1,721,004 research outputs found
Nitric oxide binding to ferrous native horse heart cytochrome c and to its carboxymethylated derivative: a spectroscopic and thermodynamic study
No full textFormation of a molten-globule-like state of cytochrome c induced by high concentrations of glycerol
No full textThe effect of glycerol on the structure of cytochrome c was investigated by circular dichroism, absorbance and EPR spectroscopy. The results obtained show that an increasing concentration of the organic solvent (70-99.2%, v/v) in aqueous polyalcohol mixtures converts native cytochrome c into a new, low spin form through a fully reversible, two-state transition. The glycerol-stabilized form (that we call here the G state) retains native-like amounts of α-helix structure while rigid tertiary structure and native Fe(III)-Met(80) axial bond are lost. Analysis of data suggests a molten globule character of the G state; support to this view is afforded by the striking similarities between the spectroscopic (and, thus, structural) properties of the G state with those of the acidic molten globule of the protein (A state)
A metal-binding site in the RTN1-C protein: new perspectives on the physiological role of a neuronal protein
No full textReticulon 1-C (RTN1-C) is an ER-associated neuronal protein characterized by horse-shoe-like topology with two transmembrane helices and the N- and C-terminal regions which are supposed in the cytosolic side of ER. The physiological role of this protein is not completely clarified, but several studies have suggested its involvement in the neuronal differentiation, membrane vesicle trafficking and induction of apoptosis. The C-terminal region of RTN1-C is characterized by the presence of a H4 histone consensus sequence that makes it able to interact with nucleic acids and HDAC enzymes both in vitro and in vivo. In the present study a potential metal ion binding motif (HxE/D) at the C-terminal of the RTN1-C has been identified and its capability to bind metals investigated by UV-vis, CD, multidimensional NMR spectroscopy and biological assays. The results suggest a possible implication of the metal ions in the mechanisms of formation of the recently observed RTNs multiprotein complexes contributing to understand the structure and function of this neuronal membrane protein, suggesting a possible effect of the metal binding property on its biological function
Electron paramagnetic resonance identification of a highly reactive thiol group in the proximity of the catalytic site of human placenta glutathione transferase
No full textThe reaction of the glutathione transferase from human placenta with a maleimide spin label derivative has been followed by EPR. Incubation of the enzyme at pH 7.0 with 50-fold molar excess of the spin label reagent gives rise to an immobilized nitroxyl EPR spectrum indicative of two reacting thiol groups per dimer of enzyme as evaluated by double integration of the EPR spectrum; the activity is lost in parallel. The same type of spectrum can be obtained simply by adding 2 eq of the spin label reagent to the enzyme. The binding is completed after less than 1 min at pH 8.0; it requires 2 min at pH 7.0 and more than 10 min at pH 6.0. These data indicate that the maleimide derivative reacts, in each subunit, with a thiol group which plays a crucial role for the maintenance of the catalytic activity and is characterized by a low pK. Inactivation of the enzyme at pH 7.0 in the presence of 2 eq of spin label reagent per mol of enzyme requires 15 min, suggesting the occurrence of a structural rearrangement after the binding of the thiol blocking agent. The same binding in the presence of S-methylglutathione or protoporphyrin IX shows a decreased reaction rate with respect to the reaction in the absence of inhibitors, indicating that the thiols are in proximity of both the glutathione and the porphyrin binding sites. For this latter case, this is unambiguously demonstrated by the titration of spin-labeled enzyme with hemin, which produces a decrease of the EPR signal amplitude from which an interspin distance of about 10 A can be evaluated
Spectroscopic properties of the nitric oxide derivative of ferrous man, horse, and ruminant hemoglobins: a comparative study
No full textEffect of inositol hexakisphosphate on the spectroscopic properties of the nitric oxide derivative of ferrous horse and bovine hemoglobin
No full textInhibition of glutathione transferase pi from human placenta by 1-chloro-2,4-dinitrobenzene occurs because of covalent reaction with cysteine 47
No full textHuman placenta glutathione transferase pi is irreversibly inhibited when incubated with 1-chloro-2,4-dinitrobenzene (CDNB) in the absence of the cosubstrate glutathione. The enzyme is protected against CDNB inactivation by the presence of S-methylglutathione and glutathione. The kinetics of inactivation is pseudo-first-order with k(obs) = 0.04 min-1 when 44 microM enzyme is incubated in presence of 1 mM CDNB at pH 6.5. The inhibition is saturable with respect to the CDNB concentration and the enzyme-CDNB complex shows a K(i) = 2.7 mM. Concomitant to the inhibition process is formation of an absorption band at 340 nm. After trypsin digestion and HPLC analysis, the CDNB-reacted enzyme gives a single peptide absorbing at 340 nm. Automated Edman degradation of this peptide indicates cysteine 47 to be the residue alkylated by CDNB
Il danno di H2O2 su F1ATPasi mitocondriale può essere mediato da Fe++ e da Fe+++ legati alla proteina
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