmetric Interfaces of LaMnO3 / SrMnO3 Superlattices with Aberration-Corrected Scanning Transmission Electron Microscopy,” Microscopy and Microanalysis, vol. 14, no. Supplement S2, pp. 18–19, 2008.

[40]

A. Oshima, K. Tani, Y. Hiroaki, Y. Fujiyoshi, and G. E. Sosinsky, “Projection Structure of a N-Terminal Deletion Mutant of Connexin 26 Channel with Decreased Central Pore Density,” Cell Communication and Adhesion, vol. 15, no. 1–2, pp. 85–93, Jan. 2008.

[41]

R. Danev and K. Nagayama, “Single particle analysis based on Zernike phase contrast transmission electron microscopy,” Journal of Structural Biology, vol. 161, no. 2, pp. 211–218, Feb. 2008.

[42]

H. Yui, H. Minamikawa, R. Danev, K. Nagayama, S. Kamiya, and T. Shimizu, “Growth Process and Molecular Packing of a Self-assembled Lipid Nanotube: Phase-Contrast Transmission Electron Microscopy and XRD Analyses,” Langmuir, vol. 24, no. 3, pp. 709–713, Feb. 2008.

[43]

P. Julián, A. L. Konevega, S. H. W. Scheres, M. Lázaro, D. Gil, W. Wintermeyer, M. V. Rodnina, and M. Valle, “Structure of ratcheted ribosomes with tRNAs in hybrid states,” PNAS, vol. 105, no. 44, pp. 16924–16927, Apr. 2008.

[44]

M.-K. Han, K. Hoang, H. Kong, R. Pcionek, C. Uher, K. M. Paraskevopoulos, S. D. Mahanti, and M. G. Kanatzidis, “Substitution of Bi for Sb and its Role in the Thermoelectric Properties and Nanostructuring in Ag1−xPb18MTe20 (M = Bi, Sb) (x = 0, 0.14, 0.3),” Chem. Mater., vol. 20, no. 10, pp. 3512–3520, May 2008.

[45]

T. Nishizawa, K. Abe, K. Tani, and Y. Fujiyoshi, “Structural analysis of 2D crystals of gastric H+,K+-ATPase in different states of the transport cycle,” Journal of Structural Biology, vol. 162, no. 2, pp. 219–228, May 2008.

[46]

K. Nagayama and R. Danev, “Phase contrast electron microscopy: development of thin-film phase plates and biological applications,” Phil. Trans. R. Soc. B, vol. 363, no. 1500, pp. 2153–2162, Jun. 2008.

[47]

J. E. Evans, C. Hetherington, A. Kirkland, L.-Y. Chang, H. Stahlberg, and N. Browning, “Low-dose aberration corrected cryo-electron microscopy of organic specimens,” Ultramicroscopy, vol. 108, no. 12, pp. 1636–1644, Nov. 2008.

[48]

V. Kuvichkin, R. Danev, H. Shigematsu, and K. Nagayama, “DNA-Induced Aggregation and Fusion of Phosphatidylcholine Liposomes in the Presence of Multivalent Cations Observed by the Cryo-TEM Technique,” Journal of Membrane Biology, vol. 227, no. 2, pp. 95–103, 2009.

[49]

K. Nitta, K. Nagayama, R. Danev, and Y. Kaneko, “Visualization of BrdU-labelled DNA in cyanobacterial cells by Hilbert differential contrast transmission electron microscopy,” Journal of Microscopy, vol. 234, no. 2, pp. 118–123, 2009.

[50]

V. V. Kuvichkin, R. S. Danev, H. Shigematsu, and K. Nagayama, “DNA-Induced Aggregation and Fusion of Phosphatidylcholine Liposomes in the Presence of Multivalent Cations Observed by the Cryo-TEM Technique,” Journal of Membrane Biology, vol. 227, no. 2, pp. 95–103, Jan. 2009.

[51]

R. Danev, R. M. Glaeser, and K. Nagayama, “Practical factors affecting the performance of a thin-film phase plate for transmission electron microscopy,” Ultramicroscopy, vol. 109, no. 4, pp. 312–325, Mar. 2009.

[52]

K. Abe, K. Tani, T. Nishizawa, and Y. Fujiyoshi, “Inter-subunit interaction of gastric H+,K+-ATPase prevents reverse reaction of the transport cycle,” The EMBO Journal, vol. 28, no. 11, pp. 1637–1643, Mar. 2009.

