Desmosomes are cell-cell junctions that link tissue cells experiencing intense mechanical stress. Although the structure of the desmosomal cadherins is known, the desmosome architecture-which is essential for mediating numerous functions-remains elusive. Here, we recorded cryo-electron tomograms (cryo-ET) in which individual cadherins can be discerned; they appear variable in shape, spacing, and tilt with respect to the membrane. The resulting sub-tomogram average reaches a resolution of ∼26 Å, limited by the inherent flexibility of desmosomes. To address this challenge typical of dynamic biological assemblies, we combine sub-tomogram averaging with atomistic molecular dynamics (MD) simulations. We generate models of possible cadherin arran...
AbstractMicrotubules (MTs) are the largest type of cellular filament, essential in processes ranging...
Electron cryo-tomography is a powerful tool in structural biology, capable of visualizing the three-...
Electron Tomography (ET) is uniquely suited to obtain three-dimensional (3-D) images of large pleiom...
Desmosomes are a complex assembly of protein molecules that mediate adhesion between adjacent cells....
Division in eukaryotic cells depends on an actomyosin ring that forms at the midcell and then contra...
Cryo-electron tomography (cryo-ET) has rapidly emerged as a powerful tool to investigate the interna...
Electron cryo-tomography is a powerful tool in structural biology, capable of visualizing the three-...
At membrane contact sites (MCS) two cellular membranes form tight appositions that play critical rol...
Metazoan nuclei are equipped with nuclear lamina - a thin layer of intermediate filaments (IFs) most...
Cellular organelles and biological macromolecules such as proteins play a fundamental role in almost...
AbstractDesmosomes are dynamic junctions between cells that maintain the structural integrity of ski...
AbstractErythrocytes possess a spectrin-based cytoskeleton that provides elasticity and mechanical s...
SummaryNumerous vesiculation processes throughout the eukaryotic cell are dependent on the protein d...
The shape of the bacteria cell wall during division and the deformation at the division plane are a ...
Cryo–electron tomography (cryo-ET) provides structural context to molecular mechanisms underlying bi...
AbstractMicrotubules (MTs) are the largest type of cellular filament, essential in processes ranging...
Electron cryo-tomography is a powerful tool in structural biology, capable of visualizing the three-...
Electron Tomography (ET) is uniquely suited to obtain three-dimensional (3-D) images of large pleiom...
Desmosomes are a complex assembly of protein molecules that mediate adhesion between adjacent cells....
Division in eukaryotic cells depends on an actomyosin ring that forms at the midcell and then contra...
Cryo-electron tomography (cryo-ET) has rapidly emerged as a powerful tool to investigate the interna...
Electron cryo-tomography is a powerful tool in structural biology, capable of visualizing the three-...
At membrane contact sites (MCS) two cellular membranes form tight appositions that play critical rol...
Metazoan nuclei are equipped with nuclear lamina - a thin layer of intermediate filaments (IFs) most...
Cellular organelles and biological macromolecules such as proteins play a fundamental role in almost...
AbstractDesmosomes are dynamic junctions between cells that maintain the structural integrity of ski...
AbstractErythrocytes possess a spectrin-based cytoskeleton that provides elasticity and mechanical s...
SummaryNumerous vesiculation processes throughout the eukaryotic cell are dependent on the protein d...
The shape of the bacteria cell wall during division and the deformation at the division plane are a ...
Cryo–electron tomography (cryo-ET) provides structural context to molecular mechanisms underlying bi...
AbstractMicrotubules (MTs) are the largest type of cellular filament, essential in processes ranging...
Electron cryo-tomography is a powerful tool in structural biology, capable of visualizing the three-...
Electron Tomography (ET) is uniquely suited to obtain three-dimensional (3-D) images of large pleiom...