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Chapter 21: Probing Ligand–Receptor Interactions with Atomic Force Microscopy—References

Allen S., Chen X., Davies J., Davies M.C., Dawkes A.C., Edwards J.C., Roberts C.J., Sefton J., Tendler S.J.B., and Williams P.M. 1997. Detection of antibody-antigen binding events with the atomic force microscope. Biochemistry 36: 7457–7463.

Ashkin A., Schutze K., Dziedzic J.M., Euteneuer U., and Schliwa M. 1990. Force generation of organelle transport measured in vivo by an infrared laser trap. Nature 348: 346–348.

Baumgartner W., Hinterdorfer P., Ness W., Raab A., Vestweber D., Schindler H., and Drenckhahn D. 2000. Cadherin interaction probed by atomic force microscopy. Proc. Natl. Acad. Sci. 97: 4005–4010.

Bell G.I. 1978. Models for the specific adhesion of cells to cells. Science 200: 618–627.

Benoit M., Gabriel D., Gerisch G., and Gaub H.E. 2000. Discrete interactions in cell adhesion measured by single-molecule force spectroscopy. Nat. Cell Biol. 2: 313–317.

Binnig G., Quate C. F., and Gerber C. 1986. Atomic force microscope. Phys. Rev. Lett. 56: 930–933.

Burnham N.A. and Colton R.J. 1989. Measuring the nanomechanical properties and surface forces of materials using an atomic force microscope. J. Vac. Sci. Technol. A7: 2906–2913.

Butt H.J., Downing K.H., and Hansma P.K. 1990. Imaging the membrane protein bacteriorhodopsin with the atomic force microscope. Biophys. J. 58: 1473–1480.

Chen A. and Moy V.T. 2000. Cross-linking of cell surface receptors enhances cooperativity of molecular adhesion. Biophys. J. 78: 2814–2820.

Dammer U., Popescu O., Wagner P., Anselmetti D., Güntherodt H.-J., and Misevic G.N. 1995. Binding strength between cell adhesion proteoglycans measured by atomic force microscopy. Science 267: 1173–1175.

Dettmann W., Grandbois M., Andre S., Benoit M., Wehle A.K., Kaltner H., Gabius H.J., and Gaub H.E. 2000. Differences in zero-force and force-driven kinetics of ligand dissociation from beta-galactoside-specific proteins (plant and animal lectins, immunoglobulin G) monitored by plasmon resonance and dynamic single molecule force microscopy. Arch. Biochem. Biophys. 383: 157–170.

Engel A., Lyubchenko Y., and Müller D. 1999. Atomic force microscopy: A powerful tool to observe biomolecules at work. Trends Cell Biol. 9: 77–80.

Evans E., Ritchie K., and Merkel R. 1995. Sensitive technique to probe molecular adhesion and structural linkages at biological interfaces. Biophys. J. 68: 2580–2587.

Evans E., Leung A., Hammer D., and Simon S. 2001. Chemically distinct transition states govern rapid dissociation of single L-selectin bonds under force. Proc. Natl. Acad. Sci. 98: 3784–3789.

Florin E.L., Moy V.T., and Gaub H.E. 1994. Adhesion forces between individual ligand-receptor pairs. Science 264: 415–417.

Fritz J., Katopodis A.G., Kolbinger F., and Anselmetti D. 1998. Force-mediated kinetics of single P-selectin/ligand complexes observed by atomic force microscopy. Proc. Natl. Acad. Sci. 95: 12283–12288.

Grandbois M., Dettmann W., Benoit M., and Gaub H.E. 2000. Affinity imaging of red blood cells using an atomic force microscope. J. Histochem. Cytochem. 48: 719–724.

Hansma H.G., Vesenka J., Siegerist C., Kelderman G., Morrett H., Sinsheimer R.L., Elings V., Bustamante C., and Hansma P.K. 1992. Reproducible imaging and dissection of plasmid DNA under liquid with the atomic force microscope. Science 256: 1180–1184.

