Paenibacillus stellifer CCUG 48160 is an aerobe, mesophilic prokaryote that was isolated from Industry,paper mill.
aerobe mesophilic| @ref 20215 |
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Last LPSN update
2025-12-16 10:06:42 |
| Domain Bacillati |
| Phylum Bacillota |
| Class Bacilli |
| Order Caryophanales |
| Family Paenibacillaceae |
| Genus Paenibacillus |
| Species Paenibacillus stellifer |
| Full scientific name Paenibacillus stellifer Suominen et al. 2003 |
| BacDive ID | Other strains from Paenibacillus stellifer (9) | Type strain |
|---|---|---|
| 11556 | P. stellifer IS1, DSM 14472, CCUG 45566, CIP 108130, KCTC ... (type strain) | |
| 152203 | P. stellifer CCUG 46055 | |
| 152297 | P. stellifer CCUG 46372 | |
| 152298 | P. stellifer CCUG 46373 | |
| 152954 | P. stellifer CCUG 48122 | |
| 153132 | P. stellifer CCUG 48546 | |
| 153133 | P. stellifer CCUG 48547 | |
| 153134 | P. stellifer CCUG 48548 | |
| 153135 | P. stellifer CCUG 48550 |
| 58009 | Oxygen toleranceaerobe |
| @ref | pathway | enzyme coverage | annotated reactions | external links | |
|---|---|---|---|---|---|
| 66794 | threonine metabolism | 100 | 10 of 10 |   |
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| 66794 | acetoin degradation | 100 | 3 of 3 | |
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| 66794 | coenzyme A metabolism | 100 | 4 of 4 | |
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| 66794 | formaldehyde oxidation | 100 | 3 of 3 | |
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| 66794 | ribulose monophosphate pathway | 100 | 2 of 2 | |
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| 66794 | reductive acetyl coenzyme A pathway | 100 | 7 of 7 | |
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| 66794 | pentose phosphate pathway | 100 | 11 of 11 | |
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| 66794 | ppGpp biosynthesis | 100 | 4 of 4 | |
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| 66794 | cis-vaccenate biosynthesis | 100 | 2 of 2 | |
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| 66794 | cardiolipin biosynthesis | 100 | 7 of 7 | |
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| 66794 | aspartate and asparagine metabolism | 100 | 9 of 9 | |
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| 66794 | CMP-KDO biosynthesis | 100 | 4 of 4 | |
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| 66794 | palmitate biosynthesis | 100 | 22 of 22 | |
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| 66794 | methylglyoxal degradation | 100 | 5 of 5 | |
|
| 66794 | suberin monomers biosynthesis | 100 | 2 of 2 | |
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| 66794 | anapleurotic synthesis of oxalacetate | 100 | 1 of 1 | |
|
| 66794 | folate polyglutamylation | 100 | 1 of 1 | |
|
| 66794 | UDP-GlcNAc biosynthesis | 100 | 3 of 3 | |
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| 66794 | CDP-diacylglycerol biosynthesis | 100 | 2 of 2 | |
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| 66794 | sulfopterin metabolism | 100 | 4 of 4 | |
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| 66794 | cellulose degradation | 100 | 5 of 5 | |
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| 66794 | heme metabolism | 92.86 | 13 of 14 | |
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| 66794 | tetrahydrofolate metabolism | 92.86 | 13 of 14 | |
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| 66794 | vitamin B1 metabolism | 92.31 | 12 of 13 | |
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| 66794 | Entner Doudoroff pathway | 90 | 9 of 10 | |
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| 66794 | starch degradation | 90 | 9 of 10 | |
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| 66794 | molybdenum cofactor biosynthesis | 88.89 | 8 of 9 | |
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| 66794 | valine metabolism | 88.89 | 8 of 9 | |
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| 66794 | serine metabolism | 88.89 | 8 of 9 | |
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| 66794 | chorismate metabolism | 88.89 | 8 of 9 | |
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| 66794 | isoleucine metabolism | 87.5 | 7 of 8 | |
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| 66794 | ketogluconate metabolism | 87.5 | 7 of 8 | |
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| 66794 | flavin biosynthesis | 86.67 | 13 of 15 | |
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| 66794 | pyrimidine metabolism | 86.67 | 39 of 45 | |
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| 66794 | alanine metabolism | 86.21 | 25 of 29 | |
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| 66794 | photosynthesis | 85.71 | 12 of 14 | |
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| 66794 | phenylalanine metabolism | 84.62 | 11 of 13 | |
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| 66794 | glycolate and glyoxylate degradation | 83.33 | 5 of 6 | |
