Eu( Ⅲ ) can be utilized as an indirect electrochemical probe to investigate the interaction of bio-molecules such as DOPA and Dopamine with Ca( Ⅱ ) in vitro. The interaction of DOPA and Dopamine with Eu( Ⅲ )...Eu( Ⅲ ) can be utilized as an indirect electrochemical probe to investigate the interaction of bio-molecules such as DOPA and Dopamine with Ca( Ⅱ ) in vitro. The interaction of DOPA and Dopamine with Eu( Ⅲ )-Eu( Ⅱ ) redox pair was investigated by electrochemical techniques. Both the neurotransmitters are structurally related and undergo interaction with Eu (Ⅲ ). Eu ( Ⅲ ) coordinates with DOPA and Dopamine through five-member chelate tings via carboxylic oxygen and amino nitrogen. The electrode kinetic parameters viz, transfer coefficient (αna), diffusion coefficient (D), forward heterogeneous rate constant ( k^0 fh) were evaluated for Eu( Ⅲ )-DOPA/Eu( Ⅲ )-Dopamine. The results obtained were used to investigate the nature of interaction of Eu (Ⅲ) with muhi-donor biomolecules. The possible mechanism was also proposed.展开更多
基金Foundation ite m:Project supported by DST(SP/S1/F03/98)
文摘Eu( Ⅲ ) can be utilized as an indirect electrochemical probe to investigate the interaction of bio-molecules such as DOPA and Dopamine with Ca( Ⅱ ) in vitro. The interaction of DOPA and Dopamine with Eu( Ⅲ )-Eu( Ⅱ ) redox pair was investigated by electrochemical techniques. Both the neurotransmitters are structurally related and undergo interaction with Eu (Ⅲ ). Eu ( Ⅲ ) coordinates with DOPA and Dopamine through five-member chelate tings via carboxylic oxygen and amino nitrogen. The electrode kinetic parameters viz, transfer coefficient (αna), diffusion coefficient (D), forward heterogeneous rate constant ( k^0 fh) were evaluated for Eu( Ⅲ )-DOPA/Eu( Ⅲ )-Dopamine. The results obtained were used to investigate the nature of interaction of Eu (Ⅲ) with muhi-donor biomolecules. The possible mechanism was also proposed.
