2pes Citations

A dipicolinate lanthanide complex for solving protein structures using anomalous diffraction.

Pompidor G, Maury O, Vicat J, Kahn R
Acta Crystallogr D Biol Crystallogr 66 762-9 (2010)
Related entries: 2pe7, 3lgr

Cited: 11 times
EuropePMC logo PMID: 20606256

Abstract

Tris-dipicolinate lanthanide complexes were used to prepare derivative crystals of six proteins: hen egg-white lysozyme, turkey egg-white lysozyme, thaumatin from Thaumatococcus daniellii, urate oxidase from Aspergillus flavus, porcine pancreatic elastase and xylanase from Trichoderma reesei. Diffraction data were collected using either synchrotron radiation or X-rays from a laboratory source. In all cases, the complex turned out to be bound to the protein and the phases determined using the anomalous scattering of the lanthanide led to high-quality electron-density maps. The binding mode of the complex was characterized from the refined structures. The lanthanide tris-dipicolinate was found to bind through interactions between carboxylate groups of the dipicolinate ligands and hydrogen-bond donor groups of the protein. In each binding site, one enantiomeric form of the complex is selected from the racemic solution according to the specific site topology. For hen egg-white lysozyme and xylanase, derivative crystals obtained by cocrystallization belonged to a new monoclinic C2 crystal form that diffracted to high resolution.

Articles citing this publication (11)

  1. Crystal structure of pb9, the distal tail protein of bacteriophage T5: a conserved structural motif among all siphophages. Flayhan A, Vellieux FM, Lurz R, Maury O, Contreras-Martel C, Girard E, Boulanger P, Breyton C. J. Virol. 88 820-828 (2014)
  2. Lanthanides: Applications in Cancer Diagnosis and Therapy. Teo RD, Termini J, Gray HB. J. Med. Chem. 59 6012-6024 (2016)
  3. Imaging of protein crystals with two-photon microscopy. Padayatti P, Palczewska G, Sun W, Palczewski K, Salom D. Biochemistry 51 1625-1637 (2012)
  4. Engineering [Ln(DPA)3] 3- binding sites in proteins: a widely applicable method for tagging proteins with lanthanide ions. Jia X, Yagi H, Su XC, Stanton-Cook M, Huber T, Otting G. J. Biomol. NMR 50 411-420 (2011)
  5. Exploration of the supramolecular interactions involving tris-dipicolinate lanthanide complexes in protein crystals by a combined biostructural, computational and NMR study. Dumont E, Pompidor G, D'Aléo A, Vicat J, Toupet L, Kahn R, Girard E, Maury O, Giraud N. Phys Chem Chem Phys 15 18235-18242 (2013)
  6. A multidimensional approach to the analysis of chemical shift titration experiments in the frame of a multiple reaction scheme. D'Aléo A, Dumont E, Maury O, Giraud N. Magn Reson Chem 51 641-648 (2013)
  7. Paramagnetic DOSY: An Accurate Tool for the Analysis of the Supramolecular Interactions between Lanthanide Complexes and Proteins. Denis-Quanquin S, Riobé F, Delsuc MA, Maury O, Giraud N. Chemistry 22 18123-18131 (2016)
  8. Clicked europium dipicolinate complexes for protein X-ray structure determination. Talon R, Nauton L, Canet JL, Kahn R, Girard E, Gautier A. Chem Commun (Camb) 48 11886-11888 (2012)
  9. Functional Identification and Structural Analysis of a New Lipoate Protein Ligase in Mycoplasma hyopneumoniae. Zhu K, Chen H, Jin J, Wang N, Ma G, Huang J, Feng Y, Xin J, Zhang H, Liu H. Front Cell Infect Microbiol 10 156 (2020)
  10. Insight of endo-1,4-xylanase II from Trichoderma reesei: conserved water-mediated H-bond and ion pairs interactions. Vijayakumar B, Velmurugan D. Protein J. 32 649-656 (2013)
  11. Deciphering the Multisite Interactions of a Protein and Its Ligand at Atomic Resolution by Using Sensitive Paramagnetic Effects. Ma FH, Wang X, Chen JL, Wen X, Sun H, Su XC. Chemistry 23 926-934 (2017)


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