6533b7d8fe1ef96bd126adf0
RESEARCH PRODUCT
The human brain hexacoordinated neuroglobin three-dimensional structure
Marco NardiniAlessandra PesceThomas HankelnMartino BolognesiPaolo AscenziLuc MoensSylvia DewildeThorsten Burmestersubject
Protein FoldingProtein ConformationNeuroglobinGeneral Physics and AstronomyNerve Tissue ProteinsCell BiologyBiologyGlobinsGlobin foldCell biologychemistry.chemical_compoundProtein structureBiochemistrychemistryMyoglobinStructural BiologyNeuroglobinGlobin fold; Heme hexacoordination; Neuroglobin; Oxygen affinity; Protein cavitiesHumansGeneral Materials ScienceProtein foldingGlobinHemoglobinHemedescription
Neuroglobin, mainly expressed in vertebrate brain and retina, is a recently identified member of the globin superfamily. Augmenting O2 supply, neuroglobin promotes survival of neurons upon hypoxic injury, potentially limiting brain damage. In the absence of exogenous ligands, neuroglobin displays a six-coordinated heme. O2 and CO bind to the heme-iron, displacing the endogenous HisE7 heme distal ligand. Hexacoordinated human neuroglobin displays a classical globin fold, adapted to host the reversible bis-histidyl heme complex, and an elongated protein matrix cavity, held to facilitate O2 diffusion to the heme. The structure of neuroglobin suggests that the classical globin fold is endowed with striking adaptability, indicating that hemoglobin and myoglobin are just two examples within a wide and functionally diversified protein homology superfamily.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2004-03-24 |