Chapter 5 - Characterization of Nucleic Acid–Metal Ion Binding by Spectroscopic Techniques
Identifieur interne : 003826 ( Main/Exploration ); précédent : 003825; suivant : 003827Chapter 5 - Characterization of Nucleic Acid–Metal Ion Binding by Spectroscopic Techniques
Auteurs : Victoria J. Derose [États-Unis]Source :
- RSC Biomolecular Sciences [ 1757-7152 ]
English descriptors
- Teeft :
- Absorption spectroscopy, Acid, Acid interactions, Ammine ligands, Anticodon loop, Binding sites, Biochem, Biochemistry, Bioinorganic chemistry, Biol, Calf thymus, Cation, Cation association, Cation interactions, Chem, Chemical shift, Chemical shifts, Cobalt hexammine, Conformational changes, Coordination environment, Coordination environments, Coordination sites, Counterion atmosphere, Crystallography, Derose, Divalent, Divalent cations, Divalent ions, Electrostatic collapse, Endor, Endor spectroscopy, Eseem, Eseem methods, Ethylene glycol, Exafs, Excitation, Excitation spectra, Figure chapter, Gaaa tetraloop, Hammerhead, Hammerhead ribozyme, High concentrations, Hydrated, Hydrated cations, Hydration, Hydration levels, Inorg, Ion, Ionic strength, Judicious choice, Lanthanide, Laser excitation, Lifetime measurements, Ligand, Luminescence, Luminescence lifetimes, Metal association, Metal interaction, Metal interactions, Metal ions, Metal site occupation, Metal site population, Metal sites, Methods enzymol, Model systems, Monovalent, Monovalent cations, Natural abundance, Noesy spectroscopy, Nuclear quadrupole interaction, Nuclear quadrupole moment, Nucleic, Nucleic acid, Nucleic acid interactions, Nucleic acid polyelectrolyte, Nucleic acids, Oligonucleotide, Oligonucleotides, Other hand, Paramagnetic metal ions, Phosphate group, Phosphodiester, Phosphodiester backbone, Phosphodiester groups, Phosphorothioate, Phosphorothioate substitutions, Quadrupole, Raman, Raman spectrosc, Residence time, Resonance raman, Ribozyme, Ribozymes, Room temperature, Royal society, Spatial distribution, Spectroscopic, Spectroscopic methods, Spectroscopic studies, Spectroscopic techniques, Spectroscopic techniques figure, Spectroscopy, Structural changes, Structural integrity, Substitution, Tertiary contacts, Texas university, Transition metals, Trna anticodon loop model, University science books, Vibrational, Vibrational spectroscopy, Water ligands, Water molecules.
Url:
DOI: 10.1039/9781847558763-00154
Affiliations:
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<profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Absorption spectroscopy</term>
<term>Acid</term>
<term>Acid interactions</term>
<term>Ammine ligands</term>
<term>Anticodon loop</term>
<term>Binding sites</term>
<term>Biochem</term>
<term>Biochemistry</term>
<term>Bioinorganic chemistry</term>
<term>Biol</term>
<term>Calf thymus</term>
<term>Cation</term>
<term>Cation association</term>
<term>Cation interactions</term>
<term>Chem</term>
<term>Chemical shift</term>
<term>Chemical shifts</term>
<term>Cobalt hexammine</term>
<term>Conformational changes</term>
<term>Coordination environment</term>
<term>Coordination environments</term>
<term>Coordination sites</term>
<term>Counterion atmosphere</term>
<term>Crystallography</term>
<term>Derose</term>
<term>Divalent</term>
<term>Divalent cations</term>
<term>Divalent ions</term>
<term>Electrostatic collapse</term>
<term>Endor</term>
<term>Endor spectroscopy</term>
<term>Eseem</term>
<term>Eseem methods</term>
<term>Ethylene glycol</term>
<term>Exafs</term>
<term>Excitation</term>
<term>Excitation spectra</term>
<term>Figure chapter</term>
<term>Gaaa tetraloop</term>
<term>Hammerhead</term>
<term>Hammerhead ribozyme</term>
<term>High concentrations</term>
<term>Hydrated</term>
<term>Hydrated cations</term>
<term>Hydration</term>
<term>Hydration levels</term>
<term>Inorg</term>
<term>Ion</term>
<term>Ionic strength</term>
<term>Judicious choice</term>
<term>Lanthanide</term>
<term>Laser excitation</term>
<term>Lifetime measurements</term>
<term>Ligand</term>
<term>Luminescence</term>
<term>Luminescence lifetimes</term>
<term>Metal association</term>
<term>Metal interaction</term>
<term>Metal interactions</term>
<term>Metal ions</term>
<term>Metal site occupation</term>
<term>Metal site population</term>
<term>Metal sites</term>
<term>Methods enzymol</term>
<term>Model systems</term>
<term>Monovalent</term>
<term>Monovalent cations</term>
<term>Natural abundance</term>
<term>Noesy spectroscopy</term>
<term>Nuclear quadrupole interaction</term>
<term>Nuclear quadrupole moment</term>
<term>Nucleic</term>
<term>Nucleic acid</term>
<term>Nucleic acid interactions</term>
<term>Nucleic acid polyelectrolyte</term>
<term>Nucleic acids</term>
<term>Oligonucleotide</term>
<term>Oligonucleotides</term>
<term>Other hand</term>
<term>Paramagnetic metal ions</term>
<term>Phosphate group</term>
<term>Phosphodiester</term>
<term>Phosphodiester backbone</term>
<term>Phosphodiester groups</term>
<term>Phosphorothioate</term>
<term>Phosphorothioate substitutions</term>
<term>Quadrupole</term>
<term>Raman</term>
<term>Raman spectrosc</term>
<term>Residence time</term>
<term>Resonance raman</term>
<term>Ribozyme</term>
<term>Ribozymes</term>
<term>Room temperature</term>
<term>Royal society</term>
<term>Spatial distribution</term>
<term>Spectroscopic</term>
<term>Spectroscopic methods</term>
<term>Spectroscopic studies</term>
<term>Spectroscopic techniques</term>
<term>Spectroscopic techniques figure</term>
<term>Spectroscopy</term>
<term>Structural changes</term>
<term>Structural integrity</term>
<term>Substitution</term>
<term>Tertiary contacts</term>
<term>Texas university</term>
<term>Transition metals</term>
<term>Trna anticodon loop model</term>
<term>University science books</term>
<term>Vibrational</term>
<term>Vibrational spectroscopy</term>
<term>Water ligands</term>
<term>Water molecules</term>
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