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Spectroscopic Features (spectroscopic + feature)

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Chemistry71%

Selected Abstracts

Metal,thiolate bonds in bioinorganic chemistry

JOURNAL OF COMPUTATIONAL CHEMISTRY, Issue 12 2006
Edward I. Solomon
Abstract Metal,thiolate active sites play major roles in bioinorganic chemistry. The MSthiolate bonds can be very covalent, and involve different orbital interactions. Spectroscopic features of these active sites (intense, low-energy charge transfer transitions) reflect the high covalency of the MSthiolate bonds. The energy of the metal,thiolate bond is fairly insensitive to its ionic/covalent and ,/, nature as increasing MS covalency reduces the charge distribution, hence the ionic term, and these contributions can compensate. Thus, trends observed in stability constants (i.e., the Irving,Williams series) mostly reflect the dominantly ionic contribution to bonding of the innocent ligand being replaced by the thiolate. Due to high effective nuclear charges of the CuII and FeIII ions, the cupric, and ferric,thiolate bonds are very covalent, with the former having strong , and the latter having more , character. For the blue copper site, the high , covalency couples the metal ion into the protein for rapid directional long range electron transfer. For rubredoxins, because the redox active molecular orbital is , in nature, electron transfer tends to be more localized in the vicinity of the active site. Although the energy of hydrogen bonding of the protein environment to the thiolate ligands tends to be fairly small, H-bonding can significantly affect the covalency of the metal,thiolate bond and contribute to redox tuning by the protein environment. © 2006 Wiley Periodicals, Inc. J Comput Chem 27: 1415,1428, 2006 [source]

Metabolic differences between primary and recurrent human brain tumors: a 1H NMR spectroscopic investigation

NMR IN BIOMEDICINE, Issue 6 2005
Fritz-Georg Lehnhardt
Abstract High-resolution proton magnetic resonance spectroscopy was performed on tissue specimens from 33 patients with astrocytic tumors (22 astrocytomas, 11 glioblastomas) and 13 patients with meningiomas. For all patients, samples of primary tumors and their first recurrences were examined. Increased anaplasia, with respect to malignant transformation, resulting in a higher malignancy grade, was present in 11 recurrences of 22 astrocytoma patients. Spectroscopic features of tumor types, as determined on samples of the primary occurrences, were in good agreement with previous studies. Compared with the respective primary astrocytomas, characteristic features of glioblastomas were significantly increased concentrations of alanine (Ala) (p,=,0.005), increased metabolite ratios of glycine (Gly)/total creatine (tCr) (p,=,0.0001) and glutamate (Glu)/glutamine (Gln) (p,=,0.004). Meningiomas showed increased Ala (p,=,0.02) and metabolite ratios [Gly, total choline (tCho), Ala] over tCr (p,=,0.001) relative to astrocytomas, and N -acetylaspartate and myo-inositol were absent. Metabolic changes of an evolving tumor were observed in recurrent astrocytomas: owing to their consecutive assessments, more indicators of malignant degeneration were detected in astrocytoma recurrences (e.g. Gly, p,=,0.029; tCho, p,=,0.034; Glu, p,=,0.015; tCho/tCr, p,=,0.001) in contrast to the comparison of primary astrocytomas with primary glioblastomas. The present investigation demonstrated a correlation of the tCho-signal with tumor progression. Significantly elevated concentrations of Ala (p,=,0.037) and Glu (p,=,0.003) and metabolite ratio tCho/tCr (p,=,0.005) were even found in recurrent low-grade astrocytomas with unchanged histopathological grading (n,=,11). This may be related to an early stage of malignant transformation, not yet detectable morphologically, and emphasizes the high sensitivity of 1H NMR spectroscopy in elucidating characteristics of brain tumor metabolism. Copyright © 2005 John Wiley & Sons, Ltd. [source]

Heterobimetallic Systems Containing Organometallic and Classical Coordination Sites: Effects of Subtle Changes in the Werner-Type Site

EUROPEAN JOURNAL OF INORGANIC CHEMISTRY, Issue 7 2005
Tianlu Sheng
Abstract Several highly unsymmetrical heterodinuclear Mn/Zn complexes are reported, in which an organometallic CpMn-(CO)2 fragment and a classical Werner-type zinc coordination unit are arranged in close proximity by means of a bridging pyrazolate. Ligand scaffolds differing in the chelate size of the tripodal tetradentate {N4} binding site, and different coligands for zinc are employed. Both the zinc-devoid precursor compounds and the bimetallic complexes with zinc(II) nested in the tris(pyridylalkyl)amine type {N4} compartment have been characterized by X-ray crystallography. Structural and spectroscopic features as well as the redox potentials of the MnI/MnII couple indicate slight effects of the redox-inactive Werner-type subunit on the properties of the organometallic site. Oxidation is highly localized at the organometallic manganese site, as is evidenced by IR and EPR spectroscopy and supported by DFT calculations. (© Wiley-VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2005) [source]

A spectroscopic study of the reaction of NAMI, a novel ruthenium(III)anti-neoplastic complex, with bovine serum albumin