[53]

H. Akita, A. Kudo, A. Minoura, M. Yamaguti, I. A. Khalil, R. Moriguchi, T. Masuda, R. Danev, K. Nagayama, K. Kogure, and H. Harashima, “Multi-layered nanoparticles for penetrating the endosome and nuclear membrane via a step-wise membrane fusion process,” Biomaterials, vol. 30, no. 15, pp. 2940–2949, May 2009.

[54]

Y. Cong, Q. Zhang, D. Woolford, T. Schweikardt, H. Khant, M. Dougherty, S. J. Ludtke, W. Chiu, and H. Decker, “Structural Mechanism of SDS-Induced Enzyme Activity of Scorpion Hemocyanin Revealed by Electron Cryomicroscopy,” Structure, vol. 17, no. 5, pp. 749–758, May 2009.

[55]

T. Kato, R. P. Goodman, C. M. Erben, A. J. Turberfield, and K. Namba, “High-Resolution Structural Analysis of a DNA Nanostructure by cryoEM,” Nano Lett., vol. 9, no. 7, pp. 2747–2750, Jul. 2009.

[56]

K. Yoshida, Y. H. Ikuhara, S. Takahashi, T. Hirayama, T. Saito, S. Sueda, N. Tanaka, and P. L. Gai, “The three-dimensional morphology of nickel nanodots in amorphous silica and their role in high-temperature permselectivity for hydrogen separation,” Nanotechnology, vol. 20, no. 31, p. 315703, Aug. 2009.

[57]

T. Masuda, H. Akita, K. Niikura, T. Nishio, M. Ukawa, K. Enoto, R. Danev, K. Nagayama, K. Ijiro, and H. Harashima, “Envelope-type lipid nanoparticles incorporating a short PEG-lipid conjugate for improved control of intracellular trafficking and transgene transcription,” Biomaterials, vol. 30, no. 27, pp. 4806–4814, Sep. 2009.

[58]

Y. Wang, M. Zhang, C. Moers, S. Chen, H. Xu, Z. Wang, X. Zhang, and Z. Li, “Block copolymer aggregates with photo-responsive switches: Towards a controllable supramolecular container,” Polymer, vol. 50, no. 20, pp. 4821–4828, Sep. 2009.

[59]

T. Fujii, T. Kato, and K. Namba, “Specific Arrangement of α-Helical Coiled Coils in the Core Domain of the Bacterial Flagellar Hook for the Universal Joint Function,” Structure, vol. 17, no. 11, pp. 1485–1493, Nov. 2009.

[60]

M. Harada, Y. Kimura, K. Saijo, T. Ogawa, and S. Isoda, “Photochemical synthesis of silver particles in Tween 20/water/ionic liquid microemulsions,” Journal of Colloid and Interface Science, vol. 339, no. 2, pp. 373–381, Nov. 2009.

[61]

R. Alvarez-Rodríguez, F. J. Arias, M. Santos, A. M. Testera, and J. C. Rodríguez-Cabello, “Gold Tailored Photosensitive Elastin-like Polymer: Synthesis of Temperature, pH and UV-vis Sensitive Probes,” Macromolecular Rapid Communications, vol. 31, no. 6, pp. 568–573, 2010.

[62]

B. Armbruster, J. Brink, R. Danev, T. Isabell, M. Kawasaki, M. Marko, S. Motoki, and K. Nagayama, “Hardware Considerations to Optimize Zernike Phase Contrast TEM for Cryo-tomography and Single Particle Data Acquisition,” Microscopy and Microanalysis, vol. 16, no. Supplement S2, pp. 554–555, 2010.

[63]

J. Conde-Vancells, E. Rodriguez-Suarez, E. Gonzalez, A. Berisa, D. Gil, N. Embade, M. Valle, Z. Luka, F. Elortza, C. Wagner, S. C. Lu, J. M. Mato, and J. M. Falcon-Perez, “Candidate biomarkers in exosome-like vesicles purified from rat and mouse urine samples,” PROTEOMICS – Clinical Applications, vol. 4, no. 4, pp. 416–425, 2010.

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M. B. Sherman, A. N. Freiberg, D. Razmus, S. Yazuka, C. Koht, V. J. Hilser, S. M. Lemon, A.-S. Brocard, D. Zimmerman, W. Chiu, S. J. Watowich, and S. C. Weaver, “A Unique BSL-3 Cryo-Electron Microscopy Laboratory at UTMB,” Appl Biosaf, vol. 15, no. 3, pp. 130–136, 2010.

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N. Miyazaki, B. Wu, K. Hagiwara, C.-Y. Wang, L. Xing, L. Hammar, A. Higashiura, T. Tsukihara, A. Nakagawa, T. Omura, and R. H. Cheng, “The functional organization of the internal components of Rice dwarf virus,” J Biochem, vol. 147, no. 6, pp. 843–850, Jan. 2010.

