Abstract

In this work, we incorporate and image individual fluorescent nanodiamonds in the powerful genetic model system Drosophila melanogaster. Fluorescence correlation spectroscopy and wide-field imaging techniques are applied to individual fluorescent nanodiamonds in blastoderm cells during stage 5 of development, up to a depth of 40 µm. The majority of nanodiamonds in the blastoderm cells during cellularization exhibit free diffusion with an average diffusion coefficient of (6 ± 3) × 10−3 µm2/s, (mean ± SD). Driven motion in the blastoderm cells was also observed with an average velocity of 0.13 ± 0.10 µm/s (mean ± SD) µm/s and an average applied force of 0.07 ± 0.05 pN (mean ± SD). Nanodiamonds in the periplasm between the nuclei and yolk were also found to undergo free diffusion with a significantly larger diffusion coefficient of (63 ± 35) × 10−3 µm2/s (mean ± SD). Driven motion in this region exhibited similar average velocities and applied forces compared to the blastoderm cells indicating the transport dynamics in the two cytoplasmic regions are analogous.

© 2014 Optical Society of America

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2013 (2)

Y. Kuo, T.-Y. Hsu, Y.-C. Wu, and H.-C. Chang, “Fluorescent nanodiamond as a probe for the intercellular transport of proteins in vivo,” Biomaterials 34(33), 8352–8360 (2013).
[Crossref] [PubMed]

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[Crossref] [PubMed]

2012 (2)

R. Igarashi, Y. Yoshinari, H. Yokota, T. Sugi, F. Sugihara, K. Ikeda, H. Sumiya, S. Tsuji, I. Mori, H. Tochio, Y. Harada, and M. Shirakawa, “Real-Time Background-Free Selective Imaging of Fluorescent Nanodiamonds in Vivo,” Nano Lett. 12(11), 5726–5732 (2012).
[Crossref] [PubMed]

V. Vaijayanthimala, P.-Y. Cheng, S.-H. Yeh, K.-K. Liu, C.-H. Hsiao, J.-I. Chao, and H.-C. Chang, “The long-term stability and biocompatibility of fluorescent nanodiamond as an in vivo contrast agent,” Biomaterials 33(31), 7794–7802 (2012).
[Crossref] [PubMed]

2011 (1)

L. P. McGuinness, Y. Yan, A. Stacey, D. A. Simpson, L. T. Hall, D. Maclaurin, S. Prawer, P. Mulvaney, J. Wrachtrup, F. Caruso, R. E. Scholten, and L. C. L. Hollenberg, “Quantum measurement and orientation tracking of fluorescent nanodiamonds inside living cells,” Nat. Nanotechnol. 6(6), 358–363 (2011).
[Crossref] [PubMed]

2010 (1)

N. Mohan, C.-S. Chen, H.-H. Hsieh, Y.-C. Wu, and H.-C. Chang, “In Vivo Imaging and Toxicity Assessments of Fluorescent Nanodiamonds in Caenorhabditis elegans,” Nano Lett. 10(9), 3692–3699 (2010).
[Crossref] [PubMed]

2009 (2)

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
[Crossref] [PubMed]

O. Faklaris, V. Joshi, T. Irinopoulou, P. Tauc, M. Sennour, H. Girard, C. Gesset, J. C. Arnault, A. Thorel, J. P. Boudou, P. A. Curmi, and F. Treussart, “Photoluminescent diamond nanoparticles for cell labeling: study of the uptake mechanism in mammalian cells,” ACS Nano 3(12), 3955–3962 (2009).
[Crossref] [PubMed]

2008 (3)

Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
[Crossref] [PubMed]

O. Faklaris, D. Garrot, V. Joshi, F. Druon, J. P. Boudou, T. Sauvage, P. Georges, P. A. Curmi, and F. Treussart, “Detection of single photoluminescent diamond nanoparticles in cells and study of the internalization pathway,” Small 4(12), 2236–2239 (2008).
[Crossref] [PubMed]

A. M. Sokac and E. Wieschaus, “Local actin-dependent endocytosis is zygotically controlled to initiate Drosophila cellularization,” Dev. Cell 14(5), 775–786 (2008).
[Crossref] [PubMed]

2007 (1)

