Table 1.
Description of high-quality MAGs from species representatives with novel metabolic potential
| Name | GC | Cmpl | Cont | Novelty |
|---|---|---|---|---|
| Rhodobacteraceae bac. CSBr16_160 | 60 | 88 | 0.5 | New genus of a photoheterotrophic SOB in the family Rhodobacteraceae. Genes for aerobic CO oxidation |
| Gemmatimonadetes bac. CSSed162cmB_429 | 68 | 99 | 3.9 |
First phototroph with the potential for carbon fixation in the phylum Gemmatimonadetes Putative role in the sulfur cycle (soxCD) and potential for dissimilatory nitrate reduction to ammonia |
| Thiohalomonadaceae bac. CSSed162cmB_532 | 61 | 92 | 1.7 | New genus of colorless SOB in the family Thiohalomonadaceae (GTDB taxonomy). Genes for N2 fixation |
| Flavobacteriales bac. CSSed162cmB_293 | 53 | 95 | 0.5 | New haloalkaliphilic genus within the Bacteroidetes with potential for S2O32− oxidation to S4O62− (doxAD) |
| “Ca. Woesearchaeota” arch. CSSed165cm_557 | 41 | 81 | 0 | New genus within the candidate phylum Woesearchaeota. Putative S0/SO32− reducer |
| Alkalilimnicola sp. CSSed162cmA_191 | 67 | 87 | 0.9 | Well-characterized haloalkaliphilic genus of SOB within the Gammaproteobacteria, new is potential for S4O62− reduction. Facultative autotroph and facultative anaerobe. Genes for aerobic CO oxidation and dissimilatory nitrate reduction to nitrite |
| Geopsychrobacteraceae bac. CSSed162cmA_454 | 94 | 1.9 | New haloalkaliphilic genus within the class Deltaproteobacteria. Facultative anaerobe with potential for S4O62− reduction and N2 fixation |
GC average G+C mol%, Cmpl % CheckM-completeness, Cont % CheckM-contamination