[66]

N. Nakamura, Y. Shimizu, T. Shinkawa, M. Nakata, B. Bammes, J. Zhang, and W. Chiu, “Automated specimen search in cryo-TEM observation with DIFF-defocus imaging,” J Electron Microsc (Tokyo), vol. 59, no. 4, pp. 299–310, Jan. 2010.

[67]

A. Kishimoto-Okada, S. Murakami, Y. Ito, N. Horii, H. Furukawa, J. Takagi, and K. Iwasaki, “Comparison of the envelope architecture of E. coli using two methods: CEMOVIS and cryo-electron tomography,” J Electron Microsc (Tokyo), vol. 59, no. 5, pp. 419–426, Jan. 2010.

[68]

Y. Han, C. He, M. Cao, X. Huang, Y. Wang, and Z. Li, “Facile Disassembly of Amyloid Fibrils Using Gemini Surfactant Micelles,” Langmuir, vol. 26, no. 3, pp. 1583–1587, Feb. 2010.

[69]

Z. Xu, Y. Niu, L. Yang, W. Xie, H. Li, Z. Gan, and Z. Wang, “Morphology, rheology and crystallization behavior of polylactide composites prepared through addition of five-armed star polylactide grafted multiwalled carbon nanotubes,” Polymer, vol. 51, no. 3, pp. 730–737, Feb. 2010.

[70]

T. Nakanishi, Y. Shen, J. Wang, H. Li, P. Fernandes, K. Yoshida, S. Yagai, M. Takeuchi, K. Ariga, D. G. Kurth, and H. Möhwald, “Superstructures and superhydrophobic property in hierarchical organized architectures of fullerenes bearing long alkyl tails,” J. Mater. Chem., vol. 20, no. 7, pp. 1253–1260, Feb. 2010.

[71]

T. Yamaguchi, T. Fujii, Y. Abe, T. Hirai, D. Kang, K. Namba, N. Hamasaki, and K. Mitsuoka, “Helical image reconstruction of the outward-open human erythrocyte band 3 membrane domain in tubular crystals,” Journal of Structural Biology, vol. 169, no. 3, pp. 406–412, Mar. 2010.

[72]

K. Abe, K. Tani, and Y. Fujiyoshi, “Structural and functional characterization of H+,K+-ATPase with bound fluorinated phosphate analogs,” Journal of Structural Biology, vol. 170, no. 1, pp. 60–68, Apr. 2010.

[73]

N. Merlet-Lacroix, J. Rao, A. Zhang, A. D. Schlüter, S. Bolisetty, J. Ruokolainen, and R. Mezzenga, “Controlling Hierarchical Self-Assembly in Supramolecular Tailed-Dendron Systems,” Macromolecules, vol. 43, no. 10, pp. 4752–4760, May 2010.

[74]

P. Guichard, D. Chrétien, S. Marco, and A.-M. Tassin, “Procentriole assembly revealed by cryo-electron tomography,” The EMBO Journal, vol. 29, no. 9, pp. 1565–1572, May 2010.

[75]

C. Wu, Y. Hou, M. Deng, X. Huang, D. Yu, J. Xiang, Y. Liu, Z. Li, and Y. Wang, “Molecular Conformation-Controlled Vesicle/Micelle Transition of Cationic Trimeric Surfactants in Aqueous Solution,” Langmuir, vol. 26, no. 11, pp. 7922–7927, Jun. 2010.

[76]

D. Yu, Q. Zhang, C. Wu, Y. Wang, L. Peng, D. Zhang, Z. Li, and Y. Wang, “Highly Fluorescent Aggregates Modulated by Surfactant Structure and Concentration,” J. Phys. Chem. B, vol. 114, no. 27, pp. 8934–8940, Jul. 2010.

[77]

K. Yoshida, S. Tanemura, T. Torimoto, N. Tanaka, E. D. Boyes, and P. L. Gai, “Quantitative high-resolution microscopy of size-controlled metallic nanodots on titania photocatalysts,” Journal of Physics: Conference Series, vol. 241, p. 012047, Jul. 2010.

[78]

T.-L. Tsai, D.-B. Shieh, C.-S. Yeh, Y. Tzeng, K. Htet, K.-S. Chuang, J. R. Hwu, and W.-C. Su, “The down regulation of target genes by photo activated DNA nanoscissors,” Biomaterials, vol. 31, no. 25, pp. 6545–6554, Sep. 2010.

[79]

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