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Rare-Earth Element Biochemistry: Characterization and Applications of Lanthanide-Binding Biomolecules

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Publisher: Academic Press

Published: 2021-04-20

Total Pages: 414

ISBN-13: 0323910866

Rare-Earth Element Biochemistry: Characterization and Applications of Lanthanide-Binding Biomolecules, Volume 651 in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. Chapters in this new release include Spectrophotometric methods to probe the solution chemistry of lanthanide complexes with macromolecules, Determination of affinities of lanthanide-binding proteins using chelator-buffered titrations, Electron Paramagnetic Resonance of Lanthanides, Characterization of lanthanoid binding proteins using NMR spectroscopy, Macromolecular crystallography for f-element complex characterization, Infrared spectroscopy probes ion binding geometries, Predicting lanthanide coordination structures in solution with molecular simulation, and much more. Additional sections cover the Characteristics of Gd(III) spin labels for the study of protein conformations, Lanthanide-based resonance energy transfer biosensors for live-cell applications, Yttrium-86 PET imaging, Aqueous Chemistry of the Smallest Rare Earth: Comprehensive Characterization of Radioactive and Non-radioactive Scandium Complexes for Biological Applications, and In vitro selection and application of lanthanide-dependent DNAzymes. Provides the authority and expertise of leading contributors from an international board of authors Presents the latest release in the Methods in Enzymology series

Rare-earth element biochemistry: Methanol dehydrogenases and lanthanide biology

Author:

Publisher: Academic Press

Published: 2021-04-16

Total Pages: 276

ISBN-13: 0128238577

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Methods in Enzymology, Volume 650 continues the legacy of this premier serial with quality chapters authored by leaders in the field. Chapters in this new release include Biophysical methods to study lanthanide-protein interactions, Genetically encoded sensors to study lanthanide biology, Spectrophotometric methods to determine the stability constants of lanthanide-macromolecule complexes, Lanthanide-based probes for amino acid modifications, In vitro selection and application of lanthanide-dependent DNAzymes, LRET biosensors for imaging protein interactions in living cells, Synthetic Modeling of the Structure and Function of the Lanthanide-Dependent, MDH Cofactor, EPR spectroscopy of lanthanides, Macromolecular crystallography for f-element complex characterization, and much more. Provides the authority and expertise of leading contributors from an international board of authors Presents the latest release in the Methods in Enzymology series

Integrated Structural Biology

Author: Tatyana Polenova

Publisher: Royal Society of Chemistry

Published: 2023-12-08

Total Pages: 404

ISBN-13: 1839161833

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This book provides an overview of the contemporary integrated biology approaches for solving structures and understanding mechanisms of complex biological systems.

Biochemistry of the Lanthanides

Author: Christopher H. Evans

Publisher: Springer Science & Business Media

Published: 2013-11-11

Total Pages: 453

ISBN-13: 1468487485

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By a happy coincidence, the completion of this text coincided with the 200th anniversary of the discovery of gadolinite, the mineral with which the lanthanide story begins. For a group of elements which occur in only trace amounts biologically, and which have no known metabolic role, the lanthanides have spawned a surprisingly large biochemicalliterature. Se rious interest in the biochemical properties ofthese elements can be traced to concerns about the safety of radioactive lanthanides toward the end of World War 11. As recent events at Chernobyl indicate, this concern re mains topical. However, the literature on lanthanide biochemistry pre dates the atomic era, beginning with sporadic, medically motivated studies in the latter part of the 19th century. Much of the present biochemical activity involving the lanthanides centers around their ability to provide 2 important information on the interactions of Ca + with macromolecules and with eukafyotic cells. With the increasing industrial use of the lan thanides, their toxicological properties will need to be examined more closely. Rare earth pneumonoconiosis has already been identified as a disease produced by industrial exposure to lanthanides. Several of the biochemical properties of the lanthanides are of relevance to modern medicine. Already cerium-based ointments are used to treat burn wounds, while paramagnetic lanthanides find application in nuclear magnetic res onance imaging. This book is an attempt to collate and to present in reasonable detail existing knowledge of lanthanide biochemistry before the literature be comes unmanageable.

