Your search keyword '"Ruth Edge"' showing total 120 results

51. Photophysical studies of six amphiphilic 2:1 cyclodextrin:[60]fullerene derivatives

Author

Ruth Edge, Edward J. Land, Yongmin Zhang, Salvatore Filippone, André Rassat, Juan Yang, Michael Brettreich, Suppiah Navaratnam, Andreas Hirsch, Pierre Sinaÿ, René V. Bensasson, Annamaria Quaranta, and David J. McGarvey

Subjects

chemistry.chemical_classification, Fullerene, Absorption spectroscopy, Cyclodextrin, Singlet oxygen, General Physics and Astronomy, Photochemistry, chemistry.chemical_compound, chemistry, Radiolysis, Moiety, Flash photolysis, Physical and Theoretical Chemistry, Triplet state

Abstract

In search of a simple internal complexation of C 60 in cyclodextrins, six 2:1 cyclodextrin:[60]fullerene conjugates involving different types of linkers have been synthesised. Using spectrophotometry, laser flash photolysis and pulse radiolysis, we have investigated spectroscopic and photophysical properties of these 2:1 cyclodextrin [60]fullerene monoadduct conjugates ( CDF ), including ground and triplet state absorption spectra, triplet molar absorption coefficients ( e T ), quantum yields of triplet ( Φ T ) and singlet oxygen formation ( Φ Δ ) in water and toluene, in order to probe the possibility of 2:1 inclusion complexes of C 60 between two cyclodextrins. In water, the CDF spectroscopic and photophysical properties indicate hydrophobically driven self-assemblies of the amphiphilic conjugates into spherical micelles with no evidence for the presence of a 2:1 inclusion complex, while in toluene they show no sign of aggregation. It is observed that formation of aggregates in water does not prevent scavenging of HO radical by the C 60 moiety of the CD–C 60 conjugates.

Published

2006

52. Mechanistic studies of melanogenesis: the influence of N-substitution on dopamine quinone cyclization

Author

Stan Pavel, Ruth Edge, Suppiah Navaratnam, Nico P.M. Smit, Patrick A. Riley, Christopher A. Ramsden, Edward J. Land, and Jan Borovansky

Subjects

Agaricus, Dopamine, Clinical Biochemistry, Antineoplastic Agents, Plant Science, Medicinal chemistry, Fungal Proteins, Amidine, chemistry.chemical_compound, Isomerism, Amide, Side chain, Organic chemistry, Prodrugs, Melanoma, Melanins, Molecular Structure, Monophenol Monooxygenase, Chemistry, Cell Biology, Prodrug, Neoplasm Proteins, Thiourea, Radiolysis, Urea, Oxidation-Reduction, Agronomy and Crop Science, Isomerization, Developmental Biology

Abstract

The influence of side-chain structure on the mode of reaction of ortho-quinone amines has been investigated with a view, ultimately, to developing potential methods of therapeutic intervention by manipulating the early stages of melanogenesis. Four N-substituted dopamine derivatives have been prepared and quinone formation studied using pulse radiolysis and tyrosinase-oximetry. Ortho-quinones with an amide or urea side chain were relatively stable, although evidence for slow formation of isomeric para-quinomethanes was observed. A thiourea derivative cyclized fairly rapidly (k = 1.7/s) to a product containing a seven-membered ring, whereas a related amidine gave more rapidly (k approximately 2.5 x 10(2)/s) a stable spirocyclic product. The results suggest that cyclization of amides, ureas and carbamates (NHCO-X; X = R, NHR or OR) does not occur and is not, therefore, a viable approach to the formation of tyrosinase-activated antimelanoma prodrugs. It is also concluded that for N-acetyldopamine spontaneous ortho-quinone to para-quinomethane isomerization is slow.

Published

2006

53. Photolysis of carotenoids in chloroform: enhanced yields of carotenoid radical cations in the presence of a tryptophan ester

Author

Ali El-Agamey, David J. McGarvey, T. George Truscott, Ruth Edge, Edward J. Land, and Marc Burke

Subjects

chemistry.chemical_classification, chemistry.chemical_compound, Radiation, Chloroform, chemistry, organic chemicals, Photodissociation, Radiolysis, Tryptophan, food and beverages, Photochemistry, Carotenoid

Abstract

The presence of an acetyl tryptophan ester gives rise to enhanced yields of carotenoid radical cations in chloroform following 355 nm laser excitation of the carotenoid, even though the tryptophan does not absorb at this wavelength. The increase is attributed to positive charge transfer from semi-oxidized tryptophan itself generated by light absorbed by the carotenoid. The mechanism of these radical processes has been elucidated by pulse radiolysis studies.

Published

2005

54. Antioxidant inhibition of porphyrin-induced cellular phototoxicity

Author

Sarah Foley, Linus Lange, Ruth Edge, Fritz Böhm, and T. George Truscott

Subjects

Antioxidant, Light, medicine.medical_treatment, alpha-Tocopherol, Cell, Biophysics, Protoporphyrins, Ascorbic Acid, Antioxidants, Cell Line, Cell membrane, Jurkat Cells, chemistry.chemical_compound, Lycopene, medicine, Humans, Radiology, Nuclear Medicine and imaging, Uroporphyrins, Radiation, Radiological and Ultrasound Technology, Protoporphyrin IX, Chemistry, Cell growth, Cell Membrane, Fibroblasts, beta Carotene, Ascorbic acid, Carotenoids, Porphyrin, medicine.anatomical_structure, Biochemistry, Phototoxicity, Cell Division

Abstract

Porphyrins such as protoporphyrin IX (PP IX) and uroporphyrin I (UP I) can be phototoxic to human cells. To study the protective ability of antioxidants (beta-carotene, lycopene, ascorbic acid and alpha-tocopherol), against such porphyrin phototoxicity, membrane destruction experiments (Jurkat cells) and human cell cultures (fibroblasts) were performed. Both beta-carotene and lycopene and also the combination of beta-carotene, ascorbic acid and alpha-tocopherol offered cell protection against PP IX phototoxicity. Investigations of both cell membrane protection and of cell growth showed differences in terms of the protection afforded by the anti-oxidants. Thus, for PP IX, carotenoids alone, and in combination with ascorbic acid and alpha-tocopherol, showed higher protection factors in general than UP I. However, for membrane protection there was significant protection against UP I by the combination of beta-carotene, ascorbic acid and alpha-tocopherol but not by any of these anti-oxidants alone. The membrane protection against PP IX by beta-carotene, and especially lycopene, is significant presumably because of the high lipophilicity of all these molecules. However, the hydrophilic UP I will cause phototoxicity mainly via H(2)O(2), radical or singlet oxygen production in the aqueous phase, and these reactive species may be generated some distance from the cell membrane. This may lead to the little or no protection observed for UP I by the individual antioxidants. Nevertheless, a combination of beta-carotene, ascorbic acid and alpha-tocopherol offers membrane protection against the phototoxicity of both porphyrins. This is believed to occur as a result of synergistic processes. Our results suggest that the treatment of porphyria cutanea tarda and erythropoietic protoporphyria may be improved by the use of a combination of the antioxidants studied.

Published

2001

55. Carotenoid Radical−Melanin Interactions

Author

Tadeusz Sarna, T. G. Truscott, Malgorzata Barbara Rozanowska, Edward J. Land, and Ruth Edge

Subjects

chemistry.chemical_classification, organic chemicals, food and beverages, macromolecular substances, biological factors, Surfaces, Coatings and Films, Melanin, Biochemistry, chemistry, Homogeneous, Materials Chemistry, sense organs, Physical and Theoretical Chemistry, Carotenoid

Abstract

The radical cations of five dietary carotenoids have been shown to react with dopamelanin (a model of the black eumelanin) and cysteinyldopamelanin (a model of the red/yellow pheomelanin) in both micellar and homogeneous environments. It is suggested that such repair reactions show previously unidentified protective roles for melanin/carotenoid combinations, especially where the maintenance of the (small) carotenoid concentration is vital to avoid deleterious effects, such as in the retina of the eye.

Published

2000

56. ABSTRACTS

Author

T. G. Truscott, Tadeusz Sarna, Malgorzata Barbara Rozanowska, Ruth Edge, and Edward J. Land

Subjects

Melanin, chemistry.chemical_classification, Chemistry, Organic chemistry, General Medicine, Physical and Theoretical Chemistry, Photochemistry, Biochemistry, Carotenoid

Published

1999

57. Enhanced protection of human cells against ultraviolet light by antioxidant combinations involving dietary carotenoids

Author

Linus Lange, Ruth Edge, Fritz Böhm, and T. George Truscott

Subjects

chemistry.chemical_classification, Radiation, Antioxidant, Radiological and Ultrasound Technology, Ultraviolet Rays, Chemistry, medicine.medical_treatment, Carotene, Biophysics, Ascorbic acid, Carotenoids, Antioxidants, chemistry.chemical_compound, Biochemistry, Cell culture, beta-Carotene, medicine, Ultraviolet light, Humans, Radiology, Nuclear Medicine and imaging, alpha-Tocopherol, Carotenoid, Cells, Cultured

Abstract

Antioxidants like β-carotene, α-tocopherol and ascorbic acid should be able to protect human cells against damage due to ultraviolet light. Cultured human fibroblasts have been irradiated with UVA or UVB light after incubation with the antioxidants or combinations of them. The efficiency of the protection by the antioxidants in dietary concentrations is estimated by cell counting following cell culture. In the case of UVA irradiation we find synergistic effects of combinations with β-carotene as the main protector. On the other hand, only additive effects of the tested combinations are observed in the experiments with UVB light. Our experiments show a protective effect of dietary antioxidants against human tissue cell damage by ultraviolet light.

