Biology
hR/M and hR/M/N complex
hR/M complex
AFM image of a single human Rad50/Mre11 protein complex bound to a DNA molecule adsorbed on a mica substrate and imaged in liquid Dynamic Mode.
Image size 100 nmx 100 nm
Moreno-Herrero et al. Nature. 437 (7057), 440-443 (2005).
hR/M complex
AFM image of a single human Rad50/Mre11 protein complex adsorbed on a mica substrate and imaged in liquid Dynamic Mode..
Image size 100 nmx 100 nm
Moreno-Herrero et al. Nature. 437 (7057), 440-443 (2005).
MVM Virus
Atomic Force Microscopy image of viral particles.
Image size 60 nmx 60 nm.
From C.Carrasco. Universidad Autónoma de Madrid.
Carrasco.PNAS 103, 13706-13711 (2006)
Viral particles of a diameter of 25 nm.
Image size 60 nmx 60 nm.
From C.Carrasco. Universidad Autónoma de Madrid.
Carrasco.PNAS 103, 13706-13711 (2006)
Viral particles
Viral particles were imaged under physiological conditions by AFM using ''Jumping Mode'' to accurately control the applied force.
Image size 60 nmx 60 nm.
From C.Carrasco. Universidad Autónoma de Madrid.
Carrasco.PNAS 103, 13706-13711 (2006)
Microtubuli
Scanning Force Microscopy image of a microtubuli. Jumping Mode in liquid.
Image size 200 nmx 200 nm. Vrije Univ. Amsterdam
Iwan A. T. Schaap, Carolina Carrasco, Pedro J. de Pablo, Frederick C. MacKintosh, and Christoph F. Schmidt. Elastic Response, Buckling, and Instability of Microtubules under Radial Indentation Biophysical Journal, Volume 91. August 2006 1521–1531
microtubuli. 3D view topography
Scanning Force Microscopy image of a microtubuli. Jumping Mode in liquid.
Image size 215 nmx 215 nm. Vrije Univ. Amsterdam
I.A.T. Schaap, P.J. de Pablo, C.F. Schmidt. " Resolving the molecular structure of microtubules under physiological conditions with scanning force microscopy" Eur. Biophys. J. (2004) DOI: 10.007/s00249-003-0386-8