Heinz W.F. and Hoh J.H. 1999. Spatially resolved force spectroscopy of biological surfaces using the atomic force microscope. Trends Biotechnol. 17: 143–150.

Hinterdorfer P., Baumgartner W., Gruber H.J., Schilcher K., and Schindler H. 1996. Detection and localization of individual antibody-antigen recognition events by atomic force microscopy. Proc. Natl. Acad. Sci. 93: 3477–3481.

Hutter J.L. and Bechhoefer J. 1993. Calibration of atomic-force microscope tips. Rev. Sci. Instrum. 64: 1868–1873.

Kishino A. and Yanagida T. 1988. Force measurements by micromanipulation of a single actin filament by glass needles. Nature 334: 74–76.

Lee G.U., Chrisey L.A., and Colton R.J. 1994a. Direct measurement of the forces between complementary strands of DNA. Science 266: 771–773.

Lee G.U., Kidwell D.A., and Colton R.J. 1994b. Sensing discrete streptavidin-biotin interactions with AFM. Langmuir 10: 354–361.

Lehenkari P.P. and Horton M.A. 1999. Single integrin molecule adhesion forces in intact cells measured by atomic force microscopy. Biochem. Biophys. Res. Commun. 259: 645–650.

Li F., Redick S.D., Erickson H.P., and Moy V.T. 2003. Force measurements of the α5β1 integrin-fibronectin interaction. Biophys. J. 84: 1252–1262.

Ludwig M., Dettmann W., and Gaub H.E. 1997. Atomic force microscope imaging contrast based on molecular recognition. Biophys. J. 72: 445–448.

Marshall B.T., Long M., Piper J.W., Yago T., McEver R.P., and Zhu C. 2003. Direct observation of catch bonds involving cell-adhesion molecules. Nature 423: 190–193.

Marszalek P.E., Lu H., Li H., Carrion-Vazquez M., Oberhauser A.F., Schulten K., and Fernandez J.M. 1999. Mechanical unfolding intermediates in titin modules. Nature 402: 100–103.

Merkel R., Nassoy P., Leung A., Ritchie K., and Evans E. 1999. Energy landscapes of receptor-ligand bonds explored with dynamic force spectroscopy. Nature 397: 50–53.

Moy V.T., Florin E.-L., and Gaub H.E. 1994. Adhesive forces between ligand and receptor measured by AFM. Colloids Surf. 93: 343–348.

Nakajima H., Kunioka Y., Nakano K., Shimizu K., Seto M., and Ando T. 1997. Scanning force microscopy of the interaction events between a single molecule of heavy meromyosin and actin. Biochem. Biophys. Res. Commun. 234: 178–182.

Nevo R., Stroh C., Kienberger F., Kaftan D., Brumfeld V., Elbaum M., Reich Z., and Hinterdorfer P. 2003. A molecular switch between alternative conformational states in the complex of Ran and importin beta1. Nat. Struct. Biol. 10: 553–557.

Oesterhelt F., Oesterhelt D., Pfeiffer M., Engle A., Gaub H.E., and Müller D.J. 2000. Unfolding pathways of individual bacteriorhodopsins. Science 288: 143–146.

Perkins T.T., Quake S.R., Smith D.E., and Chu S. 1994. Relaxation of a single DNA molecule observed by optical microscopy. Science 264: 822–826.

Raab A., Han W., Badt D., Smith-Gill S.J., Lindsay S.M., Schindler H., and Hinterdorfer P. 1999. Antibody recognition imaging by force microscopy. Nat. Biotechnol. 17: 901–905.

Razatos A., Ong Y.L., Sharma M.M., and Georgiou G. 1998. Molecular determinants of bacterial adhesion monitored by atomic force microscopy. Proc. Natl. Acad. Sci. 95: 11059–11064.

Rief M., Oesterhelt F., Heymann B., and Gaub H.E. 1997a. Single molecule force spectroscopy on polysaccharides by atomic force microscopy. Science 275: 1295–1297.

