81276-93-9

Basic information

• Product Name: Fe⁽³⁺⁾*(OC₆H₄CHNCH₂)2^(2-)*C₆H₅CO₂^(1-)=[Fe((OC₆H₄CHNCH₂)2)(OCOC₆H₅)]
• Synonyms: Fe⁽³⁺⁾*(OC₆H₄CHNCH₂)2^(2-)*C₆H₅CO₂^(1-)=[Fe((OC₆H₄CHNCH₂)2)(OCOC₆H₅)]
• CAS NO: 81276-93-9
• Molecular Weight: 443.262
• Mol File: 81276-93-9.mol
• Article Data: 2

Chemical Properties

• CAS DataBase Reference: Fe⁽³⁺⁾*(OC₆H₄CHNCH₂)2^(2-)*C₆H₅CO₂^(1-)=[Fe((OC₆H₄CHNCH₂)2)(OCOC₆H₅)](CAS DataBase Reference)
• NIST Chemistry Reference: Fe⁽³⁺⁾*(OC₆H₄CHNCH₂)2^(2-)*C₆H₅CO₂^(1-)=[Fe((OC₆H₄CHNCH₂)2)(OCOC₆H₅)](81276-93-9)
• EPA Substance Registry System: Fe⁽³⁺⁾*(OC₆H₄CHNCH₂)2^(2-)*C₆H₅CO₂^(1-)=[Fe((OC₆H₄CHNCH₂)2)(OCOC₆H₅)](81276-93-9)

Safety Data

• Hazardous Substances Data: 81276-93-9(Hazardous Substances Data)

Upstream product

• 18601-34-8 (μ-oxo)bis[(1,2-ethanediamino-N,N'-bis(salicylidene))iron(III)] 
• 21245-97-6 [Fe₂(salen)2O]*2pyridine 
• 65-85-0 benzoic acid 

Relevant articles and documents

XAS investigations on the iron-zinc center of purple acid phosphatase from red kidney beans

X-ray absorption measurements are used to study the iron-zinc center of purple acid phosphatase isolated from red kidney beans. XANES and EXAFS data were taken at the iron and the zinc K-edge of the native enzyme (pH 7) and of the enzyme after addition of phosphate at pH 7 and pH 4. In the native enzyme both the iron and zinc ions are coordinated by five O/N donor ligands. The first shell EXAFS data yield a model with 2.4 O/N at 1.91 ? + 2.6 N/O at 2.10 ? around the iron atom, and 3.4 N/O at 1.97 ? + 1.6 N/O at 2.08 ? around the zinc atom. An iron-zinc distance of 3.96 ? was determined. No evidence for a bridging oxo group (indicated by doxo ca. 1.8 ?) could be obtained. After addition of phosphate the iron edge shifts to lower and the Zn edge to higher energies. At pH 7 the coordination numbers of iron and zinc increase to six (2.4 N/O at 1.94 ? + 3.6 N/O at 2.12 ?, Fe K-edge, and 4.0 N/O at 1.98 ? + 2.0 N/O at 2.11 ?, Zn K-edge). Since the iron-zinc distance decreases by 0.28 ? to 3.68 ? we propose a bridging coordination mode of phosphate at pH 7. Lowering the pH value to 4 does not affect the binding of phosphate. The features of the higher shell peaks in the Fourier transformed spectra remain essentially unchanged and the iron-zinc distance is maintained (d(Fe-Zn) = 3.69 ?). The ligand atoms in the first shells, however, are more disordered, indicating the involvement of protonation equilibria in the first coordination spheres (2.8 N/O at 1.97 ? and 3.2 N/O at 2.19 ?, Fe K-edge, and 4.7 N/O at 2.05 ? and 1.3 N/O at 2.18 ?, Zn K-edge). These results are checked against structural data from XAS and crystallographic studies of a number of iron and zinc model complexes with mixed ligand environments and structural characteristics similar to those expected for the enzyme samples.