Studies of interaction between Rh(I) and Human Serum Albumin in a "nanostructured biocatalyst" active in the hydroformylation reaction
Academic Article
Publication Date:
2006
Short description:
Studies of interaction between Rh(I) and Human Serum Albumin in a "nanostructured biocatalyst" active in the hydroformylation reaction / Crobu, S., Marchetti, M., Sanna, G.. - In: JOURNAL OF INORGANIC BIOCHEMISTRY. - ISSN 0162-0134. - 100:(2006), pp. 1514-1520. [10.1016/j.jinorgbio.2006.04.014]
abstract:
The interaction between Rh(CO)2(acac = acetylacetonate ion) and human serum albumin (HSA) in a hydrosoluble nanostructured
biocatalyst active in homogeneous hydroformylation was characterised by means of matrix assisted laser desorption ionization timeof-
flight mass spectrometry (MALDI-TOFMS), high performance liquid chromatography mass spectrometry (HPLC-MS) and scanning
electron microscopy (SEM). MALDI-TOFMS substantiates that the biocatalyst consists of a tetrameric structure of HSA that could
bind up to 89 RhðCOÞþ
2 units. A comparison between samples of pure HSA and the biocatalyst, both tryptic digested, showed a significant
change in the tertiary structure of the protein in the HSA/Rh adduct, probably ascribable to the interaction of Rh(I) ions with
sulphur atoms in the HSA moiety. SEM observations confirmed an evident denaturation of the protein and an outstanding correspondence
between the surface distribution of Rh and S atoms; this is indirect evidence that the metal ion interacts strongly mainly with the
sulphur atoms. Furthermore, an excellent agreement between calculated and measured (SEM) S/Rh elemental mean ratio was observed.
Finally, an electrostatic interaction between Rh(I) and sulphur atoms was ruled out by sodium dodecyl sulfate polyacrylamide gel electrophoresis
(SDS–PAGE) findings.
biocatalyst active in homogeneous hydroformylation was characterised by means of matrix assisted laser desorption ionization timeof-
flight mass spectrometry (MALDI-TOFMS), high performance liquid chromatography mass spectrometry (HPLC-MS) and scanning
electron microscopy (SEM). MALDI-TOFMS substantiates that the biocatalyst consists of a tetrameric structure of HSA that could
bind up to 89 RhðCOÞþ
2 units. A comparison between samples of pure HSA and the biocatalyst, both tryptic digested, showed a significant
change in the tertiary structure of the protein in the HSA/Rh adduct, probably ascribable to the interaction of Rh(I) ions with
sulphur atoms in the HSA moiety. SEM observations confirmed an evident denaturation of the protein and an outstanding correspondence
between the surface distribution of Rh and S atoms; this is indirect evidence that the metal ion interacts strongly mainly with the
sulphur atoms. Furthermore, an excellent agreement between calculated and measured (SEM) S/Rh elemental mean ratio was observed.
Finally, an electrostatic interaction between Rh(I) and sulphur atoms was ruled out by sodium dodecyl sulfate polyacrylamide gel electrophoresis
(SDS–PAGE) findings.
Iris type:
1.1 Articolo in rivista
Keywords:
Rh(I); Human serum albumin; Nanostructured biocatalyst
List of contributors:
Crobu, S; Marchetti, M; Sanna, Gavino
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