C. C. Fu, H. Y. Lee, K. Chen, T. S. Lim, H. Y. Wu, P. K. Lin, P. K. Wei, P. H. Tsao, H. C. Chang, and W. Fann, “Characterization and application of single fluorescent nanodiamonds as cellular biomarkers,” Proc. Natl. Acad. Sci. U.S.A. 104(3), 727–732 (2007).
[Crossref] [PubMed]

2005 (2)

C. Kural, H. Kim, S. Syed, G. Goshima, V. I. Gelfand, and P. R. Selvin, “Kinesin and Dynein Move a Peroxisome in Vivo: A Tug-of-War or Coordinated Movement?” Science 308(5727), 1469–1472 (2005).
[Crossref] [PubMed]

X. Michalet, F. F. Pinaud, L. A. Bentolila, J. M. Tsay, S. Doose, J. J. Li, G. Sundaresan, A. M. Wu, S. S. Gambhir, and S. Weiss, “Quantum dots for live cells, in vivo imaging, and diagnostics,” Science 307(5709), 538–544 (2005).
[Crossref] [PubMed]

2004 (2)

T. Lecuit, “Junctions and vesicular trafficking during Drosophila cellularization,” J. Cell Sci. 117(16), 3427–3433 (2004).
[Crossref] [PubMed]

R. Mallik, B. C. Carter, S. A. Lex, S. J. King, and S. P. Gross, “Cytoplasmic dynein functions as a gear in response to load,” Nature 427(6975), 649–652 (2004).
[Crossref] [PubMed]

2003 (1)

A. Royou, C. Field, J. C. Sisson, W. Sullivan, and R. Karess, “Reassessing the role and dynamics of nonmuscle myosin II during furrow formation in early Drosophila embryos,” Mol. Biol. Cell 15(2), 838–850 (2003).
[Crossref] [PubMed]

2002 (2)

A. Mazumdar and M. Mazumdar, “How one becomes many: blastoderm cellularization in Drosophila melanogaster,” Bioessays 24(11), 1012–1022 (2002).
[Crossref] [PubMed]

O. Krichevsky and G. Bonnet, “Fluorescence correlation spectroscopy: the technique and its applications,” Rep. Prog. Phys. 65(2), 251–297 (2002).
[Crossref]

1999 (1)

K. Visscher, M. J. Schnitzer, and S. M. Block, “Single kinesin molecules studied with a molecular force clamp,” Nature 400(6740), 184–189 (1999).
[Crossref] [PubMed]

1998 (1)

J. M. Crawford, N. Harden, T. Leung, L. Lim, and D. P. Kiehart, “Cellularization in Drosophila melanogaster Is Disrupted by the Inhibition of Rho Activity and the Activation of Cdc42 Function,” Dev. Biol. 204(1), 151–164 (1998).
[Crossref] [PubMed]

1997 (1)

M. J. Saxton and K. Jacobson, “Single-particle tracking: Applications to Membrane Dynamics,” Annu. Rev. Biophys. Biomol. Struct. 26(1), 373–399 (1997).
[Crossref] [PubMed]

1983 (2)

M. P. Sheetz and J. A. Spudich, “Movement of myosin-coated fluorescent beads on actin cables in vitro,” Nature 303(5912), 31–35 (1983).
[Crossref] [PubMed]

M. P. Sheetz and J. A. Spudich, “Movement of myosin-coated fluorescent beads on actin cables in vitro,” Nature 303, 31–35 (1983).

Arnault, J. C.

O. Faklaris, V. Joshi, T. Irinopoulou, P. Tauc, M. Sennour, H. Girard, C. Gesset, J. C. Arnault, A. Thorel, J. P. Boudou, P. A. Curmi, and F. Treussart, “Photoluminescent diamond nanoparticles for cell labeling: study of the uptake mechanism in mammalian cells,” ACS Nano 3(12), 3955–3962 (2009).
[Crossref] [PubMed]

Baybayan, P.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
[Crossref] [PubMed]

Bentolila, L. A.

