Towards the fluorescence resonance energy transfer (FRET) scanning near-field optical microscopy: Investigation of nanolocal FRET processes and FRET probe microscope

被引:0
|
作者
S. K. Sekatskii
G. T. Shubeita
M. Chergui
G. Dietler
B. N. Mironov
D. A. Lapshin
V. S. Letokhov
机构
[1] Université de Lausanne,Institut de Physique de la Matiére Condensée
[2] Russian Academy of Sciences,Institute of Spectroscopy
来源
Journal of Experimental and Theoretical Physics | 2000年 / 90卷
关键词
Spectroscopy; Microscopy; State Physics; Field Theory; Atomic Force Microscope;
D O I
暂无
中图分类号
学科分类号
摘要
The fluorescence resonance energy-transfer (FRET) process is investigated between donor dye molecules deposited on the sample surface and acceptor dye molecules deposited on the tips of scanning near-field and atomic force microscopes. The FRET process was observed only when the tip acquired contact with the sample and took place in regions of sizes of only a few tens of nanometers with only a few thousands (or even hundreds) of molecules involved. The dependence of the FRET intensity on the tip-sample acting force is recorded and interpreted. In relation to the obtained results, the construction of a previously proposed one-atom FRET SNOM is described.
引用
收藏
页码:769 / 777
页数:8
相关论文
共 50 条
  • [31] Fluorescence enhancement and energy transfer in apertureless scanning near-field optical microscopy
    Huang, Fu Min
    Richards, David
    JOURNAL OF OPTICS A-PURE AND APPLIED OPTICS, 2006, 8 (04): : S234 - S238
  • [32] Single molecule fluorescence resonance energy transfer scanning near-field optical microscopy: potentials and challenges
    Sekatskii, S. K.
    Dukenbayev, K.
    Mensi, M.
    Mikhaylov, A. G.
    Rostova, E.
    Smirnov, A.
    Suriyamurthy, N.
    Dietler, G.
    FARADAY DISCUSSIONS, 2015, 184 : 51 - 69
  • [33] On the possibility of observation of single quadrupoles by fluorescence resonance energy transfer scanning near-field optical microscopy
    Sekatskii, SK
    Shubeita, GT
    Dietler, G
    OPTICS COMMUNICATIONS, 2001, 188 (1-4) : 41 - 45
  • [34] A probe for a near-field scanning optical microscope
    Inst for Physics of Microstructures, Nizhnij Novgorod, Russia
    Prib Tekh Eksp, 2 (138-139):
  • [35] A probe for a near-field scanning optical microscope
    Dryakhlushin, VF
    Klimov, AY
    Rogov, VV
    Gusev, SA
    INSTRUMENTS AND EXPERIMENTAL TECHNIQUES, 1998, 41 (02) : 275 - 276
  • [36] Investigation of dye characteristics in various environments for fluorescence resonance energy transfer (FRET) on a DNA molecule
    Tavisala, S
    Bruist, MF
    FASEB JOURNAL, 2006, 20 (05): : A946 - A946
  • [37] Fluorescence resonance energy transfer (FRET) for DNA biosensors: FRET pairs and Forster distances for various dye-DNA conjugates
    Massey, Melissa
    Algar, W. Russ
    Krull, Ulrich J.
    ANALYTICA CHIMICA ACTA, 2006, 568 (1-2) : 181 - 189
  • [38] Scanning near-field optical microscopy using semiconductor nanocrystals as a local fluorescence and fluorescence resonance energy transfer source
    Shubeita, GT
    Sekatskii, SK
    Dietler, G
    Potapova, I
    Mews, A
    Basché, T
    JOURNAL OF MICROSCOPY-OXFORD, 2003, 210 : 274 - 278
  • [39] Fluorescence resonance energy transfer (FRET) microscopy in living cells as a novel tool for the study of cytokine action
    Gertler, A
    Biener, E
    Ramanujan, KV
    Djiane, J
    Herman, B
    JOURNAL OF DAIRY RESEARCH, 2005, 72 : 14 - 19
  • [40] INTRACELLULAR OLIGONUCLEOTIDE HYBRIDIZATION DETECTED BY FLUORESCENCE RESONANCE ENERGY-TRANSFER (FRET)
    SIXOU, S
    SZOKA, FC
    GREEN, GA
    GIUSTI, B
    ZON, G
    CHIN, DJ
    NUCLEIC ACIDS RESEARCH, 1994, 22 (04) : 662 - 668
12345