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1.
Two new copper(II) complexes of the type [Cu(L)X2), where L = (E)-N-phenyl-2-[phenyl (pyridine-2-yl)methylene]hydrazinecarboxamide X = Cl/Br have been synthesized and characterized by elemental analyses, FAB (fast atomic bombardment) magnetic measurements, electronic absorption, conductivity measurements cyclic voltammetry (CV) and Electron paramagnetic resonance (epr) spectroscopy. The structures of these complexes determined by single crystal X-ray crystallography show a distorted square based pyramidal (DSBP) geometry around copper(II) metal center. The distorted CuN2OX (X = Cl/Br) basal plane in them is comprised of two nitrogen and one oxygen atoms of the meridionally coordinated ligand and a chloride or bromide ion and axial position is occupied by other halide ion. The epr spectra of these complexes in frozen solutions of DMSO showed a signal at g ca. 2. The trend in g-value (g|| > g > 2.00) suggest that the unpaired electron on copper(II) has dx2-y2 character. Biological activities in terms of superoxide dismutase (SOD) and antimicrobial properties of copper(II) complexes have also been measured. The superoxide dismutase activity reveals that these two complexes catalyze the fast disproportionation of superoxide in DMSO solution.  相似文献   

2.
S. Mitra 《Genetics》1976,82(3):543-545
The inequality relationship between the expected values of ( jx-g)2 and (ĝ-g) 2, where jx is a biased and ĝ is an unbiased estimate of population homozygosity g, were examined earlier by Nei and Roychoudhury (1974) and later by Mitra (1975). The improvement in the inequality still left much to be desired. In this paper a lower boundary of g has been obtained which may be regarded as ultimate for ensuring a smaller expected value of ( jx-g)2 than the corresponding value of ( ĝ-g)2.  相似文献   

3.
Soret and visible absorption spectra for nitrosyl(protoporphyrin IX dimethyl ester)iron(II) (Fe(PPIXDME)(NO] and its complexes with nitrogenous bases (imidazoles, pyridines, aliphatic amines, and cyclic secondary amines) as model systems for nitrosylhemoproteins have been measured in various solvents. As the solvent polarity increases, the Soret and visible absorption bands for the five-coordinate Fe(PPIXDME) (NO) were shifted to shorter wavelengths. Accompanying the coordination of a nitrogenous base to the vacant axial position of Fe(PPIXDME)(NO), the Soret band becomes sharp and the band maximum is shifted to longer wavelengths. The band positions for the six-coordinate Fe(PPIXDME)(NO)(Base) complex are not sensitive to the pi-bonding ability of the axial ligand trans to NO group. The electronic spectra of five-coordinate Fe(PPIXDME)(NO) and six-coordinate Fe(PPIXDME)(NO)(Base) complexes are interpreted in relation to the structural information. The comparison of the spectra for model systems with those for nitrosylhemoproteins is discussed.  相似文献   

4.
For the purpose of understanding the electron paramagnetic resonance (epr) spectral change of nitrosylhemoproteins under various conditions, the epr spectra for the model system have been analyzed. The model system consists of the nitrogen oxide complex of the iron(II) protoporphyrin IX dimethyl ester and various imidazole derivatives (three hindered and six unhindered imidazole derivatives). The results of the analysis indicate the existence of two molecular species in the model system, which differ in structure of the FeNO unit. These observations were compared with those for the nitrosylhemoproteins.  相似文献   

5.
The nitrosyl complex H[TcNOCl4] reacts with the tridentate ligand bis[(2-diphenylphosphino)propyl]amine (PNPpr) to yield a mixture of the mer or fac isomers of [TcCl2(NO)(PNPpr)]. In acetonitrile, where the ligand is freely soluble, reaction occurs at room temperature to yield mostly the mer isomer with the linear nitrosyl ligand cis to the amine ligand; and the phosphine ligands arranged in a mutually trans orientation. The reaction in methanol requires reflux to dissolve the lipophilic ligand and generates the fac isomer of [TcCl2(NO)(PNPpr)] as the major product, with the tridentate ligand in a facial arrangement, leaving the chlorides and nitrosyl ligand in the remaining facial sites. The steric bulk of the tridentate ligand’s diphenylphophino-moieties results in a significant distortion from octahedral geometry, with the P-Tc-P bond angle expanded to 99.48(4)°.The infrared spectra display absorptions from these nitrosyl ligands in the 1700 and 1800 cm−1 regions for the fac and mer isomers, respectively. The ESI(+) mass spectra each display the parent ion at 647 m/z.  相似文献   

