Kaiming Zhang scite author profile

Scaffolded DNA origami is a versatile means of synthesizing complex molecular architectures. However, the approach is limited by the need to forward-design specific Watson-Crick base-pairing manually for any given target structure. Here, we report a general, top-down strategy to design nearly arbitrary DNA architectures autonomously based only on target shape. Objects are represented as closed surfaces rendered as polyhedral networks of parallel DNA duplexes, which enables complete DNA scaffold routing with a spanning tree algorithm. The asymmetric polymerase chain reaction was applied to produce stable, monodisperse assemblies with custom scaffold length and sequence that are verified structurally in 3D to be high fidelity using single-particle cryo-electron microscopy. Their long-term stability in serum and low-salt buffer confirms their utility for biological as well as nonbiological applications.

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Measurement of atom resolvability in cryo-EM maps with Q-scores

Pintilie

et al. 2020

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CryoEM density maps are now at the point where resolvability of individual atoms can be achieved. However, resolvability is not necessarily uniform throughout the map. We introduce a quantitative parameter to characterize the resolvability of individual atoms in cryoEM maps, the map Q-score. Q-scores can be calculated for atoms in proteins, nucleic acids, water, ligands, and other solvent atoms, using models fitted to or derived from cryoEM maps. Q-scores can also be averaged to represent larger features such as entire residues and nucleotides. Averaged over entire models, Q-scores correlate very well with the estimated resolution of cryoEM maps for both protein and RNA. Assuming the models they are calculated from are well-fitted to the map, Q-scores can thus be used as a measure of resolvability in cryoEM maps at various scales, from entire macromolecules down to individual atoms. Q-score analysis of multiple cryoEM maps of the same proteins derived from different labs confirms the reproducibility of structural features from side chains down to water and ion atoms.

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Raman shifts in Si nanocrystals

et al. 1996

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Kaiming Zhang

Designer nanoscale DNA assemblies programmed from the top down

Measurement of atom resolvability in cryo-EM maps with Q-scores

Raman shifts in Si nanocrystals

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