Nocardia seriolae NA 8191 is an aerobe, mesophilic, Gram-positive animal pathogen that was isolated from spleen of yellowtail .
Gram-positive rod-shaped aerobe mesophilic animal pathogen genome sequence 16S sequence
SI-ID 92992
| @ref 20215 |
|
Last LPSN update
2025-12-16 09:49:24 |
| Domain Bacillati |
| Phylum Actinomycetota |
| Class Actinomycetes |
| Order Mycobacteriales |
| Family Nocardiaceae |
| Genus Nocardia |
| Species Nocardia seriolae |
| Full scientific name Nocardia seriolae Kudo et al. 1988 |
| BacDive ID | Other strains from Nocardia seriolae (4) | Type strain |
|---|---|---|
| 138105 | N. seriolae CIP 104831, JCM 3361 | |
| 138106 | N. seriolae CIP 104833, JCM 5849, IMSNU 21189 | |
| 139218 | N. seriolae CIP 104830, JCM 3359, IMSNU 21187 | |
| 165309 | N. seriolae JCM 5850, IMSNU 21190 |
| @ref | Name | Growth | Medium link | Composition | |
|---|---|---|---|---|---|
| 11488 | TRYPTICASE SOY BROTH AGAR (DSMZ Medium 535) | Medium recipe at MediaDive  | Name: TRYPTICASE SOY BROTH AGAR (DSMZ Medium 535) Composition: Trypticase soy broth 30.0 g/l Agar 15.0 g/l Distilled water | ||
| 11488 | GYM STREPTOMYCES MEDIUM (DSMZ Medium 65) | Medium recipe at MediaDive | Name: GYM STREPTOMYCES MEDIUM (DSMZ Medium 65) Composition: Agar 18.0 g/l Malt extract 10.0 g/l Yeast extract 4.0 g/l Glucose 4.0 g/l CaCO3 2.0 g/l Distilled water | ||
| 20002 | ISP 2 | Name: ISP 2 / Yeast Malt Agar (5265); 5265 Composition Malt extract 10.0 g/l Yeast extract 4.0 g/l Glucose 4.0 g/l Agar 15.0 g/l Preparation: Sterilisation: 20 minutes at 121°C pH before sterilisation: 7.0 Usage: Maintenance and Taxonomy Organisms: All Actinomycetes | |||
| 20002 | ISP 3 | Name: ISP 3; 5315 Composition Dog oat flakes 20.0 g/l Trace element solution (5314) 2.5 ml/l Agar 18.0 g/l Preparation: Oat flakes are cooked for 20 minutes, trace element solution and agar are added (in the case of non rolled oat flakes the suspension has to bee filtrated). Sterilisation: 20 minutes at 121°C pH before sterilisation: 7.8 Usage: Maintenance and taxonomy (e.g. SEM As liquid medium for metabolite production) Organisms: All Actinomycetes Trace element solution 5314 Name: Trace element solution 5314; 5314 Composition CaCl2 x H2O 3.0 g/l Fe-III-citrate 1.0 g/l MnSO4 0.2 g/l ZnCl2 0.1 g/l CuSO4 x 5 H2O 0.025 g/l Sodium tetra borate 0.2 g/l CoCl2 x 6 H2O 0.004 g/l Sodium molybdate 0.01 g/l Preparation: Use double destillated water. Sterilisation: 20 minutes at 121°C pH before sterilisation: Usage: Trace element solution for different media Organisms: | |||
| 20002 | ISP 4 | Name: ISP 4; DSM 547 Solution I: Difco soluble starch, 10.0 g. Make a paste of the starch with a small amount of cold distilled water and bring to a volume of 500 ml. Solution II: CaCO3 2.0 g K2HPO4 (anhydrous) 1.0 g MgSO4 x 7 H2O 1.0 g NaCl 1.0 g (NH4)2SO4 2.0 g Distilled water 500.0 ml Trace salt solution (see below) 1.0 ml The pH should be between 7.0 and 7.4. Do not adjust if it is within this range. Mix solutions I and II together. Add 20.0 g agar. Liquify agar by steaming at 100°C for 10 to 20 min. Trace element solution: FeSO4 x 7 H2O 0.1 g MnCl2 x 4 H2O 0.1 g ZnSO4 x 7 H2O 0.1 g Distilled water 100.0 ml | |||
| 20002 | ISP 5 | Name: ISP 5 (5323) Composition L-Asparagine 1.0 g/l Glycerol 10.0 g/l K2HPO4 1.0 g/l Salt solution (see preparation) 1.0 ml/l Agar 20.0 g/l Preparation: Salt solution 1.0 g FeSO4 x 7 H2O 1.0 g MnCl2 x 4 H2O 1.0 g ZNSO4 x 7 H2O in 100 ml water Sterilisation: 20 minutes at 121°C pH before sterilisation: 7.2 Usage: Maintenance and taxonomy Organisms: All Actinomycetes | |||
| 20002 | ISP 6 | Name: ISP 6 (5318) Composition Peptone 15.0 g/l Proteose peptose 5.0 g/l Ferric ammonium citrate 0.5 g/l Sodium glycerophosphate 1.0 g/l Sodium thiosulfate 0.08 g/l Yeast extract 1.0 g/l Agar 15.0 g/l Sterilisation: 20 minutes at 121°C pH before sterilisation: Usage: Production of melanoid pigments Organisms: All Actinomycetes | |||
| 20002 | ISP 7 | Name: ISP 7 (5322) Composition Glycerol 15.0 g/l L-Tyrosine 0.5 g/l L-Asparagine 1.0 g/l K2HPO4 0.5 g/l NaCl 0.5 g/l FeSO4 x 7 H2O 0.01 g/l Trace element solution 5343 1.0 ml/l Agar 20.0 Sterilisation: 20 minutes at 121°C pH before sterilisation: 7.3 Usage: Production of melanoid pigments Organisms: All Actinomycetes | |||
| 34627 | MEDIUM 129 - for Pseudonocardia, Nocardia, Skermania and Streptomyces seoulensis, Streptomyces stramineus | Distilled water make up to (1000.000 ml);Agar (20.000 g);Glucose (10.000g);Yeast extract (1.000 g);Beef extract (1.000 g);Casamino acids (2.000 g) | |||
| 122571 | CIP Medium 129 | Medium recipe at CIP |
| @ref | Spore formation | Confidence | |
|---|---|---|---|
| 125439 | 94.5 |
| 67770 | Observationquinones: MK-8(H4) |
| @ref | Chebi-ID | Metabolite | Utilization activity | Kind of utilization tested | |
|---|---|---|---|---|---|
| 68368 | 29016 ChEBI | arginine | + | hydrolysis | from API 20E |
| 68368 | 16947 ChEBI | citrate | + | assimilation | from API 20E |
| 122571 | 4853 ChEBI | esculin | + | hydrolysis | |
| 68368 | 5291 ChEBI | gelatin | - | hydrolysis | from API 20E |
| 68368 | 25094 ChEBI | lysine | + | degradation | from API 20E |
| 122571 | 17632 ChEBI | nitrate | - | reduction | |
| 122571 | 17632 ChEBI | nitrate | - | respiration | |
| 122571 | 16301 ChEBI | nitrite | - | reduction | |
| 68368 | 18257 ChEBI | ornithine | + | degradation | from API 20E |
| 68368 | 27897 ChEBI | tryptophan | - | energy source | from API 20E |
| 68368 | 16199 ChEBI | urea | + | hydrolysis | from API 20E |
| @ref | Value | Activity | Ec | |
|---|---|---|---|---|
| 68382 | acid phosphatase | + | 3.1.3.2 | from API zym |
| 68382 | alkaline phosphatase | + | 3.1.3.1 | from API zym |
| 68382 | alpha-chymotrypsin | - | 3.4.21.1 | from API zym |
| 68382 | alpha-fucosidase | - | 3.2.1.51 | from API zym |
| 68382 | alpha-galactosidase | - | 3.2.1.22 | from API zym |
| 68382 | alpha-glucosidase | + | 3.2.1.20 | from API zym |
| 68382 | alpha-mannosidase | - | 3.2.1.24 | from API zym |
| 122571 | amylase | - | ||
| 68368 | arginine dihydrolase | + | 3.5.3.6 | from API 20E |
| 122571 | beta-galactosidase | - | 3.2.1.23 | |
| 68368 | beta-galactosidase | - | 3.2.1.23 | from API 20E |
| 68382 | beta-glucosidase | + | 3.2.1.21 | from API zym |
| 68382 | beta-glucuronidase | - | 3.2.1.31 | from API zym |
| 122571 | catalase | + | 1.11.1.6 | |
| 68382 | cystine arylamidase | - | 3.4.11.3 | from API zym |
| 122571 | DNase | - | ||
| 68382 | esterase lipase (C 8) | + | from API zym | |
| 68368 | gelatinase | - | from API 20E | |
| 122571 | lecithinase | - | ||
| 68382 | leucine arylamidase | + | 3.4.11.1 | from API zym |
| 68382 | lipase (C 14) | - | from API zym | |
| 68368 | lysine decarboxylase | + | 4.1.1.18 | from API 20E |
| 68382 | N-acetyl-beta-glucosaminidase | - | 3.2.1.52 | from API zym |
| 68382 | naphthol-AS-BI-phosphohydrolase | + | from API zym | |
| 68368 | ornithine decarboxylase | + | 4.1.1.17 | from API 20E |
| 122571 | oxidase | - | ||
| 68382 | trypsin | - | 3.4.21.4 | from API zym |
| 68368 | tryptophan deaminase | - | 4.1.99.1 | from API 20E |
| 122571 | urease | - | 3.5.1.5 | |
| 68368 | urease | + | 3.5.1.5 | from API 20E |
| @ref | pathway | enzyme coverage | annotated reactions | external links | |
|---|---|---|---|---|---|
| 66794 | cellulose degradation | 100 | 5 of 5 |   |
|
| 66794 | aerobactin biosynthesis | 100 | 1 of 1 | |
|
| 66794 | taurine degradation | 100 | 1 of 1 | |
|
| 66794 | glycolate and glyoxylate degradation | 100 | 6 of 6 | |
|
| 66794 | CDP-diacylglycerol biosynthesis | 100 | 2 of 2 | |
|
| 66794 | ceramide biosynthesis | 100 | 1 of 1 | |
|
| 66794 | suberin monomers biosynthesis | 100 | 2 of 2 | |
|
| 66794 | biotin biosynthesis | 100 | 4 of 4 | |
|
| 66794 | threonine metabolism | 100 | 10 of 10 | |
|
| 66794 | ethanol fermentation | 100 | 2 of 2 | |
|
| 66794 | octane oxidation | 100 | 3 of 3 | |
|
| 66794 | UDP-GlcNAc biosynthesis | 100 | 3 of 3 | |
|
| 66794 | palmitate biosynthesis | 100 | 22 of 22 | |
|
| 66794 | adipate degradation | 100 | 2 of 2 | |
|
| 66794 | photosynthesis | 100 | 14 of 14 | |
|
| 66794 | acetate fermentation | 100 | 4 of 4 | |
|
| 66794 | coenzyme A metabolism | 100 | 4 of 4 | |
|
| 66794 | enterobactin biosynthesis | 100 | 3 of 3 | |
|
| 66794 | vitamin K metabolism | 100 | 5 of 5 | |
|
| 66794 | valine metabolism | 100 | 9 of 9 | |
|
| 66794 | folate polyglutamylation | 100 | 1 of 1 | |
|
| 66794 | butanoate fermentation | 100 | 4 of 4 | |
|
| 66794 | phenylmercury acetate degradation | 100 | 2 of 2 | |
|
| 66794 | methylglyoxal degradation | 100 | 5 of 5 | |
|
| 66794 | cis-vaccenate biosynthesis | 100 | 2 of 2 | |
