| Biophysics Journal (Annual Meeting Abstracts), 80 (2001) January |
Page |
Atomic force microscopy studies of three-way DNA junctions
Y.L. Lyubchenko, L. Shlyakhtenko, R. Sinden, V.N. Potaman, and A. Gall |
10 |
Scanning probe microscopy study of
myosin binding, topography and elastic properties of thin nitrocellulose
films
A. Mansson, J. Klinth, E. Johansson-Karlsson, C. Widen, J. Johansson,
and L. Montelius |
77 |
Stepwise unfolding of titin under
force-clamp AFM
A.F. Oberhauser, P.K. Hansma, M. Carrion-Vazquez, and J.M. Fernandez |
154 |
Two-state model of polysaccharide
elasticity probed with the force clamp mode of AFM
P.E. Marszalek, A.F. Oberhauser, and J.M. Fernandez |
154 |
A combined atomic force, confocal,
and total internal reflection microscope for the study of single molecules
W.F. Heinz, B. Navarro, K.D. Weston, P. Bernardi, and L.S. Goldner |
155 |
Fingerprinting polysaccharides with
single molecule atomic force microscopy
P.E. Marszalek, H. Li, and J.M. Fernandez |
156 |
Single molecule interaction of receptors
and antibodies with human rhinovirus HRV2 using AFM
F. Kienberger, R. Moser, C. Riener, H.J. Gruber, H. Schindler, D.
Blaas, and P. Hinterdorfer |
291-292 |
Thermal study of the adenovirus structure
using differential scanning calorimetry and atomic force microscope
A. Negishi, G. Mattews, D. McCarty, J. Samulski, R. Taylor, and
R. Superfine |
292 |
The high-speed AFM and motion pictures
T. Ando, D. Maruyama, K. Saito, and T. Toda |
303 |
Determination of elastic moduli of
soft, thin samples using the atomic force microscope
E.K. Dimitriadis, F. Horkay, J. Maresca, and R.S. Chadwick |
303-304 |
Atomic force microscopy studies of
membrane structure and transformation thermodynamics
F. Tokumasu, A.J. Jin, and J.A. Dvorak |
304 |
Novel cantilever design for atomic
force microscopy
K. Snyder, A. Beyder, and F. Sachs |
304 |
Identification of stress fibres and
fibronectin in AFM images using confocal microscopy
K.L. De Jong, N.O. Petersen, and P.R. Norton |
305 |
Hyphae hot off the presses: investigating
cell wall structure by atomic force microscopy
L.A. Snook, S.J. Kaminskyj, and T.E.S. Dahms |
305 |
Cellular mechanotransduction and
its modulation: an atomic force microscopy study
G. Charras and M.A. Horton |
305-306 |
Electromotility of hek cells measured
with AFM
P.C. Zhang, A.M. Keleshian, and F. Sachs |
306 |
Viscoelastic and active response
of neuronal growth cones to mechanical stimuli by AFM
M. Lakadamyali, R. Mahaffy, B. Furnish, J. Bayer, F. Mackintosh, C.K.
Shih, C. Schmidt, and J. Kas |
306 |
Combining atomic force microscopy
and patch clamp in cochlear outer hair cells
J.F. Ashmore, G. Charras, and M.A. Horton |
306 |
AFM of DNA: a practical procedure
for sample imaging under dry nitrogen
T.B.L. Kist, L.T.C. Franca, and F.G. Yu |
307 |
Tapping mode AFM of hyaluronan polysaccharide
on mica in air: controlling the molecular extension
M.K. Cowman |
307 |
Investigating the mechanical properties
of individual fibrin fibers with the nanomanipulator AFM
M. Guthold |
307 |
Lipid domain growth and shape changes
as a function of temperature in binary lipid mixtures visualized by
atomic force microscopy
C. Leidy, T. Kaasgaard, T.V. Ratto, M. Longo, O.G. Mouritsen, J.H.
Crowe, and K. Jorgensen |
332 |
Structural mapping of the insulin