Published

1998

58. Relative One-Electron Reduction Potentials of Carotenoid Radical Cations and the Interactions of Carotenoids with the Vitamin E Radical Cation

Author

David J. McGarvey, Ruth Edge, L Mulroy, Edward J. Land, and T. G. Truscott

Subjects

chemistry.chemical_classification, Lutein, General Chemistry, Photochemistry, Biochemistry, Catalysis, Lycopene, Zeaxanthin, chemistry.chemical_compound, Electron transfer, Colloid and Surface Chemistry, chemistry, Radical ion, Astaxanthin, Canthaxanthin, Carotenoid

Abstract

Pulse radiolysis studies have been used to determine the electron-transfer rate constants between various pairs of carotenoids, one of which is present as the radical cation. These dietary carotenoids include those of importance to vision, namely zeaxanthin and lutein. These results have suggested the order of relative ease of electron transfer between six carotenoids. Additional experiments, involving electron transfer between astaxanthin (ASTA), β-apo-8‘-carotenal (APO), and vitamin E (TOH), lead to the following order in terms of relative ease of electron transfer for the seven carotenoid radical cations studied: astaxanthin > β-apo-8‘-carotenal > canthaxanthin > lutein > zeaxanthin > β-carotene > lycopene, such that lycopene is the strongest reducing agent (the most easily oxidized) and astaxanthin is the weakest, and the radical cations of the visual carotenoids, lutein (LUT) and zeaxanthin (ZEA), are reduced by lycopene (LYC) but not by β-carotene (β-CAR). Work on 7,7‘-dihydro-β-carotene (77DH) and...

Published

1998

59. Efficiencies of fragmentation of glycosaminoglycan chloramides of the extracellular matrix by oxidizing and reducing radicals: potential site-specific targets in inflammation?

Author

Ruth Edge, Almabrok Akeel, Stephen W. Martin, Sambulelwe Sibanda, A.W. Paterson, Saphwan Al-Assaf, and Barry J. Parsons

Subjects

Inflammation, Free Radicals, Hypochlorous acid, Heparin, Reducing agent, Radical, Inorganic chemistry, Hypochlorite, Photochemistry, Solvated electron, Biochemistry, Extracellular Matrix, Oxidative Stress, chemistry.chemical_compound, chemistry, Physiology (medical), Oxidizing agent, Animals, Humans, Hydroxyl radical, Hyaluronic Acid, Fragmentation (cell biology), Oxidation-Reduction, Glycosaminoglycans

Abstract

Hypochlorous acid and its conjugate base, hypochlorite ions, produced under inflammatory conditions, may produce chloramides of glycosaminoglycans, these being significant components of the extracellular matrix (ECM). This may occur through the binding of myeloperoxidase directly to the glycosaminoglycans. The N–Cl group in the chloramides is a potential selective target for both reducing and oxidizing radicals, leading possibly to more efficient and damaging fragmentation of these biopolymers relative to the parent glycosaminoglycans. To investigate the effect of the N–Cl group, we used ionizing radiation to produce quantifiable concentrations of the reducing radicals, hydrated electron and superoxide radical, and also of the oxidizing radicals, hydroxyl, carbonate, and nitrogen dioxide, all of which were reacted with hyaluronan and heparin and their chloramides in this study. PAGE gels calibrated for molecular weight allowed the consequent fragmentation efficiencies of these radicals to be calculated. Hydrated electrons were shown to produce fragmentation efficiencies of 100 and 25% for hyaluronan chloramide (HACl) and heparin chloramide (HepCl), respectively. The role of the sulfate group in heparin in the reduction of fragmentation can be rationalized using mechanisms proposed by M.D. Rees et al. (J. Am. Chem. Soc. 125:13719–13733; 2003), in which the initial formation of an amidyl radical leads rapidly to a C-2 radical on the glucosamine moiety. This is 100% efficient at causing glycosidic bond breakage in HACl but only 25% efficient in HepCl, the role of the sulfate group being to favor the nonfragmentary routes for the C-2 radical. The weaker reducing agent, the superoxide radical, did not cause fragmentation of either HACl or HepCl although kinetic reactivity had been demonstrated in earlier studies. Experiments using the oxidizing radicals, hydroxyl and carbonate, both potential in vivo species, showed significant increases in fragmentation efficiencies for both HACl and HepCl, relative to the parent molecules. The carbonate radical was shown to be involved in site-specific reactions at the N–Cl groups, reacting via abstraction of Cl, to produce the same amidyl radical produced by one-electron reductants such as the hydrated electron. As for the hydrated electrons, the data support fragmentation efficiencies of 100 and 29% for reaction of carbonate radicals at N–Cl for HACl and HepCl, respectively. For the weaker oxidant, nitrogen dioxide, no fragmentation was observed, probably because of a low kinetic reactivity and low reduction potential. It seems likely therefore that the N–Cl group can direct damage to extracellular matrix glycosaminoglycan chloramides, which may be produced under inflammatory conditions. The in vivo species, the carbonate radical, is also much more likely to be site-specific in its reactions with such components of the ECM than the hydroxyl radical.

Published

2013

60. Radiolytic and Photolytic Production of Free Radicals and Reactive Oxygen Species: Interactions with Antioxidants and Biomolecules

Author

Ruth Edge

Subjects

chemistry.chemical_classification, Reactive oxygen species, Antioxidant, Singlet oxygen, Radical, Biomolecule, medicine.medical_treatment, Analytical chemistry, Photochemistry, chemistry.chemical_compound, Radical ion, chemistry, Radiolysis, medicine, Flash photolysis

Abstract

This chapter discusses a variety of free radicals and other reactive oxygen species that are biologically and medically relevant. Radiolytic and/or photochemical methods of production for each reactive oxygen species are shown and for each type of reactive oxygen species some antioxidant and/or biomolecule interactions are discussed. Additionally, the techniques of laser flash photolysis and pulse radiolysis are described in detail and a comparison of the two techniques is made.

Published

2013

61. Oxygen Effect on Protection of Human Lymphoid Cells Against Free Radicals by the Carotenoid Lycopene

Author

Ruth Edge, Fritz Boehm, and Terence George Truscott

Subjects

0301 basic medicine, chemistry.chemical_classification, 030109 nutrition & dietetics, Radical, chemistry.chemical_element, Photochemistry, Biochemistry, Oxygen, Nitrogen, Lycopene, 03 medical and health sciences, chemistry.chemical_compound, Cell killing, chemistry, Physiology (medical), Radiolysis, Limiting oxygen concentration, Carotenoid

Abstract

Carotenoids are known to act as dietary antioxidants and so are of wide interest for their health benefits. Dietary lycopene, the carotenoid pigment in tomatoes, has been shown to protect against human lymphoid cell membrane damage from free radicals produced by gamma radiation and also by the nitrogen dioxide radical, generated photolytically. This protective effect is dramatically reduced as the oxygen concentration increases, particularly for damage due to gamma radiolysis – becoming near zero at 100% oxygen from 5-fold protection at 20% oxygen and 50-fold protection at zero per-cent oxygen. The effect is less pronounced for nitrogen dioxide-induced cell killing falling from 17-fold protection in the absence of oxygen to 9-fold at 100% oxygen. Non-cellular gamma radiation and laser studies were also carried out to support the molecular mechanisms suggested for the effect of oxygen. The remarkable reduction in protection by lycopene against gamma radiation at high oxygen concentrations could be exploited to enhance radiation procedures for therapy and preliminary studies have also been undertaken for irradiations with high energy protons.

Published

2016

62. Corrigendum to 'Seeking the mechanism responsible for the fluoroquinolone photomutagenicity: A pulse radiolysis, steady-state and laser flash photolysis study' [Free Radic. Biol. Med. 67 (2014) 417–425]

Author

Ruth Edge, Francisco Bosca, M. Consuelo Cuquerella, Sonia Soldevila, and Virginie Lhiaubet-Vallet

Subjects

Pulse (signal processing), Chemistry, law, Physiology (medical), Radiolysis, Flash photolysis, Steady state (chemistry), Laser, Photochemistry, Biochemistry, law.invention

Published

2016

63. Redox non-innocence of thioether crowns: elucidation of the electronic structure of the mononuclear Pd(III) complexes [Pd([9]aneS3)2]3+ and [Pd([18]aneS6)]3+

Author

David Collison, Emma Carter, Damien Martin Murphy, Martin Schröder, Alan J. Holder, E. Stephen Davies, William Lewis, Claire Wilson, Robert O. Gould, Alexander J. Blake, Jonathan McMaster, Emma Stephen, and Ruth Edge

Subjects

Chemistry, Stereochemistry, Center (category theory), Resonance, Electronic structure, law.invention, Inorganic Chemistry, Crystallography, Octahedron, law, Density functional theory, Molecular orbital, Physical and Theoretical Chemistry, Electron paramagnetic resonance, Single crystal

Abstract

The Pd(II) complexes [Pd([9]aneS(3))(2)](PF6)(2)center dot 2MeCN (1) ([9]aneS(3) = 1,4,7-trithiacyclononane) and [Pd([18]aneS(6))](PF6)(2) (2) ([18]aneS6 = 1,4,7,10,13,16-hexathiacyclooctadecane) can be oxidized electrochemically or chemically oxidized with 70% HClO4 to [Pd([9]aneS(3))(2)](3+) and [Pd([18]aneS(6))](3+), respectively. These centers have been characterized by single crystal X-ray diffraction, and by UV/vis and multifrequency electron paramagnetic resonance (EPR) spectroscopies. The single crystal X-ray structures of [Pd-III([9]aneS(3))(2)]-(ClO4)(6)center dot(H3O)(3)center dot(H2O)(4) (3) at 150 K and [Pd([18]aneS(6))]-(ClO4)(6)center dot(H5O2)(3) (4) at 90 K reveal distorted octahedral geometries with Pd S distances of 2.3695(8), 2.3692(8), 2.5356(9) and 2.3490(6), 2.3454(5), 2.5474(6) angstrom, respectively, consistent with Jahn-Teller distortion at a low-spin d(7) Pd(III) center. The Pd(II) compound [Pd([9)aneS(3))(2)}(PF6)(2) shows a one-electron oxidation process in MeCN (0.2 M NBu4PF6, 293 K) at E-1/2 = +0.57 V vs. Fc(+)/Fc assigned to a formal Pd(III)/Pd(II) couple. Multifrequency (Q-, X-, S-, and L-band) EPR spectroscopic analysis of [Pd([9]aneS(3))(2))(3+) and [Pd([18]aneS(6))](3+) gives g(iso) = 2.024, vertical bar A(iso(pd))vertical bar = 18.9x 10(-4) cm(-1); g(xx) = 2.046, g(yy) = 2.041, g(zz) = 2.004; vertical bar A(xx(pd))vertical bar = 24 X 10(-4) cm(-1), vertical bar A(yy(Pd))vertical bar = 22 x 10(-4) cm(-1), IA(zz(Pd))vertical bar = 14 x 10(-4) cm(-1), vertical bar a(xx(H))vertical bar = 4 X 10(-4) cm(-1), vertical bar a(yy(H))vertical bar = 5 X 10(-4) cm(-1), vertical bar a(zz(H))vertical bar= 5.5 X 10(-4) cm(-1) for [Pd([9]aneS(3))(2)](3+), and g(iso) = 2.015, broken vertical bar A(iso(pd))vertical bar = 18.8 x 10(-4) cm(-1); g(xx) = 2.048 g(yy) = 2.036, g(zz) = 1.998; vertical bar a(xx(H))vertical bar = 5, la(yy(H))vertical bar = 5, vertical bar a(zz(H))vertical bar = 6 x 10(-4) cm(-1); = vertical bar A(xx(Pd))vertical bar = 23 x 10(-4) cm(-1), vertical bar A(yy(pd))vertical bar = 22 x 10(-4) cm(-1), vertical bar A(zz(pd))vertical bar = 4 X 10(-4) cm(-1) for [Pd([18]aneS(6))](3+). Both [Pd([9]aneS(3))(2)](3+) and [Pd( [18]aneS(6))(3+) exhibit five-line superhyperfme splitting in the g(zz) region in their frozen solution EPR spectra. Double resonance spectroscopic measurements, supported by density functional theory (DFT) calculations, permit assignment of this superhyperfine to through-bond coupling involving four H-1 centers of the macrocyclic ring. Analysis of the spin Hamiltonian parameters for the singly occupied molecular orbital (SOMO) in these complexes gives about 20.

