| Firmicutes | Bacilli | Lactobacillales | Lactobacillaceae |
Genome size: 1 826 390 bp
Genomic GC% content: 32.76 %
Scanning electron microscopy (20 000x magnification)
TOP 15 in enzymes expressed during growth in BHI medium as determined by protein mass spectrometry
| Enzyme | PSM counts | Pathway |
| D-arabitol-phosphate dehydrogenase (EC=1.1.1.301) | 74 | Saccharide degradation |
| Beta-galactosidase (EC=3.2.1.23) | 110 | Saccharide degradation |
| Alpha-galactosidase (EC=3.2.1.22) | 103 | Saccharide degradation |
| Phosphoglucomutase (EC=5.4.2.2) | 95 | Glycolysis / Gluconeogenesis |
| Fructose-bisphosphate aldolase (EC=4.1.2.13) | 83 | Glycolysis / Gluconeogenesis |
| Glyceraldehyde-3-phosphate dehydrogenase (EC=1.2.1.12) | 140 | Glycolysis / Gluconeogenesis |
| Enolase (EC=4.2.1.11) | 140 | Glycolysis / Gluconeogenesis |
| Formate acetyltransferase (EC=2.3.1.54) | 237 | Glycolysis / Gluconeogenesis |
| Pyruvate kinase (EC=2.7.1.40) | 215 | Glycolysis / Gluconeogenesis |
| Aldehyde-alcohol dehydrogenase (EC=1.1.1.1) | 214 | Glycolysis / Gluconeogenesis |
| Xylulose-5-phosphate phosphoketolase (EC=4.1.2.9) | 165 | Pentose phosphate pathway |
| Glucose-6-phosphate 1-dehydrogenase (EC=1.1.1.49) | 71 | Pentose phosphate pathway |
| Pyruvate carboxylase (EC=6.4.1.1) | 87 | Citrate cycle (TCA cycle) |
| Glutamine synthetase (EC=6.3.1.2) | 83 | Arginine biosynthesis |
| Asparagine synthetase (EC=6.3.5.4) | 76 | Alanine, aspartate and glutamate metabolism |
MS raw data: An63
culture medium: Wilkins-Chalgren Anaerobe Agar
16S rRNA sequence:
AATGAGAGTTTGATCCTGGCTCAGGACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGAAACTTTCTTACACCGAATGCTTGCATTCAcCGTAAGAAGTTGAGTGGCGGACGGGTGAGTAACACGTGGGTAACCTGCCTAAAAGAAGGGGATAACACTTGGAAACAGGTGCTAATACCGTATaTCTCTaAGGaTCGCATGAtccTTAGAtGAAAGATGGTTCTGCTATCGcTTTTAGATGGACCCGCGGCGTATTAACTAGTTGGTGGGGTAACGGCCTACCAAGGTGATGATACGTAGCCGAACTGAGAGGTTGATCGGCCACATTGGGACTGAGACACGGCCCAAACTCCTACGGGAGGCAGCAGTAGGGAATCTTCCACAATGGACGCAAGTCTGATGGAGCAACGCCGCGTGAGTGAAGAAGGTCTTCGGATCGTAAAACTCTGTTGTTAGAGAAGAACACGAGTGAGAGTAACTGTTCATTCGATGACGGTATCTAACCAGCAAGTCACGGCTAACTACGTGCCAGCAGCCGCGGTAATACGTAGGTGGCAAGCGTTGTCCGGATTTATTGGGCGTAAAGGGAACGCAGGCGGTCTTTTAAGTCTGATGTGAAAGCCTTCGGCTTAACcGGAGTAGTGCATTGGAAACTGGAAGACTTGAGTGCAGAAGAGGAGAGTGGAACTCCATGTGTAGCGGTGAAATGCGTAGATATATGGAAGAACACCAGTGGCGAAAGCGGCTCTCTGGTCTGTAACTGACGCTGAGGTTCGAAAGCGTGGGTAGCAAACAgGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGAATGCTAGGTGTTGGAGGGTTTCCgCCCTTCAGTGCCGCAGCTAACGCAATAAGCATTCCGCCTGGGGAGTACGACCGCAAGGTTGAAACTCAAAGGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGAAGCAACGCGAAGAACCTTACCAGGTCTTGACATCCTTTGACCACCTAAGAGATTAGGtTTTCCtTTCGGGGACAAAGTGACAGGTGGTGCATGGCTGTCGTCAGCTCGTGTCGTGAGATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTGTTGTCAGTTGCCAGCATTAAGTTGGGCACTCTGGCGAGACTGCCGGTGACAAACCGGAGGAAGGTGGGGACGACGTCAAGTCATCATGCCCCTTATGACCTGGGCTACACACGTGCTACAATGGACGGTACAACGAGTCGCaAGACCGCGAGGTTTAGCTAATCTCTTAAAGCCGTTCTCAGTTCGGATTGTAGGCTGCAACTCGCCTACATGAAGTCGGAATCGCTAGTAATCGCGAATCAGCATGTCGCGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGAGAGTTTGTAACACCCAAAGCCGGTGGGGTAACCGCAAGGAGCCAGCCGTCTAAGGTGGGACAGATGATTGGGGTGAAGTCGTAACAAGGTAGCCGTAGGAGAACCTGCGGCTGGATCACCTCCTTT