Abstract
This study presents the acid-base equilibrium of polyvinyl alcohol (PVA). The stability constant values of the binary and ternary complexes formed in solution among polyvinyl alcohol, Cu (II), some amino acids and DNA were determined potentiomertically. The stability constants of the complexes are determined and the concentration distribution diagrams of the complexes are evaluated. The ligand and their metal chelates have been screened for their antimicrobial activities using the disc diffusion method against the selected bacteria and fungi. Binary and ternary complexes of copper (II) involving polyvinyl alcohol (PVA) and various biologically relevant ligands containing different functional groups, were investigated. The ligands (L) are amino acids and DNA constituents. The ternary complexes of amino acids and DNA are formed by simultaneous reactions respectively. The results showed the formation of Cu (PVA) (L) complexes with amino acids and DNA. Amino acids form both Cu (PVA)(L) complexes and the corresponding protonated Cu(PVA)(LH) and deprotonated species Cu(PVA)(LH−1). The ternary complexes of copper (II) with (PVA) and DNA are formed in a stepwise process, whereby binding of copper (II) to (PVA) is followed by ligation of the DNA components. DNA constituents form 1:1 complexes with Cu (PVA). The stability of these ternary complexes was quantitatively compared with their corresponding binary complexes in terms of the parameter ∆ log10K. The values of ∆ log10K indicate that the ternary complexes containing aromatic amino acids were significantly more stable than the complexes containing alkyl- and hydroxyl alkyl substituted amino acids. The concentration distribution of various complex species formed in solution was also evaluated as a function of pH. The antimicrobial activities using the disc diffusion method against some selected bacteria and fungi. The activity data show that the metal complexes are found to have antibacterial and antifungal activity.
Highlights
(vinyl alcohol) (PVA; -[-CH-CHOH-]n-) is the world’s largest volume synthetic polymer produced for its excellent chemical resistance and physical properties and complete biodegradability, which has led to broad practicable applications
In this investigation we report a quantitative study of the acid base equilibrium of polyvinyl alcohol (PVA), as well as the binary complex formation equilibrium with Cu(II)
The metal complexes were evaluated for their antibacterial activity against Staphylococcus aureus (Gram-positive bacteria), Escherichia coli (Gram-negative bacteria) and for their antifungal activity against Candida albicans and Aspergillus flavus using the disc diffusion technique as described in British Pharmacopoeia (2000)
Summary
(vinyl alcohol) (PVA; -[-CH-CHOH-]n-) is the world’s largest volume synthetic polymer produced for its excellent chemical resistance and physical properties and complete biodegradability, which has led to broad practicable applications. PVA is an important material in view of its large scale applications It is used in surgical devices, sutures, hybrid islet transplantation, implantation, blend membrane and in synthetic cartilage in reconstructive joint surgery [3,4,5,6]. In this investigation we report a quantitative study of the acid base equilibrium of PVA, as well as the binary complex formation equilibrium with Cu(II). Mixed ligand complexes involving Cu-PVA and some amino acids and DNA constituents are studied and the concentration distributions of the complexes are evaluated
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