Published

2012

64. Magnetic properties of a novel family of ferrous cubanes

Author

Ruth Edge, Fabrizio Moro, Alexander J. Blake, Francesco Piga, Itana Krivokapic, Joris van Slageren, Eric J. L. McInnes, David J. Evans, Jonathan McMaster, Piga, F, Moro, F, Krivokapic, I, Blake, A, Edge, R, Mcinnes, E, Evans, D, Mcmaster, J, and Slageren, J

Subjects

Materials Chemistry2506 Metals and Alloys, Chemistry, Electronic, Optical and Magnetic Material, Iron, Magnetic Phenomena, Chemistry (all), Inorganic chemistry, Metals and Alloys, Surfaces, Coatings and Film, Ceramics and Composite, General Chemistry, Catalysis, Hydrocarbons, Catalysi, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Ferrous, Paramagnetism, Polymer chemistry, Materials Chemistry, Ceramics and Composites, Organometallic Compounds

Abstract

A novel family of paramagnetic tetranuclear ferrous cubanes is reported. Two complexes from this family are described and their magnetic properties are discussed in relation to their structures. © The Royal Society of Chemistry 2012

Published

2012

65. Interactions of dietary carotenoids with singlet oxygen (1O2) and free radicals: potential effects for human health

Author

T. George Truscott, Fritz Böhm, and Ruth Edge

Subjects

chemistry.chemical_classification, Lutein, Quenching (fluorescence), Free Radicals, Singlet Oxygen, Singlet oxygen, organic chemicals, Radical, food and beverages, Photochemistry, Carotenoids, General Biochemistry, Genetics and Molecular Biology, Antioxidants, Zeaxanthin, chemistry.chemical_compound, chemistry, Food, Xanthophyll, Photoprotection, polycyclic compounds, Humans, Carotenoid, Oxidation-Reduction

Abstract

The dietary carotenoids provide photoprotection to photosynthetic organisms, the eye and the skin. The protection mechanisms involve both quenching of singlet oxygen and of damaging free radicals. The mechanisms for singlet oxygen quenching and protection against free radicals are quite different - indeed, under some conditions, quenching of free radicals can lead to a switch from a beneficial anti-oxidant process to damaging pro-oxidative situation. Furthermore, while skin protection involves β-carotene or lycopene from a tomato-rich diet, protection of the macula involves the hydroxyl-carotenoids (xanthophylls) zeaxanthin and lutein. Time resolved studies of singlet oxygen and free radicals and their interaction with carotenoids via pulsed laser and fast electron spectroscopy (pulse radiolysis) and the possible involvement of amino acids are discussed and used to (1) speculate on the anti- and pro-oxidative mechanisms, (2) determine the most efficient singlet oxygen quencher and (3) demonstrate the benefits to photoprotection of the eye from the xanthophylls rather than from hydrocarbon carotenoids such as β-carotene.

Published

2011

66. Spectroscopic Evidence for Redox Isomerism in the 1,4-Diethynylbenzene-Bridged Heterobimetallic Cation [{Fe(dppe)Cp*}(μ-C≡CC6H4C≡C){Mo(dppe)(η-C7H7)}]PF6

Author

Emma C. Fitzgerald, Ruth Edge, Jean François Halet, David Collison, Neil J. Brown, Mark W. Whiteley, Abdelkader Ladjarafi, Hacène Meghezzi, Thierry Roisnel, Karine Costuas, Frédéric Justaud, Paul J. Low, Claude Lapinte, Institut des Sciences Chimiques de Rennes (ISCR), Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées (INSA), EPSRC National EPR Service, University of Manchester [Manchester], Australian National University (ANU), the EPSRC (grants EP/E025544/1 and EP/E02582X/1), the Centre National de la Recherche Scientifique (CNRS), Université de Rennes (UR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), and Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)

Subjects

010405 organic chemistry, Chemistry, Stereochemistry, Organic Chemistry, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, Redox, 0104 chemical sciences, Inorganic Chemistry, [CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry, chemistry.chemical_compound, [CHIM.COOR]Chemical Sciences/Coordination chemistry, Methanol, Physical and Theoretical Chemistry

Abstract

International audience; Reaction of [FeCl(dppe)Cp*] with [Mo(C≡CC6H4-4-C≡CH)(dppe)(η-C7H7)], 1, and NaBPh4 in methanol gives the alkynylvinylidene complex [{Fe(dppe)Cp*}{μ-C≡CC6H4(H)C═C}{Mo(dppe)(η-C7H7)}]BPh4, [2A]BPh4, which is deprotonated to form the heterobimetallic, 1,4-diethynylbenzene-bridged complex [{Fe(dppe)Cp*}(μ-C≡CC6H4C≡C){Mo(dppe)(η-C7H7)}], 3. The alkynylvinylidene compound [2A]BPh4 exists as the major component of an equilibrium mixture with [Fe(dppe)Cp*}{μ-C═C(H)C6H4C≡C}{Mo(dppe)(η-C7H7)}]BPh4, [2B]BPh4, and is formed as a consequence of proton migration between the Cβ carbons of the vinylidene and alkynyl ends of the bridging ligand. Cyclic voltammetric investigations reveal that 3 undergoes two reversible one-electron oxidations to cationic [3]+ and [3]2+, which have been isolated as the [PF6]− salts after chemical oxidation. Computational (DFT) studies on [3]n+ indicate that while the HOMO of neutral 3 is rather heavily localized on the Mo center, in [3]+ the frontier orbitals are more evenly distributed over both metals, with the concentration of spin density being sensitive to the relative disposition of the metal end-cap fragments about the diethynylbenzene ligand. Experimental investigations on [3]PF6 by IR and EPR spectroscopy provide evidence for the coexistence of redox isomers [3A]+ and [3B]+, in which spin density is localized at the molybdenum or iron center, respectively. The solution IR spectrum of [3]PF6 exhibits an unusual four-band pattern in the ν(C≡C) region, consistent with the observation of two isomeric forms of [3]PF6, which are "valence trapped" on the short time scale of IR spectroscopy. In the frozen solution EPR spectrum, at 120 K, the spectroscopic signatures of both paramagnetic end-caps Mo(dppe)(η-C7H7) and Fe(dppe)Cp* are observed. The properties of [3]n+ are discussed with reference to the parent homobimetallics [{MLx}2(μ-C≡CC6H4C≡C)]n+ [MLx = Fe(dppe)Cp*, [4]n+, and Mo(dppe)(η-C7H7), [5]n+, n = 0, 1, 2].

Published

2011

67. Redox non-innocence of thioether crowns: spectroelectrochemistry and electronic structure of formal nickel(III) complexes of aza-thioether macrocycles

Author

Eric J. L. McInnes, E. Stephen Davies, Emma Stephen, Deguang Huang, Martin Schröder, Joanna Wolowska, Ruth Edge, Jennifer L. Shaw, Jonathan McMaster, David Collison, Claire Wilson, Alexander J. Blake, and Judith A. K. Howard

Subjects

Stereochemistry, Jahn–Teller effect, Organic Chemistry, chemistry.chemical_element, General Chemistry, Crystal structure, Redox, Catalysis, law.invention, chemistry.chemical_compound, Crystallography, Nickel, chemistry, Thioether, Octahedron, law, Homoleptic, Electron paramagnetic resonance

Abstract

The Ni(II) complexes [Ni([9]aneNS(2)-CH(3))(2)](2+) ([9]aneNS(2)-CH(3)=N-methyl-1-aza-4,7-dithiacyclononane), [Ni(bis[9]aneNS(2)-C(2)H(4))](2+) (bis[9]aneNS(2)-C(2)H(4)=1,2-bis-(1-aza-4,7-dithiacyclononylethane) and [Ni([9]aneS(3))(2)](2+) ([9]aneS(3)=1,4,7-trithiacyclononane) have been prepared and can be electrochemically and chemically oxidized to give the formal Ni(III) products, which have been characterized by X-ray crystallography, UV/Vis and multi-frequency EPR spectroscopy. The single-crystal X-ray structure of [Ni(III)([9]aneNS(2)-CH(3))(2)](ClO(4))(6)·(H(5)O(2))(3) reveals an octahedral co-ordination at the Ni centre, while the crystal structure of [Ni(III)(bis[9]aneNS(2)-C(2)H(4))](ClO(4))(6)·(H(3)O)(3)·3H(2)O exhibits a more distorted co-ordination. In the homoleptic analogue, [Ni(III)([9]aneS(3))(2)](ClO(4))(3), structurally characterized at 30 K, the Ni-S distances [2.249(6), 2.251(5) and 2.437(2) A] are consistent with a Jahn-Teller distorted octahedral stereochemistry. [Ni([9]aneNS(2)-CH(3))(2)](PF(6))(2) shows a one-electron oxidation process in MeCN (0.2 M NBu(4)PF(6), 293 K) at E(½)=+1.10 V versus Fc(+)/Fc assigned to a formal Ni(III)/Ni(II) couple. [Ni(bis[9]aneNS(2)-C(2)H(4))](PF(6))(2) exhibits a one-electron oxidation process at E(½)=+0.98 V and a reduction process at E(½)=-1.25 V assigned to Ni(II)/Ni(III) and Ni(II)/Ni(I) couples, respectively. The multi-frequency X-, L-, S-, K-band EPR spectra of the 3+ cations and their 86.2% (61)Ni-enriched analogues were simulated. Treatment of the spin Hamiltonian parameters by perturbation theory reveals that the SOMO has 50.6%, 42.8% and 37.2% Ni character in [Ni([9]aneNS(2)-CH(3))(2)](3+), [Ni(bis[9]aneNS(2)-C(2)H(4))](3+) and [Ni([9]aneS(3))(2)](3+), respectively, consistent with DFT calculations, and reflecting delocalisation of charge onto the S-thioether centres. EPR spectra for [(61)Ni([9]aneS(3))(2)](3+) are consistent with a dynamic Jahn-Teller distortion in this compound.

