Literature DB >> 18461940

Structure of a 129Xe-cryptophane biosensor complexed with human carbonic anhydrase II.

Julie A Aaron1, Jennifer M Chambers, Kevin M Jude, Luigi Di Costanzo, Ivan J Dmochowski, David W Christianson.   

Abstract

Cryptophanes represent an exciting class of xenon-encapsulating molecules that can be exploited as probes for nuclear magnetic resonance imaging. The 1.70 A resolution crystal structure of a cryptophane-derivatized benezenesulfonamide complexed with human carbonic anhydrase II shows how an encapsulated xenon atom can be directed to a specific biological target. The crystal structure confirms binding measurements indicating that the cryptophane cage does not strongly interact with the surface of the protein, which may enhance the sensitivity of 129Xe NMR spectroscopic measurements in solution.

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Year:  2008        PMID: 18461940      PMCID: PMC2408383          DOI: 10.1021/ja802214x

Source DB:  PubMed          Journal:  J Am Chem Soc        ISSN: 0002-7863            Impact factor:   15.419


  12 in total

1.  Optimization of xenon biosensors for detection of protein interactions.

Authors:  Thomas J Lowery; Sandra Garcia; Lana Chavez; E Janette Ruiz; Tom Wu; Thierry Brotin; Jean-Pierre Dutasta; David S King; Peter G Schultz; Alex Pines; David E Wemmer
Journal:  Chembiochem       Date:  2006-01       Impact factor: 3.164

2.  Molecular imaging using a targeted magnetic resonance hyperpolarized biosensor.

Authors:  Leif Schröder; Thomas J Lowery; Christian Hilty; David E Wemmer; Alexander Pines
Journal:  Science       Date:  2006-10-20       Impact factor: 47.728

3.  Thermodynamics of xenon binding to cryptophane in water and human plasma.

Authors:  P Aru Hill; Qian Wei; Roderic G Eckenhoff; Ivan J Dmochowski
Journal:  J Am Chem Soc       Date:  2007-07-07       Impact factor: 15.419

Review 4.  Carbonic anhydrase as a model for biophysical and physical-organic studies of proteins and protein-ligand binding.

Authors:  Vijay M Krishnamurthy; George K Kaufman; Adam R Urbach; Irina Gitlin; Katherine L Gudiksen; Douglas B Weibel; George M Whitesides
Journal:  Chem Rev       Date:  2008-03       Impact factor: 60.622

Review 5.  Tumor-associated carbonic anhydrases and their clinical significance.

Authors:  Silvia Pastorekova; Seppo Parkkila; Jan Zavada
Journal:  Adv Clin Chem       Date:  2006       Impact factor: 5.394

Review 6.  Carbonic anhydrases as targets for medicinal chemistry.

Authors:  Claudiu T Supuran; Andrea Scozzafava
Journal:  Bioorg Med Chem       Date:  2007-04-19       Impact factor: 3.641

7.  Engineering the zinc binding site of human carbonic anhydrase II: structure of the His-94-->Cys apoenzyme in a new crystalline form.

Authors:  R S Alexander; L L Kiefer; C A Fierke; D W Christianson
Journal:  Biochemistry       Date:  1993-02-16       Impact factor: 3.162

8.  Crystallographic studies of inhibitor binding sites in human carbonic anhydrase II: a pentacoordinated binding of the SCN- ion to the zinc at high pH.

Authors:  A E Eriksson; P M Kylsten; T A Jones; A Liljas
Journal:  Proteins       Date:  1988

9.  Structure of native and apo carbonic anhydrase II and structure of some of its anion-ligand complexes.

Authors:  K Håkansson; M Carlsson; L A Svensson; A Liljas
Journal:  J Mol Biol       Date:  1992-10-20       Impact factor: 5.469

Review 10.  Functional lung imaging using hyperpolarized gas MRI.

Authors:  Sean B Fain; Frank R Korosec; James H Holmes; Rafael O'Halloran; Ronald L Sorkness; Thomas M Grist
Journal:  J Magn Reson Imaging       Date:  2007-05       Impact factor: 4.813
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  15 in total

1.  Cell-compatible, integrin-targeted cryptophane-129Xe NMR biosensors.

Authors:  Garry K Seward; Yubin Bai; Najat S Khan; Ivan J Dmochowski
Journal:  Chem Sci       Date:  2011-06       Impact factor: 9.825

2.  Ultrafast Z-Spectroscopy for 129Xe NMR-Based Sensors.

Authors:  Céline Boutin; Estelle Léonce; Thierry Brotin; Alexej Jerschow; Patrick Berthault
Journal:  J Phys Chem Lett       Date:  2013-12-05       Impact factor: 6.475

Review 3.  Metabolic and Molecular Imaging with Hyperpolarised Tracers.

Authors:  Jason Graham Skinner; Luca Menichetti; Alessandra Flori; Anna Dost; Andreas Benjamin Schmidt; Markus Plaumann; Ferdia Aiden Gallagher; Jan-Bernd Hövener
Journal:  Mol Imaging Biol       Date:  2018-12       Impact factor: 3.488

4.  Cryptophane Nanoscale Assemblies Expand 129Xe NMR Biosensing.

Authors:  Serge D Zemerov; Benjamin W Roose; Mara L Greenberg; Yanfei Wang; Ivan J Dmochowski
Journal:  Anal Chem       Date:  2018-06-01       Impact factor: 6.986

5.  Enantiopure Cryptophane-129Xe Nuclear Magnetic Resonance Biosensors Targeting Carbonic Anhydrase.

Authors:  Olena Taratula; Yubin Bai; Edward L D'Antonio; Ivan J Dmochowski
Journal:  Supramol Chem       Date:  2015-01-01       Impact factor: 1.688

6.  Substituent effects on xenon binding affinity and solution behavior of water-soluble cryptophanes.

Authors:  P Aru Hill; Qian Wei; Thomas Troxler; Ivan J Dmochowski
Journal:  J Am Chem Soc       Date:  2009-03-04       Impact factor: 15.419

7.  Cryptophane xenon-129 nuclear magnetic resonance biosensors targeting human carbonic anhydrase.

Authors:  Jennifer M Chambers; P Aru Hill; Julie A Aaron; Zhaohui Han; David W Christianson; Nicholas N Kuzma; Ivan J Dmochowski
Journal:  J Am Chem Soc       Date:  2009-01-21       Impact factor: 15.419

Review 8.  Molecular Sensing with Host Systems for Hyperpolarized 129Xe.

Authors:  Jabadurai Jayapaul; Leif Schröder
Journal:  Molecules       Date:  2020-10-11       Impact factor: 4.411

9.  Structural, catalytic and stabilizing consequences of aromatic cluster variants in human carbonic anhydrase II.

Authors:  Christopher D Boone; Sonika Gill; Chingkuang Tu; David N Silverman; Robert McKenna
Journal:  Arch Biochem Biophys       Date:  2013-09-10       Impact factor: 4.013

Review 10.  Functionalized 129Xe contrast agents for magnetic resonance imaging.

Authors:  Olena Taratula; Ivan J Dmochowski
Journal:  Curr Opin Chem Biol       Date:  2009-11-13       Impact factor: 8.822
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