receptor by in situ scanning probe microscopy
A. Slade, J. Luh, S. Ho, and C.M. Yip |
411 |
Electric field manipulation of single
DNA molecules on microelectrodes studied by atomic force microscopy
J. van Noort, A. Storm, S. de Vries, and C. Dekker |
483 |
Reca-DNA complex studied by atomic
force microscopy
R. Kuroda, K. Umemura, M. Ishikawa, S. Ikawa, and T. Shibata |
491 |
Controlled immobilization of DNA
molecules using chemical modification of mica surfaces for atomic
force microscopy
K. Umemura, M. Ishikawa, and R. Kuroda |
491 |
Real time ripple phase formation
in mica supported bilayers visualized by atomic force microscopy (AFM)
T. Kaasgaard, C. Leidy, O.G. Mouritsen, J.H. Crowe, and K. Jorgensen |
526 |
AFM study of lipid bilayer compressibility
S.J. Crook and D.D. Busath |
527 |
Relationship between lipid-bilayer
organization and lateral lipid-ligand distribution investigated by
atomic force microscopy
T. Kaasgaard, O.G. Mouritsen, and K. Jorgensen |
533 |
Self-assembly of influenza hemagglutinin:
studies of ectodomain aggegation by in situ atomic force microscopy
R.F. Epand, L.V. Chernomordik, C.M. Yip, D.L. LeDuc, Y.K. Shin,
and R.M. Epand |
537 |
Direct observation of lipid/protein
interactions using atomic force microscopy on supported bilayers
A.S. Muresan and K.Y. Lee |
540 |
In situ phospholipase A2 degradation
of one- and two-component phospholipid bilayers imaged by atomic force
microscopy
T. Kaasgaard, J.H. Ipsen, O.G. Mouritsen, and K. Jorgensen |
541 |
| |
| Biophysics Journal (Annual Meeting
Abstracts), 82 (2002) January |
Page |
Molecular elasticity of single spectrin
repeats studied by forced unfolding using AFM
S. M. Altmann, G. Raik, P. Lenne, J. Ylaenne, M. Nilges, H. J. K.
Hoerber, and A. Rae |
24 |
Chair-boat transitions in single
polysaccharide molecules observed with force-clamp AFM
P. E. Marszalek, H. Li, A. F. Oberhauser, and J. M. Fernandez |
41 |
Mechanical architecture of the tandem
immunoglobulin regions of titin studied by single molecule AFM
H. Li, A. F. Oberhauser, W. A. Linke, M. Carrion Vazquez, and J. M.
Fernandez |
41 |
AFM and force spectroscopy of recombinant
spider dragline silk protein nanofibers
E. M. Oroudjev and H. G. Hansma |
41 |
A combined atomic force, confocal,
and total internal reflection microscope for single molecule microscopy
W. F. Heinz, K. D. Weston, V. Jolivet, B. Navarro, P. Bernardi, and
L. S. Goldner |
41 |
Extraction of proteins from a living
cell surface using AFM
R. Afrin and A. Ikai |
53 |
Nano-mechanics of tertiary domains
and cooperative secondary structure of proteins studied with atomic
force microscope (AFM)
R. Hertadi, S. Koide, and A. Ikai |
53 |
Direct measurement of protein dynamics
by AFM
M. Osbourn, T. H. Oosterkamp, and T. Schmidt |
53 |
Erythrocyte deformation in atomic
force microscopy
A. L. Popescu Hategan, R. J. Law, and D. E. Discher |
53 |
Fibronectin remodeling and integrin-containing
structures studied by confocal microscopy and AFM
K. L. DeJong, P. R. Norton, and N. O. Petersen |
54 |
Use of atomic force microscopy (AFM)
to measure integrin - fibronectin (FN) adhesion force in vascular
smooth muscle cells (VSM)
Z. Sun, U. Pohl, and G. A. Meininger |
54 |
AFM and film balance investigations
into the role of the membrane-associated lipopolysaccharide-binding
protein (LBP)