Published

2011

68. Dietary uptake of lycopene protects human cells from singlet oxygen and nitrogen dioxide – ROS components from cigarette smoke

Author

Marc Burke, Ruth Edge, Fritz Böhm, and T. G. Truscott

Subjects

Lymphocyte, Nitrogen Dioxide, Biophysics, Antioxidants, chemistry.chemical_compound, Lycopene, In vivo, Tobacco, medicine, Humans, Cigarette smoke, Radiology, Nuclear Medicine and imaging, Nitrogen dioxide, Lymphocytes, Food science, Carotenoid, Cells, Cultured, chemistry.chemical_classification, Reactive oxygen species, Radiation, Singlet Oxygen, Radiological and Ultrasound Technology, Singlet oxygen, Smoking, Oxidants, Carotenoids, medicine.anatomical_structure, chemistry, Biochemistry, Dietary Supplements, Reactive Oxygen Species

Abstract

There is current interest in the health benefits of dietary carotenoids and the possible deleterious effects on certain sub-populations such as smokers. Here we report in vivo protection of human lymphocytes, conferred by dietary supplementation of lycopene rich foods against the reactive oxygen species, NO(2)(*) radical (by electron transfer) and 1(O)(2) (by energy transfer). It was found that a lycopene rich diet, maintained for 14 days, increased the serum lycopene level 10 fold compared to serum obtained after the same period, where a typical western European diet had been consumed. Relative lymphocyte protection factors of 17.6 and 6.3 against NO(2)(*) radical and 1(O)(2), respectively, were obtained, which re-enforce epidemiological data, showing protection against several chronic diseases by tomato lycopene.

Published

2001

69. Synthesis, spectroscopy and electronic structure of the vinylidene and alkynyl complexes [W(C=CHR)(dppe)(η-C₇H₇)](+) and [W(C≡CR)(dppe)(η-C₇H₇](n+) (n = 0 or 1)

Author

Hannah N, Lancashire, Neil J, Brown, Laura, Carthy, David, Collison, Emma C, Fitzgerald, Ruth, Edge, Madeleine, Helliwell, Mark, Holden, Paul J, Low, Joseph J W, McDouall, and Mark W, Whiteley

Abstract

The first examples of vinylidene complexes of the cycloheptatrienyl tungsten system [W(C=CHR)(dppe)(η-C₇H₇)](+) (dppe = Ph₂PCH₂CH₂PPh₂; R = H, 3; Ph, 4; C₆H₄-4-Me, 5) have been synthesised by reaction of [WBr(dppe)(η-C₇H₇)], 1, with terminal alkynes HC≡CR; a one-pot synthesis of 1 from [WBr(CO)₂(η-C₇H₇)] facilitates its use as a precursor. The X-ray structure of 4[PF₆] reveals that the vinylidene ligand substituents lie in the pseudo mirror plane of the W(dppe)(η-C₇H₇) auxiliary (vertical orientation) with the phenyl group located syn to the cycloheptatrienyl ring. Variable temperature ¹H NMR investigations on [W(C=CH₂)(dppe)(η-C₇H₇)][PF₆], 3, estimate the energy barrier to rotation about the W=C(α) bond as 62.5 ± 2 kJ mol⁻¹; approximately 10 kJ mol⁻¹ greater than for the molybdenum analogue. Deprotonation of 4 and 5 with KOBu(t) yields the alkynyls [W(C≡CR)(dppe)(η-C₇H₇)] (R = Ph, 6; C₆H₄-4-Me, 7) which undergo a reversible one-electron oxidation at a glassy carbon electrode in CH₂Cl₂ with E(½) values approximately 0.12 V negative of Mo analogues. The 17-electron radicals [6](+) and [7](+) have been investigated by spectroelectrochemical IR, UV-visible and EPR methods. The electronic structures of representative vinylidene (3) and alkynyl (6) complexes have been investigated at the B3LYP/Def2-SVP level. In both cases, electronic structure is characterised by a frontier orbital with significant metal d(z²)character and this dominates the structural and spectroscopic properties of the system.

Published

2010

70. Prediction of EPR spectra of liquid crystals with doped spin probes from fully atomistic molecular dynamics simulations: exploring molecular order and dynamics at the phase transition

Author

Andrew N. Cammidge, Hemant Gopee, Egidisus Kuprusevicius, Ruth Edge, Mark R. Wilson, Eric J. L. McInnes, and Vasily S. Oganesyan

Subjects

Nitroxide mediated radical polymerization, Phase transition, Chemistry, Organic Chemistry, General Chemistry, Molecular physics, Catalysis, Spectral line, law.invention, Spin probe, Molecular dynamics, Computational chemistry, Liquid crystal, law, Condensed Matter::Strongly Correlated Electrons, Spin (physics), Electron paramagnetic resonance

Abstract

Liquid crystals spin their secrets: Electron paramagnetic resonance (EPR) spectra are predicted directly and completely from fully atomistic molecular dynamics (MD) simulations of 4-cyano-4-n-pentylbiphenyl (5CB) nematic liquid crystals with a doped nitroxide spin probe (depicted in yellow; red curve = simulated and blue curve = measured EPR spectrum).

Published

2010

71. Metal-stabilised diynyl radicals: structure and reactivity of [Mo(C[triple bond]C-C[triple bond]CSiMe3)L2(eta-C7H7)]*+ (L2 = 2,2'-bipyridine or dppe)

Author

Neil J, Brown, David, Collison, Ruth, Edge, Emma C, Fitzgerald, Paul J, Low, Madeleine, Helliwell, Yien T, Ta, and Mark W, Whiteley

Abstract

The unprecedented spectroscopic and structural characterisation of a series of 17-electron, monometallic diynyl radicals, [Mo(C[triple bond]C-C[triple bond]CR)L(2)(eta-C(7)H(7))]*(+) (L(2) = bipy, R = SiMe(3); L(2) = dppe, R = SiMe(3) or H), are reported; the (L(2) = dppe, R = SiMe(3)) derivative is reactive to chain-centred C(beta)-C(beta') dimerisation.

Published

2010

72. On the causes of potential inversion in 1,2,4,5-tetrakis(amino)benzenes

Author

Matthew F. Hood, Ruth Edge, Dennis H. Evans, Christopher J. Adams, and Rosenildo Correa da Costa

Subjects

chemistry.chemical_compound, Radical ion, Stereochemistry, Chemistry, Hexafluorophosphate, Organic Chemistry, Amine gas treating, Crystal structure, Cyclic voltammetry, Benzene, Electrochemistry, Chemical synthesis, Medicinal chemistry

Abstract

Three 3,6-difluoro-1,2,4,5-tetrakis(amino)benzene compounds, bearing dimethylamino (1), piperidin-1-yl (3), or morpholin-1-yl (5) substituents, have been synthesized and subsequently defluorinated to give the corresponding 1,2,4,5-tetrakis(amino)benzene compounds 2, 4, and 6; the crystal structures of compounds 1, 4, and 6 have been obtained. Cyclic voltammetry shows that all six compounds will lose two electrons to form dications, and the use of suitable oxidizing agents has allowed isolation and crystallographic characterization of the dications 2(2+) and 6(2+) (as [PF(6)](2) salts) and 4(2+) (as a [I(5)][I(3)] salt). The separation DeltaE between the loss of the first electron and the second varies between compounds, from 0.23 V in 1 to 0.01 V in 6. Electrochemical studies involving the use of the noncoordinating electrolyte [Bu(4)N][B{C(6)H(3)(CF(3))(2)}(4)] show that it is possible to increase this separation, stabilizing the intermediate monocationic phase, and this has allowed the isolation and crystallographic characterization of the radical salts 2[B{C(6)H(3)(CF(3))(2)}(4)] and 4[B{C(6)H(3)(CF(3))(2)}(4)], the first radical cations of this family to be isolated. DFT studies of the ion pairing between oxidized forms of 1 and 2 and anions imply that the location of the ion pairing is different in the two species.

Published

2010

73. The reduction potential of the β-carotene + /β-carotene couple in an aqueous micro-heterogeneous environment

Author

Edward J. Land, Ruth Edge, Marc Burke, T. George Truscott, and David J. McGarvey

Subjects

Photosynthetic reaction centre, Free Radicals, Spectrophotometry, Infrared, medicine.medical_treatment, Photosynthetic Reaction Center Complex Proteins, Biophysics, β-Carotene, One-electron reduction potential, Photochemistry, Photosynthesis, Biochemistry, Electron Transport, Structural Biology, beta-Carotene, Cations, Genetics, medicine, Cysteine, Molecular Biology, Carotenoid, Micelles, chemistry.chemical_classification, Aqueous solution, Carotene, Tryptophan, Water, Cell Biology, Hydrogen-Ion Concentration, Oxidants, beta Carotene, Electron transport chain, Solutions, Radical ion, chemistry, Reducing Agents, Thermodynamics, Tyrosine, Pulse Radiolysis

Abstract

There is a resurgence of interest in the role of electron transfer reactions involving beta-carotene in photosynthesis. There is also current debate on the health benefits of dietary carotenoids and the possible deleterious effects on certain sub-populations such as smokers. The impact of dietary carotenoids on health may well be also related to radical reactions. A key parameter in biological systems is therefore the one-electron reduction potential of the carotenoid radical cation, now reported for the first time in a model biological aqueous environment. The value obtained is 1.06+/-0. 01 V and is sufficiently high to oxidise cell membrane proteins, but is low enough to repair P(680).+ in the photosynthetic reaction centre.

