Ruby Evangelista-Kirkup scite author profile

Resonance Raman (RR) spectroscopy and infrared spectroscopy have been used to characterize the three vibrational modes, CO and FeC stretching and FeCO bending, for carbon monoxide bound to reduced horseradish peroxidase, with the aid of 13CO and C18O isotope shifts. At high pH, one species, I, is observed, with nu FeC = 490 cm-1 and nu CO = 1932 cm-1. The absence of a band attributable to delta FeCO suggests a linear FeCO unit normal to the heme plane. The data were consistent with I having a strongly H-bonded proximal histidine, as shown by a comparison with imidazole and imidazolate adducts of FeIIPPDME(CO) (PPDME = protoporphyrin IX dimethyl ester), with nu FeC = 497 and 492 cm-1 and nu CO = 1960 and 1942 cm-1. At low pH an additional species, II, is observed, with nu FeC = 537 cm-1, nu CO = 1904 cm-1, and delta FeCO = 587 cm-1; it is attributed to FeCO that is H bonded to a protonated distal histidine, the H bond strongly lowering nu CO and raising nu FeC. The appearance of delta FeCO in the RR spectrum suggests that the FeCO unit in II is tilted with respect to the heme plane. At low pH, the population of I and II depends on the CO concentration. I dominates at low CO/protein levels but is replaced by II as the amount of CO is increased. This behavior is suggested to arise from secondary binding of CO, which induces a conformation change involving the distal residues of the heme pocket.

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Raman and infrared spectra of cytochrome c peroxidase-carbon monoxide adducts in alternative conformational states

Smulevich¹,

Evangelista-Kirkup²,

English³

et al. 1986

Biochemistry

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Resonance Raman (RR) spectra are reported for CO-bound cytochrome c peroxidase (CCP). At low pH, two forms are observed: form II, with nu Fe-C = 530 cm-1 and delta FeCO = 585 cm-1, and form I, with nu Fe-C = 495 cm-1 and no detectable delta FeCO. They appear to have coincident nu CO infrared bands, at 1922 cm-1. These low-pH forms, similar to those observed for horseradish peroxidase (HRP), are attributed to tilted, H-bonded CO and perpendicular CO, respectively. The frequencies differ between the two proteins, a weaker H bond to CO being indicated for CCP. As with HRP, the equilibrium between forms I and II is shifted toward the latter at increasing CO concentrations, suggesting that secondary binding of CO perturbs the distal residues. At high pH [8.4, tris(hydroxymethyl)aminomethane buffer] the form II fraction converts to another form, II', with nu FeC = 503 cm-1, delta FeCO = 575 cm-1, and nu CO = 1948 cm-1; a tilted, non-H-bonded geometry is suggested. If phosphate buffer is used, however, form II (H bonded) persists at pH 8.4. This result establishes a role for phosphate in stabilizing the H-bonded form of the enzyme; it is suggested that phosphate binds near the distal imidazole and substantially increases its pKa. The conformational state is also influenced by aging. Fresh protein contains purely high spin FeIII heme, as monitored by the high-frequency RR spectrum, and yields form II almost exclusively at elevated CO concentrations.(ABSTRACT TRUNCATED AT 250 WORDS)

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Resonance Raman spectroscopy shows different temperature‐dependent coordination equilibria for native horseradish and cytochrome c peroxidase

et al. 1985

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Influence of thiolate ligation on the heme electronic structure in microsomal cytochrome P-450 and model compounds: resonance Raman spectroscopic evidence

Anzenbacher¹,

Evangelista-Kirkup²,

Schenkman³

et al. 1989

Inorg. Chem.

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Two CO binding modes for HRPCO and CCPCO: Raman evidence of CO pressure and pH dependence

Smulevich¹,

Evangelista-Kirkup²,

English³

et al. 1986

Journal of Molecular Structure

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