6.
The epr spectra at 4.2 K of inhibitor derivatives of cobalt carbonic anhydrase have been recorded. The spectra can be grouped into two classes according to whether the low-field signal is broad or sharp and with g ranges of 6.1–6.8, 2.3–2.9, 1.6–1.8, and 5.8–6.2, 2.2–2.8, 1.5–1.8, respectively. The two kinds of spectra have been empirically related to the features of the room-temperature solution electronic spectra. A third kind of epr spectrum with a single broad signal is obtained when the inhibitor is in large excess.The possibility of using the epr spectra for deducing the geometry of cobalt enzymes is discussed.  相似文献   

7.
We report the joint resonance Raman (RR) and electron paramagnetic resonance (epr) study of five- and six-coordinate nitrosyl heme model compounds and of the titled nitrosyl hemoproteins. Both epr and RR spectra fall into two types which, in the models, correspond to five- and six-coordinate nitrosyl hemes. However, neither RR nor epr spectroscopy is highly sensitive to the nature of the bond between a nitrosyl heme and a coordinated nitrogenous base, nor do the results of one technique uniformly correlate with those of the other. It is not possible to use epr spectroscopy as a test for the coordination state of a nitrosyl heme. The position of the highest frequency (depolarized) RR band possibly provides such a test. Any breaking of the very weak bond between nitrosyl heme and proximal histidine in T state human HbNO is more a consequence of tertiary structural features unique to the human alphaNO chains than it is of properties of the T quaternary conformation.  相似文献   

8.
Electron paramagnetic resonance (epr) and ultraviolet difference spectroscopy of vanadyl conalbumin indicate a binding capacity of two vanadyl ions, VO2+, per protein molecule in the pH 8–11 range; the binding capacity drops in the pH 6–8 range with an apparent pKa′ = 6.6. Iron-saturated conalbumin does not bind vanadyl ions, which suggests common binding sites for iron and vanadium. Ultraviolet difference spectroscopy indicates 2–3 tyrosines are involved in the binding of each metal ion; pH titrations show that three protons are released per vanadyl ion bound by conalbumin. Room and liquid nitrogen temperature X-band (ca. 9.2–9.5 gHz) epr spectra show that the vanadyl ion binds in three magnetically distinct environments (A, B, and C) that arise from interconvertible metal site configurations. These configurations are probably examples of conformational substrates of the protein. Q-band (ca 34 gHz) epr spectra resolve the spectral features more clearly and show that two configurations (A and B) have axially symmetric epr parameters but angles of noncoincidence of 12° and 8°, respectively, between the z components of the g and nuclear hyperfine tensors. The third (C) configuration has rhombic magnetic symmetry and a 6° angle of noncoincidence. These observations demonstrate that the metal sites are of low symmetry and are flexible in their geometry about the metal.The isotropic g and nuclear hyperfine tensor values and the line widths used in computer-simulated epr spectra are consistent with four oxygen or three oxygen and one nitrogen donor atoms binding equatorially to the VO2+ group. The apparent stability constant indicates that vanadyl ion binds to conalbumin approximately twelve orders of magnitude more weakly than iron to human serotransferrin but still sufficiently strongly to overcome hydrolysis.  相似文献   

9.
l-Tryptophan-2,3-dioxygenase, (EC 1.13.1.12) purified from Pseudomonas acidovorans, is inactivated on aerobic aging or on treatment with K3Fe(CN)6, but regains activity in the presence of reducing agents such as sodium ascorbate. Examination of oxidized, inactive enzyme by electron paramagnetic resonance (epr) spectroscopy has revealed the presence of high spin ferriheme (g = 6.2) and of Cu(II) (g = 2.065, g = 2.265) in the enzyme.The epr signal of Cu(II) in inactive tryptophan oxygenase is attenuated on the addition of ascorbate, whereas the high spin ferriheme signal is unaffected, indicating that the site of action of reducing agents in activating the enzyme is the enzymic copper. Quantitation of the Cu(II) signal in inactive tryptophan oxygenase by double integration accounts for 45% of the total copper.Addition of l-tryptophan to either inactive or active enzyme produces a decrease of 44 ± 5% of the epr signal of high spin ferriheme and the emergence of the epr signal of a low spin ferriheme (g1, 2, 3 = 2.66, 2.20, 1.81). Disappearance of the high spin ferriheme is hyperbolic (Hill coefficient, n = 1.02) with respect to l-tryptophan concentration, while the appearance of the low spin ferriheme is sigmoidal (Hill coefficient, n = 1.33) with respect to l-tryptophan concentration. The characteristics of the epr signal of this low spin ferriheme are intermediate between those of the signals of the hydroxides of hemoglobin and myoglobin and those in which two histidines are ligated to the ferriheme of hemoglobin. This may be the first example of the observation by epr of an allosteric parameter of an enzyme.  相似文献   

