Listeria aquatica DSM 26686 is a bacterium that was isolated from running water.
genome sequence 16S sequence Bacteria| @ref 20215 |
Last LPSN update
2026-02-09 11:31:12 |
| Domain Bacteria |
| Phylum Bacillota |
| Class Bacilli |
| Order Caryophanales |
| Family Listeriaceae |
| Genus Listeria |
| Species Listeria aquatica |
| Full scientific name Listeria aquatica Den Bakker et al. 2014 |
| Synonyms (1) |
| @ref | Name | Growth | Medium link | Composition | |
|---|---|---|---|---|---|
| 21627 | BHI MEDIUM (DSMZ Medium 215) | Medium recipe at MediaDive  | Name: BHI MEDIUM (DSMZ Medium 215) Composition: Brain heart infusion 37.0 g/l Distilled water |
| @ref | Growth | Type | Temperature (°C) | |
|---|---|---|---|---|
| 21627 | positive | growth | 30 |
| @ref | Chebi-ID | Metabolite | Utilization activity | Kind of utilization tested | |
|---|---|---|---|---|---|
| 68376 | 16443 ChEBI | D-tagatose | + | builds acid from | from API LIST |
| 68376 | 65327 ChEBI | D-xylose | + | builds acid from | from API LIST |
| 68376 | 4853 ChEBI | esculin | + | hydrolysis | from API LIST |
| 68376 | 29042 ChEBI | glucose 1-phosphate | - | builds acid from | from API LIST |
| 68376 | 62345 ChEBI | L-rhamnose | + | builds acid from | from API LIST |
| @ref | Differentiation L. innocura(+)/ L.monoytogenes(-)DIM | ESC | alpha MAN | DARL | XYL | RHA | Acid from methyl-alpha-D-glucopyranosideMDG | RIB | G1P | TAG | beta hemolysis presentbeta HEM | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 21627 | - | + | + | +/- | + | + | +/- | +/- | - | + | not determinedn.d. | |
| 21627 | +/- | + | + | +/- | + | + | +/- | - | - | + | not determinedn.d. |
| @ref | Sample type | Geographic location | Country | Country ISO 3 Code | Continent | |
|---|---|---|---|---|---|---|
| 21627 | running water | Florida, | USA | USA | North America |
Global distribution of 16S sequence JX961637 (>99% sequence identity) for Listeria aquatica subclade from Microbeatlas 
 Aquatic Samples |
13 |
 Soil Samples |
11 |
 Animal Samples |
35 |
 Plant Samples |
4 |
| Total Samples | 63 |
| @ref | Description | Assembly level | INSDC accession | BV-BRC accession | IMG accession | NCBI tax ID | Score | |
|---|---|---|---|---|---|---|---|---|
| 124043 | Listeriaceae bacterium FSL S10-1188 assembly for Listeria aquatica FSL S10-1188 | contig | GCA_000525795   | 1265818.5  | 2576861705  | 1265818 | 39.98 | |
| @ref | Description | Accession | Length | Database | NCBI tax ID | |
|---|---|---|---|---|---|---|
| 21627 | Listeria aquatica FSL S10-1188 16S ribosomal RNA gene, partial sequence | JX961637 | 1488 |  | 1265818 |
| @ref | GC-content (mol%) | Method | |
|---|---|---|---|
| 21627 | 40.9 | sequence analysis |
| Topic | Title | Authors | Journal | DOI | Year | |
|---|---|---|---|---|---|---|
| Genetics | Complete genome of Listeria aquatica strain MRL-25-00004 from a cheese ripening environment in Austria. | Daza Prieto B, Ladstaetter J, Murer A, Lennkh A, Ruppitsch W, Pietzka AT. | Microbiol Resour Announc | 10.1128/mra.00931-25 | 2025 | |
| Genetics | Draft genome sequence of Listeria aquatica strain SG_BD1, isolated from a cow dung sample in Bangladesh. | Rivu S, Smith E, Stafford G, Ahmed S. | Microbiol Resour Announc | 10.1128/mra.00729-24 | 2024 | |
| Genetics | The Isolation, Genetic Analysis and Biofilm Characteristics of Listeria spp. from the Marine Environment in China. | Mao P, Wang Y, Li L, Ji S, Li P, Liu L, Chen J, Sun H, Luo X, Ye C. | Microorganisms | 10.3390/microorganisms11092166 | 2023 | |
| Pathogenicity | Three small partner proteins facilitate the type VII-dependent secretion of an antibacterial nuclease. | Yang Y, Boardman E, Deme J, Alcock F, Lea S, Palmer T. | mBio | 10.1128/mbio.02100-23 | 2023 | |
| PARGT: a software tool for predicting antimicrobial resistance in bacteria. | Chowdhury AS, Call DR, Broschat SL. | Sci Rep | 10.1038/s41598-020-67949-9 | 2020 | | |
