Matches in Ubergraph for { <https://frink.apps.renci.org/.well-known/genid/Bbd72f6d504337fa538460da161d19e5c> ?p ?o ?g. }
Showing items 1 to 5 of
5
with 100 items per page.
- Bbd72f6d504337fa538460da161d19e5c hasDbXref "PMID:11785754" @default.
- Bbd72f6d504337fa538460da161d19e5c type Axiom @default.
- Bbd72f6d504337fa538460da161d19e5c annotatedProperty IAO_0000115 @default.
- Bbd72f6d504337fa538460da161d19e5c annotatedSource MI_0040 @default.
- Bbd72f6d504337fa538460da161d19e5c annotatedTarget "Electron microscopy methods provide insights into the structure of biological macromolecules and their supramolecular assemblies. Resolution is on average around 10 Angstroms but can reach the atomic level when the samples analysed are 2D crystals. Different types of samples can be analysed by electron microscopy: crystals, single particles like viruses, macromolecular complexes or entire cells and tissue sections. Samples can be chemically fixed or vitrified by rapid freezing in liquid ethane, and then transferred into the electron microscope. Data collection consists of the recording of electron diffraction data (2D crystals) and images. Depending on the type of sample, different approaches are used to analyse and merge images and electron diffraction data." @default.