AI Article Synopsis
- The study analyzed the interactions between bovine and human serum albumins, along with recombinant human albumin, and fatty acids using ESR spectroscopy, exploring how pH and temperature affect these interactions.
- Results showed that fatty acids can move between binding sites within the albumin proteins, with recombinant human albumin having similar properties to its serum-derived counterparts.
- Notably, bovine albumin exhibited wider and shorter binding sites compared to human albumin, allowing for greater water penetration, which increases the energy needed for fatty acids to detach from the protein.
Article Abstract
Bovine and human serum albumins and recombinant human albumin, all non-covalently complexed with 5- and 16-doxyl stearic acids, were investigated by ESR spectroscopy in solution over a range of pH values (5.5-8.0) and temperatures (25-50 degrees C), with respect to the allocation and mobility of fatty acid (FA) molecules bound to the proteins and conformation of the binding sites. In all proteins bound FA undergo a permanent intra-albumin migration between the binding sites and inter-domain residence. Nature identity of the recombinant human albumin to its serum-derived analog was observed. However, the binding sites of bovine albumin appeared shorter in length and wider in diameter than those of human albumin. Presumably, less tightly folded domains in bovine albumin allow better penetration of water molecules in the interior of the globule that resulted in higher activation energy of FA dissociation from the binding site. Thus, the sensitive technique based on ESR non-covalent spin labeling allowed quantitative analysis and reliable comparison of the fine features of binding proteins.
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| http://dx.doi.org/10.1016/j.saa.2009.05.003 | DOI Listing |
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