Oxidation of thiols. Nitrogen atoms with formaldehyde.

Whiting, Laurence Vernon.

January 1970

No description available.

Nitrogen

Thiols

Formaldehyde

Detection of Thiols by o-Quinone Electrocatalytic Sensors

Zhu, Tianxia

18 December 2012

No description available.

Chemistry

Thiols

Sensors

Electrocatalyst

Synthesis and properties of transition metal complexes : complexes of 2-(2-mercaptoethyl) pyridine, 2-mercaptomethylpyridine and methylbis-(2-mercaptoethyl) amine /

Wrathall, Jay W.

January 1962

No description available.

Chemistry

Thiols

Transition metals

Mechanism of reactions of nickel (II) complexes of mercaptoamines with alkyl halide /

Blinn, Elliott Lawrence

January 1967

No description available.

Chemistry

Thiols

Amines

Nickel

Synthesis, structures and properties of metal-metal bonded transition metal with organothiolate ligands

Chan, Lai-fung., 陳麗鳳.

January 2008

published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy

Ruthenium compounds - Synthesis.

Thiols.

Ligands.

THE DESIGN AND SYNTHESIS OF NOVEL CHELATES FOR THE PRECIPITATION OF MERCURY

Hutchison, Aaron Robert

01 January 2007

Mercury has been an element of great industrial importance since early times.This wide utilization of the element has led to pervasive mercury contamination in theglobal environment. Due to mercury's high toxicity, this is a matter of great concern. Anumber of methods, includ ing phytoremediation, filtration, and precipitation/chelation,have been investigated to remove mercury from the environment. Unfortunately, thesemethods are not entirely satisfactory for the in-situ remediation of mercury from aqueousenvironments.The hypothesis of this dissertation is that this can best be accomplished by theaddition of a large and flexible sulfur-based chelate, that will bind mercury in atetracoordinate and presumably tetrahedral environment, to mercury-contaminatedwaters. Although this proved difficult due to the tendency of these ligands to decomposeinto smaller, sulfur-containing rings, the synthesis and characterization of such a chelatewas achieved. Several potential mercury-binding ligands were eventually synthesizedsignificant amounts of mercury (91-100%) from the contaminated solutions, in one caselowering the mercury levels in the water to below the CVAF detection limits. Theresulting solids lost little (andlt;15 ppb) of their mercury during leaching studies.This work demonstrates the use of tetradentate chelates in precipating Hg2+ fromwater to produce stable mercury- ligand precipitates. A calculation for the quantification ofthe geometry of a four-coordinate compound was also developed and applied to aluminum,gallium, and mercury compounds. This calculation could also be applied to the mercurycompounds described in this thesis once X-ray structures become available

THE INTERACTION OF BETA-MERCAPTOETHANOL WITH SPHALERITE.

Jennings, David Brian.

January 1982

No description available.

Thiols.

Flotation.

Sphalerite.

Copper ores.

Synthesis and characterization of mitochondrially targeted superoxide dismutase and thiol peroxidase enzyme mimetics

Kelso, Geoffrey F., n/a

January 2005

The production of reactive oxygen species by mitochondria is implicated in the mitochondrial dysfunction associated with a range of diseases and ageing. In contrast, reactive oxygen species produced by mitochondria are involved in redox signalling pathways necessary for modulating a number of cell processes. Mitochondrially targeted antioxidants comprised of an antioxidant moiety linked to a lipophilic triphenylphosphonium cation have recently been used to decrease reactive oxygen species-mediated oxidative damage to mitochondria and to investigate the role of mitochondrial reactive oxygen species in redox signalling. These lipophilic cations are selectively accumulated by mitochondria within cells due to the mitochondrial membrane potential. This thesis presents the synthesis and characterization of mitochondrially targeted antioxidant superoxide dismutase and thiol peroxidase mimetics. A mitochondrially targeted derivative of the Mn(II) macrocycle SOD mimetic M40403 (MitoSOD) was synthesized by Mn(II) template synthesis of a chiral tetraamine component and a triphenylphosphonium derivative of 2,6-pyridinedialdehyde. Racemic tetraamine was synthesized by mono-protection of racemic diamine followed by reductive amination of glyoxal and deprotection of di-protected tetraamine but overall this was found to be less efficient than a reported method based on trityl protection. The synthesis of the triphenylphosphonium derivative of 2,6-pyridinedialdehyde involved substitution of protected 4-bromo-2,6-pyridinedialdehyde by the thiolate of 3-mercaptoproanol followed by simultaneous deprotection and alkyl bromide formation, and triphenylphosphine substitution of the thioalkyl bromide substituent. MitoSOD was found to be more lipophilic than M40403 and was kinetically stable to dissociation to Mn(II) and macrocyclic ligand at physiological pH. Pulse radiolysis kinetic studies indicated both MitoSOD and M40403 catalyse the dismutation of superoxide. Fast conductivity and spectrophotometric measurements indicated the mechanism of catalysis involved reaction of the Mn(II) centre with superoxide to give a Mn(III)-peroxide intermediate which reacted with further superoxide to give the parent Mn(II) macrocycle. MitoSOD was significantly accumulated by mitochondria and this was dependent to some extent on the mitochondrial membrane potential. In addition, MitoSOD appeared to react with a product of mitochondrial succinate respiration. A mitochondrially targeted derivative of the organoselenium thiol peroxidase mimetic ebselen (Mitoebselen) was synthesized by O-alkylation of a phenolic ebselen derivative with a triphenylphosphonium derivative of an alkyl iodide. Reaction of excess triphenylphosphine with an ebselen derivative containing an alkyl iodide substituent resulted in substitution of iodide and, unexpectedly, reduction of the isoselenazole moiety to the diselenide redox form. Mitoebselen and its diselenide were both readily reduced to a selenol by an excess of the physiological thiol glutathione. Reaction of the selenol with excess peroxide generated the diselenide, possibly via reaction of unreacted selenol with Mitoebselen formed from a selenenic acid intermediate or with selenenic acid directly. Mitoebselen and its diselenide were both oxidized by excess peroxide to a selenoxide but these reactions were much slower than those between selenol and peroxides, and those between Mitoebselen or its diselenide with glutathione. Together these studies suggested cyclic pathways other than a selenolisoselenazole-selenol cycle could be involved in Mitoebselen or ebselen-catalysed thiol peroxidation.

superoxide dismutase

thiols

mitochondrial DNA

The kinetics and equilibria of reactions of Toluene-3,4-dithiol with selected metal ions

Brinkman, William John, 1947-

January 1973

No description available.

Complex ions.

Thiols.

Organometallic compounds.

Synthesis, biological targeting and photophysics of quantum dots

Clarke, Samuel Jon.

January 1900

Thesis (Ph.D.). / Written for the Dept. of Biomedical Engineering. Title from title page of PDF (viewed 2009/06/18). Includes bibliographical references.