Chemistry:Ferroverdin

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Ferroverdin refers to three different coordination compounds that were first isolated in 1955 by Chain, Tonolo, and Carilli.[1] It consists of three p-vinylphenyl-3-nitroso-4-hydroxybenzoate ligands complexed with a ferrous ion. Ferroverdin is a green pigment produced in the mycelium of species of Streptomyces. It is claimed to be the “first stable ferrous compound to be found in nature.”[2] There are three types of ferroverdin: A, B, and C. In ferroverdin A, both R groups are hydrogens.[3] In ferroverdin B, R1 is a hydroxyl group (OH) and R2 is a hydrogen (according to a diagram in the paper, the R-groups are on the vinyl group, on the carbon opposite the phenyl; they are respectively trans and cis relative to the phenyl group).[4] In ferroverdin C, R1 is a hydrogen while R2 is a carboxyl group (COOH).[4] Ferroverdin is immune to chelating and oxidizing agents due to the strong interaction between the ligands and ferrous ion.[2] However, it can be broken down by reductive processes.1 The presence of ferroverdin peaks when there are four to eight μg/mL of Fe2+ in the media usually in the form of a salt.[2]

Biological role

Ferroverdin has no antimicrobial or insecticidal activity, and may in fact be a siderophore. Siderophores are responsible for transporting iron (usually as Fe3+) from the medium into the cell to meet the metabolic needs of the organism.[2] The significance of ferroverdin in the transfer pathway of iron remains unknown.[2] Ferroverdin A, B, and C have also been found to inhibit cholesteryl ester transfer protein (CETP) which contributes to high blood pressure in humans.[4]

Structure

The nitrosophenolate chelating group in the three ferroverdins is unusual. Simple synthetic analogues have been made containing 2-nitrosophenol itself. These complexes adopt a facial geometry owing to the binding of alkali metals to the three oxygen centers. Natural ferroverdin has thermodynamic specificity for fac geometry where the ligands have cis arrangements around the bivalent iron atom in low spin. The geometry was determined by 1H NMR which showed the same peak for the three ligands. Even though mer geometry is more sterically favorable, ferroverdin has fac geometry theoretically due to better π stabilization in its d6 orbitals, but further research is being done to provide evidence.[5]

References

  1. Candeloro, Sofia; Grdenić, D.; Taylor, Noel; Thompson, B.; Viswamitra, M.; Hodgkin, Dorothy Crowfoot (1969). "Structure of Ferroverdin". Nature 224 (5219): 589–591. doi:10.1038/224589a0. PMID 5346597. Bibcode1969Natur.224..589C. 
  2. 2.0 2.1 2.2 2.3 2.4 Neilands, J. B. (1966). "Naturally occurring non-porphyrin iron compounds". Structure and Bonding. 1. pp. 59–108. doi:10.1007/BFb0119549. ISBN 978-3-540-03675-3. 
  3. Cone, M (1995). "4-Hydroxy-3-nitrosobenzamide and its ferrous chelate from Streptomyces murayamaensis". Tetrahedron 51 (11): 3095–3102. doi:10.1016/0040-4020(95)00071-F. 
  4. 4.0 4.1 4.2 Tomoda, H; Tabata, N; Shinose, M; Takahashi, Y; Woodruff, H. (1999). "Ferroverdins, inhibitors of cholesteryl ester transfer protein produced by streptomyces sp. wk-5344. i. production, isolation and biological properties". The Journal of Antibiotics 52 (12): 1101–1107. doi:10.7164/antibiotics.52.1101. PMID 10695673. 
  5. Surajit Chattopadhyay; Partha Basu; Debashis Ray; Samudranil Pal; Animesh Chakravorty (1990). "Ferroverdin: Cation variation and recognition of isomerictris chelate geometries by iron oxidation states". Journal of Chemical Sciences 102 (3): 195–202. doi:10.1007/BF02841933. 

6. Ju, K.-S.; Parales, R. E. (2010). "Nitroaromatic Compounds, from Synthesis to Biodegradation". Microbiology and Molecular Biology Reviews 74 (2): 250–272. doi:10.1128/MMBR.00006-10. PMID 20508249. 



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