TABLE 1.
Genomic and respiratory characteristics of selected Pyrobaculum species
| Species | Genome size (Mbp), gene count, GC % | Oxygen tolerance | Terminal electron acceptors supporting growth | Terminal electron acceptors not supporting growth | Reference(s) |
|---|---|---|---|---|---|
| P. aerophilum | 2.2, 2,706, 51 | Facultative microaerobe | O2, NO3−, NO2−, As(V), Se(VI), Se(IV), S2O32−,a Fe(III)-citrate, FeOOH | S0, N2Ob | 2, 20, 21, 29, 31, 65 |
| P. arsenaticum | 2.1, 2,408, 55 | Strict anaerobe | S0, S2O32−, As(V), Se(VI), Fe(III)-citrate, FeOOH | O2, NO3−, Se(IV) | 21, 29 |
| P. calidifontis | 2.0, 2,200, 57 | Facultative aerobe | O2, NO3−, As(V),d Fe(III)-citrate, FeOOH | NO2−,c S0, S2O32−, SO32−, SO42− | 6, 21 |
| P. islandicum | 1.8, 2,062, 50 | Strict anaerobe | S0, S2O32−, SO32−, l-cystine, oxidized glutathione, As(V),a Fe(III)-citrate, FeOOH | dl-Lanthionine, fumarate, (CH3)2SO2, S4O62−, SO42− | 21, 28, 31 |
| T. neutrophilus | 1.8, 2,053, 60 | Strict anaerobe | S0 | 22 |
a
Weak growth, final densities of ≤107 cells/ml.
b
P. aerophilum reduced NO3− and NO2− to N2 during growth (2, 65) and N2O reductase activity has been demonstrated in P. aerophilum cells (16), but N2O provided as the sole electron acceptor did not support growth (65).
c
P. calidifontis reduced NO3− to N2 during growth, but NO2− as the sole electron acceptor did not support growth (6).
d
See Results and Discussion.