X. Michalet, F. F. Pinaud, L. A. Bentolila, J. M. Tsay, S. Doose, J. J. Li, G. Sundaresan, A. M. Wu, S. S. Gambhir, and S. Weiss, “Quantum dots for live cells, in vivo imaging, and diagnostics,” Science 307(5709), 538–544 (2005).
[Crossref] [PubMed]

Bettman, B.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
[Crossref] [PubMed]

Bibillo, A.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
[Crossref] [PubMed]

Bjornson, K.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
[Crossref] [PubMed]

Block, S. M.

K. Visscher, M. J. Schnitzer, and S. M. Block, “Single kinesin molecules studied with a molecular force clamp,” Nature 400(6740), 184–189 (1999).
[Crossref] [PubMed]

Bonnet, G.

O. Krichevsky and G. Bonnet, “Fluorescence correlation spectroscopy: the technique and its applications,” Rep. Prog. Phys. 65(2), 251–297 (2002).
[Crossref]

Boudou, J. P.

O. Faklaris, V. Joshi, T. Irinopoulou, P. Tauc, M. Sennour, H. Girard, C. Gesset, J. C. Arnault, A. Thorel, J. P. Boudou, P. A. Curmi, and F. Treussart, “Photoluminescent diamond nanoparticles for cell labeling: study of the uptake mechanism in mammalian cells,” ACS Nano 3(12), 3955–3962 (2009).
[Crossref] [PubMed]

O. Faklaris, D. Garrot, V. Joshi, F. Druon, J. P. Boudou, T. Sauvage, P. Georges, P. A. Curmi, and F. Treussart, “Detection of single photoluminescent diamond nanoparticles in cells and study of the internalization pathway,” Small 4(12), 2236–2239 (2008).
[Crossref] [PubMed]

Carter, B. C.

R. Mallik, B. C. Carter, S. A. Lex, S. J. King, and S. P. Gross, “Cytoplasmic dynein functions as a gear in response to load,” Nature 427(6975), 649–652 (2004).
[Crossref] [PubMed]

Caruso, F.

L. P. McGuinness, Y. Yan, A. Stacey, D. A. Simpson, L. T. Hall, D. Maclaurin, S. Prawer, P. Mulvaney, J. Wrachtrup, F. Caruso, R. E. Scholten, and L. C. L. Hollenberg, “Quantum measurement and orientation tracking of fluorescent nanodiamonds inside living cells,” Nat. Nanotechnol. 6(6), 358–363 (2011).
[Crossref] [PubMed]

Chang, C. C.

Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
[Crossref] [PubMed]

Chang, H. C.

Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
[Crossref] [PubMed]

C. C. Fu, H. Y. Lee, K. Chen, T. S. Lim, H. Y. Wu, P. K. Lin, P. K. Wei, P. H. Tsao, H. C. Chang, and W. Fann, “Characterization and application of single fluorescent nanodiamonds as cellular biomarkers,” Proc. Natl. Acad. Sci. U.S.A. 104(3), 727–732 (2007).
[Crossref] [PubMed]

Chang, H.-C.

Y. Kuo, T.-Y. Hsu, Y.-C. Wu, and H.-C. Chang, “Fluorescent nanodiamond as a probe for the intercellular transport of proteins in vivo,” Biomaterials 34(33), 8352–8360 (2013).
[Crossref] [PubMed]

V. Vaijayanthimala, P.-Y. Cheng, S.-H. Yeh, K.-K. Liu, C.-H. Hsiao, J.-I. Chao, and H.-C. Chang, “The long-term stability and biocompatibility of fluorescent nanodiamond as an in vivo contrast agent,” Biomaterials 33(31), 7794–7802 (2012).
[Crossref] [PubMed]

N. Mohan, C.-S. Chen, H.-H. Hsieh, Y.-C. Wu, and H.-C. Chang, “In Vivo Imaging and Toxicity Assessments of Fluorescent Nanodiamonds in Caenorhabditis elegans,” Nano Lett. 10(9), 3692–3699 (2010).
[Crossref] [PubMed]

Chang, Y. R.

Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
[Crossref] [PubMed]

Chao, J.-I.