10.
trans-Dioxoruthenium(VI) porphyrin complexes have been developed as one of the best-characterized model systems for heme-containing enzymes. Traditionally, this type of compounds can be prepared by oxidation of ruthenium(II) precursors with peroxyacids and other terminal oxidants under different conditions, depending on the porphyrin ligands. In this work, a new photochemical generation of trans-dioxoruthenium(VI) porphyrins has been developed by extension of the known photo-induced ligand cleavage reactions. Refluxing ruthenium(II) carbonyl porphyrins [RuII(Por)(CO)] in carbon tetrachloride afforded dichlororuthenium(IV) complexes [RuIV(Por)Cl2]. Facile exchange of the counterions in [RuIV(Por)Cl2] with Ag(ClO3) or Ag(BrO3) gave the corresponding dichlorate [RuIV(Por)(ClO3)2] or dibromate [RuIV(Por)(BrO3)2] salts. Visible-light photolysis of the photo-labile porphyrin-ruthenium(IV) dichlorates or dibromates resulted in homolytic cleavage of the two O-Cl or O-Br bonds in the axial ligands to produce trans-dioxoruthenium(IV) species [RuVI(Por)O2] bearing different porphyrin ligands.  相似文献   

11.
《Inorganica chimica acta》2005,358(4):1141-1150
The synthesis of new oxaaza macrocyclic ligands (2-4) derived from O1,O7-bis(2-formylphenyl)-1,4,7-trioxaheptane and functionalized tris(2-aminoethyl)amine are described. Mononuclear copper(II) complexes were isolated in the reaction of the corresponding macrocyclic ligand and copper(II) perchlorate. The structure of the [Cu(2)](ClO4)2 complex was determined by X-ray diffraction analysis. The copper(II) ion is five-coordinated by all N5 donor atoms, efficiently encapsulated by the amine terminal pendant-arm, with a trigonal-bipyramidal geometry. The complexes are further characterized by UV-Vis, IR and EPR studies. The electronic reflectance spectra evidence that the coordination geometry for the Cu(II) complexes is trigonal-bipyramidal with the ligands 1 and 2 or distorted square-pyramidal with the ligands 3 and 4. The electronic spectra in MeCN solutions are different from those in the solid state, which suggest that some structural modification may occur in solution. The EPR spectrum of powder samples of the copper complex with 2 presents axial symmetry with hyperfine split at g// with the copper nuclei (I = 3/2), which is characteristic of weakly exchange coupled extended systems. The EPR parameters (g// = 2.230, A// = 156 × 10−4 cm−1 and g = 2.085) indicate a dx2-y2 ground state. The EPR spectra of the complexes with ligands 3 and 4 show EPR spectra with a poorly resolved hyperfine structure at g//. In contrast, the complex with ligand 2 shows no hyperfine split and a line shape which was simulated assuming rhombic g-tensor (g1 = 2.030, g2 = 2.115 and g3 = 2.190).  相似文献   

12.
We wish to report the synthesis of the Ru(II) crown thioether complex, (1,4,7,10,13-pentathiacyclopentadecane)chlororuthenium(II) hexafluorophosphate, [Ru([15]aneS5)Cl](PF6), and a study of its properties utilizing single crystal X-ray diffraction, electronic spectroscopy, NMR spectroscopy, density functional theory calculations and cyclic voltammetry. The crystal structure shows a single [15]aneS5 macrocycle and a chloro ligand coordinated in a distorted octahedral fashion around the ruthenium(II) center. A significant shortening (0.15 Å) of the trans Ru-S bond length occurs in this complex compared to the related PPh3 complex (2.4458(10) to 2.283(1) Å) due to the differences in the trans influence of the two ligands. 13C NMR spectroscopy demonstrates that the structure of [Ru([15]aneS5)Cl]+ is retained in solution. As expected for a Ru(II) complex, the electronic absorption spectrum shows two d-d transitions at 402 and 331 nm. These are red-shifted compared to hexakis(thioether)ruthenium(II) complexes and consistent with the weaker ligand field effect of the chloro ligand. The electrochemical behavior of the complex in acetonitrile shows a single one-electron reversible oxidation-reduction at +0.722 V versus Fc/Fc+ which is assigned as the Ru(II)/Ru(III) couple. DFT calculations for [Ru([15]aneS5)Cl]+ show a HOMO with orbital contributions from a t2g type orbital of the Ru ion, a π component from a p orbital of the axial S atom of [15]aneS5, and a p orbital of the chloro ligand while the LUMO consists of orbital contributions of dx2-y2 orbital of the Ru center and p orbitals of the four equatorial S donors.  相似文献   