Published

2000

74. Properties of Carotenoid Radicals and Excited States and Their Potential Role in Biological Systems

Author

Ruth Edge and George Truscott

Published

2009

75. Carotenoids

Author

Claudio Dario Borsarelli, Ruth Edge, Tomas Polivka, Justyna Widomska, and Adriana Mercadante

Subjects

chemistry.chemical_classification, Chemistry, Zoology, Carotenoid, Function (biology)

Published

2009

76. Lack of Visible Chromofore Development in the Pulse RadiolysisOxidation of 5,6-dihydroxyndole-2-carboxylic Acid Oligomers: DFT Investigation and Implications for Eumelanin Absorption Propertiess

Author

Alessandra Napolitano, Lucia Panzella, Vincenzo Barone, Orlando Crescenzi, Alessandro Pezzella, Ruth Edge, Marco d'Ischia, Edward J. Land, Suppiah Navaratnam, A., Pezzella, L., Panzella, O., Crescenzi, A., Napolitano, S., Navaratman, R., Edge, E. J., Land, Barone, Vincenzo, M., D’Ischia, Pezzella, Alessandro, Panzella, Lucia, Crescenzi, Orlando, Napolitano, Alessandra, Navaratnam, S., Edge, R., Land, E. J., Barone, V., and D'Ischia, Marco

Subjects

Indoles, Time Factors, Absorption spectroscopy, Semiquinone, Polymers, IONIZATION MASS-SPECTROMETRY, Photochemistry, Oligomer, GAS-PHASE, AQUEOUS-SOLUTION, Absorption, DENSITY-FUNCTIONAL THEORY, chemistry.chemical_compound, BIOMIMETIC CONDITIONS, Settore CHIM/02 - Chimica Fisica, Melanins, Chemistry, Organic Chemistry, Chromophore, Quinone methide, SOLVATION MODELS, Quinone, POLARIZABLE CONTINUUM MODEL, MOLECULAR-DYNAMICS, Radiolysis, Quantum Theory, DENSITY-FUNCTIONAL THEORY, POLARIZABLE CONTINUUM MODEL, IONIZATION MASS-SPECTROMETRY, AQUEOUS-SOLUTION, GAS-PHASE, EXCITATION-ENERGIES, TD-DFT, BIOMIMETIC CONDITIONS, MOLECULAR-DYNAMICS, SOLVATION MODELS, Spectrophotometry, Ultraviolet, EXCITATION-ENERGIES, Absorption (chemistry), Pulse Radiolysis, TD-DFT, Oxidation-Reduction

Abstract

The structural factors underlying the peculiar optical properties and visible chromophore of eumelanin biopolymers are largely uncharted. It is known that synthetic eumelanins from 5,6-dihydroxyindole are black and display a featureless UV-visible absorption spectrum, whereas those from 5,6-dihydroxyindole-2-carboxylic acid (1) are lighter in color and exhibit a distinct band around 310 nm, but the origin of this difference has never been addressed in detail. Recently, we showed that 5,6-dihydroxyindole dimers generate on pulse radiolysis oxidation strongly absorbing transients with intense maxima in the 500-600 nm region, which have been attributed to planar extended quinone methide species. We now report the unexpectedly different behavior of three oligomers from 1, namely, the 4,4'-biindolyl 2, the 4,7'-biindolyl 3, and the 4,7':4',7''-terindolyl 4. Pulse radiolysis oxidation of 2-4 led initially to semiquinone intermediates exhibiting similar absorption maxima at 360-380 nm. Semiquinone absorption decay followed second-order kinetics (2k = 1.4 x 10(8), 3.2 x 10(8), and 1.4 x 10(8) M(-1) s(-1) for 2, 3, and 4, respectively) but did not lead to significant chromophore development in the visible region. Similar absorption traces were obtained from monomer 1. DFT calculations predicted 5,6-dihydroxyindolyl-5,6-indolequinone structures with significant dihedral twists across the interunit single bonds for the most stable two-electron oxidation products of 2 and 3. The computed absorption spectra consistently featured strong bands around 310 nm but little or no absorption in the visible region. It is suggested that the effective conjugation length in oligomeric/polymeric eumelanin components from 1 may be controlled by hindered rotation around inter-ring bonds preventing planarization of the continuous array of indole units. This may provide an explanation for the difference in the absorption properties of polymers from the two key eumelanin monomers.

Published

2009

77. A mechanistic study of the C-P bond cleavage reaction of 1,2-(PH2)2-C6H4 with nBuLi/Sb(NMe2)3

Author

Eric J. L. McInnes, Robert J. Less, Dominic S. Wright, Ruth Edge, Vesal Naseri, and Robert E. Mulvey

Subjects

Inorganic Chemistry, chemistry.chemical_classification, Deprotonation, Base (chemistry), Chemistry, law, Radical, Photochemistry, Electron paramagnetic resonance, Medicinal chemistry, Bond cleavage, Homolysis, law.invention

Abstract

In situ 31P NMR spectroscopic studies of the reaction of the primary diphosphine 1,2-(PH2)2-C6H4 with the mixed-metal base system nBuLi/Sb(NMe2)3, combined with X-ray structural investigations, strongly support a mechanism involving a series of deprotonation steps followed by antimony-mediated reductive C–P bond cleavage. The central intermediate in this reaction is the tetraphosphide dianion [C6H4P2]22− ([4]) from which the final products, the 1,2,3-triphospholide anion [C6H4P3]− (3) and [PhPHLi] (8·Li), are evolved. An EPR spectrocopic study suggests that homolytic C–P bond cleavage is likely to be involved in this final step.

Published

2008

78. Photoreactivity of biologically active compounds. XIX: excited states and free radicals from the antimalarial drug primaquine

Author

S Kristensen, Ruth Edge, Hanne Hjorth Tønnesen, Suppiah Navaratnam, and Roger H. Bisby

Subjects

Free Radicals, Radical, Biophysics, Primaquine, Photochemistry, chemistry.chemical_compound, Antimalarials, medicine, QD, Radiology, Nuclear Medicine and imaging, Reactivity (chemistry), Biphenyl, Radiation, Fenbufen, Photolysis, Radiological and Ultrasound Technology, Chemistry, other, Photochemical Processes, Kinetics, Deuterium, Models, Chemical, Excited state, Flash photolysis, Sodium azide, Oxidation-Reduction, medicine.drug

Abstract

The formation and reactivity of excited states and free radicals from primaquine, a drug used in the treatment of malaria, was studied in order to evaluate the primary photochemical reaction mechanisms. The excited primaquine triplet was not detected, but is likely to be formed with a short lifetime (50 ns) and with a triplet energy250 kJ/mol as the drug is an efficient quencher of the fenbufen triplet and the biphenyl triplet, and forms (1)O(2) by laser flash photolysis ((PQ)Phi(Delta)=0.025). Primaquine (PQ) exists as the monocation (PQH(+)) in aqueous solution at physiological pH. PQH(+) photoionises by a biphotonic process and also forms the monoprotonated cation radical (PQH(2+)*) by one electron oxidation by HO* (k(q)=6.6 x 10(9) M(-1) s(-1)) and Br*(2)(-) (k(q)=4.7 x 10(9) M(-1) s(-1)) at physiological pH, detected as a long-lived transient decaying essentially by a second order process (k(2)=7.4 x 10(8) M(-1) s(-1)). PQH(2+)* is scavenged by O(2), although at a limited rate (k(q)=1.0 x 10(6) M(-1) s(-1)). The reduction potential (E degrees) of PQH(2+)*/PQH(+) is+1015 mV, as measured versus tryptophan (TRP*/TRPH). Primaquine also forms PQH(2+)* at pH 2.4, by one electron oxidation by Br*(2)(-) and proton loss (k(q)=2.7 x 10(9) M(-1) s(-1)). The non-protonated cation radical (PQ(+)*) is formed during one electron oxidation with Br*(2)(-) at alkaline conditions (k(q)=4.2 x 10(9) M(-1) s(-1) at pH 10.8). The estimated pK(a)-value of PQH(2+)*/PQ(+)* is pK(a) approximately 7-8. Primaquine is not a scavenger of O*(2)(-) at physiological pH. Thus self-sensitization by O*(2)(-) is eliminated as a degradation pathway in the photochemical reactions. Impurities in the raw material and photochemical degradation products initiate photosensitized degradation of primaquine in deuterium oxide, prevented by addition of the (1)O(2) quencher sodium azide. Photosensitized degradation by formation of (1)O(2) is thus important for the initial photochemical decomposition of primaquine, which also proceeds by free radical reactions. Formation of PQH(2+)* is expected to play an essential part in the photochemical degradation process in a neutral, aqueous medium.

Published

2008

79. Direct observation of NH2* reactions with oxygen, amino acids, and melanins

Author

V. Johnson, K. Clarke, T. G. Truscott, Suppiah Navaratnam, E. J. Land, and Ruth Edge

Subjects

chemistry.chemical_classification, Melanins, Quenching (fluorescence), Hydroxyl Radical, Radical, Spectrum Analysis, Amino radical, chemistry.chemical_element, Hydrogen Peroxide, Photochemistry, Oxygen, Amino acid, Melanin, Ammonia, chemistry.chemical_compound, Kinetics, Reaction rate constant, chemistry, Physical and Theoretical Chemistry, Amines, Amino Acids, Pulse Radiolysis, Oxidation-Reduction

Abstract

We report the direct observation of the quenching of the weakly absorbing transient due to the amino radical by oxygen and, hence determine, by a totally direct method, the corresponding rate constant (k = (1.1 +/- 0.1) x 10(9) dm3 mol(-1) s(-1)). We also report the rate constants for the reactions of the amino radical with several amino acids and models of black eumelanin and blond/red phaeomelanin. These reactions lead to a mechanism, based on free radicals, that can explain why ammonia is useful in commercial hair (melanin) bleaching, avoiding excessive amino acid (hair protein) damage.