V. Vaijayanthimala, P.-Y. Cheng, S.-H. Yeh, K.-K. Liu, C.-H. Hsiao, J.-I. Chao, and H.-C. Chang, “The long-term stability and biocompatibility of fluorescent nanodiamond as an in vivo contrast agent,” Biomaterials 33(31), 7794–7802 (2012).
[Crossref] [PubMed]

Chaudhuri, B.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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E. H. Chen, O. Gaathon, M. E. Trusheim, and D. Englund, “Wide-Field Multispectral Super-Resolution Imaging Using Spin-Dependent Fluorescence in Nanodiamonds,” Nano Lett. 13(5), 2073–2077 (2013).
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Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
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C. C. Fu, H. Y. Lee, K. Chen, T. S. Lim, H. Y. Wu, P. K. Lin, P. K. Wei, P. H. Tsao, H. C. Chang, and W. Fann, “Characterization and application of single fluorescent nanodiamonds as cellular biomarkers,” Proc. Natl. Acad. Sci. U.S.A. 104(3), 727–732 (2007).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Clark, S.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Crawford, J. M.

J. M. Crawford, N. Harden, T. Leung, L. Lim, and D. P. Kiehart, “Cellularization in Drosophila melanogaster Is Disrupted by the Inhibition of Rho Activity and the Activation of Cdc42 Function,” Dev. Biol. 204(1), 151–164 (1998).
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Curmi, P. A.

O. Faklaris, V. Joshi, T. Irinopoulou, P. Tauc, M. Sennour, H. Girard, C. Gesset, J. C. Arnault, A. Thorel, J. P. Boudou, P. A. Curmi, and F. Treussart, “Photoluminescent diamond nanoparticles for cell labeling: study of the uptake mechanism in mammalian cells,” ACS Nano 3(12), 3955–3962 (2009).
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O. Faklaris, D. Garrot, V. Joshi, F. Druon, J. P. Boudou, T. Sauvage, P. Georges, P. A. Curmi, and F. Treussart, “Detection of single photoluminescent diamond nanoparticles in cells and study of the internalization pathway,” Small 4(12), 2236–2239 (2008).
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Dalal, R.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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O. Faklaris, D. Garrot, V. Joshi, F. Druon, J. P. Boudou, T. Sauvage, P. Georges, P. A. Curmi, and F. Treussart, “Detection of single photoluminescent diamond nanoparticles in cells and study of the internalization pathway,” Small 4(12), 2236–2239 (2008).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Englund, D.

E. H. Chen, O. Gaathon, M. E. Trusheim, and D. Englund, “Wide-Field Multispectral Super-Resolution Imaging Using Spin-Dependent Fluorescence in Nanodiamonds,” Nano Lett. 13(5), 2073–2077 (2013).
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O. Faklaris, V. Joshi, T. Irinopoulou, P. Tauc, M. Sennour, H. Girard, C. Gesset, J. C. Arnault, A. Thorel, J. P. Boudou, P. A. Curmi, and F. Treussart, “Photoluminescent diamond nanoparticles for cell labeling: study of the uptake mechanism in mammalian cells,” ACS Nano 3(12), 3955–3962 (2009).
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O. Faklaris, D. Garrot, V. Joshi, F. Druon, J. P. Boudou, T. Sauvage, P. Georges, P. A. Curmi, and F. Treussart, “Detection of single photoluminescent diamond nanoparticles in cells and study of the internalization pathway,” Small 4(12), 2236–2239 (2008).
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Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
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C. C. Fu, H. Y. Lee, K. Chen, T. S. Lim, H. Y. Wu, P. K. Lin, P. K. Wei, P. H. Tsao, H. C. Chang, and W. Fann, “Characterization and application of single fluorescent nanodiamonds as cellular biomarkers,” Proc. Natl. Acad. Sci. U.S.A. 104(3), 727–732 (2007).
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Gaathon, O.

E. H. Chen, O. Gaathon, M. E. Trusheim, and D. Englund, “Wide-Field Multispectral Super-Resolution Imaging Using Spin-Dependent Fluorescence in Nanodiamonds,” Nano Lett. 13(5), 2073–2077 (2013).
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Gaertner, A.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Gambhir, S. S.