|
| 66794 | cardiolipin biosynthesis | 100 | 7 of 7 | |
|
| 66794 | ppGpp biosynthesis | 100 | 4 of 4 | |
|
| 66794 | anapleurotic synthesis of oxalacetate | 100 | 1 of 1 | |
|
| 66794 | formaldehyde oxidation | 100 | 3 of 3 | |
|
| 66794 | flavin biosynthesis | 93.33 | 14 of 15 | |
|
| 66794 | heme metabolism | 92.86 | 13 of 14 | |
|
| 66794 | phenylalanine metabolism | 92.31 | 12 of 13 | |
|
| 66794 | Entner Doudoroff pathway | 90 | 9 of 10 | |
|
| 66794 | propionate fermentation | 90 | 9 of 10 | |
|
| 66794 | serine metabolism | 88.89 | 8 of 9 | |
|
| 66794 | aspartate and asparagine metabolism | 88.89 | 8 of 9 | |
|
| 66794 | CO2 fixation in Crenarchaeota | 88.89 | 8 of 9 | |
|
| 66794 | chorismate metabolism | 88.89 | 8 of 9 | |
|
| 66794 | NAD metabolism | 88.89 | 16 of 18 | |
|
| 66794 | ketogluconate metabolism | 87.5 | 7 of 8 | |
|
| 66794 | isoleucine metabolism | 87.5 | 7 of 8 | |
|
| 66794 | gluconeogenesis | 87.5 | 7 of 8 | |
|
| 66794 | C4 and CAM-carbon fixation | 87.5 | 7 of 8 | |
|
| 66794 | aclacinomycin biosynthesis | 85.71 | 6 of 7 | |
|
| 66794 | glutathione metabolism | 85.71 | 12 of 14 | |
|
| 66794 | reductive acetyl coenzyme A pathway | 85.71 | 6 of 7 | |
|
| 66794 | citric acid cycle | 85.71 | 12 of 14 | |
|
| 66794 | glutamate and glutamine metabolism | 85.71 | 24 of 28 | |
|
| 66794 | propanol degradation | 85.71 | 6 of 7 | |
|
| 66794 | leucine metabolism | 84.62 | 11 of 13 | |
|
| 66794 | purine metabolism | 84.04 | 79 of 94 | |
|
| 66794 | alanine metabolism | 82.76 | 24 of 29 | |
|
| 66794 | vitamin B12 metabolism | 82.35 | 28 of 34 | |
|
| 66794 | pentose phosphate pathway | 81.82 | 9 of 11 | |
|
| 66794 | proline metabolism | 81.82 | 9 of 11 | |
|
| 66794 | metabolism of disaccharids | 81.82 | 9 of 11 | |
|
| 66794 | non-pathway related | 81.58 | 31 of 38 | |
|
| 66794 | methionine metabolism | 80.77 | 21 of 26 | |
|
| 66794 | gallate degradation | 80 | 4 of 5 | |
|
| 66794 | ethylmalonyl-CoA pathway | 80 | 4 of 5 | |
|
| 66794 | peptidoglycan biosynthesis | 80 | 12 of 15 | |
|
| 66794 | hydrogen production | 80 | 4 of 5 | |
|
| 66794 | factor 420 biosynthesis | 80 | 4 of 5 | |
|
| 66794 | phenylacetate degradation (aerobic) | 80 | 4 of 5 | |
|
| 66794 | glycogen metabolism | 80 | 4 of 5 | |
|
| 66794 | starch degradation | 80 | 8 of 10 | |
|
| 66794 | allantoin degradation | 77.78 | 7 of 9 | |
|
| 66794 | molybdenum cofactor biosynthesis | 77.78 | 7 of 9 | |
|
| 66794 | pyrimidine metabolism | 77.78 | 35 of 45 | |
|
| 66794 | d-mannose degradation | 77.78 | 7 of 9 | |
|
| 66794 | vitamin B1 metabolism | 76.92 | 10 of 13 | |
|
| 66794 | urea cycle | 76.92 | 10 of 13 | |
|
| 66794 | glycolysis | 76.47 | 13 of 17 | |
|
| 66794 | histidine metabolism | 75.86 | 22 of 29 | |
|
| 66794 | glycogen biosynthesis | 75 | 3 of 4 | |
|
| 66794 | dTDPLrhamnose biosynthesis | 75 | 6 of 8 | |
|
| 66794 | 6-hydroxymethyl-dihydropterin diphosphate biosynthesis | 75 | 6 of 8 | |
|
| 66794 | carnitine metabolism | 75 | 6 of 8 | |
|
| 66794 | sulfopterin metabolism | 75 | 3 of 4 | |
|
| 66794 | phenol degradation | 75 | 15 of 20 | |
|
| 66794 | degradation of aromatic, nitrogen containing compounds | 75 | 9 of 12 | |
|
| 66794 | lipid metabolism | 74.19 | 23 of 31 | |
|
| 66794 | tryptophan metabolism | 73.68 | 28 of 38 | |
|
| 66794 | 3-phenylpropionate degradation | 73.33 | 11 of 15 | |
|
| 66794 | oxidative phosphorylation | 72.53 | 66 of 91 | |
|
| 66794 | cysteine metabolism | 72.22 | 13 of 18 | |
|
| 66794 | ubiquinone biosynthesis | 71.43 | 5 of 7 | |
|
| 66794 | tetrahydrofolate metabolism | 71.43 | 10 of 14 | |
|
| 66794 | lysine metabolism | 71.43 | 30 of 42 | |
|
| 66794 | myo-inositol biosynthesis | 70 | 7 of 10 | |
|
| 66794 | androgen and estrogen metabolism | 68.75 | 11 of 16 | |
|
| 66794 | nitrate assimilation | 66.67 | 6 of 9 | |
|
| 66794 | arginine metabolism | 66.67 | 16 of 24 | |
|
| 66794 | 4-hydroxymandelate degradation | 66.67 | 6 of 9 | |
|
| 66794 | acetyl CoA biosynthesis | 66.67 | 2 of 3 | |
|
| 66794 | L-lactaldehyde degradation | 66.67 | 2 of 3 | |
|
| 66794 | acetoin degradation | 66.67 | 2 of 3 | |
|
| 66794 | cyanate degradation | 66.67 | 2 of 3 | |
|
| 66794 | (5R)-carbapenem carboxylate biosynthesis | 66.67 | 2 of 3 | |
|
| 66794 | degradation of sugar alcohols | 62.5 | 10 of 16 | |
|
| 66794 | sulfate reduction | 61.54 | 8 of 13 | |
|
| 66794 | isoprenoid biosynthesis | 61.54 | 16 of 26 | |
|
| 66794 | 3-chlorocatechol degradation | 60 | 3 of 5 | |
|
| 66794 | arachidonate biosynthesis | 60 | 3 of 5 | |
|
| 66794 | glycine betaine biosynthesis | 60 | 3 of 5 | |
|
| 66794 | lipoate biosynthesis | 60 | 3 of 5 | |
|
| 66794 | carotenoid biosynthesis | 59.09 | 13 of 22 | |
|
| 66794 | bile acid biosynthesis, neutral pathway | 58.82 | 10 of 17 | |
|
| 66794 | tyrosine metabolism | 57.14 | 8 of 14 | |
|
| 66794 | arachidonic acid metabolism | 55.56 | 10 of 18 | |
|
| 66794 | lipid A biosynthesis | 55.56 | 5 of 9 | |
|
| 66794 | phenylpropanoid biosynthesis | 53.85 | 7 of 13 | |
|
| 66794 | polyamine pathway | 52.17 | 12 of 23 | |
|
| 66794 | pantothenate biosynthesis | 50 | 3 of 6 | |
|
| 66794 | toluene degradation | 50 | 2 of 4 | |
|
| 66794 | aminopropanol phosphate biosynthesis | 50 | 1 of 2 | |
|
| 66794 | cyclohexanol degradation | 50 | 2 of 4 | |
|
| 66794 | mannosylglycerate biosynthesis | 50 | 1 of 2 | |
|
| 66794 | kanosamine biosynthesis II | 50 | 1 of 2 | |
|
| 66794 | glycine metabolism | 50 | 5 of 10 | |
|
| 66794 | sphingosine metabolism | 50 | 3 of 6 | |
|
| 66794 | catecholamine biosynthesis | 50 | 2 of 4 | |
|
| 66794 | vitamin E metabolism | 50 | 2 of 4 | |
|
| 66794 | CMP-KDO biosynthesis | 50 | 2 of 4 | |
|
| 66794 | degradation of pentoses | 46.43 | 13 of 28 | |
|
| 66794 | phosphatidylethanolamine bioynthesis | 46.15 | 6 of 13 | |
|
| 66794 | cholesterol biosynthesis | 45.45 | 5 of 11 | |
|
| 66794 | chlorophyll metabolism | 44.44 | 8 of 18 | |
|
| 66794 | degradation of hexoses | 44.44 | 8 of 18 | |
|
| 66794 | benzoyl-CoA degradation | 42.86 | 3 of 7 | |
|
| 66794 | ascorbate metabolism | 40.91 | 9 of 22 | |
|
| 66794 | creatinine degradation | 40 | 2 of 5 | |
|
| 66794 | degradation of sugar acids | 40 | 10 of 25 | |
|
| 66794 | 4-hydroxyphenylacetate degradation | 40 | 4 of 10 | |
|
| 66794 | metabolism of amino sugars and derivatives | 40 | 2 of 5 | |
|
| 66794 | d-xylose degradation | 36.36 | 4 of 11 | |
|
| 66794 | dolichyl-diphosphooligosaccharide biosynthesis | 36.36 | 4 of 11 | |
|
| 66794 | vitamin B6 metabolism | 36.36 | 4 of 11 | |
|
| 66794 | methane metabolism | 33.33 | 1 of 3 | |
|
| 66794 | IAA biosynthesis | 33.33 | 1 of 3 | |
|
| 66794 | selenocysteine biosynthesis | 33.33 | 2 of 6 | |
|
| 66794 | sulfoquinovose degradation | 33.33 | 1 of 3 | |
|
| 66794 | coenzyme M biosynthesis | 30 | 3 of 10 | |
|
| 66794 | lactate fermentation | 25 | 1 of 4 | |
|
| 66794 | methanogenesis from CO2 | 25 | 3 of 12 | |
|
| 66794 | daunorubicin biosynthesis | 22.22 | 2 of 9 | |
| @ref | Sample type | Host species | Geographic location | Country | Country ISO 3 Code | Continent | |
|---|---|---|---|---|---|---|---|
| 11488 | spleen of yellowtail (Seriola quinqueradiata) | Seriola quinqueradiata | Japan | JPN | Asia | ||
| 57361 | Spleen of yellowtail (Seriola quinqueradiata) | Japan | JPN | Asia | |||
| 67770 | Spleen of cultured yellowtail (Seriola quinqueradiata) | Seriola quinqueradiata | Nagasaki Pref. | Japan | JPN | Asia | |
| 122571 | Spleen of yellowtail, Seriola quinqueradiata | Japan | JPN | Asia |
Global distribution of 16S sequence X80592 (>99% sequence identity) for Nocardia from Microbeatlas 
 Aquatic Samples |
38 |
 Soil Samples |
541 |
 Animal Samples |
141 |
 Plant Samples |
111 |
| Total Samples | 831 |
| @ref | Description | Assembly level | INSDC accession | BV-BRC accession | NCBI tax ID | Score | |
|---|---|---|---|---|---|---|---|
| 124043 | ASM3953258v1 assembly for Nocardia seriolae JCM 3360 | contig | GCA_039532585   | 37332 | 68.93 | | |
| 67770 | ASM799071v1 assembly for Nocardia seriolae NBRC 15557 | contig | GCA_007990715 | 1210095.3  | 1210095 | 17.7 | |
| 124043 | ASM4264784v1 assembly for Nocardia seriolae JCM 3360 | contig | GCA_042647845 | 37332 | 10.07 | |
| @ref | Description | Accession | Length | Database | NCBI tax ID | |
|---|---|---|---|---|---|---|
| 20218 | Nocardia seriolae strain ATCC 43993 16S ribosomal RNA gene, partial sequence | GQ376193 | 1440 |  | 37332 | |
| 20218 | Nocardia seriolae 16S rRNA gene, strain ATCC 43993T | X80592 | 1396 | | 37332 | |
| 20218 | Nocardia seriolae strain DSM 44129 16S ribosomal RNA gene, complete sequence | AF430039 | 1492 | | 37332 | |
