例如:"lncRNA", "apoptosis", "WRKY"

Negative surface charges in neuroglobin modulate the interaction with cytochrome c.

Biochem. Biophys. Res. Commun.2020 Mar 12;523(3):567-572. Epub 2020 Jan 11
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摘要


Neuroglobin is a heme protein present in the nervous system cells of mammals and other organisms. Although cytoprotective effects of neuroglobin on neuronal damage have been reported, the physiological mechanisms of neuroglobin function remain unknown. In recent years, a role for neuroglobin as a reductant for extramitochondrial cytochrome c has been proposed. According to this hypothesis, cytoplasmic neuroglobin can interact with cytochrome c released from the mitochondria and reduce its heme group to the ferrous state, thus preventing cytochrome c-dependent assembly of the apoptosome. The interaction of neuroglobin and cytochrome c has been studied by surface plasmon resonance techniques and molecular dynamics, however the empirical evidence on the specific residues of neuroglobin and cytochrome c involved in the interaction is scarce and indirect. This study analyzes the role of five negatively charged residues in the neuroglobin surface putatively involved in the interaction with cytochrome c - Glu60, Asp63, Asp73, Glu 87 and Glu151 - by site-directed mutagenesis. Characterization of the electron transfer between neuroglobin mutants and cytochrome c indicates that Asp73 is critical for the interaction, and Glu60, Asp63 and Glu87 also contribute to the neuroglobin-cytochrome c interaction. Based on the results, structures and binding surfaces for the neuroglobin-cytochrome c complex compatible with the experimental observations are proposed. These data can guide further studies on neuroglobin function and its involvement in cytochrome c signaling cascades.

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