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O. Faklaris, D. Garrot, V. Joshi, F. Druon, J. P. Boudou, T. Sauvage, P. Georges, P. A. Curmi, and F. Treussart, “Detection of single photoluminescent diamond nanoparticles in cells and study of the internalization pathway,” Small 4(12), 2236–2239 (2008).
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O. Faklaris, V. Joshi, T. Irinopoulou, P. Tauc, M. Sennour, H. Girard, C. Gesset, J. C. Arnault, A. Thorel, J. P. Boudou, P. A. Curmi, and F. Treussart, “Photoluminescent diamond nanoparticles for cell labeling: study of the uptake mechanism in mammalian cells,” ACS Nano 3(12), 3955–3962 (2009).
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O. Faklaris, V. Joshi, T. Irinopoulou, P. Tauc, M. Sennour, H. Girard, C. Gesset, J. C. Arnault, A. Thorel, J. P. Boudou, P. A. Curmi, and F. Treussart, “Photoluminescent diamond nanoparticles for cell labeling: study of the uptake mechanism in mammalian cells,” ACS Nano 3(12), 3955–3962 (2009).
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Gray, J.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
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Hardenbol, P.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Y. Kuo, T.-Y. Hsu, Y.-C. Wu, and H.-C. Chang, “Fluorescent nanodiamond as a probe for the intercellular transport of proteins in vivo,” Biomaterials 34(33), 8352–8360 (2013).
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R. Mallik, B. C. Carter, S. A. Lex, S. J. King, and S. P. Gross, “Cytoplasmic dynein functions as a gear in response to load,” Nature 427(6975), 649–652 (2004).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Y. Kuo, T.-Y. Hsu, Y.-C. Wu, and H.-C. Chang, “Fluorescent nanodiamond as a probe for the intercellular transport of proteins in vivo,” Biomaterials 34(33), 8352–8360 (2013).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Lacroix, Y.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
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C. C. Fu, H. Y. Lee, K. Chen, T. S. Lim, H. Y. Wu, P. K. Lin, P. K. Wei, P. H. Tsao, H. C. Chang, and W. Fann, “Characterization and application of single fluorescent nanodiamonds as cellular biomarkers,” Proc. Natl. Acad. Sci. U.S.A. 104(3), 727–732 (2007).
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Leung, T.

J. M. Crawford, N. Harden, T. Leung, L. Lim, and D. P. Kiehart, “Cellularization in Drosophila melanogaster Is Disrupted by the Inhibition of Rho Activity and the Activation of Cdc42 Function,” Dev. Biol. 204(1), 151–164 (1998).
[Crossref] [PubMed]

Lex, S. A.

R. Mallik, B. C. Carter, S. A. Lex, S. J. King, and S. P. Gross, “Cytoplasmic dynein functions as a gear in response to load,” Nature 427(6975), 649–652 (2004).
[Crossref] [PubMed]

Li, J. J.

X. Michalet, F. F. Pinaud, L. A. Bentolila, J. M. Tsay, S. Doose, J. J. Li, G. Sundaresan, A. M. Wu, S. S. Gambhir, and S. Weiss, “Quantum dots for live cells, in vivo imaging, and diagnostics,” Science 307(5709), 538–544 (2005).
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Lim, L.

J. M. Crawford, N. Harden, T. Leung, L. Lim, and D. P. Kiehart, “Cellularization in Drosophila melanogaster Is Disrupted by the Inhibition of Rho Activity and the Activation of Cdc42 Function,” Dev. Biol. 204(1), 151–164 (1998).
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Lim, T. S.

Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
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C. C. Fu, H. Y. Lee, K. Chen, T. S. Lim, H. Y. Wu, P. K. Lin, P. K. Wei, P. H. Tsao, H. C. Chang, and W. Fann, “Characterization and application of single fluorescent nanodiamonds as cellular biomarkers,” Proc. Natl. Acad. Sci. U.S.A. 104(3), 727–732 (2007).
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C. C. Fu, H. Y. Lee, K. Chen, T. S. Lim, H. Y. Wu, P. K. Lin, P. K. Wei, P. H. Tsao, H. C. Chang, and W. Fann, “Characterization and application of single fluorescent nanodiamonds as cellular biomarkers,” Proc. Natl. Acad. Sci. U.S.A. 104(3), 727–732 (2007).
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Lin, S.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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V. Vaijayanthimala, P.-Y. Cheng, S.-H. Yeh, K.-K. Liu, C.-H. Hsiao, J.-I. Chao, and H.-C. Chang, “The long-term stability and biocompatibility of fluorescent nanodiamond as an in vivo contrast agent,” Biomaterials 33(31), 7794–7802 (2012).
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Lundquist, P.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Lyle, J.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Ma, C.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Maclaurin, D.