Published

2008

80. Spectroelectrochemical and computational studies on the mechanism of hypoxia selectivity of copper radiopharmaceuticals

Author

Jennifer C. Green, Jonathan R. Dilworth, Eric J. L. McInnes, Jason P. Holland, Ruth Edge, David Collison, and Peter J. Barnard

Subjects

Thiosemicarbazones, Time Factors, Inorganic chemistry, chemistry.chemical_element, Electrons, Protonation, Crystallography, X-Ray, Photochemistry, Electrochemistry, Redox, Catalysis, Dissociation (chemistry), law.invention, law, Organometallic Compounds, Animals, Humans, Hypoxia, Electron paramagnetic resonance, Chemistry, Organic Chemistry, Electron Spin Resonance Spectroscopy, General Chemistry, Hydrogen-Ion Concentration, Copper, Oxygen, Zinc, Density functional theory, Protons, Radiopharmaceuticals, Selectivity, Oxidation-Reduction, Algorithms

Abstract

Detailed chemical, spectroelectrochemical and computational studies have been used to investigate the mechanism of hypoxia selectivity of a range of copper radiopharmaceuticals. A revised mechanism involving a delicate balance between cellular uptake, intracellular reduction, reoxidation, protonation and ligand dissociation is proposed. This mechanism accounts for observed differences in the reported cellular uptake and washout of related copper bis(thiosemicarbazonato) complexes. Three copper and zinc complexes have been characterised by X-ray crystallography and the redox chemistry of a series of copper complexes has been investigated by using electronic absorption and EPR spectroelectrochemistry. Time-dependent density functional theory (TDDFT) calculations have also been used to probe the electronic structures of intermediate species and assign the electronic absorption spectra. DFT calculations also show that one-electron oxidation is ligand-based, leading to the formation of cationic triplet species. In the absence of protons, metal-centred one-electron reduction gives the reduced anionic copper(I) species, [Cu(I)ATSM](-), and for the first time it is shown that molecular oxygen can reoxidise this anion to give the neutral, lipophilic parent complexes, which can wash out of cells. The electrochemistry is pH dependent and in the presence of stronger acids both chemical and electrochemical reduction leads to quantitative and rapid dissociation of copper(I) ions from the mono- or diprotonated complexes, [Cu(I)ATSMH] and [Cu(I)ATSMH(2)](+). In addition, a range of protonated intermediate species have been identified at lower acid concentrations. The one-electron reduction potential, rate of reoxidation of the copper(I) anionic species and ease of protonation are dependent on the structure of the ligand, which also governs their observed behaviour in vivo.

Published

2008

81. [Rh(7)(PiPr(3))(6)H(18)][BAr(F) (4)](2): a molecular Rh(111) surface decorated with 18 hydrogen atoms

Author

Eric J. L. McInnes, Simon K. Brayshaw, Jennifer C. Green, Paul R. Raithby, John E. Warren, Ruth Edge, and Andrew S. Weller

Subjects

Crystallography, Hydrogen, Chemistry, Inorganic chemistry, chemistry.chemical_element, General Chemistry, Hydride ligands, Catalysis

Abstract

Heptarhodium wagon wheel [Rh7(PiPr3) 6H18][BArF4]2 (shown), which resembles a planar Rh(111) surface with 18 hydride ligands, was obtained together with [Rh8(PiPr3)6H16] [BArF4]2 from the reaction of [Rh(PiPr 3)2(nbd)][BArF4] and [Rh(nbd) 2][BArF4] with hydrogen (ArF = C6H3(CF3)2, nbd = norbornadiene). Some of the H ligands are located in threefold hollows between Rh centers and thus mimic the orientation of atomic hydrogen adsorbed on Rh(111). (Figure Presented). © 2007 Wiley-VCH Verlag GmbH and Co. KGaA.

Published

2007

82. Deep-red luminescence and efficient singlet oxygen generation by cyclometalated platinum(II) complexes with 8-hydroxyquinolines and quinoline-8-thiol

Author

Nail M. Shavaleev, Suppiah Navaratnam, Julia A. Weinstein, Harry Adams, Jonathan Best, and Ruth Edge

Subjects

Denticity, Singlet oxygen, Ligand, Quinoline, chemistry.chemical_element, Chromophore, Photochemistry, Inorganic Chemistry, chemistry.chemical_compound, chemistry, Excited state, Physical and Theoretical Chemistry, Luminescence, Platinum

Abstract

The synthesis and photophysical study of (C/\N)Pt(II)Q complexes, where C/\N is a bidentate cyclometalating ligand and Q is 8-hydroxyquinoline or quinoline-8-thiol, are presented. The compounds were obtained as a single isomer with N atoms of the C/\N and Q ligands trans-coordinated to the Pt(II) center as shown by X-ray crystallography. These chromophores absorb intensely in the visible region and emit in the deep-red spectral region from a quinolate-centered triplet intraligand charge-transfer excited state. The emission maxima are in the range 675-740 nm, with the quantum yields and lifetimes of up to 0.82% and 5.3 mus, respectively, in deoxygenated organic solvents at room temperature. These complexes are efficient photosensitizers of singlet oxygen in air-saturated solutions, with yields up to 90%.

Published

2006

83. Spectral and photophysical studies of substituted indigo derivatives in their keto forms

Author

Hugh D. Burrows, Raquel Rondão, Suppiah Navaratnam, Maria João Melo, Gundula Voss, Ruth Edge, and J. Sérgio Seixas de Melo

Subjects

Indoles, Light, Photochemistry, Indigo Carmine, Indigo, Physical Phenomena, chemistry.chemical_compound, Emission spectrum, Physical and Theoretical Chemistry, HOMO/LUMO, Singlet Oxygen, Chemistry, Singlet oxygen, Chemistry, Physical, Plant Extracts, Physics, Temperature, Internal conversion (chemistry), Atomic and Molecular Physics, and Optics, Kinetics, Intersystem crossing, Spectrometry, Fluorescence, Models, Chemical, Spectrophotometry, Excited state, Protons, Phosphorescence

Abstract

The spectral and photophysical properties of indigo derivatives with di-, tetra-, and hexa-substitution in their neutral (keto) form are investigated in solution. The study comprises absorption and emission spectra, together with quantitative measurements of quantum yields of fluorescence (phi(F)) and singlet oxygen formation (phi(Delta)) and fluorescence lifetimes. The energy difference between the HOMO and LUMO orbitals is dependent on the degree (number of groups) and relative position of substitution. The phi(F) and phi(Delta) values were found to be very lowor=10(-3). Because of the absence of transient triplet-triplet signal, the intersystem crossing yields (phi(T)) were estimated by assuming that all the triplet states formed give rise to singlet oxygen formation, that is, phi(Delta) approximately phi(T) . It was then possible from phi(IC)=1-phi(F)-phi(T) to estimate the S(1) approximately approximately --S(0) internal conversion yields and thus, with the other data, to determine the rate constants for all decay processes. From these, several conclusions are drawn. Firstly, the radiationless rate constants, k(NR) , clearly dominate over the radiative rate constants, k(F) , (and processes). Secondly, the main deactivation channel for the compounds in their keto form is the radiationless S(1) approximately approximately --S(0) internal conversion process. Finally, although the changes are relatively small, internal conversion yield seems to be independent of the overall pattern of substitution. A more detailed investigation of the decay profiles with collection at the blue and red emission of the fluorescence band of indigo and one di-substituted indigo reveals the decays to be bi-exponential and that at longer emission wavelengths these appear to be associated with both rise and decay times indicating that two excited species exist, which is consistent with a keto-excited form giving rise (by fast proton transfer) to the enol-form of indigo. Evidence is presented which supports the idea that intramolecular (and possibly some intermolecular) proton transfer can explain the high efficiency of internal conversion in indigo.

Published

2006

84. Dopaquinone redox exchange with dihydroxyindole and dihydroxyindole carboxylic acid

Author

Lucia Panzella, Edward J. Land, Christopher A. Ramsden, Suppiah Navaratnam, Patrick A. Riley, Alessandro Pezzella, Alessandra Napolitano, Ruth Edge, Marco d'Ischia, Edge, R., D'Ischia, M., Land, E. J., Napolitano, A., Navaratnam, S., Panzella, L., Pezzella, A., Ramsden, C. A., Riley, P. A., R., Edge, D'Ischia, Marco, E. J., Land, Napolitano, Alessandra, S., Navaratnam, Panzella, Lucia, Pezzella, Alessandro, C. A., Ramsden, and P. A., Riley

Subjects

Nucleophilic addition, Indoles, Semiquinone, Free Radicals, Clinical Biochemistry, DHICA, Cell Biology, Plant Science, Photochemistry, Cysteinyldopa, Redox, chemistry.chemical_compound, Indolequinone, Kinetics, Reaction rate constant, chemistry, Models, Chemical, Radiolysis, Computer Simulation, Agronomy and Crop Science, Oxidation-Reduction, Developmental Biology

Abstract

A pulse radiolytic investigation has been conducted to establish whether a redox reaction takes place between dopaquinone and 5,6-dihydroxyindole (DHI) and its 2-carboxylic acid (DHICA) and to measure the rate constants of the interactions. To obviate possible confounding reactions, such as nucleophilic addition, the method employed to generate dopaquinone used the dibromide radical anion acting on dopa to form the semiquinone which rapidly disproportionates to dopaquinone. In the presence of DHI the corresponding indole-5,6-quinone (and/or tautomers) was also formed directly but, by judicious selection of suitable relative concentrations of initial reactants, we were able to detect the formation of additional indolequinone from the redox exchange reaction of DHI with dopaquinone which exhibited a linear dependency on the concentration of DHI. Computer simulation of the experimental time profiles of the absorption changes showed that, under the conditions chosen, redox exchange does proceed but not quite to completion, a forward rate constant of 1.4 x 10(6)/M/s being obtained. This is in the same range as the rate constants previously established for reactions of dopaquinone with cyclodopa and cysteinyldopa. In similar experiments carried out with DHICA, the reaction more obviously does not go to completion and is much slower, k (forward) =1.6 x 10(5)/M/s. We conclude that, in the eumelanogenic pathway, DHI oxidation may take place by redox exchange with dopaquinone, although such a reaction is likely to be less efficient for DHICA.