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| 66794 | 1,4-dihydroxy-6-naphthoate biosynthesis | 83.33 | 5 of 6 | |
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| 66794 | purine metabolism | 80.85 | 76 of 94 | |
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| 66794 | peptidoglycan biosynthesis | 80 | 12 of 15 | |
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| 66794 | glycogen metabolism | 80 | 4 of 5 | |
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| 66794 | lipoate biosynthesis | 80 | 4 of 5 | |
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| 66794 | glutathione metabolism | 78.57 | 11 of 14 | |
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| 66794 | allantoin degradation | 77.78 | 7 of 9 | |
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| 66794 | d-mannose degradation | 77.78 | 7 of 9 | |
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| 66794 | NAD metabolism | 77.78 | 14 of 18 | |
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| 66794 | CO2 fixation in Crenarchaeota | 77.78 | 7 of 9 | |
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| 66794 | C4 and CAM-carbon fixation | 75 | 6 of 8 | |
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| 66794 | butanoate fermentation | 75 | 3 of 4 | |
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| 66794 | degradation of aromatic, nitrogen containing compounds | 75 | 9 of 12 | |
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| 66794 | gluconeogenesis | 75 | 6 of 8 | |
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| 66794 | acetate fermentation | 75 | 3 of 4 | |
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| 66794 | glycogen biosynthesis | 75 | 3 of 4 | |
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| 66794 | dTDPLrhamnose biosynthesis | 75 | 6 of 8 | |
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| 66794 | d-xylose degradation | 72.73 | 8 of 11 | |
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| 66794 | ubiquinone biosynthesis | 71.43 | 5 of 7 | |
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| 66794 | glutamate and glutamine metabolism | 71.43 | 20 of 28 | |
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| 66794 | non-pathway related | 71.05 | 27 of 38 | |
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| 66794 | glycolysis | 70.59 | 12 of 17 | |
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| 66794 | polyamine pathway | 69.57 | 16 of 23 | |
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| 66794 | sulfate reduction | 69.23 | 9 of 13 | |
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| 66794 | methionine metabolism | 69.23 | 18 of 26 | |
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| 66794 | enterobactin biosynthesis | 66.67 | 2 of 3 | |
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| 66794 | L-lactaldehyde degradation | 66.67 | 2 of 3 | |
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| 66794 | octane oxidation | 66.67 | 2 of 3 | |
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| 66794 | acetyl CoA biosynthesis | 66.67 | 2 of 3 | |
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| 66794 | oxidative phosphorylation | 64.84 | 59 of 91 | |
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| 66794 | 6-hydroxymethyl-dihydropterin diphosphate biosynthesis | 62.5 | 5 of 8 | |
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| 66794 | degradation of sugar alcohols | 62.5 | 10 of 16 | |
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| 66794 | histidine metabolism | 62.07 | 18 of 29 | |
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| 66794 | leucine metabolism | 61.54 | 8 of 13 | |
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| 66794 | hydrogen production | 60 | 3 of 5 | |
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| 66794 | factor 420 biosynthesis | 60 | 3 of 5 | |
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| 66794 | glycine betaine biosynthesis | 60 | 3 of 5 | |
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| 66794 | metabolism of amino sugars and derivatives | 60 | 3 of 5 | |
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| 66794 | creatinine degradation | 60 | 3 of 5 | |
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| 66794 | propionate fermentation | 60 | 6 of 10 | |
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| 66794 | isoprenoid biosynthesis | 57.69 | 15 of 26 | |
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| 66794 | propanol degradation | 57.14 | 4 of 7 | |
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| 66794 | citric acid cycle | 57.14 | 8 of 14 | |
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| 66794 | nitrate assimilation | 55.56 | 5 of 9 | |
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| 66794 | cysteine metabolism | 55.56 | 10 of 18 | |
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| 66794 | lipid metabolism | 54.84 | 17 of 31 | |