13.
A new ruthenium nitric oxide complex with the bidentate phosphine, 1,2-bis(diethylphosphino)ethane (depe), has been synthesized and characterized by UV-Vis, infrared, EPR, NMR, electrochemical techniques and X-ray structure determination. The electronic spectrum showed a typical band of dπ→pπ* charge-transfer (CT) transition, assigned to Ru(II)NO transition, and the vibrational spectrum exhibited a peak of nitrosyl ligand at (νNO=1851 cm−1). A model structure for this complex has been proposed based on 1H, 1H{31P}, 31P{1H}, 13C{1H}, COSY 1H1H{31P}, J-Resolved, HSQC, HMBC, HSQC 1H13C{31P} and 1H13C HSQC/1H1H TOCSY spectral data, and confirmed by X-ray diffraction. The nitrosonium character for the NO ligand become evident through both electron paramagnetic resonance and X-ray data (angle RuNO=177.4(3)°). The reversible monoeletronic process at E1/2=0.040 V versus SHE was assigned to the ligand NO+/NO redox couple. Under treatment with Cd(Hg) solutions containing the [Ru(NO)(depe)2Cl](PF6)2 yields a signal in the EPR spectrum (g=1.99 and g//=1.88) which fitted quite well with the simulated spectra of coordinated NO species.  相似文献   

14.
The electron spin resonance (ESR) spectra of human and rabbit ferriheme-hemopexin complexes at 30oK show an ESR absorption characterized by gx = 1.60, gy = 2.25 and gz = 2.86, characteristic of low-spin ferriheme-proteins. The low-spin nature of the heme-iron in heme-hemopexin is corroborated by the observation of nuclear hyperfine splitting in M?ssbauer spectra at 4.2oK. The similarity of the ESR spectra of ferriheme-hemopexin with those of low-spin cytochromes which coordinate heme via two histidine residues points to a similar coordination mechanism in hemopexin. In contrast, the ESR spectra of the 1:1 and 2:1 complexes of heme with human serum albumin display signals at g = 6.0 and g = 2.0, characteristic of high-spin ferrihemeproteins.  相似文献   

15.
The electron paramagnetic resonance (EPR) spectra of rat adrenal zona fasciculata mitochondria showed peaks corresponding to low spin ferric cytochrome P-450 with apparent g values of 2.424, 2.248 and 1.917, and weak signals due to high spin ferric cytochrome P-450 with gx values of 8.08 and 7.80. The former is attributed to cholesterol side chain cleavage cytochrome P-450, the latter to 11β-hydroxylase cytochrome P-450. On addition of deoxycorticosterone the g = 7.80 signal was elevated and there was an associated drop in the low spin signal. As the pH was reduced from 7.4 to 6.1, the g = 8.08 signal increased with again a drop in intensity of the low spin signal. Mitochondria from the zona glomerulosa showed similar spectral properties to those described above. Addition of succinate, isocitrate or pregnenolone caused a loss of the g = 8.08 signal. Addition of calcium increased the magnitude of the g = 8.08 signal, and caused a slight reduction in the magnitude of the low spin signal. Also, addition of deoxycorticosterone, pregnenolone, succinate or isocitrate caused slight shifts of the outer lines of the low spin spectrum. Interaction of mitochondrial cytochrome P-450 with metyrapone and aminoglutethimide modified the low spin parameters. Adrenal microsomal cytochrome P-450 had low spin ferric g values of 2.417, 2.244 and 1.919 and high spin ferric gxy values of 7.90 and 3.85, distinct from the values obtained with mitochondria.  相似文献   

