Development of a System for Biosynthesis, Isolation and Purification of Holoform of Recombinant Human Neuroglobin and Its Characteristics

Abstract

An efficient system for the biosynthesis, isolation and purification of recombinant human neuroglobin has been developed and optimized, which makes it possible to produce protein in quantities sufficient to study its properties. According to UV-visible, IR-, CD-, and NMR spectroscopy data, recombinant neuroglobin is a structured protein in the holoform state. The data of chromato-mass-spectrometric analysis made it possible to conclude that there is a correctly formed disulfide bond in the structure of the oxidized form of the protein. Using Raman and surface-enhanced Raman spectroscopy with laser excitation at 532 nm, it was shown that heme in the reduced and oxidized forms of neuroglobin has vibrational degrees of freedom typical of b-type hemes, and the iron atom is six-coordinated. Using Raman spectroscopy with laser excitation at 633 nm, it was found that reduced –SH-groups were present in reduced neuroglobin, while in oxidized neuroglobin disulfide bridge was formed. The results obtained serve as the basis for detailed studies of the mechanism of the functioning of neuroglobin as a neuroprotector, in particular, during its interaction with oxidized cytochrome c, which is released from mitochondria in violation of their functioning and/or morphology.