Recovery and Reusability of ApoUnaG Fluorescence Protein from the Unconjugated Bilirubin Complex Structure.

This study is the first report on the separation and reusability of ApoUnaG protein, indicating excellent fluorescence response with high affinity and specificity toward unconjugated bilirubin (UC-BR) molecules, from the UnaG-UC-BR complex structure. The fluorescence properties of the UnaG-UC-BR complex (holo-UnaG) are studied by addition of different metal ions to perform possible interactions with holo-UnaG through absorbance and emission spectra. After addition of metal ions, some changes with respect to the type of metal ions are observed in fluorescence intensity of the holo-UnaG. When compared to metal ions, an excellent quenching response is sighted in the presence of Cu2+ ions by binding with UC-BR in the UnaG-UC-BR complex structure. Obtained non-fluorescence holo-UnaG-Cu2+ complex mixture is passed through Ni-NTA agarose to remove the ingredients such as Cu2+, UC-BR and Cu2+-UC-BR coordination complex from holo-UnaG. From the obtained experiments, it is concluded that Cu2+ ion can be used as an agent for the recovery of ApoUnaG protein via binding with UC-BR molecules. Graphical Abstract Recovery and Reusability of ApoUnaG Fluorescence Protein from the Unconjugated Bilirubin Complex Structure.

Citation

Numan Eczacioglu, Bahar Yilmaz, Yakup Ulusu, Mevlut Bayrakci. Recovery and Reusability of ApoUnaG Fluorescence Protein from the Unconjugated Bilirubin Complex Structure. Journal of fluorescence. 2020 May;30(3):497-503

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PMID: 32146652

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