Nanodiamond landmarks for subcellular multimodal optical and electron imaging

Scientific Reports

Volumn 3, Issue , 2013, Pages

  Zurbuchen, Mark A ^a,b   Lake, Michael P ^b   Kohan, Sirus A ^b   Leung, Belinda ^b   Bouchard, Louis S ^a,b,c  

^a Engineering IV   (United States)

^b UNIVERSITY OF CALIFORNIA   (United States)

^c UNIVERSITY OF CALIFORNIA   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

DIAGNOSTIC AGENT; NANODIAMOND;

ARTICLE; CHEMISTRY; FLUORESCENCE MICROSCOPY; HELA CELL LINE; HUMAN; METHODOLOGY; MOLECULAR IMAGING; ULTRASTRUCTURE;

HELA CELLS; HUMANS; MICROSCOPY, FLUORESCENCE; MOLECULAR IMAGING; NANODIAMONDS;

EID: 84884237717     PISSN: None     EISSN: 20452322     Source Type: Journal    
DOI: 10.1038/srep02668     Document Type: Article

References (34)

1. Alivisatos, P. The use of nanocrystals in biological detection. Nat. Biotechnol. 22, 47-52 (2004). (Pubitemid 38057955)
2. Ishikawa-Ankerhold, H. C., Ankerhold, R. & Drummen, G. P. Advanced fluorescence microscopy techniques - FRAP, FLIP, FLAP, FRET and FLIM. Molecules 17, 4047-4132 (2012).
3. Abbe, E. Contributions to the theory of the microscope and microscopic detection (translated from the German). Arch. Mikroskop. Anat. 9, 413 (1873).
4. Hell, S. W. Far-field optical nanoscopy Single Molecule Spectroscopy in Chemistry, Physics and Biology. Gräslund, A., Rigler, R. & Widengren, J. (eds.), 365-398 (Springer, Berlin, 2010).
5. Deerinck, T. J. The application of fluorescent quantum dots to confocal, multiphoton, and electron microscopic imaging. Toxicologic Pathology 36, 112-116 (2008).
6. Muller, S. A., Aebi, U. & Engel, A. What transmission electron microscopes can visualize now and in the future. J. Struct. Biol. 163, 235-245 (2008).
7. Su, Y. et al. Multi-dimensional correlative imaging of subcellular events: combining the strengths of light and electron microscopy. Biophys. Rev. 2, 121-135 (2010).
8. Robinson, J. M., Takizawa, T. & Vandre, D. D. Applications of gold cluster compounds in immunocytochemistry and correlative microscopy: comparison with colloidal gold. J. Microscopy 199, 163-179 (2000).
9. Pombo, A., Hollinshead, M. & Cook, P. Bridging the resolution gap: imaging the same transcription factories in cryosections by light and electron microscopy. J. Histochem. Cytochem. 47, 471-480 (1999). (Pubitemid 29162845)
10. De Waele, M. Silver-enhanced colloidal gold for the detection of leucocyte cell surface antigens in dark-field and epipolarization microscopy. Colloidal Gold: Principles, Methods, and Applications. Hayat, M. A. (ed.), 443-467 (Academic Press, New York, 1989).
11. Hardman, R. A. Toxicologic review of quantum dots: toxicity depends on physicochemical and environmental factors. Environ. Health Perspect. 114, 165-172 (2006).
12. Nirmal, M. et al. Fluorescence intermittency in single cadmium selenide nanocrystals. Nature (London) 383, 802-804 (1996). (Pubitemid 26372658)
13. Deerinck, T. J. The Application of fluorescent quantum dots to confocal, multiphoton, and electron microscopic imaging. Toxicologic Pathology 36, 112-116 (2008).
14. Fu, C. C. et al. Characterization and application of single fluorescent nanodiamonds as cellular biomarkers. Proc. Natl. Acad. Sci. USA 104, 727-732 (2007).