S. Roes, T. Gutsmann, and U. Seydel |
55 |
Combining atomic-force and two-photon
fluorescence microscopy to investigate the architecture of the photosynthetic
membrane
C. C. Gradinaru, S. T. Kafi, P. Martinsson, G. A. Blab, T. Schmidt,
and T. J. Aartsma |
55 |
Characterizing single molecules of
the giant muscle protein titin with atomic force microscopy
K. Watanabe, C. Muhle Goll, M.S.Z. Kellermayer, S. Labeit, and
H. L. Granzier |
55 |
E-cadherin extra-cellular domain
interaction examined by atomic force microscopy
R. G. Rudnitsky, F. Drees, W. J. Nelson, and T. W. Kenny |
55 |
Local viscoelastic behavior and the
impact on motility of normal and malignantly transformed fibroblasts
using AFM
S. Park, D. Humphrey, R. Cardenas, Q. Chen, N. Peffley, C. Shih,
and J. Kas |
56 |
Issues concerning the measurement
of elastic properties at microscopic scales with the AFM
E. K. Dimitriadis, F. Horkay, K. Bechara, and R. S. Chadwick |
56 |
Visualization of the molecular and
electronic structure of photosynthetic pigment-protein complexes with
scanning probe microscopy
A. Stamouli, S. T. Kafi, A. J. Hoff, J.W.M. Frenken, T. H. Oosterkamp,
and T. J. Aartsma |
56 |
A combined approach of patch clamp
and AFM for studying Ca2+ - dependent inactivation of class
c-type Ca2+ channels
G. Roland, K.J.F. Kepplinger, R. Zhu, Y. Maulet, K. Groschner,
N. M. Soldatov, P. Hinterdorfer, and C. Romanin |
105 |
Atomic force microscopy study of
the structure of single mucin molecules and their viscoelastic properties
G. Matthews, C. W. Davis, and R. C. Boucher |
139 |
Monitoring immunoglobulin light chain
amyloid fibril formation on surfaces using atomic force microscopy
A. L. Fink, M. Zhu, J. Li, and P. O. Souillac |
139 |
Linking primary structure and biochemical
function with protein conformation measured by scanning force microscopy
B. A. Todd, J. Rammohan, and S. J. Eppell |
139 |
Changes in DNA tertiary structure
following ditercalinium bis-intercalation observed by AFM
T. Berge, N. S. Jenkins, M. J. Waring, J. M. Edwardson, and R.
M. Henderson |
142 |
Nanoscopic lipid domain dynamics
revealed by atomic force microscopy
F. Tokumasu, A. J. Jin, G. W. Feigenson, and J. A. Dvorak |
157 |
Studies of phase transitions in supported
bilayers of cationic and neutral lipids by simultaneous in situ fluorescence
spectroscopy and atomic force microscopy
A. B. Fried, N. P. Plaskos, J. Luh, and C. M. Yip |
160 |
Conformational dynamics in connexon
structure at molecular resolution using coordinated atomic force (AFM)
and electron microscopy (EM)
D. J. Muller, G. M. Hand, A. Engel, and G. E. Sosinsky |
173 |
Reconstitution of the passive elasticity
of muscle from single molecule AFM experiments
H. Li, W. A. Linke, A. F. Oberhauser, M. Carrion Vazquez, P. E.
Marszalek, and J. M. Fernandez |
193 |
Atomic force microscopy of biomolecular
assembly at ordered interfaces
G. Yang and C. M. Yip |
321 |
Visualisation of the streptavidin-biotin
interaction using AFM
C. S. Neish, R. M. Henderson, and J. M. Edwardson |
337 |
Atomic force microscopy imaging of
structure and dynamics of intramolecular triplex DNA
Y. L. Lyubchenko, W. J. Tiner, A. Y. Lushnikov, V. N. Potaman,
and R. R. Sinden |
341 |
Real-time changes in mechanical properties
of human endothelial cells upon Icam-1 crosslinking studied by atomic
force microscopy
I. Kang, Q. Wang, C. M. Doerschuk, and R. E. Marchant |
347 |
Enhanced dynamic range and sensitivity
of protein arrays using gold probes and scanning electron microscopy
N. Levit Binnun, A. B. Lindner, and E. Moses |
362 |
Simultaneous confocal-scanning probe
microscopy imaging of cell surface phenomena
J. Shaw, K. Hodgson, and C. M. Yip |
497 |
Crystals and cells as cores for polyelectrolyte
nanocapsules studied by confocal, two-photon and atomic force microscopy
A. Diaspro, O. Cavalleri, S. Krol, D. Silvano, and A. Gliozzi |
500 |
Collagen fibrillar constructs: new
ideas on their formation and ultrastructure via a parallel AFM, TEM,
ESI and NMR approach
A. C. Lin and M. Goh |
503 |
Atomic force microscopy and fluorescence
studies of lipid rafts in model membranes
L. J. Johnston, C. Yuan, P. Burgos, and J. Furlong |
505 |
AFM investigation of elasticity and
conformation maleability of single proteins and supramolecular structures
J. G. Forbes, K. Wang, and A. J. Jin |
512 |
3d Surface Topograpghy, Ligand-Induced
Conformational Changes And Aggregation Of Hemichannels: AFM Study
Of Reconstituted Connexons
J. Thimm, H. Lin, and R. Lal |
513 |
The structure of the platelet integrin
aIIbbIII
on model surfaces imaged by atomic force microscopy
M. A. Hussain and C. A. Siedlecki |
513 |
New results on the microtopology
of RNA ploymerase II using tapping mode atomic force microscopy in
liquid
T. N. Rhodin, K. Umemura, M. Gad, S. Jarvis, M. Ishikawa, and
J. Fu |
513 |
Effects of mechanical stimulation
of auditory mechano-sensory cells measured using atomic force microscopy
A. Zelenskaya, M. Radmacher, and M. Ulfendahl |
513 |
Structural differences betweeen prepore
and pore complexes of perfringolysin o identified by AFM
D. M. Czajkowsky, E. M. Hotze, R. K. Tweten, and Z. Shao |
526 |
Expression of the human µ-opioid
receptor in a stable Sf9 cell line for AFM and NSOM studies
L. A. Snook, D. R. Burns, D. Massotte, and TES. Dahms |
530 |
Visualization of syntaxin by AFM
D. E. Saslowsky, J. Lawrence, R. M. Henderson, and J. M. Edwardson |
541 |
Morphological changes induced by
poloxamer P188 in phospholipid monolayers: an atomic force microscopy
study
G. Wu |
546 |
Structural charcterisation of a novel
membrane protein, syncollin, with the atomic force microscope
N. A. Geisse, R. M. Henderson, and J. M. Edwardson |
615 |
Digest