| Development of a Novel Phagomagnetic-Assisted Isothermal DNA Amplification System for Endpoint Electrochemical Detection of Listeria monocytogenes. | Maciel C, Silva NFD, Teixeira P, Magalhaes JMCS. | Biosensors (Basel) | 10.3390/bios13040464 | 2023 | | |
| Genetics | Genomic analysis of high copy-number sequences for the targeted detection of Listeria species using a flow-through surveillance system. | Quinones B, Yambao JC, De Guzman VS, Lee BG, Medin DL. | Arch Microbiol | 10.1007/s00203-021-02388-2 | 2021 | |
| Pathogenicity | Discovery of Novel Type II Bacteriocins Using a New High-Dimensional Bioinformatic Algorithm. | Yount NY, Weaver DC, de Anda J, Lee EY, Lee MW, Wong GCL, Yeaman MR. | Front Immunol | 10.3389/fimmu.2020.01873 | 2020 | |
| Genetics | The Saprophytic Lifestyle of Listeria monocytogenes and Entry Into the Food-Processing Environment. | Lourenco A, Linke K, Wagner M, Stessl B. | Front Microbiol | 10.3389/fmicb.2022.789801 | 2022 | |
| Isolation, identification, and characterization of Listeria spp. from various animal origin foods. | Nayak DN, Savalia CV, Kalyani IH, Kumar R, Kshirsagar DP. | Vet World | 10.14202/vetworld.2015.695-701 | 2015 | | |
| Genetics | Comparative genome analysis of Weissella ceti, an emerging pathogen of farm-raised rainbow trout. | Figueiredo HC, Soares SC, Pereira FL, Dorella FA, Carvalho AF, Teixeira JP, Azevedo VA, Leal CA. | BMC Genomics | 10.1186/s12864-015-2324-4 | 2015 | |
| Pyruvate dehydrogenase complex-enzyme 2, a new target for Listeria spp. detection identified using combined phage display technologies. | Moreira GMSG, Kollner SMS, Helmsing S, Jansch L, Meier A, Gronow S, Boedeker C, Dubel S, Mendonca M, Moreira AN, Conceicao FR, Hust M. | Sci Rep | 10.1038/s41598-020-72159-4 | 2020 | | |
| Transcriptome | Complete Circular Genome Sequence and Temperature Independent Adaptation to Anaerobiosis of Listeria weihenstephanensis DSM 24698. | Ferrari E, Walter MC, Huptas C, Scherer S, Muller-Herbst S. | Front Microbiol | 10.3389/fmicb.2017.01672 | 2017 | |
| Genetics | Comparative Genomics of Listeria Sensu Lato: Genus-Wide Differences in Evolutionary Dynamics and the Progressive Gain of Complex, Potentially Pathogenicity-Related Traits through Lateral Gene Transfer. | Chiara M, Caruso M, D'Erchia AM, Manzari C, Fraccalvieri R, Goffredo E, Latorre L, Miccolupo A, Padalino I, Santagada G, Chiocco D, Pesole G, Horner DS, Parisi A. | Genome Biol Evol | 10.1093/gbe/evv131 | 2015 | |
| Phylogeny | Characteristics and distribution of Listeria spp., including Listeria species newly described since 2009. | Orsi RH, Wiedmann M. | Appl Microbiol Biotechnol | 10.1007/s00253-016-7552-2 | 2016 | |
| Phylogeny | Listeria thailandensis sp. nov. | Leclercq A, Moura A, Vales G, Tessaud-Rita N, Aguilhon C, Lecuit M. | Int J Syst Evol Microbiol | 10.1099/ijsem.0.003097 | 2019 | |
| Phylogeny | Listeria costaricensis sp. nov. | Nunez-Montero K, Leclercq A, Moura A, Vales G, Peraza J, Pizarro-Cerda J, Lecuit M. | Int J Syst Evol Microbiol | 10.1099/ijsem.0.002596 | 2018 | |
| Phylogeny | Listeria floridensis sp. nov., Listeria aquatica sp. nov., Listeria cornellensis sp. nov., Listeria riparia sp. nov. and Listeria grandensis sp. nov., from agricultural and natural environments. | den Bakker HC, Warchocki S, Wright EM, Allred AF, Ahlstrom C, Manuel CS, Stasiewicz MJ, Burrell A, Roof S, Strawn LK, Fortes E, Nightingale KK, Kephart D, Wiedmann M | Int J Syst Evol Microbiol | 10.1099/ijs.0.052720-0 | 2014 | |
How to citeIf you want to cite this particular strain cite the following doi:
https://doi.org/10.13145/bacdive130387.20251217.10
When using BacDive for research please cite the following paper
BacDive in 2025: the core database for prokaryotic strain data
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