| 20218 | Nocardia seriolae strain DSM 44129 note copy 1 16S-23S ribosomal RNA intergenic spacer, complete sequence | AF536474 | 322 | | 37332 | |
| 20218 | Nocardia seriolae strain DSM 44129 note copy 2 16S-23S ribosomal RNA intergenic spacer, complete sequence | AF536475 | 326 | | 37332 | |
| 20218 | Nocardia seriolae strain DSM 44129 16S ribosomal RNA gene, partial sequence | AY756561 | 606 | | 37332 | |
| 20218 | Nocardia seriolae strain JCM 3360 16S ribosomal RNA gene, partial sequence | DQ659915 | 1417 | | 37332 | |
| 20218 | N.seriolae gene for 16S ribosomal RNA | Z36925 | 1472 | | 37332 | |
| 124043 | Nocardia seriolae strain JCM 3360 16S ribosomal RNA gene, partial sequence. | MT760456 | 1336 | | 37332 | |
| @ref | GC-content (mol%) | Method | |
|---|---|---|---|
| 11488 | 67.3 | high performance liquid chromatography (HPLC) |
| Topic | Title | Authors | Journal | DOI | Year | |
|---|---|---|---|---|---|---|
| Genetics | Comparative Genomics and Metabolomics in the Genus Nocardia. | Mannle D, McKinnie SMK, Mantri SS, Steinke K, Lu Z, Moore BS, Ziemert N, Kaysser L. | mSystems | 10.1128/msystems.00125-20 | 2020 | |
| Scalp Infection Caused by Mycobacterium abscessus Manifested as Patchy Alopecia in an Immunocompetent Female. | Zhang X, Feng Y, Li D, Han J, Shi D. | Infect Drug Resist | 10.2147/idr.s416974 | 2023 | | |
| Genetics | Comparative genomics of Nocardia seriolae reveals recent importation and subsequent widespread dissemination in mariculture farms in the South Central Coast region, Vietnam. | Le CT, Price EP, Sarovich DS, Nguyen TTA, Powell D, Vu-Khac H, Kurtboke DI, Knibb W, Chen SC, Katouli M. | Microb Genom | 10.1099/mgen.0.000845 | 2022 | |
| Pentraxin family members of largemouth bass (Micropterus salmoides): Cloning, characterization and expression responses to LPS, Poly (I:C) and Nocardia seriolae. | Yang Y, Xie Y, Sun Z, Zhang Z, Cai C, Qi Z, Gao Q. | Dev Comp Immunol | 10.1016/j.dci.2025.105475 | 2025 | | |
| First Case of Nocardia seriolae Infection in China Cultured Channel Catfish (Ictalurus punctatus). | Ai M, Zhou K, Jiang Q, Peng K, Wang Y, Luo Y, Ouyang P, Chen D, Huang X, Geng Y. | J Fish Dis | 10.1111/jfd.70044 | 2025 | | |
| Comparative analysis on antioxidant capacity, immunity and histopathological changes of largemouth bass (Micropterus salmoides) in response to mono- or co-infection with Aeromonas veronii and Nocardia seriolae. | Cheng G, Zhu N, Xu R, Wangkahart E, Zhang L, Liu L, Wang R, Xu Z, Kong W, Xu H. | Fish Shellfish Immunol | 10.1016/j.fsi.2025.110886 | 2025 | | |
| The pathological characteristics at different stages and early diagnosis by duplex PCR of Nocardia seriolae disease in largemouth bass (Micropterus salmoides) | Zhou X, Qiu Y, Li C, Huang Y, Ouyang P, Chen D, Geng Y, Huang X. | Aquaculture | 2025 | | ||
| Pathogenicity | Establishment of a novel macrophage-like cell line from the head kidney of Larimichthys crocea: A useful cell model for investigating host-pathogen interactions. | Liu Y, Tao Z, Yin F, Zhou SM. | Fish Shellfish Immunol | 10.1016/j.fsi.2025.110995 | 2026 | |
| Characterization of monoclonal antibody against IgM and phagocytic function of IgM+ B cells in snakehead (Channa argus). | Mu PF, Wang Z, Li Q, Li QH, Liu LH, Nie P. | Fish Shellfish Immunol | 10.1016/j.fsi.2025.111018 | 2026 | | |
| Identification and characterization of two DEAD-box RNA helicase DDX3 in largemouth bass (Micropterus salmoides) and their interaction with MAVS, TRIF, TBK1 and TRAF3. | Gao F, Dong J, Li J, Zhu Z, Zhang H, Sun C, Ye X. | Fish Shellfish Immunol | 10.1016/j.fsi.2025.110990 | 2026 | | |
| Pathogenicity, ultrastructure and genomics analysis of Nocardia seriolae isolated from largemouth bass (Micropterus salmoides). | Zhou ZY, Bai SJ, He J, Xiong QX, Zhong ZD, Lu CW, Kuang LF, Jian ZR, Gu JL, Liu MZ, Li PF, Wang EL, Wang GX, Ling F, Yu Q, Liu T. | Microb Pathog | 10.1016/j.micpath.2025.107715 | 2025 | | |
| Pathogenicity | Comparison of the host-pathogen interactions between Pseudomonas plecoglossicida and Nocardia seriolea in a cell line derived from head kidney of yellow large croaker. | Jin LY, Li SY, Yin F, Tao Z, Xie X, Zhou SM. | Fish Shellfish Immunol | 10.1016/j.fsi.2025.110477 | 2025 | |
| Evaluation of immunological effects of two DNA vaccines against Nocardia seriolae in hybrid snakehead. | Wen Y, Chen G, Li Y, Ning D, Sirimanapong W, Xia L. | Fish Shellfish Immunol | 10.1016/j.fsi.2025.110233 | 2025 | | |
| Unveiling the molecular regulatory mechanisms of immune responses in the spleen of spotted sea bass (Lateolabrax maculatus) against Nocardia seriolae infection | Dong Y, Wen H, Zhang Y, Qi X, Wang L, Li H, Zhang K, Li Y. | Aquaculture | 2024 | | ||
| Immune Response of Silver Pomfret (Pampus argenteus) CC Chemokine Ligand Gene Family to Photobacterium damselae Subsp. Damselae and Nocardia seriolae Infections. | Yan K, Zhang Y, Li Y, Tang M, Xu Y, Yan X, Hu J, Wang Y. | J Fish Dis | 10.1111/jfd.14032 | 2025 | | |
| Genetics | Pathogenicity and whole-genome analysis of a Siniperca chuatsi-derived Nocardia seriolae strain. | Chen L, Yan X, Luo Y, Lu Z, Wei X, Tang Z, Xia L, Chen F, Li M, Guo Z, He Z, Huang T. | Front Microbiol | 10.3389/fmicb.2025.1623741 | 2025 | |
| Development and evaluation of immunological effects of a DNA vaccine encoding phosphoketolase family protein against Nocardia seriolae in hybrid snakehead. | Zhang Z, Chen G, Li N, Li Y, Sirimanapong W, Chen J, Xia L. | Fish Shellfish Immunol | 10.1016/j.fsi.2024.109773 | 2024 | | |
| An isocitrate lyase gene-deleted strain of Nocardia seriolae in live attenuated vaccine development against fish nocardiosis. | Lin G, Li Y, Hou S, Wen Y, Lei X, Huang T, Chen Y, Chen J, Xia L. | Front Vet Sci | 10.3389/fvets.2025.1664034 | 2025 | | |
| Efficacy of Whole-Cell-Based Mono- and Bi-Valent Vaccines Against Nocardia seriolae and Aeromonas veronii in Largemouth Bass, Micropterus salmoides. | Zhang Q, Zhu N, Xu R, Wangkahart E, Zhang L, Liu L, Wang R, Xu Z, Kong W, Xu H. | Vaccines (Basel) | 10.3390/vaccines13090942 | 2025 | | |
| LECT2 mediates antibacterial immune response induced by Nocardia seriolae infection in the northern snakehead. | Teng J, Zhao Y, Li YB, Xue LY, Zhai YX, Liu JR, Wang H, Ji XS. | Fish Shellfish Immunol | 10.1016/j.fsi.2024.109708 | 2024 | | |
| Pathological variations and immune response in Channa argus infected with pathogenic Nocardia seriolae strain. | Zhou T, Cai P, Li J, Dan X, Li Z. | Fish Shellfish Immunol | 10.1016/j.fsi.2024.109554 | 2024 | | |
| The role of Nocardia seriolae-induced autophagy in the development of chronic inflammation in the liver and the formation of granulomas in largemouth bass (Micropterus salmoides) | Bai SJ, Jian ZR, He SY, Kuang LF, Zhou ZY, Lu CW, Zhong ZD, He J, Xiong QX, Xiao SY, Li PF, Liu MZ, Wang EL, Wang GX, Ling F, Yu Q, Liu T. | Aquaculture | 10.1016/j.aquaculture.2024.741157 | 2024 | | |
| Comparative pathogenicity of Nocardia seriolae in Nile tilapia (Oreochromis niloticus), milkfish (Chanos chanos) and Asian seabass (Lates calcarifer). | Nazareth SC, Cheng LW, Wang PC, Chen SC. | J Fish Dis | 10.1111/jfd.13947 | 2024 | | |
| Establishment of methods for visual and rapid detection of Nocardia seriolae based on isothermal recombinase polymerase amplification | Liu X, Tan SF, Fan WQ, Hao YD, Peng Q, Zhang YA, Zhang XJ. | Aquaculture | 2024 | | ||
| Bioinformatics characteristics and expression analysis of IL-8 and IL-10 in largemouth bass (Micropterus salmoides) upon Nocardia seriolae infection. | Wang Q, Zhao Z, Sun R, Shi Z, Zhang Y, Wang B, Zhang X, Ji W. | Fish Shellfish Immunol | 10.1016/j.fsi.2024.109465 | 2024 | | |
| Comparison and evaluation of DNA vaccines against Nocardia seriolae infection in largemouth bass (Micropterus salmoides) | Wang D, Zhang B, Chen M, Zeng H, Zhang XJ, Zhang YA, Zhou Y. | Aquaculture | 2024 | | ||
| Vitamin D3 activates the innate immune response and xenophagy against Nocardia seriolae through the VD receptor in liver of largemouth bass (Micropterus salmoides) | Cao Q, Zhao J, Yan M, Luo Z, Luo F, Feng L, Jiang W, Wu P, Wang Y, Li D, Liu H, Jiang J. | Aquaculture | 10.1016/j.aquaculture.2023.740008 | 2024 | | |
| Longistylin A from Cajanus cajan (L.) Millsp. disturbs glycerophospholipid metabolism and cytokinin biosynthesis of Nocardia seriolae. | Zhao L, Yao L, Liu M, Qiu S, He J, Lin J, Tao Z, Lu Y, Deng S, Chen H, Qiu SX. | J Ethnopharmacol | 10.1016/j.jep.2024.118199 | 2024 | | |
| Screening and identification of probiotics from the intestinal tract of largemouth bass (Micropterus salmoides) for use as a feed additive and bacterial infection control | Xia L, Cheng G, Wang P, Wang X, Dong Z, Mu Q, Yu J, Jiang Z, Xiao J, Feng H, Li X, Kong W, Xu Z. | Aquaculture | 10.1016/j.aquaculture.2024.740661 | 2024 | | |
