Recent changes

Jump to navigation Jump to search

Track the most recent changes to the wiki on this page.

Human (not bot)
List of abbreviations:
N
This edit created a new page (also see list of new pages)
m
This is a minor edit
b
This edit was performed by a bot
(±123)
The page size changed by this number of bytes

3 January 2025

N    08:02  2023Lucas Baited‎ diffhist +1,465‎ WikiSysop talk contribs (Created page with "== Citation == B. A. Lucas, B. A. Himes, and N. Grigorieff, “Baited reconstruction with 2D template matching for high-resolution structure determination in vitro and in vivo without template bias,” Elife, vol. 12, p. RP90486, 2023. == Abstract == Previously we showed that 2D template matching (2DTM) can be used to localize macromolecular complexes in images recorded by cryogenic electron microscopy (cryo-EM) with high precision, even in the presence of noise and c...")
     08:02  Main Page‎‎ 4 changes history +363‎ [WikiSysop‎ (4Ă—)]
     
08:02 (cur | prev) +86‎ WikiSysop talk contribs (→‎Automatic particle picking)
     
07:54 (cur | prev) +99‎ WikiSysop talk contribs (→‎Sample preparation)
     
07:49 (cur | prev) +87‎ WikiSysop talk contribs (→‎Sample preparation)
     
07:44 (cur | prev) +91‎ WikiSysop talk contribs (→‎Sample preparation)
N    07:55  2024Bhattacharjee TimeResolved‎ diffhist +1,442‎ WikiSysop talk contribs (Created page with "== Citation == S. Bhattacharjee et al., “Time resolution in cryo-EM using a PDMS-based microfluidic chip assembly and its application to the study of HflX-mediated ribosome recycling,” Cell, vol. 187, no. 3, pp. 782–796, 2024. == Abstract == The rapid kinetics of biological processes and associated short-lived conformational changes pose a significant challenge in attempts to structurally visualize biomolecules during a reaction in real time. Conventionally, on-...")
N    07:50  2024Tuijtel Lamellae‎ diffhist +1,416‎ WikiSysop talk contribs (Created page with "== Citation == M. W. Tuijtel et al., “Thinner is not always better: Optimizing cryo-lamellae for subtomogram averaging,” Science Advances, vol. 10, no. 17, p. eadk6285, 2024. == Abstract == Cryo–electron tomography (cryo-ET) is a powerful method to elucidate subcellular architecture and to structurally analyze biomolecules in situ by subtomogram averaging, yet data quality critically depends on specimen thickness. Cells that are too thick for transmission imagin...")
N    07:45  2023Grassetti Graphene‎ diffhist +1,890‎ WikiSysop talk contribs (Created page with "== Citation == A. V. Grassetti, M. B. May, and J. H. Davis, “Enhancing CryoEM Sample Preparation Using Graphene Monolayer on Microscopy Grids (Video)| JoVE,” JoVE (Journal of Visualized Experiments), no. 201, p. e66023, 2023. == Abstract == In cryogenic electron microscopy (cryoEM), purified macromolecules are applied to a grid bearing a holey carbon foil; the molecules are then blotted to remove excess liquid and rapidly frozen in a roughly 20-100 nm thick layer...")