Published

2006

85. Studies of carotenoid one-electron reduction radicals

Author

Ali El-Agamey, T. George Truscott, Suppiah Navaratnam, Edward J. Land, and Ruth Edge

Subjects

chemistry.chemical_classification, Anions, Chemistry, Reducing agent, Octoxynol, Radical, Biophysics, food and beverages, Benzene, Electrons, Photochemistry, Biochemistry, Carotenoids, chemistry.chemical_compound, Kinetics, Ketyl, Radical ion, Astaxanthin, Xanthophyll, One-electron reduction, Solvents, Hexanes, Canthaxanthin, Molecular Biology, Oxidation-Reduction

Abstract

The relative reduction potentials of a variety of carotenoids have been established by monitoring the reaction of carotenoid radical anion (CAR1(*-)) with another carotenoid (CAR2) in hexane and benzene. This order is consistent with the reactivities of the carotenoid radical anions with porphyrins and oxygen in hexane. In addition, investigation of the reactions of carotenoids with reducing radicals in aqueous 2% Triton-X 100, such as carbon dioxide radical anion (CO2(*-)), acetone ketyl radical (AC(*-)) and the corresponding neutral radical (ACH(*)), reveals that the reduction potentials for beta-carotene and zeaxanthin lie in the range -1950 to -2100 mV and those for astaxanthin, canthaxanthin and beta-apo-8'-carotenal are more positive than -1450 mV. This illustrates that the presence of a carbonyl group causes the reducing ability to decrease. The radical cations have been previously shown to be strong oxidising agents and we now show that the radical anions are very strong reducing agents.

Published

2006

86. Carotenoid Radicals and the Interaction of Carotenoids with Active Oxygen Species

Author

Ruth Edge and T. George Truscott

Subjects

chemistry.chemical_classification, Singlet oxygen, Radical, medicine.medical_treatment, Carotene, Photochemistry, chemistry.chemical_compound, chemistry, Radical ion, Astaxanthin, Oxidizing agent, medicine, Carotenoid, Alkyl

Abstract

Carotenoid radicals are generated from the interaction of a wide range of carotenoids with several oxy-radicals, such as CCl3O 2 • , RSO 2 • , NO 2 • and various aryl peroxyl radicals, while less strongly oxidizing radicals, such as alkyl peroxyl radicals, can lead to hydrogen atom transfer, thereby generating the neutral carotene radical. Comparison of the relative abilities of many pairs of carotenoids to donate/accept electrons: CAR1•++CAR2→CAR1+CAR2•+, has allowed the relative oxidation potentials to be established, showing that lycopene is the easiest carotenoid to oxidize to its cation radical and astaxanthin is the most difficult.

Published

2006

87. Prooxidant and antioxidant reaction mechanisms of carotene and radical interactions with vitamins E and C

Author

T. George Truscott and Ruth Edge

Subjects

chemistry.chemical_classification, Reactive oxygen species, Reaction mechanism, Nutrition and Dietetics, Antioxidant, Free Radicals, Chemistry, Endocrinology, Diabetes and Metabolism, Vitamin E, medicine.medical_treatment, Carotene, Ascorbic Acid, Vitamins, Ascorbic acid, Carotenoids, Antioxidants, medicine, Humans, Food science, Reactive Oxygen Species, Carotenoid

Published

1997

88. Pulse radiolysis study of the interaction of retinoids with peroxyl radicals

Author

Ann Cantrell, T. George Truscott, Edward J. Land, Ruth Edge, Tadeusz Sarna, and Malgorzata Barbara Rozanowska

Subjects

Antioxidant, Free Radicals, medicine.drug_class, Octoxynol, medicine.medical_treatment, Detergents, Retinoic acid, free radicals, Tretinoin, Ascorbic Acid, Photochemistry, retinal, Biochemistry, Micelle, vitamin A, Antioxidants, Lipid peroxidation, chemistry.chemical_compound, Retinoids, Physiology (medical), Cations, peroxyl radical, retinoic acid, medicine, Humans, Retinoid, Vitamin A, Micelles, Chemistry, pulse radiolysis, Retinol, lipid peroxidation, ascorbate, Bromine, Lipids, Carbon, Peroxides, Kinetics, antioxidants, Models, Chemical, retinoid, Spectrophotometry, Radiolysis, Microsome, carbon tetrachloride, Lipid Peroxidation, Pulse Radiolysis, retinol

Abstract

Vitamin A (retinol) and its derivatives-retinal and retinoic acid-are known for their ability to inhibit lipid peroxidation. Antioxidant actions of retinoids have been attributed to chain-breaking by scavenging of peroxyl radicals. Based on chemical analysis of retinoic acid degradation products formed during microsomal lipid peroxidation, it was previously suggested that retinoids interact with peroxyl radicals forming free carbon-centered radical adducts. However, it can be argued that such a mode of antioxidant action of retinoids is not sufficient to fully explain their effectiveness at inhibiting lipid peroxidation, which in many systems is comparable to, or even exceeds, that of alpha-tocopherol. In order to elucidate the mechanism of interaction of retinoids with peroxyl radicals, (trichloromethyl)peroxyl radical was generated by pulse radiolysis, and its interactions with retinoids solubilized in Triton X-100 micelles were followed by kinetic absorption spectroscopy. All retinoids--retinol, retinal, and retinoic acid--interacted with the peroxyl radical, and at least two transient products were detected. One of these products, absorbing at 590 nm, was identified as retinoid cation radical. Therefore, we postulate that, apart from formation of radical adducts, retinoids may also scavenge peroxyl radicals by electron transfer.

Published

2004

89. Spectroscopic properties and reactivity of free radical forms of A2E

Author

Suppiah Navaratnam, Ruth Edge, Joan E. Roberts, Agnieszka Broniec, Albert R. Wielgus, Anna Pawlak, Tadeusz Sarna, T. George Truscott, and Edward J. Land

Subjects

Free Radicals, Radical, retinal pigment epithelium, free radicals, Pyridinium Compounds, Photochemistry, Biochemistry, Dissociation (chemistry), A2E, chemistry.chemical_compound, phototoxicity, Retinoids, Reaction rate constant, Physiology (medical), Oxidizing agent, oxidative stress, Formate, A2E radicals, Spectrum Analysis, pulse radiolysis, Kinetics, Radical ion, chemistry, Radiolysis, retinal lipofuscin, Pyridinium

Abstract

A pyridinium bisretinoid (A2E) is the only identified blue-absorbing chromophore of retinal lipofuscin that has been linked to its aerobic photoreactivity and phototoxicity. Pulse radiolysis has been used to study both the one-electron oxidation and the one-electron reduction of A2E in aqueous micellar solutions. The reduction to the semireduced A2E (lambda(max) broad and between 500 and 540 nm) was achieved with formate radicals and the subsequent decay of A2E* was slow (over hundreds of milliseconds) via complex kinetics. The long lifetime of the A2E* should facilitate its reactions with other biomolecules. For example, with oxygen, the A2E* produced the superoxide radical anion with a rate constant of 3 x 10(8) M(-1) s(-1). The A2E was also reduced by the NAD radical, the corresponding rate constant being 2.3 x 10(8) M(-1) s(-1). Other experiments showed that the one-electron reduction potential of A2E lies in the range -640 to -940 mV. The semioxidized form of A2E (lambda(max) 590 nm) was formed via oxidation with the Br2*- radical and had a much shorter lifetime than the semireduced form. With strongly oxidizing peroxyl radicals (CCl3O2*) our kinetic data suggest the formation of a radical adduct followed by dissociation to the semioxidized A2E. With milder oxidizing peroxyl radicals such as that from methanol, our results were inconclusive. In benzene we observed an efficient oxidation of zeaxanthin to its radical cation by the A2E radical cation; this may be relevant to a detrimental effect of A2E in vision.

Published

2004

90. Formation and reactivity of free radicals in 5-hydroxymethyl-2-furaldehyde--the effect on isoprenaline photostability

Author

Suppiah Navaratnam, Jørgen Brustugun, Ruth Edge, and Hanne Hjorth Tønnesen

Subjects

Absorption spectroscopy, Free Radicals, Photochemistry, Radical, Biophysics, Quantum yield, Electrons, Buffers, Solvated electron, Phosphates, chemistry.chemical_compound, Cations, Radiology, Nuclear Medicine and imaging, Furaldehyde, Radiation, Radiological and Ultrasound Technology, Singlet oxygen, Spectrum Analysis, Isoproterenol, Oxygen, Solutions, Glucose, chemistry, Radiolysis, Flash photolysis, Hydroxyl radical

Abstract

Solutions of glucose are used as diluents for drugs in various drug infusions. When sterilized by heat small amounts of the substance 5-hydroxymethyl-2-furaldehyde (5-HMF) is produced from glucose. At a hospital ward such infusions may be exposed to irradiation; including UV-light. The photoreactivity of the furaldehyde is investigated. It is shown to photodestabilize the catecholamine isoprenaline. It is shown to be a producer, but also a consumer, of singlet oxygen. The excited triplet, cation and anion radical have been produced by pulse radiolysis and flash photolysis and their absorbance characteristics have been determined. The triplet absorption spectrum showed absorption bands at 320 and 430 nm with molar absorption coefficients of 4700 and 2600 M-1 cm-1, respectively. The anion radical showed absorption bands at 330 and 420 nm with molar absorption coefficients of 2000 and 300 M-1 cm-1, respectively. The cation radical had an absorption band at 320 nm with a molar absorption coefficient of 5000 M-1 cm-1. The quantum yield for the production of singlet oxygen, sensitized by the 5-HMF triplet, was determined to be 0.6, whilst the quantum yield for the triplet formation was 1.0. Aqueous solutions of 5-HMF were found to photoionize to yield the hydrated electron and the cation radical of 5-HMF in a biphotonic process. The influences of pH, buffer and glucose on the formation of transients were evaluated. The reactions between 5-HMF and the solvated electron, the hydroxyl radical and the superoxide were also studied.