| Aggregation-induced emission of TTCPy-3: A novel approach for eradicating Nocardia seriolae infections in aquatic fishes. | Liu Z, Zhang J, Ma X, Wang M, Jiang L, Zhang M, Lu M, Chang O, Cao J, Ke X, Yi M. | Biosens Bioelectron | 10.1016/j.bios.2024.116208 | 2024 | | |
| Immune strategies of silver pomfret (Pampus argenteus) infected with Nocardia seriolae at different infection stages | Zhang Y, Hu J, Li Y, Yuan F, Yan K, Gu W, Zhang M, Li Y, Huang X, Zhang C, Zhang D, Xu S, Zhou S, Yan X, Wang Y. | Aquaculture | 2024 | | ||
| Phylogeny | Identification and functional analysis of perforin 1 from largemouth bass (Micropterus salmoides). | Hu X, Li B, Lu B, Yu H, Du Y, Chen J. | Fish Shellfish Immunol | 10.1016/j.fsi.2024.109531 | 2024 | |
| Disruption of a kasB homolog gene (kasB) causes attenuation of cell invasion and virulence of Nocardia seriolae. | Zhou SM, Shu FL, Liu H, Qian D, Xie JS, Wang YJ, Yin F. | J Fish Dis | 10.1111/jfd.13896 | 2024 | | |
| Pathogenicity | Complement C1q is involved in the activation of membrane attack complexes, regulation of bacterial infectious inflammation, and apoptosis through overexpression in primary cells of silver pomfret (Pampus argenteus) in vitro. | Li Y, Hu J, Zhang Y, Yan K, Wang X, Zhou S, Xu S, Yan X, Wang Y. | Int J Biol Macromol | 10.1016/j.ijbiomac.2024.131863 | 2024 | |
| Nocardia seriolae mediates granulomatous chronic inflammation of spleen in Micropterus salmoides through necroptosis | Zhou ZY, He SY, Lu CW, Bai SJ, Kuang LF, Yang B, Lian S, Jian ZR, Wang MM, Xiao SY, Yu Q, Liu MZ, Li PF, Wang J, Wang EL, Wang GX, Ling F, Liu T. | Aquaculture | 2024 | | ||
| Transcriptome | Integrated analysis of transcriptome and metabolome reveals the regulatory mechanism of largemouth bass (Micropterus salmoides) in response to Nocardia seriolae infection. | Dong F, Sun YL, Qian YX, Chen Q, He JL, Wang JT, Han T, Zhang XM, Deng YT. | Fish Shellfish Immunol | 10.1016/j.fsi.2023.109322 | 2024 | |
| Comprehensive analysis of circRNA-miRNA-mRNA networks in the kidney of snakehead (Channa argus) response to Nocardia seriolae challenge. | Zhang X, Jiang Y, Yu H, Wang N, Liu X, Cao M, Li C. | Dev Comp Immunol | 10.1016/j.dci.2023.105099 | 2024 | | |
| Comprehensive profiling of lncRNAs in the immune response of largemouth bass to Nocardia Seriolae infection | Fu X, Zhang L, Li K, Liu Z, Wu J, Zhang J. | Comparative Immunology Reports | 2024 | | ||
| An Integrated in silico and in vivo study of nucleic acid vaccine against Nocardia seriolae infection in orange-spotted grouper Epinephelus coioides. | Nguyen PTD, Giovanni A, Maekawa S, Pham TH, Wang PC, Chen SC. | Fish Shellfish Immunol | 10.1016/j.fsi.2023.109202 | 2023 | | |
| Study on the Nocardia seriolae Antagonistic Bacterium in the Gut Microbiota of Micropterus salmoides. | Xu S, Chen Q, Liu A, Chen S, Chen W, Qian S, Wang L, Chen Y. | Biology (Basel) | 10.3390/biology14091128 | 2025 | | |
| Identification and Expression Analyses of IL-17/IL-17R Gene Family in Snakehead (Channa argus) Following Nocardia seriolae Infection. | Han X, Su X, Che M, Liu L, Nie P, Wang S. | Genes (Basel) | 10.3390/genes16030253 | 2025 | | |
| Mannosylated chitosan nanoparticles loaded with ABP antigen server as a novel nucleic acid vaccine against Nocardia Seriolae infection in Micropterus Salmoides | Zhang Z, Jin Z, Wang G, Ling F. | Aquaculture | 2023 | | ||
| Pathogenicity characterization of nocardiosis in orange-spotted grouper (Epinephelus coioides) via exposure to nine distinct isolates of Nocardia seriolae and four administrative routes. | Nguyen P, Giovanni A, Cheng LW, Wang PC, Chen SC. | J Fish Dis | 10.1111/jfd.13845 | 2023 | | |
| Nocardiosis and other common diseases of cultured golden pompano (Trachinotus blochii) in Taiwan. | Yan WX, Tseng YH, Huang WR, Cheng LW, Wang PC, Chen SC. | J Fish Dis | 10.1111/jfd.13894 | 2024 | | |
| Hepcidin contributes to largemouth bass (Micropterus salmoides) against bacterial infections. | Zhang W, Li B, Yu R, Xu W, Liu X, Su J, Yuan G. | Int J Biol Macromol | 10.1016/j.ijbiomac.2024.131144 | 2024 | | |
| Pathogenicity | Identification and characterization of toll-like receptor genes in silver pomfret (Pampus argenteus) and their involvement in the host immune response to Photobacterium damselae subsp. Damselae and Nocardia seriolae infection. | Li Y, Hu J, Zhang Y, Yan K, Zhang M, Li Y, Huang X, Tang J, Yao T, Wang D, Xu S, Wang X, Zhou S, Yan X, Wang Y. | Fish Shellfish Immunol | 10.1016/j.fsi.2023.109071 | 2023 | |
| High-efficiency expression of a novel antimicrobial peptide I20 with superior bactericidal ability and biocompatibility in Pichia pastoris and its efficiency enhancement to aquaculture | Huo X, Wang P, Zhao F, Liu Q, Yang C, Zhang Y, Su J. | Aquaculture | 10.1016/j.aquaculture.2023.740149 | 2024 | | |
| Surface display of Nocardia seriolae HRP1 on Bacillus subtilis and its application as live vaccine for largemouth bass. | Zhang F, Li JT, Zhang T, Wang X, Yao Y, Zhou Z. | Sci Rep | 10.1038/s41598-025-08150-8 | 2025 | | |
| Comprehensive analysis of long noncoding RNAs and lncRNA-mRNA networks in snakehead (Channa argus) response to Nocardia seriolae infection. | Zhang X, Yu H, Wang N, Li C. | Fish Shellfish Immunol | 10.1016/j.fsi.2023.108558 | 2023 | | |
| Single-strain probiotics enhance growth, anti-pathogen immunity, and resistance to Nocardia seriolae in grey mullet (Mugil cephalus) via gut microbiota modulation. | Chan CH, Chen LH, Chen KY, Chen IH, Lee KT, Lai LC, Tsai MH, Chuang EY, Lin MT, Yan TR. | Anim Microbiome | 10.1186/s42523-024-00353-0 | 2024 | | |
| Complete genome sequences of alpha-glucosidase-positive and -negative strains of Nocardia seriolae from Seriola species in Japan. | Umeda K, Matsuura Y, Shimahara Y, Takano T, Matsuyama T. | Microbiol Resour Announc | 10.1128/mra.00712-23 | 2023 | | |
| Effects of dietary Cetobacterium somerae on the intestinal health, immune parameters and resistance against Nocardia seriolae of largemouth bass, Micropterus salmoides. | Zhang Y, Qi X, Zhang Z, Jin Z, Wang G, Ling F. | Fish Shellfish Immunol | 10.1016/j.fsi.2023.108693 | 2023 | | |
| Nocardia seriolae cell wall lipids: An effective protective mechanism in resistance and virulence. | Nazareth SC, Rao S, Cheng LW, Wang PC, Chen SC. | J Fish Dis | 10.1111/jfd.13753 | 2023 | | |
| Genetics | An epidemiological analysis of Nocardia seriolae isolated from a wide range of aquatic animals in Taiwan, based on their genotype and enzymatic activity. | Nguyen P, Nazareth SC, Chen MY, Wang PC, Chen SC. | J Fish Dis | 10.1111/jfd.13751 | 2023 | |
| Nocardia seriolae mediates liver granulomatous chronic inflammation in Micropterus salmoides through pyroptosis. | Zhou ZY, Bai SJ, Lu CW, Yang B, Wang J, Lian S, Jian ZR, Wang EL, Wang GX, Liu T. | J Fish Dis | 10.1111/jfd.13746 | 2023 | | |
| Genetics | Potential virulence factors of Nocardia seriolae AHLQ20-01 based on whole-genome analysis and its pathogenicity to largemouth bass (Micropterus salmoides). | Cao S, Chang J, Yue X, Li J, Liu X. | J Fish Dis | 10.1111/jfd.13747 | 2023 | |
| Development of TaqMan quantitative PCR assay for detection of Nocardia seriolae in fish and the environment. | Sun Y, Wen C, Ma Z, Huang W, Liu C, Li W, Tang S, Lin H, Jiang B, Su Y. | J Microbiol Methods | 10.1016/j.mimet.2022.106650 | 2023 | | |
| Molecular characterization and functional analysis of galectin-1 from silver pomfret (Pampus argenteus). | Chen S, Gao T, Li X, Huang K, Yuan L, Zhou S, Jiang J, Wang Y, Xie J. | Fish Shellfish Immunol | 10.1016/j.fsi.2023.109209 | 2023 | | |
| Expression changes of non-specific cytotoxic cell receptor (NCCRP1) and proliferation and migration of NCCs post-Nocardia seriolae infection in Northern Snakehead. | Teng J, Cui MY, Zhao Y, Chen HJ, Du WJ, Xue LY, Ji XS. | Dev Comp Immunol | 10.1016/j.dci.2022.104576 | 2023 | | |
| Pathogenicity, diagnosis, prevention strategies and immune response of bacterium Nocardia seriolae: A critical review | Nawaz M, Gao T, Huang K, Gouife M, Chen S, Zhu S, Ma R, Jin S, Jiang J, Xie J. | Aquac Res | 10.1111/are.15988 | 2022 | | |
| Co-infections of Aeromonas veronii and Nocardia seriolae in largemouth bass (Micropterus salmoides). | Xu H, Xu R, Wang X, Liang Q, Zhang L, Liu J, Wei J, Lu Y, Yu D. | Microb Pathog | 10.1016/j.micpath.2022.105815 | 2022 | | |
| Construction of an attenuated glutamyl endopeptidase deletion strain of Nocardia seriolae. | Wang W, Hou S, Chen J, Xia L, Lu Y. | Fish Shellfish Immunol | 10.1016/j.fsi.2022.08.044 | 2022 | | |