L. P. McGuinness, Y. Yan, A. Stacey, D. A. Simpson, L. T. Hall, D. Maclaurin, S. Prawer, P. Mulvaney, J. Wrachtrup, F. Caruso, R. E. Scholten, and L. C. L. Hollenberg, “Quantum measurement and orientation tracking of fluorescent nanodiamonds inside living cells,” Nat. Nanotechnol. 6(6), 358–363 (2011).
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Mallik, R.

R. Mallik, B. C. Carter, S. A. Lex, S. J. King, and S. P. Gross, “Cytoplasmic dynein functions as a gear in response to load,” Nature 427(6975), 649–652 (2004).
[Crossref] [PubMed]

Marks, P.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Maxham, M.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Mazumdar, M.

A. Mazumdar and M. Mazumdar, “How one becomes many: blastoderm cellularization in Drosophila melanogaster,” Bioessays 24(11), 1012–1022 (2002).
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McGuinness, L. P.

L. P. McGuinness, Y. Yan, A. Stacey, D. A. Simpson, L. T. Hall, D. Maclaurin, S. Prawer, P. Mulvaney, J. Wrachtrup, F. Caruso, R. E. Scholten, and L. C. L. Hollenberg, “Quantum measurement and orientation tracking of fluorescent nanodiamonds inside living cells,” Nat. Nanotechnol. 6(6), 358–363 (2011).
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Michalet, X.

X. Michalet, F. F. Pinaud, L. A. Bentolila, J. M. Tsay, S. Doose, J. J. Li, G. Sundaresan, A. M. Wu, S. S. Gambhir, and S. Weiss, “Quantum dots for live cells, in vivo imaging, and diagnostics,” Science 307(5709), 538–544 (2005).
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Mohan, N.

N. Mohan, C.-S. Chen, H.-H. Hsieh, Y.-C. Wu, and H.-C. Chang, “In Vivo Imaging and Toxicity Assessments of Fluorescent Nanodiamonds in Caenorhabditis elegans,” Nano Lett. 10(9), 3692–3699 (2010).
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Mori, I.

R. Igarashi, Y. Yoshinari, H. Yokota, T. Sugi, F. Sugihara, K. Ikeda, H. Sumiya, S. Tsuji, I. Mori, H. Tochio, Y. Harada, and M. Shirakawa, “Real-Time Background-Free Selective Imaging of Fluorescent Nanodiamonds in Vivo,” Nano Lett. 12(11), 5726–5732 (2012).
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Mulvaney, P.

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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Tzeng, Y. K.

Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
[Crossref] [PubMed]

Vaijayanthimala, V.

V. Vaijayanthimala, P.-Y. Cheng, S.-H. Yeh, K.-K. Liu, C.-H. Hsiao, J.-I. Chao, and H.-C. Chang, “The long-term stability and biocompatibility of fluorescent nanodiamond as an in vivo contrast agent,” Biomaterials 33(31), 7794–7802 (2012).
[Crossref] [PubMed]

Vieceli, J.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
[Crossref] [PubMed]

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K. Visscher, M. J. Schnitzer, and S. M. Block, “Single kinesin molecules studied with a molecular force clamp,” Nature 400(6740), 184–189 (1999).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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C. C. Fu, H. Y. Lee, K. Chen, T. S. Lim, H. Y. Wu, P. K. Lin, P. K. Wei, P. H. Tsao, H. C. Chang, and W. Fann, “Characterization and application of single fluorescent nanodiamonds as cellular biomarkers,” Proc. Natl. Acad. Sci. U.S.A. 104(3), 727–732 (2007).
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Y. Kuo, T.-Y. Hsu, Y.-C. Wu, and H.-C. Chang, “Fluorescent nanodiamond as a probe for the intercellular transport of proteins in vivo,” Biomaterials 34(33), 8352–8360 (2013).
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N. Mohan, C.-S. Chen, H.-H. Hsieh, Y.-C. Wu, and H.-C. Chang, “In Vivo Imaging and Toxicity Assessments of Fluorescent Nanodiamonds in Caenorhabditis elegans,” Nano Lett. 10(9), 3692–3699 (2010).
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[Crossref] [PubMed]

Yeh, S.-H.

