Оптические твизеры - новый метод исследований в биологии

Автор: Крайкивский П.Б., Галль Л.Н.

Журнал: Научное приборостроение @nauchnoe-priborostroenie

Рубрика: Обзоры

Статья в выпуске: 1 т.14, 2004 года.

Бесплатный доступ

Оптические твизеры используются для измерения небольших значений сил и перемещений движущихся объектов. Оптические твизеры могут быть использованы в биологии для манипулирования клетками, органеллами, биомолекулами, при этом манипулирование не приводит к видимым повреждениям объектов. В этой работе представлен обзор развития техники лазерных твизеров и их различных применений в биологии.

Короткий адрес: https://sciup.org/14264320

IDR: 14264320

Список литературы Оптические твизеры - новый метод исследований в биологии

  • Israelachvili J.N. Intermolecular and Surface Forces: With Applications to Colloidal and Biological Systems (2nd edition). Academic Press Inc., London, 1991.
  • Leckband D., Israelachvili J.N. Intermolecular forces in biology//Quarterly Rev. Biophys. 2001. V. 34. p. 105-267.
  • Binnig G., Quate C.F., Gerber C. Atomic force microscope//Phys. Rev. Lett. 1986. V. 56. p. 930-933.
  • Ashkin A. Optical trapping and manipulation of neutral particles using lasers//Proc. Natl. Acad. Sci. USA. 1997. V. 94. p. 4853-4860.
  • Rahman A., Tseng Y., Wirtz D. Micromechanical coupling between cell surface receptors and RGD peptides//Biochem. Biophys. Res. Com. 2002. V. 296. p. 771-778.
  • Ashkin A. Acceleration and trapping of particles by radiation pressure//Phys. Rev. Lett. 1970. V. 24. p. 156-159.
  • Ashkin A., Dziedzic J.M. Optical traping and manipulation of viruses and bacteria//Science. 1987. V. 235. p. 1517-1520.
  • Ashkin A., Dziedzic J.M., Yamane T. Optical traping and manipulation of single cells using infrared-laser beams//Nature. 1987. V. 330. p. 769-771.
  • Block S. M., Blair D.F., Berg H.C. Compliance of bacterial flagella measured with optical tweezers//Nature. 1986. V. 338. p. 514-518.
  • Ashkin A., Dziedzic J.M. Internal cell manipulation using infrared-laser traps//Proc. Natl. Acad. Sci. USA. 1989. V. 86. p. 7914-7918.
  • Wang M.D. et al. Stretching DNA with optical tweezers//Biophys. J. 1997. V. 72. p. 1335-1346.
  • Mammen M. et al. Optically controlled collisions of biological objects to evaluate potent polyvalent inhibitors of virus-cell adhesion//Chem. Biol. 1996. V. 3. p. 757-763.
  • Helmerson K. et al. Optical tweezers-based immunosensor detects femtomolar concentrations of antigens//Clin. Chem. 1997. V. 43. p. 379-383.
  • Seeger S. et al. Application of laser optical tweezers in immunology and molecular genetics//Cytometry. 1991. V. 12. p. 497-504.
  • Steubing R.W. et al. Laser-induced cell-fusion in combination with optical tweezers-the laser cell-fusion trap//Cytometry. 1991. V. 12. p. 505-510.
  • Liang H., Wright W.H., He W., Berns M.W. Micromanipulation of chromosomes in PTK2 cells using laser microsurgery (optical scalpel) in combination with laser induced optical force (optical tweezers)//Exp. Cell Res. 1993. V. 204. p. 110-120.
  • Svoboda K., Block S.M. Biological application of optical forces//Ann. Rev. Biophys. Biomol. Struct. 1994. V. 23. p. 247-285.
  • Svoboda K. et al. Direct observation of kinesin stepping by optical trapping interferometry//Nature. 1993. V. 365. p. 721-727.
  • Ashkin A. et al. Force generation of organelle transport measured in vivo by an infrared laser trap//Nature. 1990. V.348. p. 346-348.
  • Yin H. et al. Transcription against an applied force//Science. 1995. V. 270. p. 1653-1657.
  • Kellermayer M.S.Z., Smith S.B., Granzier H.L., Bustamante C. Folding-unfolding transitions in single titin molecules characterized with laser tweezers//Science. 1997. V. 276. p. 1112-1116.
  • Dimova R., Pouligny B., Dietrich C. Pretransitional effects in dimyristoylphosphatidylcholine vesicle membrane: optical dynamometry study//Biophys. J. 2000. V. 79. p. 340-356.
  • Peterman E.J.G., Gittes F., Schmidt C.F. Laser-induced heating in optical traps//Biophys. J. 2003. V. 84. p. 1308-1316.
  • Ashkin A. Force of single-beam gradient laser trap on dielectric sphere in the ray optics regime//Biophys. J. 1992. V. 61. p. 569-582.
  • Felgner H., Muller O., Schliwa M. Calibration of light forces in optical tweezers//Appl. Optics. 1995. V. 34. p. 977-982.
  • Visscher K., Gross S.P., Block S.M. Construction of multiple-beam optical traps with nanometer-resolution position sensing//IEEE J. Selec. Top. Quantum Electronics. 1996. V. 2. p. 1066-1076.
  • Ashkin A., Bjorkholm J.E., Chu S. Caught in a trap//Nature. 1986. V. 323. p. 585.
  • Fällman E., Axner O. Design for fully steerable dual-trap optical tweezers//Appl. Optics. 1997. V. 36. P. 2107-2113.
  • Molloy J.E., Veigel C., Knight A. Single molecule mechanics of acto-myosin using optical tweezers//J. Gen. Physiol. 1999. V. 114. p. 18-20.
  • Funatsu T. et al. Single molecule imaging of motion and ATPase reaction of motor proteins//Biophys. J. 1996. V. 70. p. 1.
  • Shivashankar G.V., Libchaber A. Single DNA molecule grafting and manipulation using a combined atomic force microscope and optical tweezer//Appl. Phys. Lett. 1997. V. 71. p. 3727-3729.
  • Ghislain L.P., Switz N.A., Webb W.W. Measurement of small forces using an optical trap//Rev. Sci. Instrum. 1994. V. 65. p. 2762-2768.
  • Gittes F., Schmidt C.F. Thermal noise limitations on micromechanical experiments//Eur. Biophys. J. 1998. V. 27. p. 75-81.
  • Ландау Л.Д., Лифшиц Е.М. Гидродинамика. М.: Наука, 1986. 736 с.
Еще
Статья научная