| First identification of Nocardia seriolae GapA adhesion function and its three B-cell epitopes with cell-binding activity. | Guo J, Yue X, Chang J, Zhang Z, Li J, Liu X. | J Fish Dis | 10.1111/jfd.13709 | 2022 | | |
| Pathogenicity | Isolation and Complete Genome Sequencing of NS-I, a Lytic Bacteriophage Infecting Fish Pathogenic Strains of Nocardia seriolae. | Akmal M, Araki K, Nishiki I, Yoshida T. | Phage (New Rochelle) | 10.1089/phage.2023.0019 | 2023 | |
| Biological characteristics and pathogenicity comparison of Nocardia seriolae isolated from Micropterus salmoides and Channa argus. | Zhang W, Zhou K, Huang L, Yang N, Lin L, Chen L, Yao J, Dong M, Shen J, Pan X. | Front Vet Sci | 10.3389/fvets.2024.1367066 | 2024 | | |
| Identification of a secretory heme-binding protein from Nocardia seriolae involved in cell apoptosis. | Wen Y, Kang X, Li Z, Xia L, Lu Y. | J Fish Dis | 10.1111/jfd.13654 | 2022 | | |
| Screening and evaluating honokiol from Magnolia officinalis against Nocardia seriolae infection in largemouth bass (Micropterus Salmoides). | Jiang XY, Ren ZY, Zhang NK, Yang KC, Wang GX, Jiang HF. | J Fish Dis | 10.1111/jfd.13683 | 2022 | | |
| Induction of attenuated Nocardia seriolae and their use as live vaccine trials against fish nocardiosis. | Li B, Chen J, Huang P, Weng T, Wen Y, Yang H, Liu Y, Xia L. | Fish Shellfish Immunol | 10.1016/j.fsi.2022.09.053 | 2022 | | |
| Transcriptome | Arginine-Mediated Liver Immune Regulation and Antioxidant Defense in Largemouth Bass (Micropterus salmoides): Multi-Omics Insights into Metabolic Remodeling During Nocardia seriolae Infection. | Sun YL, Zhang SL, Zhou FF, Qian YX, He Y, Zhang RZ, Dong F, Chen Q, Xu HY, Wang JT, Deng YT, Han T. | Antioxidants (Basel) | 10.3390/antiox14060681 | 2025 | |
| Transcriptome | Transcriptome analysis in the spleen of Northern Snakehead (Channa argus) challenged with Nocardia seriolae. | Teng J, Zhao Y, Meng QL, Zhu SR, Chen HJ, Xue LY, Ji XS. | Genomics | 10.1016/j.ygeno.2022.110357 | 2022 | |
| Proteome | Integrated analysis of proteome and transcriptome revealed changes in multiple signaling pathways involved in immunity in the northern snakehead (Channa argus) during Nocardia seriolae infection. | Teng J, Li Y, Zhao Y, Zhang Y, Chen D, Liu J, Cui M, Ji X. | Front Cell Infect Microbiol | 10.3389/fcimb.2024.1482901 | 2024 | |
| Isolation, identification, and pathogenic characteristics of Nocardia seriolae in largemouth bass Micropterus salmoides. | Liu ZG, Dong JJ, Ke XL, Yi MM, Cao JM, Gao FY, Wang M, Ye X, Lu MX. | Dis Aquat Organ | 10.3354/dao03659 | 2022 | | |
| IFN-gamma enhances protective efficacy against Nocardia seriolae infection in largemouth bass (Micropterus salmoides). | Yu R, Zhang W, Yu P, Zhou J, Su J, Yuan G. | Front Immunol | 10.3389/fimmu.2024.1361231 | 2024 | | |
| Genome analysis of Bacillus subtilis JCL16 and the synergistic relationship among its metabolites reveal its potential for biocontrol of Nocardia seriolae | Wang X, Onchari MM, Yang X, Xu L, Yin X, Wan F, Chen Y, Guan M, Li B, Luo C. | Biol Control | 10.1016/j.biocontrol.2022.104855 | 2022 | | |
| Epidemiological investigation on diseases of Larimichthys crocea in Ningbo culture area. | Xu S, Ge M, Feng J, Wei X, Tan H, Liang Z, Tong G. | Front Cell Infect Microbiol | 10.3389/fcimb.2024.1420995 | 2024 | | |
| Analysis of the Prevalence of Bacterial Pathogens and Antimicrobial Resistance Patterns of Edwardsiella piscicida in Largemouth Bass (Micropterus salmoides) from Guangdong, China. | Huang W, Lin C, Wen C, Jiang B, Su Y. | Pathogens | 10.3390/pathogens13110987 | 2024 | | |
| Molecular identification and functional exploration of interleukin-20 in snakehead (Channa argus) involved in bacterial invasion and the proliferation of head kidney leukocytes. | Cui Z, Zhu X, Zhao F, Li D, Deng Y, Tan A, Lai Y, Huang Z, Gong H. | Fish Shellfish Immunol | 10.1016/j.fsi.2022.07.005 | 2022 | | |
| Fcgamma receptor-mediated phagocytosis pathway was involved in phagocytosis of mIgM+ B lymphocytes from largemouth bass (Micropterus salmoides). | Wu J, Nie Y, Wang J, Feng G, Hao L, Ma Y, Li Y, Liu Z. | J Fish Biol | 10.1111/jfb.15246 | 2023 | | |
| Metabolism | Molecular characterization and functional analysis of IL-18 in snakehead (Channa argus) during Aeromonas schubertii and Nocardia seriolae infections. | Cui ZW, Li DQ, Zhao F, Tan AP, Deng YT, Lai YT, Huang ZB, Jiang L. | Mol Immunol | 10.1016/j.molimm.2021.07.013 | 2021 | |
| The Combination of beta-Glucan and Astragalus Polysaccharide Effectively Resists Nocardia seriolae Infection in Largemouth Bass (Micropterus salmoides). | Zhao F, Huo X, Wang P, Liu Q, Yang C, Su J. | Microorganisms | 10.3390/microorganisms11102529 | 2023 | | |
| Transcriptome | Genomic and Transcriptomic Profiling of a Highly Virulent Plesiomonas shigelloides Strain: Insights into Pathogenicity and Host Immune Response. | Wang Z, Gu S, Lv W, Chen J, Xue M, Liu S, Mao J, Chen G. | Microorganisms | 10.3390/microorganisms13092168 | 2025 | |
| The Complete Genome of Nocardia seriolae MH196537 and Intra-Species Level as Analyzed by Comparative Genomics Based on Random Forest Algorithm. | Kim BS, Huh MD, Roh H. | Curr Microbiol | 10.1007/s00284-021-02490-0 | 2021 | | |
| Establishment and clinical application of a droplet digital PCR method for the detection of Edwardsiella tarda. | Li M, Li X, Ye Y, Yin J, Mo Z, Xie H, Zhu Y, Zhong L, Zhang X, Bi J. | Front Vet Sci | 10.3389/fvets.2024.1439743 | 2024 | | |
| Isolation and characterization of Nocardia seriolae, a causative agent of systematic granuloma in cultured East Asian four finger threadfin, Eleutheronema rhadinum, and red snapper, Lutjanus erythropterus | Liao P, Tsai M, See MS, Wang P, Chen S. | Aquac Res | 10.1111/are.14932 | 2021 | | |
| Enzymology | First evidence of fish nocardiosis in Mexico caused by Nocardia seriolae in farmed red drum (Sciaenops ocellatus, Linnaeus). | Del Rio-Rodriguez RE, Ramirez-Paredes JG, Soto-Rodriguez SA, Shapira Y, Huchin-Cortes MDJ, Ruiz-Hernandez J, Gomez-Solano MI, Haydon DJ. | J Fish Dis | 10.1111/jfd.13373 | 2021 | |
| Metabolism | Molecular characterization and biological function of CXCR1 in Nocardia seriolae-infected largemouth bass (Micropterus salmoides). | Feng J, Han T, Zhang Y, Zhang B, Huang D, Wang T, Yang J. | Tissue Cell | 10.1016/j.tice.2021.101551 | 2021 | |
| Recombinant resuscitation-promoting factor protein of Nocardia seriolae, a promissing vaccine candidate for largemouth bass (Micropterus salmoides). | Hoang HH, Wang PC, Chen SC. | Fish Shellfish Immunol | 10.1016/j.fsi.2021.01.015 | 2021 | | |
| Nocardia seriolae: a serious threat to the largemouth bass Micropterus salmoides industry in Southwest China. | Lei X, Zhao R, Geng Y, Wang K, Yang PO, Chen D, Huang X, Zuo Z, He C, Chen Z, Huang C, Guo H, Lai W. | Dis Aquat Organ | 10.3354/dao03517 | 2020 | | |
| Characterization and function study of a glutamyl endopeptidase homolog from Nocardia seriolae. | Wang W, Hou S, Chen G, Xia L, Chen J, Wang Z, Lu Y. | J Fish Dis | 10.1111/jfd.13311 | 2021 | | |
| Analysis of phagocytosis by mIgM+ lymphocytes depending on monoclonal antibodies against IgM of largemouth bass (Micropterus salmoides). | Wu J, Nie Y, Ma Y, Hao L, Liu Z, Li Y. | Fish Shellfish Immunol | 10.1016/j.fsi.2022.03.014 | 2022 | | |
| Yinchenhao Decoction ameliorates the high-carbohydrate diet induced suppression of immune response in largemouth bass (Micropterus salmoides). | Zhao L, Liang J, Liu H, Gong C, Huang X, Hu Y, Liu Q, He Z, Zhang X, Yang S, Rahimnejad S. | Fish Shellfish Immunol | 10.1016/j.fsi.2022.05.015 | 2022 | | |
| Microbiome engineering to enhance disease resistance in aquaculture: current strategies and future directions. | Tayyab M, Zhao Y, Zhang Y. | Front Microbiol | 10.3389/fmicb.2025.1625265 | 2025 | | |
| Identification of a secreted superoxide dismutase (SOD) from Nocardia seriolae which induces apoptosis in fathead minnow (FHM) cells. | Hou S, Wang W, Chen G, Xia L, Wang Z, Lu Y. | J Fish Dis | 10.1111/jfd.13268 | 2021 | | |
| Pharmacological characterization and biological function of the interleukin-8 receptor, CXCR2, in largemouth bass (Micropterus salmoides). | Zhao Z, Peng H, Han T, Jiang Z, Yuan J, Liu X, Wang X, Zhang Y, Wang T. | Fish Shellfish Immunol | 10.1016/j.fsi.2021.12.022 | 2022 | | |
| Development of a method to quantify endogenous IFNgamma protein in amberjack species. | Matsuura Y, Takano T, Matsuyama T, Sakai T, Terashima S, Nakayasu C. | Fish Shellfish Immunol | 10.1016/j.fsi.2020.10.013 | 2020 | | |
