4ete Citations

High-resolution protein structure determination by serial femtosecond crystallography.

Boutet S, Lomb L, Williams GJ, Barends TR, Aquila A, Doak RB, Weierstall U, DePonte DP, Steinbrener J, Shoeman RL, Messerschmidt M, Barty A, White TA, Kassemeyer S, Kirian RA, Seibert MM, Montanez PA, Kenney C, Herbst R, Hart P, Pines J, Haller G, Gruner SM, Philipp HT, Tate MW, Hromalik M, Koerner LJ, van Bakel N, Morse J, Ghonsalves W, Arnlund D, Bogan MJ, Caleman C, Fromme R, Hampton CY, Hunter MS, Johansson LC, Katona G, Kupitz C, Liang M, Martin AV, Nass K, Redecke L, Stellato F, Timneanu N, Wang D, Zatsepin NA, Schafer D, Defever J, Neutze R, Fromme P, Spence JC, Chapman HN, Schlichting I
Science 337 362-4 (2012)
Related entries: 4et8, 4et9, 4eta, 4etb, 4etc, 4etd

Cited: 307 times
EuropePMC logo PMID: 22653729

Abstract

Structure determination of proteins and other macromolecules has historically required the growth of high-quality crystals sufficiently large to diffract x-rays efficiently while withstanding radiation damage. We applied serial femtosecond crystallography (SFX) using an x-ray free-electron laser (XFEL) to obtain high-resolution structural information from microcrystals (less than 1 micrometer by 1 micrometer by 3 micrometers) of the well-characterized model protein lysozyme. The agreement with synchrotron data demonstrates the immediate relevance of SFX for analyzing the structure of the large group of difficult-to-crystallize molecules.

Articles - 4ete mentioned but not cited (1)

  1. High-resolution protein structure determination by serial femtosecond crystallography. Boutet S, Lomb L, Williams GJ, Barends TR, Aquila A, Doak RB, Weierstall U, DePonte DP, Steinbrener J, Shoeman RL, Messerschmidt M, Barty A, White TA, Kassemeyer S, Kirian RA, Seibert MM, Montanez PA, Kenney C, Herbst R, Hart P, Pines J, Haller G, Gruner SM, Philipp HT, Tate MW, Hromalik M, Koerner LJ, van Bakel N, Morse J, Ghonsalves W, Arnlund D, Bogan MJ, Caleman C, Fromme R, Hampton CY, Hunter MS, Johansson LC, Katona G, Kupitz C, Liang M, Martin AV, Nass K, Redecke L, Stellato F, Timneanu N, Wang D, Zatsepin NA, Schafer D, Defever J, Neutze R, Fromme P, Spence JC, Chapman HN, Schlichting I. Science 337 362-364 (2012)


Reviews citing this publication (55)

