Galia Taler scite author profile

In cytochrome c, ligation of the heme iron by the methionine-80 sulfur plays a major role in determining the structure and the thermodynamic stability of the protein. In the ferric state, this bond is reversibly broken by moderately acid or alkaline pH's (pK's 2.5 and 9.4, respectively) and by exogenous ligands. NMR studies of horse ferricytochrome c in which the Met-65 and Met-80 methyl groups were chemically enriched with 13C demonstrate that, at 59 degrees C, a temperature at which the protein is still folded, the sulfur-iron bond is already partially broken. This structural change corresponds to the reversible disappearance upon moderate heating of the 695 nm band, characteristic of the sulfur-iron coordination of this protein. The thermal effect results from a shift in the alkaline pK from 9.4 at 25 degrees C to 8.2 at 59 degrees C. The exchange rate from iron-bound to free methionine-80 at 59 degrees C is 1.8 s-1, as measured by saturation transfer experiments. The free and bound methionine-80 epsilon-methyl groups in the 1H spectrum are assigned as (1.87, 2.25) and -21.43, respectively; in the 13C spectrum they are assigned as 15.6 and 12.8, respectively (all these values are in ppm from 3-(trimethylsilyl)propionic-2,2,3,3-d4 acid, sodium salt).

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Metal ion chelation in neurodegenerative disorders

Angel¹,

Bar²,

Horovitz³

et al. 2002

Drug Development Research

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Disturbance in metallochemical reactions and metal‐protein association are associated with chronic neurodegenerative conditions, such as Alzheimer's and Parkinson's disease, as well as with neurodegeneration triggered by acute cerebral ischaemia. Many neurological diseases have been linked directly or indirectly to perturbed homeostasis of Ca, Fe, Zn, or Cu ions. Consequently, acute or chronic neurodegenerative disorders represent excellent targets for exploiting metal ion chelator approaches. Drug Dev. Res. 56: 300–309, 2002. © 2002 Wiley‐Liss, Inc.

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Oxidation State-Induced Change of Iron Ligand in the Phenylalanine-82 to Histidine Mutant of Yeast Iso-1-cytochrome c

et al. 1996

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1H and 11B NMR evidence for specific binding of borate ion to cytochrome c

Taler

Schejter

1998

Inorganica Chimica Acta

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Detection and Characterization of Boric Acid and Borate Ion Binding to Cytochrome c Using Multiple Quantum Filtered NMR

Taler

Eliav

1999

Journal of Magnetic Resonance

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Galia Taler

The Nature of the Thermal Equilibrium Affecting the Iron Coordination of Ferric Cytochrome c

Metal ion chelation in neurodegenerative disorders

Oxidation State-Induced Change of Iron Ligand in the Phenylalanine-82 to Histidine Mutant of Yeast Iso-1-cytochrome c

1H and 11B NMR evidence for specific binding of borate ion to cytochrome c

Detection and Characterization of Boric Acid and Borate Ion Binding to Cytochrome c Using Multiple Quantum Filtered NMR

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