| Enzymology | Function and Characterization of an Alanine Dehydrogenase Homolog From Nocardia seriolae. | Chen G, Tan Z, Liu Y, Weng T, Xia L, Lu Y. | Front Vet Sci | 10.3389/fvets.2021.801990 | 2021 | |
| Characterization of snakehead (Channa argus) interleukin-21: Involvement in immune defense against two pathogenic bacteria, in leukocyte proliferation, and in activation of JAK-STAT signaling pathway. | Li D, Cui Z, Zhao F, Zhu X, Tan A, Deng Y, Lai Y, Huang Z. | Fish Shellfish Immunol | 10.1016/j.fsi.2022.03.006 | 2022 | | |
| Immunogenicity and efficacy of two DNA vaccines encoding antigenic PspA and TerD against Nocardia seriolae in hybrid snakehead. | Chen J, Li B, Huang B, Yang G, Mo F, Weng T, Chen G, Xia L, Lu Y. | Fish Shellfish Immunol | 10.1016/j.fsi.2020.08.013 | 2020 | | |
| Identification of a cell-wall peptidase (NlpC/P60) from Nocardia seriolae which induces apoptosis in fathead minnow cells. | Hou S, Chen G, Wang W, Xia L, Wang Z, Lu Y. | J Fish Dis | 10.1111/jfd.13154 | 2020 | | |
| Eucommia ulmoides Oliver repairs the disorder of intestinal microflora caused by high starch in Micropterus salmoides and improves resistance to pathogens. | Liu H, Li F, Tang H, Chen B, Geng Y, Chen D, Ouyang P, Li L, Huang X. | Front Microbiol | 10.3389/fmicb.2023.1223723 | 2023 | | |
| Genetics | Bacillus velezensis WLYS23 strain possesses antagonistic activity against hybrid snakehead bacterial pathogens. | Zhang DF, Xiong XL, Wang YJ, Gao YX, Ren Y, Wang Q, Shi CB. | J Appl Microbiol | 10.1111/jam.15162 | 2021 | |
| Transcriptome | Time-series transcriptomic analysis of Nile tilapia reveals the crucial roles of long non-coding RNA and transcription factor in response to Aeromonas veronii infection. | Lu Z, Li A, Sheng Q, Ma X, Tang Y, Li J, Chi X, Liu Z, Li H. | BMC Genomics | 10.1186/s12864-025-11930-1 | 2025 | |
| The protective efficacy of recombinant hypoxic response protein 1 of Nocardia seriolae in largemouth bass (Micropterus salmoides). | Hoang HH, Wang PC, Chen SC. | Vaccine | 10.1016/j.vaccine.2020.02.062 | 2020 | | |
| Retrospective diagnosis of archived marine fish experienced unexplained mortality reveals dual infections of Nocardia seriolae and Streptococcus iniae | Nguyen VV, Rodkhum C, Senapin S, Dong HT. | Aquac Int | 10.1007/s10499-019-00403-4 | 2019 | | |
| Intracellular behavior of Nocardia seriolae and its apoptotic effect on RAW264.7 macrophages. | Liu W, Deng Y, Tan A, Zhao F, Chang O, Wang F, Lai Y, Huang Z. | Front Cell Infect Microbiol | 10.3389/fcimb.2023.1138422 | 2023 | | |
| Two types of TNF-alpha and their receptors in snakehead (Channa argus): Functions in antibacterial innate immunity. | Cui ZW, Kong LL, Zhao F, Tan AP, Deng YT, Jiang L. | Fish Shellfish Immunol | 10.1016/j.fsi.2020.05.059 | 2020 | | |
| Identification of a mitochondrial-targeting secretory protein from Nocardia seriolae which induces apoptosis in fathead minnow cells. | Chen J, Xia L, Wang W, Wang Z, Hou S, Xie C, Cai J, Lu Y. | J Fish Dis | 10.1111/jfd.13062 | 2019 | | |
| Bacteria-induced IL-1beta and its receptors in snakehead (Channa argus): Evidence for their involvement in antibacterial innate immunity. | Cui ZW, Kong LL, Zhao F, Tan AP, Deng YT, Jiang L. | Fish Shellfish Immunol | 10.1016/j.fsi.2020.03.022 | 2020 | | |
| Functional Characterization of Largemouth Bass (Micropterus salmoides) Soluble FcgammaR Homolog in Response to Bacterial Infection. | Wu J, Ma Y, Nie Y, Wang J, Feng G, Hao L, Huang W, Li Y, Liu Z. | Int J Mol Sci | 10.3390/ijms232213788 | 2022 | | |
| Intratracheal Aerosolization of Nocardia farcinica in Mice Optimizes Bacterial Distribution and Enhances Pathogenicity Compared to Intranasal Inoculation and Intratracheal Instillation. | Du B, Song Z, Shen J, Yao J, Xu S, Qiu X, Yuan M, Li Z. | Biomolecules | 10.3390/biom15070950 | 2025 | | |
| Development of DNA vaccines encoding ribosomal proteins (RplL and RpsA) against Nocardia seriolae infection in fish. | Chen J, Chen Z, Wang W, Hou S, Cai J, Xia L, Lu Y. | Fish Shellfish Immunol | 10.1016/j.fsi.2019.12.014 | 2020 | | |
| Identification and functional characterization of Histone-like DNA-binding protein in Nocardia seriolae (NsHLP) involved in cell apoptosis. | Wang W, Chen J, Liao B, Xia L, Hou S, Wang Z, Lu Y. | J Fish Dis | 10.1111/jfd.12962 | 2019 | | |
| Nocardia seriolae infection in the cultured eel Anguilla japonica in Korea. | Kim JD, Lee NS, Do JW, Kim MS, Seo HG, Cho M, Jung SH, Han HJ. | J Fish Dis | 10.1111/jfd.12881 | 2018 | | |
| A Comprehensive Investigation of Potential Bacterial Pathogens in Largemouth Bass (Micropterus salmoides). | Tu YY, Lu Q, Zhang N, Leng J, Yang Q, Yu J, Zhu CK, He T, Hu JY, Lv MJ, Zhu S. | Microorganisms | 10.3390/microorganisms13061413 | 2025 | | |
| Metabolism | Multi-omics analysis reveals that Bacillus spp. enhance mucosal antiviral immunity in teleost fish by mediating diglyceride production through lipid metabolism. | Cheng G, Kong W, Lin R, Jiang Z, Wang X, Qin X, Shi Y, Yang P, Chen X, Xia L, Xu Z. | Microbiome | 10.1186/s40168-025-02124-8 | 2025 | |
| Efficacy of recombinant protein vaccines for protection against Nocardia seriolae infection in the largemouth bass Micropterus salmoides. | Ho PY, Chen YC, Maekawa S, Hu HH, Tsai AW, Chang YF, Wang PC, Chen SC. | Fish Shellfish Immunol | 10.1016/j.fsi.2018.04.024 | 2018 | | |
| In Vitro Efficacy of Isobutyl Cyanoacrylate Nanoparticles against Fish Bacterial Pathogens and Selection Preference by Rainbow Trout (Oncorhynchus mykiss). | Ahiable MG, Matsunaga K, Hokin M, Iida K, Befu F, Oshima SI. | Microorganisms | 10.3390/microorganisms11122877 | 2023 | | |
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| Discovery and Synthetic Applications of a NAD(P)H-Dependent Reductive Aminase from Rhodococcus erythropolis. | Jongkind EPJ, Domenech J, Govers A, van den Broek M, Daran JM, Grogan G, Paul CE. | ACS Catal | 10.1021/acscatal.4c04935 | 2025 | | |
| Transcriptome | Molecular Identification of Nocardia seriolae and Comparative Analysis of Spleen Transcriptomes of Hybrid Snakehead (Channa maculata Female × Channa argus Male) With Nocardiosis Disease. | Zhang N, Zhang H, Dong Z, Wang W. | Front Immunol | 10.3389/fimmu.2022.778915 | 2022 | |
| Current knowledge of nocardiosis in teleost fish. | Maekawa S, Yoshida T, Wang PC, Chen SC. | J Fish Dis | 10.1111/jfd.12782 | 2018 | | |
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| Comparison of protective efficacy between two DNA vaccines encoding DnaK and GroEL against fish nocardiosis. | Chen J, Wang W, Hou S, Fu W, Cai J, Xia L, Lu Y. | Fish Shellfish Immunol | 10.1016/j.fsi.2019.10.024 | 2019 | | |
| Amberjack Seriola dumerili interleukin-10 negatively suppresses host cell-mediated immunity | Matsumoto M, Amer MT, Araki K, Nishitani A, Hayashi K, Takeuchi Y, Shiozaki K, Yamamoto A. | Fish Sci | 10.1007/s12562-018-1223-4 | 2018 | | |
| Transparent Tiger barb Puntius tetrazona, a fish model for in vivo analysis of nocardial infection. | Wang F, Wang XG, Liu C, Chang OQ, Feng YY, Jiang L, Li KB. | Vet Microbiol | 10.1016/j.vetmic.2017.10.003 | 2017 | | |
| Isolation and genetic characterization of Nocardia seriolae from snubnose pompano Trachinotus blochii in Vietnam. | Vu-Khac H, Duong VQ, Chen SC, Pham TH, Nguyen TT, Trinh TT. | Dis Aquat Organ | 10.3354/dao03023 | 2016 | | |
| Evaluation of the Multivalent Immunoprotective Effects of Protein, DNA, and IgY Vaccines Against Vibrio fluvialis Outer Membrane Protein VF14355 in Carassius auratus. | Xiao H, Chen J, Cui P, Che X, Wu X, Lu J, Zhu G, Liu Y, Liu X. | Int J Mol Sci | 10.3390/ijms26073379 | 2025 | | |
| Development of Vaccines Against Nocardiosis in Fishes. | Nayak SK, Nakanishi T. | Methods Mol Biol | 10.1007/978-1-4939-3389-1_13 | 2016 | | |
| Draft Genome Sequence of Erythromycin- and Oxytetracycline-Sensitive Nocardia seriolae Strain U-1 (NBRC 110359). | Imajoh M, Sukeda M, Shimizu M, Yamane J, Ohnishi K, Oshima S. | Genome Announc | 10.1128/genomea.01606-15 | 2016 | | |
| Adjuvant effect of recombinant interleukin-12 in the Nocardiosis formalin-killed vaccine of the amberjack Seriola dumerili. | Matsumoto M, Araki K, Hayashi K, Takeuchi Y, Shiozaki K, Suetake H, Yamamoto A. | Fish Shellfish Immunol | 10.1016/j.fsi.2017.06.025 | 2017 | | |
| Interleukin 34 Serves as a Novel Molecular Adjuvant against Nocardia Seriolae Infection in Largemouth Bass (Micropterus Salmoides). | Hoang HH, Wang PC, Chen SC. | Vaccines (Basel) | 10.3390/vaccines8020151 | 2020 | | |
| Proteomics Exploration of Brucella melitensis to Design an Innovative Multi-Epitope mRNA Vaccine. | Asadinezhad M, Pakzad I, Asadollahi P, Ghafourian S, Kalani BS. | Bioinform Biol Insights | 10.1177/11779322241272404 | 2024 | | |