Nuclear Magnetic Resonance: Volume 48

Author: Paul Hodgkinson

Publisher: Royal Society of Chemistry

Published: 2022-11-14

Total Pages: 331

ISBN-13: 1839167068

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Applications of nuclear magnetic resonance span a wide range of scientific disciplines, from chemistry and physics to medicine. For those wanting to become acquainted with NMR or seasoned practitioners, this is a valuable source of current methods and applications.

The Rare Earth Elements

Author: David A. Atwood

Publisher: John Wiley & Sons

Published: 2013-02-19

Total Pages: 994

ISBN-13: 111863263X

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Lanthanides are of great importance for the electronic industries, this new book (from the EIBC Book Series) provides a comprehensive coverage of the basic chemistry, particularly inorganic chemistry, of the lanthanoid elements, those having a 4f shell of electrons. A chapter is describing the similarity of the Group 3 elements, Sc, Y, La, the group from which the lanthanoids originate and the group 13 elements, particularly aluminum, having similar properties. Inclusion of the group 3 and 13 elements demonstrates how the lanthanoid elements relate to other, more common, elements in the Periodic Table. Beginning chapters describe the occurrence and mineralogy of the elements, with a focus on structural features observed in compounds described in later chapters. The majority of the chapters is organized by the oxidation state of the elements, Ln(0), Ln(II), Ln(III), and Ln(IV). Within this organization the chapters are further distinguished by type of compound, inorganic (oxides and hydroxides, aqueous speciation, halides, alkoxides, amides and thiolates, and chelates) and organometallic. Concluding chapters deal with diverse and critically important applications of the lanthanoids in electronic and magnetic materials, and medical imaging.

Lanthanide Probes in Life, Chemical, and Earth Sciences

Author: J.-C. G. Bünzli

Publisher:

Published: 1989

Total Pages: 456

ISBN-13:

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Lanthanide elements were first used some thirty years ago in the optical glass industry, followed shortly by their use as NMR shift reagents in organic chemistry. Since then, the application of lanthanides in studies of organic and biochemical systems by use of their NMR and spectroscopic properties has created a rapidly growing interest in the physics and chemistry of these elements. Their use in industrial catalysts, electronic and optical components, high-temperature superconductors, in medicine as X-ray intensifying materials, relaxation agents for imaging techniques or radioisotopes for pharmaceutical applications, have combined with their utilisation in science as probes of a wide variety of phenomena giving them a prominent place in modern science. In this book, leading experts describe the various facets of the application of lanthanides as probes in life, chemical and earth sciences. The aim is to provide guidance to scientists who may wish to use the unique advantages of lanthanide probes in their own fields.To supplement the chapters on the basic concepts of the application of lanthanides, chapters are provided on the basic chemistry of these elements and on the synthetic and analytical aspects of lanthanides and their compounds. The book thus provides a great deal of useful information which will no doubt assist scientists in using these fascinating and valuable elements in their research.

Handbook on the Physics and Chemistry of Rare Earths

Author:

Publisher: North Holland

Published: 1998-03-23

Total Pages: 0

ISBN-13: 9780444828712

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Twenty years on and 164 reviews later since the appearance of volume 1 of this prestigious series, the rare earths continue to perplex, if not mystify us. There is no doubt that in the next breakthrough to a higher level of human understanding of nature, the rare earth elements and their compounds will play an important part in its elaboration. The reviews contained in this 25th volume continue this quest. The first chapter reveals the effects of the addition of the rare earths on steel. These elements were introduced to the steel-making industry in the 1920's to affect deoxidization and desulfurization. Today it is possible to extend their usefulness to provide steels with desired characteristics. The description of why and how additions of the rare earths affect micro- and nano-structures in steels which provide these beneficial modifications is explored. Chapter two reviews ternary and higher-order nitride materials. The synthesis of ternary compounds is examined and the products are categorized by their composition and the nature of the chemical bonding they exhibit. The structures of the compounds are discussed where possible. The spectral intensities of f-f transitions in lanthanide compounds are discussed at length in the following chapter. The authors present an exhaustive consideration of the unique appearance of intraconfigurational electronic transitions in f-type materials, particularly the lanthanides. The final chapter reviews the prodigious literature on the organometallic &pgr; complexes of the f-elements. The authors consider the main classes of complexes of both the lanthanide and actinide organometallics, and synthesis and structure are dealt with in particular.

