Add to ORKGMicroED has recently emerged as a powerful method for the analysis of biological structures at atomic resolution. This technique has been largely limited to protein nanocrystals which grow either as needles or plates measuring only a few hundred nanometers in thickness. Furthermore, traditional microED data processing uses established X-ray crystallography software that is not optimized for handling compound effects that are unique to electron diffraction data. Here, we present an integrated workflow for microED, from sample preparation by cryo-focused ion beam milling, through data collection with a standard Ceta-D detector, to data processing using the DIALS software suite, thus enabling routine atomic structure determination of protein c...
Microcrystal electron diffraction (MicroED) was first coined and developed in 2013 at the Janelia Re...
Serial X-ray crystallography at free-electron lasers allows to solve biomolecular structures from su...
Three-dimensional nanometre-sized crystals of macromolecules currently resist structure elucidation ...
MicroED, a method at the intersection of X-ray crystallography and electron cryo-microscopy, has rap...
It is now possible to routinely determine atomic resolution structures by electron cryo-microscopy (...
We demonstrate that it is feasible to determine high-resolution protein structures by electron cryst...
These authors contributed equally to this work. MicroED uses very small three-dimensional protein cr...
Thesis (Ph.D.)--University of Washington, 2014Crystallographic methods for protein structure determi...
Summary: We present an in-depth protocol to reproducibly prepare crystalline lamellae from protein c...
Traditionally, crystallographic analysis of macromolecules has depended on large, well-ordered cryst...
Electron diffraction of extremely small three-dimensional crystals (MicroED) allows for structure de...
The bedrock of drug discovery and a key tool for understanding cellular function and drug mechanisms...
Structures of two globular proteins were determined ab initio using microcrystal electron diffractio...
Microcrystal electron diffraction (MicroED) allows for macromolecular structure solution from nanocr...
The lipidic cubic phase (LCP) technique has proved to facilitate the growth of high-quality crystals...
Microcrystal electron diffraction (MicroED) was first coined and developed in 2013 at the Janelia Re...
Serial X-ray crystallography at free-electron lasers allows to solve biomolecular structures from su...
Three-dimensional nanometre-sized crystals of macromolecules currently resist structure elucidation ...
MicroED, a method at the intersection of X-ray crystallography and electron cryo-microscopy, has rap...
It is now possible to routinely determine atomic resolution structures by electron cryo-microscopy (...
We demonstrate that it is feasible to determine high-resolution protein structures by electron cryst...
These authors contributed equally to this work. MicroED uses very small three-dimensional protein cr...
Thesis (Ph.D.)--University of Washington, 2014Crystallographic methods for protein structure determi...
Summary: We present an in-depth protocol to reproducibly prepare crystalline lamellae from protein c...
Traditionally, crystallographic analysis of macromolecules has depended on large, well-ordered cryst...
Electron diffraction of extremely small three-dimensional crystals (MicroED) allows for structure de...
The bedrock of drug discovery and a key tool for understanding cellular function and drug mechanisms...
Structures of two globular proteins were determined ab initio using microcrystal electron diffractio...
Microcrystal electron diffraction (MicroED) allows for macromolecular structure solution from nanocr...
The lipidic cubic phase (LCP) technique has proved to facilitate the growth of high-quality crystals...
Microcrystal electron diffraction (MicroED) was first coined and developed in 2013 at the Janelia Re...
Serial X-ray crystallography at free-electron lasers allows to solve biomolecular structures from su...
Three-dimensional nanometre-sized crystals of macromolecules currently resist structure elucidation ...