| Immune responses to live and inactivated Nocardia seriolae and protective effect of recombinant interferon gamma (rIFN gamma) against nocardiosis in ginbuna crucian carp, Carassius auratus langsdorfii. | Nayak SK, Shibasaki Y, Nakanishi T. | Fish Shellfish Immunol | 10.1016/j.fsi.2014.05.015 | 2014 | | |
| Draft Genome Sequence of Nocardia seriolae ZJ0503, a Fish Pathogen Isolated from Trachinotus ovatus in China. | Xia L, Cai J, Wang B, Huang Y, Jian J, Lu Y. | Genome Announc | 10.1128/genomea.01223-14 | 2015 | | |
| Draft Genome Sequence of Nocardia seriolae Strain N-2927 (NBRC 110360), Isolated as the Causal Agent of Nocardiosis of Yellowtail (Seriola quinqueradiata) in Kochi Prefecture, Japan. | Imajoh M, Fukumoto Y, Yamane J, Sukeda M, Shimizu M, Ohnishi K, Oshima S. | Genome Announc | 10.1128/genomea.00082-15 | 2015 | | |
| Pathogenicity | Largemouth bass (Micropterus salmoides) exhibited better growth potential after adaptation to dietary cottonseed protein concentrate inclusion but experienced higher inflammatory risk during bacterial infection. | Wang M, Chen Z, Wang Y, Zou J, Li S, Guo X, Gao J, Wang Q. | Front Immunol | 10.3389/fimmu.2022.997985 | 2022 | |
| Identification and functional characterization of multiple interleukin 12 in amberjack (Seriola dumerili). | Matsumoto M, Hayashi K, Suetake H, Yamamoto A, Araki K. | Fish Shellfish Immunol | 10.1016/j.fsi.2016.05.025 | 2016 | | |
| The study of honokiol as a natural product-based antimicrobial agent and its potential interaction with FtsZ protein. | Sun N, Zhi Z, Xiao T, Deng X, He T, Dong W, Feng S, Chen S, Wong WL, Yuan W. | Front Microbiol | 10.3389/fmicb.2024.1361508 | 2024 | | |
| Pathogenicity of Aeromonas veronii Causing Mass Mortality of Largemouth Bass (Micropterus salmoides) and Its Induced Host Immune Response. | Zhu X, Qian Q, Wu C, Zhu Y, Gao X, Jiang Q, Wang J, Liu G, Zhang X. | Microorganisms | 10.3390/microorganisms10112198 | 2022 | | |
| Microbial influence on the larval survival of Japanese eel Anguilla japonica: Antibiotic-mediated alterations and biomarker isolation. | Fukui Y, Nakamura Y, Imaizumi H, Kamoshida M. | PLoS One | 10.1371/journal.pone.0306634 | 2024 | | |
| Genetics | Genomic characterization of Nocardia seriolae strains isolated from diseased fish. | Han HJ, Kwak MJ, Ha SM, Yang SJ, Kim JD, Cho KH, Kim TW, Cho MY, Kim BY, Jung SH, Chun J. | Microbiologyopen | 10.1002/mbo3.656 | 2019 | |
| Metabolism | Identification, Molecular Cloning of IL-1beta and Its Expression Profile during Nocardia seriolae Infection in Largemouth Bass, Micropterus salmoides. | Ho PY, Byadgi O, Wang PC, Tsai MA, Liaw LL, Chen SC. | Int J Mol Sci | 10.3390/ijms17101670 | 2016 | |
| Transcriptome | De Novo Transcriptome Analysis of Differential Functional Gene Expression in Largemouth Bass (Micropterus salmoides) after Challenge with Nocardia seriolae. | Byadgi O, Chen CW, Wang PC, Tsai MA, Chen SC. | Int J Mol Sci | 10.3390/ijms17081315 | 2016 | |
| Mycobacterium bovis BCG vaccine induces non-specific immune responses in Japanese flounder against Nocardia seriolae. | Kato G, Kondo H, Aoki T, Hirono I. | Fish Shellfish Immunol | 10.1016/j.fsi.2012.05.002 | 2012 | | |
| Evaluation of the multivalent immune protective effects of the Vibrio fluvialis outer membrane protein VF17320, and its DNA and IgY antibody vaccines in fish | Xiao H, Cui P, Chen J, Meng L, Che X, Ma Z, Wu X, Lu J, Sun S, Zhu G, Liu Y, Liu X. | Front Vet Sci | 2025 | | ||
| Coinfection of Cage-Cultured Spotted Sea Bass (Lateolabrax maculatus) with Vibrio harveyi and Photobacterium damselae subsp. piscicida Associated with Skin Ulcer. | Zhou D, Zhang B, Dong Y, Li X, Zhang J. | Microorganisms | 10.3390/microorganisms12030503 | 2024 | | |
| Phylogeny | Isolation, Characterization, and Transcriptome Analysis of an ISKNV-Like Virus from Largemouth Bass. | Xu Z, Liao J, Zhang D, Liu S, Zhang L, Kang S, Xu L, Chen H, Peng W, Zhou S, Qin Q, Wei J. | Viruses | 10.3390/v15020398 | 2023 | |
| Transcriptome | Comparative Study of Immune Reaction Against Bacterial Infection From Transcriptome Analysis. | Maekawa S, Wang PC, Chen SC. | Front Immunol | 10.3389/fimmu.2019.00153 | 2019 | |
| Pathogenicity | The Biological Functions and Intestinal Inflammation Regulation of IL-21 in Grass Carp (Ctenopharyngodon idella) during Infection with Aeromonas hydrophila. | Yuan G, Zhao W, Zhang Y, Jia Z, Chen K, Wang J, Feng H, Zou J. | Cells | 10.3390/cells12182276 | 2023 | |
| Enzymology | Development and evaluation of a real-time fluorogenic loop-mediated isothermal amplification assay integrated on a microfluidic disc chip (on-chip LAMP) for rapid and simultaneous detection of ten pathogenic bacteria in aquatic animals. | Zhou QJ, Wang L, Chen J, Wang RN, Shi YH, Li CH, Zhang DM, Yan XJ, Zhang YJ. | J Microbiol Methods | 10.1016/j.mimet.2014.06.008 | 2014 | |
| Pathogenicity | TLR7 in channel catfish (Ictalurus punctatus) is expressed in the endolysosome and is stimulated by synthetic ssRNA analogs, imiquimod, and resiquimod. | Felch KL, Crider JD, Bhattacharjee D, Huhn C, Wilson M, Bengten E. | Dev Comp Immunol | 10.1016/j.dci.2024.105197 | 2024 | |
| Molecular cloning, characterization and gene expression analysis of twelve interleukins in obscure puffer Takifugu obscurus. | Huang Y, Luo P, Jiang FH, Gao HZ, Cui LF, Zhao Z. | Fish Shellfish Immunol Rep | 10.1016/j.fsirep.2023.100103 | 2023 | | |
| Metabolism | Elucidation of the Interleukin 12 Production Mechanism during Intracellular Bacterial Infection in Amberjack, Seriola dumerili. | Matsumoto M, Kubota T, Fujita S, Shiozaki K, Kishida S, Yamamoto A. | Infect Immun | 10.1128/iai.00459-19 | 2019 | |
| Effect of Bacillus velezensis MT9 on Nile Tilapia (Oreochromis Niloticus) Intestinal Microbiota. | Calcagnile M, Quarta E, Sicuro A, Pecoraro L, Schiavone R, Tredici SM, Tala A, Corallo A, Verri T, Stabili L, Alifano P. | Microb Ecol | 10.1007/s00248-025-02531-2 | 2025 | | |
| Phage Endolysin LysP108 Showed Promising Antibacterial Potential Against Methicillin-resistant Staphylococcus aureus. | Lu Y, Wang Y, Wang J, Zhao Y, Zhong Q, Li G, Fu Z, Lu S. | Front Cell Infect Microbiol | 10.3389/fcimb.2021.668430 | 2021 | | |
| Expression of cytokine genes in head kidney and spleen cells of Japanese flounder (Paralichthys olivaceus) infected with Nocardia seriolae. | Tanekhy M, Matsuda S, Itano T, Kawakami H, Kono T, Sakai M. | Vet Immunol Immunopathol | 10.1016/j.vetimm.2009.09.001 | 2010 | | |
| Pathological and Tissue-Based Molecular Investigation of Granulomas in Cichlids Reared as Ornamental Fish. | Mandrioli L, Codotto V, D'Annunzio G, Volpe E, Errani F, Eishi Y, Uchida K, Morini M, Sarli G, Ciulli S. | Animals (Basel) | 10.3390/ani12111366 | 2022 | | |
| Genotypic and phenotypic analysis of fish pathogen, Nocardia seriolae, isolated in Taiwan | Shimahara Yoshiko, Huang Yun-Fen, Tsai Ming-An, Wang Pei-Chi, Yoshida Terutoyo, Lee Jian-Lin, Chen Shih-Chu. | Aquaculture | 10.1016/j.aquaculture.2009.06.017 | 2009 | | |
| Evaluation of the in vivo and in vitro interleukin-12 p40 and p35 subunit response in yellowtail (Seriola quinqueradiata) to heat-killed Lactobacillus plantarum strain L-137 (HK L-137) supplementation, and immersion challenge with Lactococcus garvieae. | Fukada H, Senzui A, Kimoto K, Tsuru K, Kiyabu Y. | Fish Shellfish Immunol Rep | 10.1016/j.fsirep.2023.100095 | 2023 | | |
| Detection of bacterial pathogens in aquaculture samples by DNA microarray analysis | Shi YH, Chen J, Li CH, Lu XJ, Zhang DM, Li HY, Zhao ZX, Li MY. | Aquaculture | 10.1016/j.aquaculture.2012.01.009 | 2012 | | |
| Antiparasitic and Antibacterial Functionality of Essential Oils: An Alternative Approach for Sustainable Aquaculture. | Dawood MAO, El Basuini MF, Zaineldin AI, Yilmaz S, Hasan MT, Ahmadifar E, El Asely AM, Abdel-Latif HMR, Alagawany M, Abu-Elala NM, Van Doan H, Sewilam H. | Pathogens | 10.3390/pathogens10020185 | 2021 | | |
| Effects of dietary supplementation of Pseudomonas aeruginosa FARP72 on the immunomodulation and resistance to Edwardsiella tarda in Pangasius pangasius. | Hoque F, Abraham TJ, Joardar SN, Paria P, Behera BK, Das BK. | Fish Shellfish Immunol Rep | 10.1016/j.fsirep.2022.100071 | 2022 | | |
| Characterization of the BPI-like gene from a subtracted cDNA library of large yellow croaker (Pseudosciaena crocea) and induced expression by formalin-inactivated Vibrio alginolyticus and Nocardia seriolae vaccine challenges. | Huang Y, Lou H, Wu X, Chen Y. | Fish Shellfish Immunol | 10.1016/j.fsi.2008.02.012 | 2008 | | |