16.
Homogenous preparations of a manganese superoxide dismutase from a higher plant (Pisum sativum L.) were studied by epr and optical spectroscopies. The visible spectrum of manganese superoxide dismutase shows a weak and broad band in the range 350–700 nm with two shoulders at about 480 and 600 nm. Reduction with dithionite brought about a considerable disappearance of the visible component of the spectrum. The epr spectra of the native and dithionite-treated enzyme did not show any signal attributable to Mn(II) that only was visible after acid hydrolysis of the protein. The lack of epr signal both in the native and reduced superoxide dismutase can be attributed to the presence of Mn(III) in the former and of Mn(II) strongly bound to the protein in the latter. The results obtained with the manganese superoxide dismutase from leaves of the higher plant Pisum sativum are consistent with the general catalytic mechanism of action postulated for superoxide dismutases from other sources studied so far.  相似文献   

17.
Summary In rabbit luteal cells embedded in glycolmethacrylate and stained with PTA at low pH highly glycosylated membrane patches can be observed after vesiculation of the trans-Golgi network. As these membranes could be prelysosomal, their sialic acid content was investigated by postembedding labeling with Limax flavus agglutinin (LFA)/fetuin-Au. Additional labeling of the Golgi apparatus was performed with Wheat germ agglutinin (WGA)/ovomucoid Au, Ricinus communis agglutininI (RCAI)/Au and Helix pomatia agglutinin (HPA)/Au. The sections were then counterstained with PTA at low pH, which allows a clear distinction between the elements of the trans-Golgi network (G2-G1) and the saccules of the stack (g).With WGA, LFA and RCAI the trans-Golgi network was observed to be clearly more reactive than the stack. After vesiculation most intense labeling was found over the highly glycosylated vacuolar membranes derived from the G2-element. The limiting membrane of lysosomes, the MvB's and the plasma membrane also reacted strongly. Colloidal gold particles were also found over the membranes of the vacuoles derived from G1. The Golgi stack showed a lower reactivity and label for all three lectins could be found over three to four saccules of the stack (g3-g4). The matrix of the lysosomes was slightly labeled. Labeling with HPA was absent from the trans saccules and was consistently found in the cis and cis-most (g4-g5) saccules of the stack. Some cytoplasmic vesicles near the cell border were also labeled. With our procedure the Golgi apparatus can easily be detected and it is apparent that in rabbit luteal cells the highest lectin reactivity is found in the trans-Golgi network. A striking similarity is observed between the highly glycosylated membrane structures derived from G2 and the border of the lysosomes.  相似文献   

18.
《Inorganica chimica acta》2001,312(1-2):15-22
The synthesis, characterization and reactivity of trans-[NO(L)(NH3)4Ru]Cl3 (L=imidazole, theophylline and caffeine) are presented. 1H NMR spectroscopy indicates that the imidazole ligands are coordinated to the RuII through a carbon atom (imκ2, 1,3Me2Xanκ8 and 1,3,7Me3Xanκ8). The nitrosyl stretching frequencies (νNO≅1913 cm−1) suggest the coordinated nitrosyl has substantial NO+ character. The complexes undergo a single-electron reduction (E°≅−0.50 V versus Ag/AgCl), which involves the coordinated nitrosyl. Dissociation of NO· in the reduced species is facilitated by the trans-imidazolylidene ligand. The lower than expected reduction potentials of these complexes may account for their inactivity in evoking neuronal firing in the hippocampus by releasing NO following reduction.  相似文献   

19.
20.
Two nickel (II) complexes with the formula [NiL(H2O)2] · 6H2O (1 · 6H2O) and [NiH2L(BDC)]n (2), where L = 3,10-bis(3-propylcarboxyl)-1,3,5,8,10,12-hexaazacyclo-tetradecane, BDC = trans-butene dicarboxylate, have been synthesized and characterized by elemental analyses, IR spectra and single-crystal X-ray analyses. In 1, the Ni(II) ion is six-coordinated with four nitrogen atoms from the macrocyclic ligand in the equatorial plane and two water molecules in axial position. In 2, the structure is made up of one-dimensional chain of [NiH2L]2+ units with BDC2− anions, in which the Ni(II) ion is also six-coordinated with four nitrogen atoms from the macrocyclic ligand in the equatorial plane and two carboxylate oxygen atoms from the BDC2− group in axial position. In 2, the 1D chains are aligned in a parallel mode.  相似文献   

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