V. Vaijayanthimala, P.-Y. Cheng, S.-H. Yeh, K.-K. Liu, C.-H. Hsiao, J.-I. Chao, and H.-C. Chang, “The long-term stability and biocompatibility of fluorescent nanodiamond as an in vivo contrast agent,” Biomaterials 33(31), 7794–7802 (2012).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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Zhao, P.

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle, G. Otto, P. Peluso, D. Rank, P. Baybayan, B. Bettman, A. Bibillo, K. Bjornson, B. Chaudhuri, F. Christians, R. Cicero, S. Clark, R. Dalal, A. Dewinter, J. Dixon, M. Foquet, A. Gaertner, P. Hardenbol, C. Heiner, K. Hester, D. Holden, G. Kearns, X. Kong, R. Kuse, Y. Lacroix, S. Lin, P. Lundquist, C. Ma, P. Marks, M. Maxham, D. Murphy, I. Park, T. Pham, M. Phillips, J. Roy, R. Sebra, G. Shen, J. Sorenson, A. Tomaney, K. Travers, M. Trulson, J. Vieceli, J. Wegener, D. Wu, A. Yang, D. Zaccarin, P. Zhao, F. Zhong, J. Korlach, and S. Turner, “Real-Time DNA Sequencing from Single Polymerase Molecules,” Science 323(5910), 133–138 (2009).
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O. Faklaris, V. Joshi, T. Irinopoulou, P. Tauc, M. Sennour, H. Girard, C. Gesset, J. C. Arnault, A. Thorel, J. P. Boudou, P. A. Curmi, and F. Treussart, “Photoluminescent diamond nanoparticles for cell labeling: study of the uptake mechanism in mammalian cells,” ACS Nano 3(12), 3955–3962 (2009).
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A. Mazumdar and M. Mazumdar, “How one becomes many: blastoderm cellularization in Drosophila melanogaster,” Bioessays 24(11), 1012–1022 (2002).
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Biomaterials (2)

V. Vaijayanthimala, P.-Y. Cheng, S.-H. Yeh, K.-K. Liu, C.-H. Hsiao, J.-I. Chao, and H.-C. Chang, “The long-term stability and biocompatibility of fluorescent nanodiamond as an in vivo contrast agent,” Biomaterials 33(31), 7794–7802 (2012).
[Crossref] [PubMed]

Y. Kuo, T.-Y. Hsu, Y.-C. Wu, and H.-C. Chang, “Fluorescent nanodiamond as a probe for the intercellular transport of proteins in vivo,” Biomaterials 34(33), 8352–8360 (2013).
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J. M. Crawford, N. Harden, T. Leung, L. Lim, and D. P. Kiehart, “Cellularization in Drosophila melanogaster Is Disrupted by the Inhibition of Rho Activity and the Activation of Cdc42 Function,” Dev. Biol. 204(1), 151–164 (1998).
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Dev. Cell (1)

A. M. Sokac and E. Wieschaus, “Local actin-dependent endocytosis is zygotically controlled to initiate Drosophila cellularization,” Dev. Cell 14(5), 775–786 (2008).
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T. Lecuit, “Junctions and vesicular trafficking during Drosophila cellularization,” J. Cell Sci. 117(16), 3427–3433 (2004).
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Mol. Biol. Cell (1)

A. Royou, C. Field, J. C. Sisson, W. Sullivan, and R. Karess, “Reassessing the role and dynamics of nonmuscle myosin II during furrow formation in early Drosophila embryos,” Mol. Biol. Cell 15(2), 838–850 (2003).
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Nano Lett. (3)

R. Igarashi, Y. Yoshinari, H. Yokota, T. Sugi, F. Sugihara, K. Ikeda, H. Sumiya, S. Tsuji, I. Mori, H. Tochio, Y. Harada, and M. Shirakawa, “Real-Time Background-Free Selective Imaging of Fluorescent Nanodiamonds in Vivo,” Nano Lett. 12(11), 5726–5732 (2012).
[Crossref] [PubMed]

