Covalent attachment of the heme to Synechococcus hemoglobin alters its reactivity toward nitric oxide

Article ID	Journal	Published Year	Pages	File Type
5152480	Journal of Inorganic Biochemistry	2017	12 Pages	PDF

Abstract

The reactivity of hemoglobin toward NO depends on the histidine-heme covalent linkage. In the crosslinked state, the ferrous globin binds NO to form a stable six-coordinate complex; in contrast, NO binding to the unmodified form inhibits crosslinking, causes heme dissociation, and, remarkably, undergoes reduction to produce HNO.85

Keywords

1-D GlbN Nitrosyl hydride FNR HNO NOE NOESY TOCSY HSQC RNS flavin adenine dinucleotide PTM NOD DPTA 2-D DQF-COSY Ferredoxin-NADP+ reductase ROS Nuclear Overhauser Effect SpectroscopY nuclear overhauser effect posttranslational modification electron transfer FAD Dehydrogenase two-dimensional Dithionite double-quantum filtered correlation spectroscopy Ferredoxin Myoglobin wild-type nitrate reductase nitroxyl nitrite reductase Nitric Oxide dioxygenase Nitric oxide reductase Hemoglobin Truncated hemoglobin reactive nitrogen species Reactive oxygen species one-dimensional heteronuclear single quantum coherence