| Immunohistochemical and Taqman real-time PCR detection of mycobacterial infections in fish. | Zerihun MA, Hjortaas MJ, Falk K, Colquhoun DJ. | J Fish Dis | 10.1111/j.1365-2761.2010.01231.x | 2011 | | |
| Phylogeny | Simultaneous Isolation and Identification of Largemouth Bass Virus and Rhabdovirus from Moribund Largemouth Bass (Micropterus salmoides). | Jin Y, Bergmann SM, Mai Q, Yang Y, Liu W, Sun D, Chen Y, Yu Y, Liu Y, Cai W, Dong H, Li H, Yu H, Wu Y, Lai M, Zeng W. | Viruses | 10.3390/v14081643 | 2022 | |
| RNA-binding is an ancient trait of the Annexin family. | Patil SS, Panchal V, Rostbo T, Romanyuk S, Hollas H, Brenk R, Grindheim AK, Vedeler A. | Front Cell Dev Biol | 10.3389/fcell.2023.1161588 | 2023 | | |
| Genetics | Linking Copper-Associated Signal Transduction Systems with Their Environment in Marine Bacteria. | Gautam P, Erill I, Cusick KD. | Microorganisms | 10.3390/microorganisms11041012 | 2023 | |
| Genetics | Analysis of the complete genome sequence of Nocardia seriolae UTF1, the causative agent of fish nocardiosis: The first reference genome sequence of the fish pathogenic Nocardia species. | Yasuike M, Nishiki I, Iwasaki Y, Nakamura Y, Fujiwara A, Shimahara Y, Kamaishi T, Yoshida T, Nagai S, Kobayashi T, Katoh M. | PLoS One | 10.1371/journal.pone.0173198 | 2017 | |
| Transcriptome | Effect of Autolyzed Yarrowia lipolytica on the Growth Performance, Antioxidant Capacity, Intestinal Histology, Microbiota, and Transcriptome Profile of Juvenile Largemouth Bass (Micropterus salmoides). | Fei H, Cheng Y, Zhang H, Yu X, Yi S, Huang M, Yang S. | Int J Mol Sci | 10.3390/ijms231810780 | 2022 | |
| Transcriptome | New insights into beta-glucan-enhanced immunity in largemouth bass Micropterus salmoides by transcriptome and intestinal microbial composition. | Zhang Y, Guo M, Li N, Dong Z, Cai L, Wu B, Xie J, Liu L, Ren L, Shi B. | Front Immunol | 10.3389/fimmu.2022.1086103 | 2022 | |
| Genetics | Expression of Microcystis Biosynthetic Gene Clusters in Natural Populations Suggests Temporally Dynamic Synthesis of Novel and Known Secondary Metabolites in Western Lake Erie. | Yancey CE, Yu F, Tripathi A, Sherman DH, Dick GJ. | Appl Environ Microbiol | 10.1128/aem.02092-22 | 2023 | |
| Live vaccine trials against nocardiosis in yellowtail Seriola quinqueradiata | Itano T, Kawakami H, Kono T, Sakai M. | Aquaculture | 10.1016/j.aquaculture.2006.09.006 | 2006 | | |
| Microbial cytosine deaminase is a programmable anticancer prodrug mediating enzyme: antibody, and gene directed enzyme prodrug therapy. | El-Sayed ASA, Mohamed NZ, Yassin MA, Amer MM, El-Sharkawy R, El-Sayed N, Ali MG. | Heliyon | 10.1016/j.heliyon.2022.e10660 | 2022 | | |
| Experimental induction of nocardiosis in yellowtail, Seriola quinqueradiata Temminck and Schlegel by artificial challenge. | Itano T, Kawakami H, Kono T, Sakai M. | J Fish Dis | 10.1111/j.1365-2761.2006.00748.x | 2006 | | |
| Biotechnology | Detection of fish nocardiosis by loop-mediated isothermal amplification. | Itano T, Kawakami H, Kono T, Sakai M. | J Appl Microbiol | 10.1111/j.1365-2672.2006.02872.x | 2006 | |
| Sequencing of 16S-23S rRNA internal transcribed spacer and its application in identification of Nocardia seriolae by polymerase chain reaction | Kono T, Ooyama T, Chen SC, Sakai M. | Aquac Res | 10.1046/j.1365-2109.2002.00778.x | 2002 | | |
| Functional characterization of MEKK3 in the intestinal immune response to bacterial challenges in grass carp (Ctenopharyngodon idella). | Qu F, Zeng X, Liu Z, Guo M, Zhang X, Cao S, Zhou Y, He Z, Tang J, Mao Z, Yang Y, Zhou Z, Liu Z. | Front Immunol | 10.3389/fimmu.2022.981995 | 2022 | | |
| Host-Pathogen Interactions of Marine Gram-Positive Bacteria. | Gnanagobal H, Santander J. | Biology (Basel) | 10.3390/biology11091316 | 2022 | | |
| Metabolism | Stimulus-Specific Expression, Selective Generation and Novel Function of Grass Carp (Ctenopharyngodon idella) IL-12 Isoforms: New Insights Into the Heterodimeric Cytokines in Teleosts. | Qiu X, Sun H, Wang D, Ren J, Wang X, Zhang A, Yang K, Zhou H. | Front Immunol | 10.3389/fimmu.2021.734535 | 2021 | |
| Metabolism | Structural Modeling of Cell Wall Peptidase CwpFM (EntFM) Reveals Distinct Intrinsically Disordered Extensions Specific to Pathogenic Bacillus cereus Strains. | Tran SL, Cormontagne D, Vidic J, Andre-Leroux G, Ramarao N. | Toxins (Basel) | 10.3390/toxins12090593 | 2020 | |
| Metabolism | Development of Fish Immunity and the Role of beta-Glucan in Immune Responses. | Rodrigues MV, Zanuzzo FS, Koch JFA, de Oliveira CAF, Sima P, Vetvicka V. | Molecules | 10.3390/molecules25225378 | 2020 | |
| Salmonid Antibacterial Immunity: An Aquaculture Perspective. | Semple SL, Dixon B. | Biology (Basel) | 10.3390/biology9100331 | 2020 | | |
| Metabolism | Bacterial death and TRADD-N domains help define novel apoptosis and immunity mechanisms shared by prokaryotes and metazoans. | Kaur G, Iyer LM, Burroughs AM, Aravind L. | Elife | 10.7554/elife.70394 | 2021 | |
| Pathogenicity | Host-Parasite Interaction of Atlantic salmon (Salmo salar) and the Ectoparasite Neoparamoeba perurans in Amoebic Gill Disease. | Botwright NA, Mohamed AR, Slinger J, Lima PC, Wynne JW. | Front Immunol | 10.3389/fimmu.2021.672700 | 2021 | |
| Loop-mediated isothermal amplification: an emerging technology for detection of fish and shellfish pathogens. | Savan R, Kono T, Itami T, Sakai M. | J Fish Dis | 10.1111/j.1365-2761.2005.00670.x | 2005 | | |
| Enzymology | Loop-mediated isothermal amplification as an emerging technology for detection of Yersinia ruckeri the causative agent of enteric red mouth disease in fish. | Saleh M, Soliman H, El-Matbouli M. | BMC Vet Res | 10.1186/1746-6148-4-31 | 2008 | |
| Emerging Loop-Mediated Isothermal Amplification-Based Microchip and Microdevice Technologies for Nucleic Acid Detection. | Safavieh M, Kanakasabapathy MK, Tarlan F, Ahmed MU, Zourob M, Asghar W, Shafiee H. | ACS Biomater Sci Eng | 10.1021/acsbiomaterials.5b00449 | 2016 | | |
| Phylogeny | Analysis of multiple differing copies of the 16S rRNA gene in five clinical isolates and three type strains of Nocardia species and implications for species assignment. | Conville PS, Witebsky FG. | J Clin Microbiol | 10.1128/jcm.02482-06 | 2007 | |
| Phylogeny | Nocardia veterana as a pathogen in North American patients. | Conville PS, Brown JM, Steigerwalt AG, Lee JW, Byrer DE, Anderson VL, Dorman SE, Holland SM, Cahill B, Carroll KC, Witebsky FG. | J Clin Microbiol | 10.1128/jcm.41.6.2560-2568.2003 | 2003 | |
| Pathogenicity | In vitro activity of some essential oils alone and in combination against the fish pathogen Nocardia seriolae. | Ismail TF, Yoshida T | Pol J Vet Sci | 10.1515/pjvs-2017-0068 | 2017 | |
| Phylogeny | Nocardia seriolae infection in the three striped tigerfish, Terapon jarbua (Forsskal). | Wang PC, Chen SD, Tsai MA, Weng YJ, Chu SY, Chern RS, Chen SC | J Fish Dis | 10.1111/j.1365-2761.2008.00991.x | 2009 | |
| Phylogeny | Genetic and phenotypic comparison of Nocardia seriolae isolated from fish in Japan. | Shimahara Y, Nakamura A, Nomoto R, Itami T, Chen SC, Yoshida T | J Fish Dis | 10.1111/j.1365-2761.2008.00920.x | 2008 | |
| Phylogeny | Nocardiosis in large yellow croaker, Larimichthys crocea (Richardson). | Wang GL, Yuan SP, Jin S | J Fish Dis | 10.1111/j.1365-2761.2005.00637.x | 2005 | |
| Phylogeny | Nocardia concava sp. nov., isolated from Japanese patients. | Kageyama A, Yazawa K, Taniguchi H, Chibana H, Nishimura K, Kroppenstedt RM, Mikami Y. | Int J Syst Evol Microbiol | 10.1099/ijs.0.63280-0 | 2005 | |
| Phylogeny | Nocardia inohanensis sp. nov., Nocardia yamanashiensis sp. nov. and Nocardia niigatensis sp. nov., isolated from clinical specimens. | Kageyama A, Yazawa K, Nishimura K, Mikami Y. | Int J Syst Evol Microbiol | 10.1099/ijs.0.02794-0 | 2004 | |
| Phylogeny | Nocardia pseudobrasiliensis sp. nov., a new species of Nocardia which groups bacterial strains previously identified as Nocardia brasiliensis and associated with invasive diseases. | Ruimy R, Riegel P, Carlotti A, Boiron P, Bernardin G, Monteil H, Wallace RJ, Christen R. | Int J Syst Bacteriol | 10.1099/00207713-46-1-259 | 1996 | |
| Phylogeny | Nocardia terrae sp. nov., an actinomycete isolated from soil in Thailand. | Kanchanasin P, Yuki M, Kudo T, Ohkuma M, Phongsopitanun W, Tanasupawat S | Arch Microbiol | 10.1007/s00203-020-02107-3 | 2020 | |
How to citeIf you want to cite this particular strain cite the following doi:
https://doi.org/10.13145/bacdive10725.20251217.10
When using BacDive for research please cite the following paper
BacDive in 2025: the core database for prokaryotic strain data
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