7rin Citations

Native SAD phasing at room temperature.

Greisman JB, Dalton KM, Sheehan CJ, Klureza MA, Kurinov I, Hekstra DR
Acta Crystallogr D Struct Biol 78 986-996 (2022)
Related entries: 7l84, 7lvc, 7mm1

Cited: 8 times
EuropePMC logo PMID: 35916223

Abstract

Single-wavelength anomalous diffraction (SAD) is a routine method for overcoming the phase problem when solving macromolecular structures. This technique requires the accurate measurement of intensities to determine differences between Bijvoet pairs. Although SAD experiments are commonly conducted at cryogenic temperatures to mitigate the effects of radiation damage, such temperatures can alter the conformational ensemble of the protein and may impede the merging of data from multiple crystals due to non-uniform freezing. Here, a strategy is presented to obtain high-quality data from room-temperature, single-crystal experiments. To illustrate the strengths of this approach, native SAD phasing at 6.55 keV was used to solve four structures of three model systems at 295 K. The resulting data sets allow automatic phasing and model building, and reveal alternate conformations that reflect the structure of proteins at room temperature.

Articles - 7rin mentioned but not cited (4)

  1. Native SAD phasing at room temperature. Greisman JB, Dalton KM, Sheehan CJ, Klureza MA, Kurinov I, Hekstra DR. Acta Crystallogr D Struct Biol 78 986-996 (2022)
  2. research-article MatchMaps: Non-isomorphous difference maps for X-ray crystallography. Brookner DE, Hekstra DR. bioRxiv 2023.09.01.555333 (2023)
  3. research-article Native dynamics and allosteric responses in PTP1B probed by high-resolution HDX-MS. Woods VA, Abzalimov RR, Keedy DA. bioRxiv 2023.07.12.548582 (2023)
  4. Room-temperature serial synchrotron crystallography of the human phosphatase PTP1B. Sharma S, Ebrahim A, Keedy DA. Acta Crystallogr F Struct Biol Commun 79 23-30 (2023)


Articles citing this publication (4)

  1. Obtaining anomalous and ensemble information from protein crystals from 220 K up to physiological temperatures. Doukov T, Herschlag D, Yabukarski F. Acta Crystallogr D Struct Biol 79 212-223 (2023)
  2. A unifying Bayesian framework for merging X-ray diffraction data. Dalton KM, Greisman JB, Hekstra DR. Nat Commun 13 7764 (2022)
  3. Introduction to the virtual thematic issue on room-temperature biological crystallography. Steiner RA. IUCrJ 10 248-250 (2023)
  4. Introduction to the virtual thematic issue on room-temperature biological crystallography. Steiner RA. Acta Crystallogr F Struct Biol Commun 79 79-81 (2023)


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