Preliminary Assignment of Protonated and Deprotonated Homocitrates in Extracted FeMo-Cofactors by Comparisons with Molybdenum(IV) Lactates and Oxidovanadium Glycolates

Abstract: A similar pair of protonated and deprotonated mononuclear oxidovanadium glycolates [VO(Hglyc)(phen)(H2O)]Cl·2H2O (1) and [VO(glyc)(bpy)(H2O)] (2) and a mixed-(de)protonated oxidovanadium triglycolate (NH4)2[VO(Hglyc)2(glyc)]·H2O (3) were isolated and examined. The ≡C–O(H) (≡C–OH or ≡C–O) groups coordinated to vanadium were spectroscopically and structurally identified. The glycolate in 1 features a bidentate chelation through protonated α-hydroxy and α-carboxy groups, whereas the glycolate in 2 coordinates thr… Show more

“…25 for comparison. The C-O stretching frequencies of molybdenum R-homocitrate 21 can be served as references for C-OH vibrations in FeMo-co 20, and also those from the previous assignments of infrared spectra 20 . Here VCD spectra are much more sensitive only for the local environments around the chiral organic component of R-homocitrate and metal center of molybdenum atom than those from infrared spectra.…”

“…In our previous report, IR spectra of some alcohols, α-hydroxycarboxylic acids have been compared with Spectral Database for Organic Compounds (SDBS), where peak 1047 cm −1 is assigned to C-O H vibration for lactic acid in Supplementary Fig. 24 20 . Here strong VCD peaks at 1051 in 1 and 1053 cm −1 in 2 are assigned to the protonated C-OH stretching vibrations numbered as e in Fig.…”

“…To identify the protonation state of homocitrate in FeMo-co, we have measured the VCD spectrum of extracted FeMo-co Δ-Mo * Fe 7 S 9 C[R-(H)homocit * ](NMF) 2 (20) purified from nitrogenase in Azotobacter vinelandii, where coordination sites of histidine and cysteine residues have been substituted by Nmethylformamides. The VCD spectrum of FeMo-co is compared with that of the synthetic deprotonated molybdenum(VI) R- Fig.…”

“…With a computational study for a proposed protonated state of FeMo-co 18 , structural comparisons of oxidomolybdenum(IV) complexes with the local structures of FeMo-cofactors in Protein Data Bank (PDB) gave an indirect evidence for the protonation of α-alkoxy group in R-homocitrate 19 . Comparisons of infrared spectroscopy (IR) between FeMo-co and a series of model compounds provided a direct evidence for the two possibilities of αalkoxy and/or α-hydroxy groups in R-homocitrate 20 . Moreover, quantum mechanics/molecular mechanics calculations recommended protonation of α-alkoxy group in FeMo-co [21][22][23][24] .…”

“…Experimental and calculated VCD spectra of 20. Comparison of the experimental and calculated VCD spectra for NMF-extracted FeMo-co Δ-Mo * Fe 7 S 9 C[R-(H)homocit * ](NMF) 2(20).…”

Assignment of protonated R-homocitrate in extracted FeMo-cofactor of nitrogenase via vibrational circular dichroism spectroscopy

“…25 for comparison. The C-O stretching frequencies of molybdenum R-homocitrate 21 can be served as references for C-OH vibrations in FeMo-co 20, and also those from the previous assignments of infrared spectra 20 . Here VCD spectra are much more sensitive only for the local environments around the chiral organic component of R-homocitrate and metal center of molybdenum atom than those from infrared spectra.…”

“…In our previous report, IR spectra of some alcohols, α-hydroxycarboxylic acids have been compared with Spectral Database for Organic Compounds (SDBS), where peak 1047 cm −1 is assigned to C-O H vibration for lactic acid in Supplementary Fig. 24 20 . Here strong VCD peaks at 1051 in 1 and 1053 cm −1 in 2 are assigned to the protonated C-OH stretching vibrations numbered as e in Fig.…”

“…To identify the protonation state of homocitrate in FeMo-co, we have measured the VCD spectrum of extracted FeMo-co Δ-Mo * Fe 7 S 9 C[R-(H)homocit * ](NMF) 2 (20) purified from nitrogenase in Azotobacter vinelandii, where coordination sites of histidine and cysteine residues have been substituted by Nmethylformamides. The VCD spectrum of FeMo-co is compared with that of the synthetic deprotonated molybdenum(VI) R- Fig.…”

“…With a computational study for a proposed protonated state of FeMo-co 18 , structural comparisons of oxidomolybdenum(IV) complexes with the local structures of FeMo-cofactors in Protein Data Bank (PDB) gave an indirect evidence for the protonation of α-alkoxy group in R-homocitrate 19 . Comparisons of infrared spectroscopy (IR) between FeMo-co and a series of model compounds provided a direct evidence for the two possibilities of αalkoxy and/or α-hydroxy groups in R-homocitrate 20 . Moreover, quantum mechanics/molecular mechanics calculations recommended protonation of α-alkoxy group in FeMo-co [21][22][23][24] .…”

“…Experimental and calculated VCD spectra of 20. Comparison of the experimental and calculated VCD spectra for NMF-extracted FeMo-co Δ-Mo * Fe 7 S 9 C[R-(H)homocit * ](NMF) 2(20).…”

Assignment of protonated R-homocitrate in extracted FeMo-cofactor of nitrogenase via vibrational circular dichroism spectroscopy

Mixed‐Ligand Oxidovanadium(IV/V) Complexes Chelated by α‐Hydroxycarboxylate and 2‐(1H‐Imidazol‐2‐yl)pyridine: Localized Structures and Gas Adsorption

Molybdenum and vanadium homocitrates and their homologs — towards the local environments and protonations of FeMo/V-cofactors in nitrogenases