FEBS JOURNAL, Issue 4 2000
Luigi Messori
The reaction of Na[transRuCl4Me2SO(Im)] (NAMI; where Im is imidazole), a novel anti-neoplastic ruthenium(III) complex, with BSA, was studied in detail by various physico-chemical techniques. It is shown that NAMI, following chloride hydrolysis, binds bovine serum albumin tightly; spectrophotometric and atomic absorption data point out that up to five ruthenium ions are bound per albumin molecule when BSA is incubated for 24 h with an eightfold excess of NAMI. CD and electronic absorption results show that the various ruthenium centers bound to albumin exhibit well distinct spectroscopic features. The first ruthenium equivalent produces a characteristic positive CD band at 415 nm whereas the following NAMI equivalents produce less specific and less marked spectral effects. At high NAMI/BSA molar ratios a broad negative CD band develops at 590 nm. Evidence is provided that the bound ruthenium centers remain in the oxidation state +3. By analogy with the case of transferrins it is proposed that the BSA-bound ruthenium ions are ligated to surface histidines of the protein; results from chemical modification experiments with diethylpyrocarbonate seem to favor this view. Spectral patterns similar to those shown by NAMI are observed when BSA is reacted with two strictly related ruthenium(III) complexes Na[transRuCl4(Me2SO)2] and H(Im)[transRuCl4(Im)2] (ICR), implying a similar mechanism of interaction in all cases. It is suggested that the described NAMI-BSA adducts may form in vivo and may be relevant for the biological properties of this complex; alternatively NAMI/BSA adducts may be tested as specific carriers of the ruthenium complex to cancer cells. Implications of these findings for the mechanism of action of NAMI and of related ruthenium(III) complexes are discussed. [source]

Theoretical electronic spectra of 2-aminopurine in vapor and in water

INTERNATIONAL JOURNAL OF QUANTUM CHEMISTRY, Issue 13 2006
Antonio Carlos Borin
Abstract The accurate quantum chemical CASSCF and CASPT2 methods combined with a Monte Carlo procedure to mimic solvation effects have been used in the calculation of the spectroscopic properties of two tautomers of 2-aminopurine (2AP). Absorption and emission spectra have been simulated both in vacuum and in aqueous environment. State and transition energies and properties have been obtained with high accuracy, leading to the assignment of the most important spectroscopic features. The lowest-lying 1(,,,*) (1La) state has been determined as responsible for the first band in the absorption spectrum and also for the strong fluorescence observed for the system in water. The combined approach used in the present work gives quantitatively accurate results. © 2006 Wiley Periodicals, Inc. Int J Quantum Chem, 2006 [source]

Internalization of Aggregated Photosensitizers by Tumor Cells: Subcellular Time-resolved Fluorescence Spectroscopy on Derivatives of Pyropheophorbide-a Ethers and Chlorin e6 under Femtosecond One- and Two-photon Excitation,

PHOTOCHEMISTRY & PHOTOBIOLOGY, Issue 6 2002
L. Kelbauskas
ABSTRACT Amphiphilic sensitizers self-associate in aqueous environments and form aggregated species that exhibit no or only negligible photodynamic activity. However, amphiphilic photosensitizers number among the most potent agents of photodynamic therapy. The processes by which these sensitizers are internalized into tumor cells have yet to be fully elucidated and thus remain the subject of debate. In this study the uptake of photosensitizer aggregates into tumor cells was examined directly using subcellular time-resolved fluorescence spectroscopy with a high temporal resolution (20,30 ps) and high sensitivity (time-correlated single-photon counting). The investigations were performed on selected sensitizers that exhibit short fluorescence decay times (<50 ps) in aggregated form. Derivatives of pyropheophorbide-a ether and chlorin e6 with varying lipophilicity were used for the study. The characteristic fluorescence decay times and spectroscopic features of the sensitizer aggregates measured in aqueous solution also could be observed in A431 human endothelial carcinoma cells administered with these photosensitizers. This shows that tumor cells can internalize sensitizers in aggregated form. Uptake of aggregates and their monomerization inside cells were demonstrated directly for the first time by means of fluorescence lifetime imaging with a high temporal resolution. Internalization of the aggregates seems to be endocytosis mediated. The degree of their monomerization in tumor cells is strongly influenced by the lipophilicity of the compounds. [source]

N -Fusion Approach in Construction of Contracted Carbaporphyrinoids: Formation of N -Fused Telluraporphyrin

CHEMISTRY - A EUROPEAN JOURNAL, Issue 41 2009
Ewa Pacholska-Dudziak Dr.
Abstract Insertion of PCl3 into 5,10,15,20-tetraaryl-21-telluraporphyrin leads to a phosphorus complex of N -fused dihydrotelluraporphyrin with an inverted tellurophene ring. Its CNN coordination core places the macrocycle in the family of contracted carbaporphyrinoids. A cycle of direct transformations affords an elegant triangle of three mutually convertible N -fused porphyrinoids, with distinct spectroscopic features: antiaromatic, nonaromatic and aromatic. The nonaromatic species has a dome shaped skeleton which forms in the solid state a ball and socket structure with C60. W wyniku insercji trójchlorku fosforu do 5,10,15,20-tetraarylo-21-telluraporfiryny otrzymano fosforowy kompleks skondensowanej dihydrotelluraporfiryny z odwróconym pier,cieniem tellurofenowym. Trójkoordynacyjny rdze, CNN tak powsta,ego makrocykla klasyfikuje go do rodziny zmniejszonych karbaporfirynoidów. Zsyntezowano trzy pokrewne kompleksy tego typu (antyaromatyczny, niearomatyczny i aromatyczny), mog,ce wzajemnie przekszta,ca, si, w siebie. Ró,ni, si, one zasadniczo w,a,ciwo,ciami spektroskopowymi. Zwi,zek niearomatyczny charakteryzuje si, bardzo pofa,dowanym szkieletem i kokrystalizuje z fulerenem C60 dopasowuj,c si, wkl,s,, stron, do jego wypuk,ej powierzchni. [source]