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6CLJ

1.01 A MicroED structure of GSNQNNF at 0.50 e- / A^2

Summary for 6CLJ
Entry DOI10.2210/pdb6clj/pdb
EMDB information7502
DescriptorGSNQNNF, ACETATE ION, ZINC ION, ... (4 entities in total)
Functional Keywordsamyloid fibril, prion, zinc binding, protein fibril
Biological sourcesynthetic construct
Total number of polymer chains1
Total formula weight904.21
Authors
Hattne, J.,Shi, D.,Glynn, C.,Zee, C.-T.,Gallagher-Jones, M.,Martynowycz, M.W.,Rodriguez, J.A.,Gonen, T. (deposition date: 2018-03-02, release date: 2018-05-16, Last modification date: 2024-03-13)
Primary citationHattne, J.,Shi, D.,Glynn, C.,Zee, C.T.,Gallagher-Jones, M.,Martynowycz, M.W.,Rodriguez, J.A.,Gonen, T.
Analysis of Global and Site-Specific Radiation Damage in Cryo-EM.
Structure, 26:759-766.e4, 2018
Cited by
PubMed Abstract: Micro-crystal electron diffraction (MicroED) combines the efficiency of electron scattering with diffraction to allow structure determination from nano-sized crystalline samples in cryoelectron microscopy (cryo-EM). It has been used to solve structures of a diverse set of biomolecules and materials, in some cases to sub-atomic resolution. However, little is known about the damaging effects of the electron beam on samples during such measurements. We assess global and site-specific damage from electron radiation on nanocrystals of proteinase K and of a prion hepta-peptide and find that the dynamics of electron-induced damage follow well-established trends observed in X-ray crystallography. Metal ions are perturbed, disulfide bonds are broken, and acidic side chains are decarboxylated while the diffracted intensities decay exponentially with increasing exposure. A better understanding of radiation damage in MicroED improves our assessment and processing of all types of cryo-EM data.
PubMed: 29706530
DOI: 10.1016/j.str.2018.03.021
PDB entries with the same primary citation
Experimental method
ELECTRON CRYSTALLOGRAPHY (1.01 Å)
Structure validation

226707

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