Published

2004

91. Characterisation of carotenoid radical cations in liposomal environments: interaction with vitamin C

Author

Edward J. Land, Marc Burke, Ruth Edge, and T. George Truscott

Subjects

Lutein, 1,2-Dipalmitoylphosphatidylcholine, Free Radicals, Biophysics, Ascorbic Acid, Xanthophylls, Photochemistry, chemistry.chemical_compound, Zeaxanthins, Cations, Radiology, Nuclear Medicine and imaging, Carotenoid, chemistry.chemical_classification, Liposome, Radiation, Radiological and Ultrasound Technology, Molecular Structure, food and beverages, Ascorbic acid, beta Carotene, eye diseases, Zeaxanthin, chemistry, Radical ion, Xanthophyll, Radiolysis, Liposomes, Spectrophotometry, Ultraviolet

Abstract

Pulse radiolysis was used to generate the radical cations of beta-carotene and two xanthophylls, zeaxanthin and lutein, in unilamellar vesicles of dipalmitoylphosphatidyl choline. The rate constants for the reaction (repair) of these carotenoid radical cations with the water-soluble vitamin C were found to be similar (approximately 1x10(7) M(-1) s(-1)) for beta-carotene and zeaxanthin and somewhat lower (approximately 0.5x10(7) M(-1) s(-1)) for lutein. The results are discussed in terms of the microenvironment of the carotenoids and suggest that for beta-carotene, a hydrocarbon carotenoid, the radical cation is able to interact with a water-soluble species even though the parent hydrocarbon carotenoid is probably entirely in the non-polar region of the liposome.

Published

2001

92. The carotenoids as anti-oxidants--a review

Author

T. G. Truscott, Ruth Edge, and David J. McGarvey

Subjects

Free Radicals, Biophysics, macromolecular substances, Antioxidants, chemistry.chemical_compound, polycyclic compounds, Humans, Radiology, Nuclear Medicine and imaging, Carotenoid, chemistry.chemical_classification, Radiation, Radiological and Ultrasound Technology, Molecular Structure, Singlet Oxygen, Singlet oxygen, organic chemicals, food and beverages, Anti oxidant, Pro-oxidant, Oxidants, Carotenoids, biological factors, Oxygen, chemistry, Photobiology, Biochemistry, Xanthophyll, Fruits and vegetables

Abstract

Carotenoids are abundant in many fruits and vegetables and they play diverse roles in photobiology, photochemistry and medicine. This review concerns the reactivity of carotenoids with singlet oxygen and the interaction of carotenoids with a range of free radicals. Mechanisms associated with the anti- and pro-oxidant behaviour of carotenoids are discussed including carotenoid interactions with other anti-oxidants.

Published

1998

93. Cu(ii)–porphyrin molecular dynamics as seen in a novel EPR/Stochastic Liouville equation study

Author

ThaoNguyen Nguyen, Ruth Edge, Paer Hakansson, Prasanth B. Nair, and Eugen Stulz

Subjects

Porphyrins, General Physics and Astronomy, Molecular Dynamics Simulation, Quantum chemistry, Molecular physics, law.invention, Molecular dynamics, chemistry.chemical_compound, symbols.namesake, Coordination Complexes, law, Quantum mechanics, EPR paradox, Physical and Theoretical Chemistry, Electron paramagnetic resonance, Rotational correlation time, Electron Spin Resonance Spectroscopy, Temperature, Function (mathematics), Porphyrin, Amplitude, Models, Chemical, chemistry, symbols, Spin Labels, Copper

Abstract

Copper porphyrin dissolved in CH2Cl2:toluene as fluid and frozen solution was studied as a function of temperature using X-band electron paramagnetic resonance (EPR). Quantitative interpretation was obtained using a recently developed Stochastic Liouville simulation method. For the first time we address the large spin system that translates into a 400,000 dimensional Liouville equation solved under slow-motion conditions. Using a simple three parameter microscopic model, the temperature dependence of porphyrin rotational correlation time is determined to be in the range 1-10 ns and a fast local motion is in the subpico-second regime with an amplitude increasing with temperature. The methodology provides an important tool for arriving at an accurate set of spin Hamiltonian parameters since determining a unique set of parameters from a frozen solution EPR experiment is often difficult. Thus, the proposed method discriminates between parameters proposed from frozen solution EPR experiments or quantum chemistry calculations. The methodology presented is expected to be valuable in obtaining a molecular dynamics picture of metal proteins using EPR as well as in the study of artificial photosynthetic systems.

Published

2013

94. Experimental observation of spin delocalisation onto the aryl-alkynyl ligand in the complexes [Mo(CCAr)(Ph2PCH2CH2PPh2)(η-C7H7)]+ (Ar = C6H5, C6H4-4-F; C7H7 = cycloheptatrienyl): an EPR and ENDOR investigation

Author

Joseph W. Sharples, Joseph J. W. McDouall, Mark W. Whiteley, Hannah N. Lancashire, Damien Martin Murphy, Ruth Edge, Emma C. Fitzgerald, Emma Carter, and David Collison

Subjects

Ligand, Aryl, Substituent, Analytical chemistry, Spectral line, law.invention, Inorganic Chemistry, chemistry.chemical_compound, Paramagnetism, Crystallography, chemistry, law, Electron paramagnetic resonance, Hyperfine structure, Derivative (chemistry)

Abstract

The paramagnetic aryl-alkynyl complexes [Mo(C≡CAr)(dppe)(η-C(7)H(7))](+) (dppe = Ph(2)PCH(2)CH(2)PPh(2); Ar = C(6)H(5), [1](+); C(6)D(5), [2](+); C(6)H(4)-4-F, [3](+); C(6)H(4)-4-Me, [5](+)) and [Mo(C≡CBu(t))(dppe)(η-C(7)H(7))](+) [4](+), have been investigated in a combined EPR and ENDOR study. Direct experimental evidence for the delocalisation of unpaired spin density over the framework of an aryl-alkynyl ligand has been obtained. The X-band solution EPR spectrum of the 4-fluoro derivative, [3](+), exhibits resolved hyperfine coupling to the remote para position of the aryl group [a(iso)((19)F) = 4.5 MHz, (1.6 G)] in addition to couplings attributable to (95/97)Mo, (31)P and (1)H of the C(7)H(7) ring. A full analysis of the (1)H ENDOR spectra is restricted by the low g anisotropy of the system which prevents the use of orientation selection. However, inter-comparison of the (1)H cw-ENDOR frozen solution spectra of [1](+), [2](+), [4](+) and [5](+), combined with spectral simulation informed by calculated values derived from DFT investigations, has facilitated estimation of the experimental a(iso)((1)H) hyperfine couplings of [1](+) including the ortho, ±3.7 MHz (±1.3 G) and para, ±3.9 MHz (±1.4 G) positions of the C(6)H(5) substituent of the aryl-alkynyl ligand.

Published

2010

95. Metal-stabilised diynyl radicals: structure and reactivity of [Mo(CC–CCSiMe3)L2(η-C7H7)]˙+ (L2 = 2,2′-bipyridine or dppe)

Author

Madeleine Helliwell, Mark W. Whiteley, Emma C. Fitzgerald, Neil J. Brown, David Collison, Ruth Edge, Yien T. Ta, and Paul J. Low

Subjects

Stereochemistry, Radical, Metals and Alloys, General Chemistry, Medicinal chemistry, Catalysis, 2,2'-Bipyridine, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Metal, chemistry.chemical_compound, chemistry, visual_art, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Reactivity (chemistry), Derivative (chemistry)

Abstract

The unprecedented spectroscopic and structural characterisation of a series of 17-electron, monometallic diynyl radicals, [Mo(CC–CCR)L2(η-C7H7)]˙+ (L2 = bipy, R = SiMe3; L2 = dppe, R = SiMe3 or H), are reported; the (L2 = dppe, R = SiMe3) derivative is reactive to chain-centred Cβ–Cβ′ dimerisation.

Published

2010

96. Formation of a new class of 7π radicals via sterically induced P–P bond cleavage of the dimers [(CH)2(NR)2P]2

Author

Dominic S. Wright, Vesal Naseri, Kristine Müther, Eric J. L. McInnes, Ruth Edge, Robert J. Less, and Jeremy M. Rawson

Subjects

Steric effects, Chemistry, Stereochemistry, Radical, Materials Chemistry, Metals and Alloys, Ceramics and Composites, General Chemistry, Catalysis, Bond cleavage, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Abstract

The 2c-2e- P-P bonded dimers [(CH)2(NR)2P]2 dissociate in solution to give the persistent new 7pi radicals [(CH)2(NR)2P]*, which are isoelectronic with the well known S/N thiazolyl radicals.

Published

2009

97. Carotenoids Enhance Vitamin E Antioxidant Efficiency

Author

F Böhm, T. G. Truscott, Ruth Edge, David J. McGarvey, and Edward J. Land

Subjects

chemistry.chemical_classification, Antioxidant, medicine.medical_treatment, Vitamin E, Cancer, General Chemistry, Ascorbic acid, medicine.disease, Biochemistry, Catalysis, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, beta-Carotene, Radiolysis, medicine, Food science, alpha-Tocopherol, Carotenoid

Published

1997

98. Orbital Symmetry Controlof Electronic Coupling ina Symmetrical, All-Carbon-Bridged “Mixed Valence” Compound:Synthesis, Spectroscopy, and Electronic Structure of...

Author

Emma C. Fitzgerald, Neil J. Brown, Ruth Edge, Madeleine Helliwell, HannahN. Roberts, Floriana Tuna, Andrew Beeby, David Collison, Paul J. Low, and Mark W. Whiteley

Published

2012

99. Synthesis, Redox Chemistry, and Electronic Structure of the Alkynyl Cyclopentadienyl Molybdenum Complexes [Mo(CCR)(CO)(L2)Cp′]n+(n= 0 or 1; R = Ph or C6H4-4-Me, L2= Ph2PCH2CH2PPh2or 2PMe3, Cp′ = Cp or Cp*).

Author

Hannah N. Roberts (née Lancashire), Neil J. Brown, Ruth Edge, Ross Lewin, David Collison, Paul J. Low, and Mark W. Whiteley

Published

2011

100. Molybdenum Complexes of C,C-Bis(ethynyl)carboranes: Design, Synthesis, and Study of a Weakly Coupled Mixed-Valence Compound.

Author

Neil J. Brown, Hannah N. Lancashire, Mark A. Fox, David Collison, Ruth Edge, Dmitry S. Yufit, Judith A. K. Howard, Mark W. Whiteley, and Paul J. Low

Published

2011