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| 66794 | lysine metabolism | 54.76 | 23 of 42 | |
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| 66794 | proline metabolism | 54.55 | 6 of 11 | |
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| 66794 | arginine metabolism | 54.17 | 13 of 24 | |
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| 66794 | urea cycle | 53.85 | 7 of 13 | |
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| 66794 | phenylpropanoid biosynthesis | 53.85 | 7 of 13 | |
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| 66794 | tryptophan metabolism | 52.63 | 20 of 38 | |
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| 66794 | selenocysteine biosynthesis | 50 | 3 of 6 | |
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| 66794 | adipate degradation | 50 | 1 of 2 | |
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| 66794 | pantothenate biosynthesis | 50 | 3 of 6 | |
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| 66794 | glycine metabolism | 50 | 5 of 10 | |
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| 66794 | dolichol and dolichyl phosphate biosynthesis | 50 | 1 of 2 | |
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| 66794 | ethanol fermentation | 50 | 1 of 2 | |
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| 66794 | degradation of pentoses | 50 | 14 of 28 | |
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| 66794 | ascorbate metabolism | 45.45 | 10 of 22 | |
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| 66794 | metabolism of disaccharids | 45.45 | 5 of 11 | |
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| 66794 | vitamin B6 metabolism | 45.45 | 5 of 11 | |
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| 66794 | phenol degradation | 45 | 9 of 20 | |
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| 66794 | degradation of hexoses | 44.44 | 8 of 18 | |
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| 66794 | gallate degradation | 40 | 2 of 5 | |
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| 66794 | myo-inositol biosynthesis | 40 | 4 of 10 | |
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| 66794 | 3-chlorocatechol degradation | 40 | 2 of 5 | |
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| 66794 | vitamin K metabolism | 40 | 2 of 5 | |
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| 66794 | arachidonate biosynthesis | 40 | 2 of 5 | |
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| 66794 | arachidonic acid metabolism | 38.89 | 7 of 18 | |
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| 66794 | degradation of sugar acids | 36 | 9 of 25 | |
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| 66794 | tyrosine metabolism | 35.71 | 5 of 14 | |
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| 66794 | IAA biosynthesis | 33.33 | 1 of 3 | |
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| 66794 | cyanate degradation | 33.33 | 1 of 3 | |
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| 66794 | 4-hydroxymandelate degradation | 33.33 | 3 of 9 | |
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| 66794 | lipid A biosynthesis | 33.33 | 3 of 9 | |
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| 66794 | sphingosine metabolism | 33.33 | 2 of 6 | |
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| 66794 | sulfoquinovose degradation | 33.33 | 1 of 3 | |
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| 66794 | androgen and estrogen metabolism | 31.25 | 5 of 16 | |
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| 66794 | aclacinomycin biosynthesis | 28.57 | 2 of 7 | |
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| 66794 | benzoyl-CoA degradation | 28.57 | 2 of 7 | |
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| 66794 | dolichyl-diphosphooligosaccharide biosynthesis | 27.27 | 3 of 11 | |
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| 66794 | toluene degradation | 25 | 1 of 4 | |
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| 66794 | cyclohexanol degradation | 25 | 1 of 4 | |
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| 66794 | lactate fermentation | 25 | 1 of 4 | |
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| 66794 | biotin biosynthesis | 25 | 1 of 4 | |
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| 66794 | carnitine metabolism | 25 | 2 of 8 | |
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| 66794 | daunorubicin biosynthesis | 22.22 | 2 of 9 | |
Metadata FA analysis  | ||||||||||||||||||||||||||||||||||||||||
| @ref | 58009 | |||||||||||||||||||||||||||||||||||||||
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How to citeIf you want to cite this particular strain cite the following doi:
https://doi.org/10.13145/bacdive152970.20251217.10
When using BacDive for research please cite the following paper
BacDive in 2025: the core database for prokaryotic strain data
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