Despite its strict anaerobic nature, M. acetivorans genome hosts genes that can be related to O2 metabolism; among these, an open reading frame encodes for a “protoglobin” (NP_617780; Pgb). Pgbs are single domain heme proteins of ~195 amino acids, related to the N-terminal domain of archaeal and bacterial globin coupled sensor proteins (GCS)1-3. Sequence comparisons indicate that Pgbs, despite their 30-35% larger size, are structurally related to the single chain hemoglobins (composed of about 150 amino acids, folded into a 3-on-3 -helical sandwich,12-16% residue identity to Pgbs), and to the heme-based aerotaxis transducer sensor domain of Bacillus subtilis GCS. Pgbs bind O2, CO, and NO reversibly in vitro. Although functional and evolutionary issues are openly debated1-3, Pgb may facilitate O2 detoxification in vivo promoting electron transfer to O2, or may act as CO sensor/supplier in methanogenesis. We report here the 1.3 Å crystal structure of oxygenated M. acetivorans protoglobin, together with first insight into its ligand binding properties4. We show that Pgbs are composed of a single heme-binding domain strongly related in tertiary and quaternary structure to the N-terminal domain of archaeal and bacterial GCSs. Furthermore, contrary to all known globins, protoglobin-specific loops and a N-terminal extension completely bury the heme within the protein matrix. Structural modulation of the globin fold in Pgb translates into entirely new access routes to the heme, which is granted by protoglobin-specific apolar tunnels reaching the heme distal site from locations at the B/G and B/E helix interfaces. The high experimental resolution of the Pgb structure provides unequivocal evidence of substantial distortion in the porphyrin ring system, which suggests a proactive role of Pgb in modulating heme reactivity (e.g. chemical and photophysical properties, axial ligand affinity, O2 off-rates, redox potentials) providing a mechanism for differentiating between CO and O2 binding.
|Titolo:||Archaeal protoglobin structure suggests novel ligand diffusion paths and heme-reactivity modulation|
|Autori interni:||NARDINI, MARCO (Primo)|
BOLOGNESI, MARTINO (Ultimo)
|Data di pubblicazione:||set-2008|
|Parole Chiave:||protoglobin ; globin-coupled sensor ; heme protein|
|Settore Scientifico Disciplinare:||Settore BIO/10 - Biochimica|
|Citazione:||Archaeal protoglobin structure suggests novel ligand diffusion paths and heme-reactivity modulation / M. Nardini, A. Pesce, L. Thijs, J.A. Saito, S. Dewilde, M. Alam, P. Ascenzi, M. Coletta, L. Moens, M. Bolognesi. ((Intervento presentato al 53. convegno National Meeting of the Italian Society of Biochemistry and Molecular Biology tenutosi a Riccione nel 2008.|
|Appare nelle tipologie:||14 - Intervento a convegno non pubblicato|
File in questo prodotto:
- PubMed Central loading...