Rief M., Gautel M., Oesterhelt F., Fernandez J.M., and Gaub H.E. 1997b. Reversible unfolding of individual titin immunoglobulin domains by AFM. Science 276: 1109–1112.

Sader J.E. 1995. Parallel beam approximation for V-shaped atomic force microscope cantilevers. Rev. Sci. Instrum. 66: 4583–4587.

Sarangapani K.K., Yago T., Klopocki A. G., Lawrence M. B., Fieger C. B., Rosen S. D., McEver R. P., and Zhu C. 2004. Low force decelerates L-selectin dissociation from P-selectin glycoprotein ligand-1 and endoglycan. J. Biol. Chem. 279: 2291–2298.

Schwesinger F., Ros R., Strunz T., Anselmetti D., Guntherodt H.J., Honegger A., Jermutus L., Tiefenauer L., and Pluckthun A. 2000. Unbinding forces of single antibody-antigen complexes correlate with their thermal dissociation rates. Proc. Natl. Acad. Sci. 97: 9972–9977.

Senden T.J. and Ducker W.A. 1994. Experimental determination of spring constants in atomic force microscopy. Langmuir 10: 1003–1004.

Smith S.B., Finzi L., and Bustamante C. 1992. Direct mechanical measurements of the elasticity of single DNA molecules by using magnetic beads. Science 258: 1122–1126.

Strunz T., Oroszlan K., Schafer R., and Guntherodt H.J. 1999. Dynamic force spectroscopy of single DNA molecules. Proc. Natl. Acad. Sci. 96: 11277–11282.

Svoboda K., Schmidt C.F., Schnapp B.J., and Block S.M. 1993. Direct observation of kinesin stepping by optical trapping interferometry. Nature 365: 721–727.

Viani M.B., Pietrasanta L.I., Thompson J.B., Chand A., Gebeshuber I.C., Kindt J.H., Richter M., Hansma H.G., and Hansma P.K. 2000. Probing protein-protein interactions in real time. Nat. Struct. Biol. 7: 644–647.

Willemsen O.H., Snel M.M., van der Werf K.O., de Grooth B.G., Greve J., Hinterdorfer P., Gruber H.J., Schindler H., van Kooyk Y., and Figdor C.G. 1998. Simultaneous height and adhesion imaging of antibody-antigen interactions by atomic force microscopy. Biophys. J. 75: 2220–2228.

Wojcikiewicz E. P., Zhang X., Chen A., and Moy V.T. 2003. Contributions of molecular binding events and cellular compliance to the modulation of leukocyte adhesion. J. Cell Sci. 116: 2531–2539.

Wong S.S., Joselevich E., Woolley A.T., Cheung C.L., and Lieber C.M. 1998. Covalently functionalized nanotubes as nanometre-sized probes in chemistry and biology. Nature 394: 52–55.

Yersin A., Hirling H., Steiner P., Magnin S., Regazzi R., Huni B., Huguenot P., De los Rios P., Dietler G., Catsicas S., and Kasas S. 2003. Interactions between synaptic vesicle fusion proteins explored by atomic force microscopy. Proc. Natl. Acad. Sci. 100: 8736–8741.

Yuan C., Chen A., Kolb P., and Moy V.T. 2000. Energy landscape of streptavidin-biotin complexes measured by atomic force microscopy. Biochemistry 39: 10219–10223.

Zasadzinski J.A., Schneir J., Gurley J., Elings V., and Hansma P.K. 1988. Scanning tunneling microscopy of freeze-fracture replicas of biomembranes. Science 239: 1013–1015.

Zhang X., Bogorin D.F., and Moy V.T. 2004. Molecular basis of the dynamic strength of the sialyl Lewis X-selectin interaction. ChemPhysChem. 4: 175–182.

Zhang X., Wojcikiewicz E., and Moy V.T. 2002. Force spectroscopy of the leukocyte function-associated antigen-1/intercellular adhesion molecule-1 interaction. Biophys. J. 83: 2270–2279.

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