  1. Androgen receptor: structure, role in prostate cancer and drug discovery. Tan MH, Li J, Xu HE, Melcher K, Yong EL. Acta Pharmacol Sin 36 3-23 (2015)
  2. Mn4Ca cluster in photosynthesis: where and how water is oxidized to dioxygen. Yano J, Yachandra V. Chem Rev 114 4175-4205 (2014)
  3. Structural advances for the major facilitator superfamily (MFS) transporters. Yan N. Trends Biochem Sci 38 151-159 (2013)
  4. Dysregulation of the basal RNA polymerase transcription apparatus in cancer. Bywater MJ, Pearson RB, McArthur GA, Hannan RD. Nat Rev Cancer 13 299-314 (2013)
  5. Assessing and maximizing data quality in macromolecular crystallography. Karplus PA, Diederichs K. Curr Opin Struct Biol 34 60-68 (2015)
  6. A glimpse of structural biology through X-ray crystallography. Shi Y. Cell 159 995-1014 (2014)
  7. X-Ray Free-Electron Lasers for the Structure and Dynamics of Macromolecules. Chapman HN. Annu Rev Biochem 88 35-58 (2019)
  8. A Bright Future for Serial Femtosecond Crystallography with XFELs. Johansson LC, Stauch B, Ishchenko A, Cherezov V. Trends Biochem Sci 42 749-762 (2017)
  9. Protein X-ray Crystallography and Drug Discovery. Maveyraud L, Mourey L. Molecules 25 E1030 (2020)
  10. Liquid sample delivery techniques for serial femtosecond crystallography. Weierstall U. Philos Trans R Soc Lond B Biol Sci 369 20130337 (2014)
  11. Serial femtosecond crystallography: A revolution in structural biology. Martin-Garcia JM, Conrad CE, Coe J, Roy-Chowdhury S, Fromme P. Arch Biochem Biophys 602 32-47 (2016)
  12. Protein crystallography for aspiring crystallographers or how to avoid pitfalls and traps in macromolecular structure determination. Wlodawer A, Minor W, Dauter Z, Jaskolski M. FEBS J 280 5705-5736 (2013)
  13. Advances in X-ray scattering: from solution SAXS to achievements with coherent beams. Pérez J, Nishino Y. Curr Opin Struct Biol 22 670-678 (2012)
  14. A brief history of macromolecular crystallography, illustrated by a family tree and its Nobel fruits. Jaskolski M, Dauter Z, Wlodawer A. FEBS J 281 3985-4009 (2014)
  15. Femtosecond crystallography of membrane proteins in the lipidic cubic phase. Liu W, Wacker D, Wang C, Abola E, Cherezov V. Philos Trans R Soc Lond B Biol Sci 369 20130314 (2014)
  16. Protein Crystallography in Vaccine Research and Development. Malito E, Carfi A, Bottomley MJ. Int J Mol Sci 16 13106-13140 (2015)
  17. Structure-based drug design: aiming for a perfect fit. van Montfort RLM, Workman P. Essays Biochem 61 431-437 (2017)
  18. Opportunities and challenges for time-resolved studies of protein structural dynamics at X-ray free-electron lasers. Neutze R. Philos Trans R Soc Lond B Biol Sci 369 20130318 (2014)
  19. Serial Femtosecond Crystallography of G Protein-Coupled Receptors. Stauch B, Cherezov V. Annu Rev Biophys 47 377-397 (2018)
  20. Where is crystallography going? Grimes JM, Hall DR, Ashton AW, Evans G, Owen RL, Wagner A, McAuley KE, von Delft F, Orville AM, Sorensen T, Walsh MA, Ginn HM, Stuart DI. Acta Crystallogr D Struct Biol 74 152-166 (2018)
  21. DNA-based construction at the nanoscale: emerging trends and applications. Xavier PL, Chandrasekaran AR. Nanotechnology 29 062001 (2018)
  22. Protein structure determination by MicroED. Nannenga BL, Gonen T. Curr Opin Struct Biol 27 24-31 (2014)
  23. Bacteriorhodopsin: Structural Insights Revealed Using X-Ray Lasers and Synchrotron Radiation. Wickstrand C, Nogly P, Nango E, Iwata S, Standfuss J, Neutze R. Annu Rev Biochem 88 59-83 (2019)
  24. Membrane protein structural biology using X-ray free electron lasers. Neutze R, Brändén G, Schertler GF. Curr Opin Struct Biol 33 115-125 (2015)
  25. Opportunities in multidimensional trace metal imaging: taking copper-associated disease research to the next level. Vogt S, Ralle M. Anal Bioanal Chem 405 1809-1820 (2013)
  26. Best practices for time-resolved serial synchrotron crystallography. Schulz EC, Yorke BA, Pearson AR, Mehrabi P. Acta Crystallogr D Struct Biol 78 14-29 (2022)
  27. Hitchhiking on the heptahelical highway: structure and function of 7TM receptor complexes. Tesmer JJ. Nat Rev Mol Cell Biol 17 439-450 (2016)
  28. Structural insights into melatonin receptors. Stauch B, Johansson LC, Cherezov V. FEBS J 287 1496-1510 (2020)