Peptide, Protein and Enzyme Design

Author:

Publisher: Academic Press

Published: 2016-08-27

Total Pages: 686

ISBN-13: 0128054344

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De Novo Enzyme Design, the newest volume in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume includes the design of metal binding maquettes, insertion of non-natural cofactors, Cu metallopeptides, non-covalent interactions in peptide assemblies, peptide binding and bundling, heteronuclear metalloenzymes, florinated peptides, De Novo imaging agents, and protein-protein interaction. Continues the legacy of this premier serial with quality chapters on de novo enzyme design Represents the newest volume in the Methods in Enzymology series, providing premier, quality chapters authored by leaders in the field Ideal reference for those interested in the study of enzyme design that looks at both structure and mechanism

Lanthanide Coordination Chemistry in Rare-Earth Element Extraction and Photocatalysis

Author: Jessica Hovey

Publisher:

Published: 2022

Total Pages: 0

ISBN-13:

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This thesis outlines projects pertaining to the extraction, enrichment, and use of rare-earth elements in the trivalent and divalent states through the modification of coordination chemistry. Modulating the coordination environment can impact the selectivity of rare-earth elements in solid-liquid enrichment through the adjustment of donor atoms, denticity and pKa values as detailed in Chapter 1. Changes in coordination environment, such as to the identity of donor atoms, can lead to major differences in properties such as luminescence. The studies reported in this thesis contribute to the body of knowledge surrounding the use of coordination chemistry for both the solid0́3liquid extraction of rare-earth elements and the luminescence properties of divalent europium.Chapter 2 describes the analysis of a multidentate, pH-dependent solid-phase media for rare-earth element extraction. Separation experiments showed selectivity for the mid and heavy rare-earth elements and attachment of the ligand to the solid phase had similar thermodynamic affinities to trends in unmodified ligands. The pH-dependent nature of the ligand was characterized, and efficiency was retained for at least six cycles of reuse. The solid-phase media retained the selectivity for mid and heavy rare-earth elements from fly ash leachate, even in competition with much higher concentrations of competing ions. The results of this study expand the body of research surrounding solid0́3liquid extraction of rare-earth elements towards creating an organic solvent-free method of extraction. Chapter 3 focused on the interactions between the noncovalently attached ligand and resin in the solid-phase media described in Chapter 2. By adjusting the length of the hydrophobic group that interacts with the hydrophobic resin, we found that the ligand featuring the butyl hydrophobic groups showed less loading onto the resin than the ligand featuring the hexyl hydrophobic groups. We also determined that the ligand featuring butyl groups showed less wash off at pH 5.5 than the ligand with hexyl groups, suggesting that longer hydrophobic groups lead to less wash off and therefore more efficient solid-phase media than solid-phase media with shorter hydrophobic groups. This study outlines preliminary results towards the rational design of reusable noncovalently attached solid-phase media for the enrichment of rare-earth elements. Chapter 4 aimed to distinguish the experimental luminescent differences between two divalent europium cryptates using computational analyses. Crystal structures were optimized in methanol and time-dependent density functional theory calculations were used to calculate excitation and emission spectra of both complexes. Natural-transition orbitals revealed that similar orbitals were involved in the excitation and emission of both complexes. Therefore, the bright yellow luminescence observed experimentally with the octaaza-cryptate was attributed to a greater splitting of the 5d orbitals of the octaaza-cryptate relative to the 2.2.2-cryptate. This study provided foundational knowledge for the calculation of emission spectra for solvated divalent europium complexes. This thesis outlines the general ligand design for rare-earth elements taking into consideration the charge density of the metal, ligand donor identity, ligand denticity, and the range of pKa values on the ligand. Chapter 5 discusses how these reports are expected to provide tools for the rational design of ligands for rare-earth element enrichment and modulation of photophysical properties of low-valent rare-earth element complexes using coordination chemistry.