N. Mohan, C.-S. Chen, H.-H. Hsieh, Y.-C. Wu, and H.-C. Chang, “In Vivo Imaging and Toxicity Assessments of Fluorescent Nanodiamonds in Caenorhabditis elegans,” Nano Lett. 10(9), 3692–3699 (2010).
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E. H. Chen, O. Gaathon, M. E. Trusheim, and D. Englund, “Wide-Field Multispectral Super-Resolution Imaging Using Spin-Dependent Fluorescence in Nanodiamonds,” Nano Lett. 13(5), 2073–2077 (2013).
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Nat. Nanotechnol. (2)

Y. R. Chang, H. Y. Lee, K. Chen, C. C. Chang, D. S. Tsai, C. C. Fu, T. S. Lim, Y. K. Tzeng, C. Y. Fang, C. C. Han, H. C. Chang, and W. Fann, “Mass production and dynamic imaging of fluorescent nanodiamonds,” Nat. Nanotechnol. 3(5), 284–288 (2008).
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Proc. Natl. Acad. Sci. U.S.A. (1)

C. C. Fu, H. Y. Lee, K. Chen, T. S. Lim, H. Y. Wu, P. K. Lin, P. K. Wei, P. H. Tsao, H. C. Chang, and W. Fann, “Characterization and application of single fluorescent nanodiamonds as cellular biomarkers,” Proc. Natl. Acad. Sci. U.S.A. 104(3), 727–732 (2007).
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X. Michalet, F. F. Pinaud, L. A. Bentolila, J. M. Tsay, S. Doose, J. J. Li, G. Sundaresan, A. M. Wu, S. S. Gambhir, and S. Weiss, “Quantum dots for live cells, in vivo imaging, and diagnostics,” Science 307(5709), 538–544 (2005).
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Figures (6)

Fig. 1
Fig. 1

a. Schematic of the micro-injection of nanodiamonds into the Drosophila embryo. b-c. Early (b) and late (c) stage 5 embryos showing the cellularization furrows introgressing between nuclei, which invade the yolk-free periplasm during the later syncytial divisions (b, arrows). The ingressing membranes eventually join and pinch off individual blastoderm cells, forming as a consequence a large, internal yolk cell. Nanodiamonds that have diffused into the yolk-free periplasm can become internalized in the blastoderm cells at the completion of stage 5 (c).

Fig. 2
Fig. 2

Scanning confocal fluorescence image of individual nanodiamonds in the blastoderm cells during stage 5 of development. The image shows the auto-fluorescence from the introgressing cellularization furrows defining each blastoderm cell as well as the strong fluorescent signal from individual nanodiamonds which in the majority of cases is localized to the cell periphery.

Fig. 3
Fig. 3

Typical FCS from a freely diffusing nanodiamond in a blastoderm cell (solid blue line). The solid green line is a fit to the data using Eq. (1) with the exacted parameter D = (8.27 ± 0.01) × 10−3 µm2/s.

Fig. 4
Fig. 4

FCS from a nanodiamond undergoing driven motion (solid blue line). The solid green line is a fit to the data using Eq. (2). The extracted diffusion coefficient and velocity from the fit was D = (1.41 ± 0.01) × 10−3 µm2/s and v = 0.030 ± 0.003 μm/s.

Fig. 5
Fig. 5

Wide-field fluorescence image from nanodiamonds micro-injected into a Drosophila melanogaster embryo. The red lines represent the trajectories of the nanodiamonds over a 5 second period.

Fig. 6
Fig. 6

Particle trajectories from four individual nanodiamonds (I-IV) in the furrow periplasm during stage 5 of development. The mean squared displacement as a function of time is shown below for each respective trajectory (I-IV).

Equations (4)

Equations on this page are rendered with MathJax. Learn more.

G(τ)= 1 N ¯ (1+ τ τd ) 1 (1+ τ ω 2 τd ) 1/2 ,
G ( τ ) = 1 N ¯ ( 1 + τ τ d ) 1 ( 1 + τ ω 2 τ d ) 1 / 2 exp [ ( τ τ d ) 2 1 1 + τ τ d ] ,
f e =v k b T/D,
| x | 2 = k=1 N | x | 2 =(2n)Dt+ ( v x t) 2 ,

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