15. McGuinness, L. P. et al. Quantum measurement and orientation tracking of fluorescent nanodiamonds inside living cells. Nat. Nanotechnol. 6, 358-363 (2011).
16. Manus, L. M. et al. Gd(III)-nanodiamond conjugates for MRI contrast enhancement. Nano Lett. 10, 484-489 (2010).
17. Lien, Z. Y. et al. Cancer cell labeling and tracking using fluorescent and magnetic nanodiamond. Biomaterials 33, 6172-6185 (2012).
18. Chow, E. K. et al. Nanodiamond therapeutic delivery agents mediate enhanced chemoresistant tumor treatment. Sci. Transl. Med. 3, 73ra21 (2011).
19. Alhaddad, A. et al.Nanodiamond as a vector for siRNA delivery to Ewing sarcoma cells. Small 7, 3087-3095 (2011).
20. Ho, D. Beyond the sparkle: the impact of nanodiamonds as biolabeling and therapeutic agents. ACS Nano 3, 3825-3829 (2009).
21. Chang, Y. R. et al. Mass production and dynamic imaging of fluorescent nanodiamonds. Nature Nanotechnol. 3, 284-288 (2008).
22. Kucsko, G. et al. Nanometre-scale thermometry in a living cell. Nature (London) 500, 54-58 (2013).
23. Jelezko, F. & Wrachtrup, J. Single defect centres in diamond: a review. Phys. Status Solidi 203, 3207-3225 (2006). (Pubitemid 44663368)
24. Horie, M. et al. Evaluation of cellular influences induced by stable nanodiamond dispersion; the cellular influences of nanodiamond are small. Diamond and Related Mater. 24, 15-24 (2012).
25. Zhang, X., Hu, W., Li, J., Tao, L. & Wei, Y. A comparative study of cellular uptake and cytotoxicity of multi-walled carbon nanotubes, graphene oxide, and nanodiamond. Toxicol. Res. 1, 62-68 (2012).
26. Mohan, N., Chen, C.-S., Hsieh, H.-H., Wu, Y.-C. & Chang, H.-C. In vivo imaging and toxicity assessments of fluorescent nanodiamonds in caenorhabditis elegans. Nano Lett. 10, 3692-3699 (2010).
27. Studer, D., Humbel, B. M. & Chiquet, M. Electron microscopy of high pressure frozen samples: bridging the gap between cellular ultrastructure and atomic resolution. Histochem. Cell Biol. 130, 877-889 (2008).
28. Tzeng, Y.-K. et al. Superresolution imaging of albumin-conjugated fluorescent nanodiamonds in cells by stimulated emission depletion. Angew. Chem. Int. Ed. 50, 2262-2265 (2011).
29. Schrand, A. M., Schlager, J. J., Dai, L. & Hussain, S. M. Preparation of cells for assessing ultrastructural localization of nanoparticles with transmission electron microscopy. Nature Protoc. 5, 744-757 (2010).
30. Liu, K.-K., Wang, C.-C., Cheng, C.-L. & Chao, J.-I. Endocytic carboxylated nanodiamond for the labeling and tracking of cell division and differentiation in cancer and stem cells. Biomaterials 30, 4249-4259 (2009).
31. Schrand, A. M., Lin, J. B., Hens, S. C. & Hussain, S. M. Temporal and mechanistic tracking of cellular uptake dynamics with novel surface fluorophore-bound nanodiamonds. Nanoscale 3, 435-445 (2011).
32. Faklaris, O. et al. Photoluminescent diamond nanoparticles for cell labeling: study of the uptake mechanism in mammalian cells. ACS Nano 3, 3955-3962 (2009).
33. Mkandawire, M. et al. Selective targeting of green fluorescent nanodiamond conjugates to mitochondria in HeLa cells. J. Biophotonics 2, 596-606 (2009).
34. Lakowicz, J. R. et al. Time-resolved fluorescence spectroscopy and imaging of DNA labeled with DAPI and Hoechst 33342 using three-photon excitation. Biophysical J. 72, 567-578 (1997). (Pubitemid 27044867)