  29. Real-time crystallographic studies of the adenine riboswitch using an X-ray free-electron laser. Stagno JR, Bhandari YR, Conrad CE, Liu Y, Wang YX. FEBS J 284 3374-3380 (2017)
  30. Metalloprotein structures at ambient conditions and in real-time: biological crystallography and spectroscopy using X-ray free electron lasers. Kern J, Yachandra VK, Yano J. Curr Opin Struct Biol 34 87-98 (2015)
  31. Sample Delivery Media for Serial Crystallography. Nam KH. Int J Mol Sci 20 E1094 (2019)
  32. Molecular mechanisms for generating transmembrane proton gradients. Gunner MR, Amin M, Zhu X, Lu J. Biochim Biophys Acta 1827 892-913 (2013)
  33. Mapping Enzyme Landscapes by Time-Resolved Crystallography with Synchrotron and X-Ray Free Electron Laser Light. Wilson MA. Annu Rev Biophys 51 79-98 (2022)
  34. Progress and outlook in structural biology of large viral RNAs. Cantara WA, Olson ED, Forsyth KM. Virus Res 193 24-38 (2014)
  35. A short history of structure based research on the photocycle of photoactive yellow protein. Schmidt M. Struct Dyn 4 032201 (2017)
  36. Atomic resolution structure determination by the cryo-EM method MicroED. Liu S, Hattne J, Reyes FE, Sanchez-Martinez S, Jason de la Cruz M, Shi D, Gonen T. Protein Sci 26 8-15 (2017)
  37. Biostructural Science Inspired by Next-Generation X-Ray Sources. Gruner SM, Lattman EE. Annu Rev Biophys 44 33-51 (2015)
  38. Radiation damage to macromolecules: kill or cure? Garman EF, Weik M. J Synchrotron Radiat 22 195-200 (2015)
  39. Methods development for diffraction and spectroscopy studies of metalloenzymes at X-ray free-electron lasers. Kern J, Hattne J, Tran R, Alonso-Mori R, Laksmono H, Gul S, Sierra RG, Rehanek J, Erko A, Mitzner R, Wernet P, Bergmann U, Sauter NK, Yachandra V, Yano J. Philos Trans R Soc Lond B Biol Sci 369 20130590 (2014)
  40. A structural snapshot of the rhodopsin-arrestin complex. Kang Y, Gao X, Zhou XE, He Y, Melcher K, Xu HE. FEBS J 283 816-821 (2016)
  41. Discerning best practices in XFEL-based biological crystallography - standards for nonstandard experiments. Gorel A, Schlichting I, Barends TRM. IUCrJ 8 532-543 (2021)
  42. Enabling direct nanoscale observations of biological reactions with dynamic TEM. Evans JE, Browning ND. Microscopy (Oxf) 62 147-156 (2013)
  43. A minimal view of single-particle imaging with X-ray lasers. Loh ND. Philos Trans R Soc Lond B Biol Sci 369 20130328 (2014)
  44. Enabling membrane protein structure and dynamics with X-ray free electron lasers. Feld GK, Frank M. Curr Opin Struct Biol 27 69-78 (2014)
  45. Features and futures of X-ray free-electron lasers. Huang N, Deng H, Liu B, Wang D, Zhao Z. Innovation (Camb) 2 100097 (2021)
  46. Growing and making nano- and microcrystals. Shoeman RL, Hartmann E, Schlichting I. Nat Protoc 18 854-882 (2023)
  47. Modern X-ray scattering studies of complex biological systems. Kornreich M, Avinery R, Beck R. Curr Opin Biotechnol 24 716-723 (2013)
  48. Macromolecular movies, storybooks written by nature. Schmidt M. Biophys Rev 13 1191-1197 (2021)
  49. Macromolecular Nanocrystal Structural Analysis with Electron and X-Rays: A Comparative Review. Khakurel KP, Angelov B, Angelov B, Andreasson J. Molecules 24 E3490 (2019)
  50. Selective and differential optical spectroscopies in photosynthesis. Krausz E. Photosynth Res 116 411-426 (2013)
  51. Biophysical highlights from 54 years of macromolecular crystallography. Richardson JS, Richardson DC. Biophys J 106 510-525 (2014)
  52. Combining on-line spectroscopy with synchrotron and X-ray free electron laser crystallography. Makita H, Simon PS, Kern J, Yano J, Yachandra VK. Curr Opin Struct Biol 80 102604 (2023)
  53. Research Progress in Surface-Enhanced Infrared Absorption Spectroscopy: From Performance Optimization, Sensing Applications, to System Integration. Li D, Xu C, Xie J, Lee C. Nanomaterials (Basel) 13 2377 (2023)
  54. Light-dependent production of dioxygen in photosynthesis. Yano J, Kern J, Yachandra VK, Nilsson H, Koroidov S, Messinger J. Met Ions Life Sci 15 13-43 (2015)
  55. Review of serial femtosecond crystallography including the COVID-19 pandemic impact and future outlook. Botha S, Fromme P. Structure 31 1306-1319 (2023)

Articles citing this publication (251)



Quick links