Kingdom | Species | Biological Function | Origin/Habitat | Reference |
---|
Eukaryota | Aspergillus Fumigatus | NA | NA | Chippendale et al. 2014 |
Prokaryota | Burkholderia Cepacia | NA | NA | Dryahina et al. 2016 |
Prokaryota | Enterococcus Faecalis | NA | NA | Thorn et al. 2011 |
Prokaryota | Escherichia Coli | NA | NA | Allardyce et al. 2006 |
Prokaryota | Escherichia Coli | NA | NA | Allardyce et al. 2006 |
Prokaryota | Escherichia Coli | NA | NA | Thorn et al. 2011 |
Prokaryota | Neisseria Meningitidis | NA | NA | Allardyce et al. 2006 |
Prokaryota | Proteus Mirabilis | NA | NA | Thorn et al. 2011 |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Carroll et al. 2005 |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Allardyce et al. 2006 |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Thorn et al. 2011 |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Dryahina et al. 2016 |
Prokaryota | Staphylococcus Aureus | NA | NA | Allardyce et al. 2006 |
Prokaryota | Staphylococcus Aureus | NA | NA | Dryahina et al. 2016 |
Prokaryota | Stenotrophomonas Maltophilia | NA | NA | Dryahina et al. 2016 |
Prokaryota | Stenotrophomonas Maltophilia | NA | NA | Shestivska et al. 2015 |
Prokaryota | Stenotrophomonas Rhizophila | NA | NA | Shestivska et al. 2015 |
Prokaryota | Streptococcus Pneumoniae | NA | NA | Allardyce et al. 2006 |
Prokaryota | Streptococcus Pneumoniae | NA | NA | Scotter et al. 2006 |
Prokaryota | Escherichia Coli | NA | NA | Ahmed et al. 2023 |
Prokaryota | Klebsiella Pneumoniae | NA | NA | Ahmed et al. 2023 |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Ahmed et al. 2023 |
Prokaryota | Staphylococcus Aureus | NA | NA | Ahmed et al. 2023 |
Prokaryota | Escherichia Coli | NA | NA | Hewett et al. 2020 |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Bean et al. 2016 |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Davis et al. 2020 |
Prokaryota | Burkholderia Cepacia | NA | NA | NA |
Eukaryota | Candida Krusei | NA | NA | Hertel et al. 2016a |
Eukaryota | Candida Albicans | NA | NA | Hertel et al. 2016a |
Eukaryota | Candida Glabrata | NA | NA | Hertel et al. 2016a |
Eukaryota | Candida Tropicalis | NA | NA | Hertel et al. 2016a |
Prokaryota | Escherichia Coli | NA | NA | Lawal et al. 2018a |
Prokaryota | Escherichia Coli | NA | NA | Dixon et al. 2022 |
Prokaryota | Haemophilus Influenzae | NA | NA | Filipiak et al. 2012 |
Prokaryota | Klebsiella Pneumoniae | NA | NA | Zechman et al. 1986 |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Zechman et al. 1986 |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Neerincx et al. 2016 |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Lawal et al. 2018a |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | NA |
Prokaryota | Pseudomonas Putida | NA | NA | NA |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Filipiak et al. 2012 |
Prokaryota | Shewanella Putrefaciens | NA | NA | NA |
Prokaryota | Staphylococcus Aureus | NA | NA | Zechman et al. 1986 |
Prokaryota | Staphylococcus Aureus | NA | NA | Boots et al. 2014 |
Prokaryota | Staphylococcus Aureus | NA | NA | Lawal et al. 2018a |
Prokaryota | Stenotrophomonas Maltophilia | NA | NA | NA |
Prokaryota | Streptococcus Pneumoniae | NA | NA | Filipiak et al. 2012 |
Prokaryota | Enterobacter Cloacae | NA | NA | Jünger et al. 2012 |
Prokaryota | Escherichia Coli | NA | NA | Jünger et al. 2012 |
Prokaryota | Proteus Mirabilis | NA | NA | Jünger et al. 2012 |
Prokaryota | Pseudomonas Aeruginosa | NA | NA | Jünger et al. 2012 |
Prokaryota | Serratia Marcescens | NA | NA | Jünger et al. 2012 |
Prokaryota | Enterobacter Cloacae | | NA | Lawal et al. 2018 |
Prokaryota | Pseudomonas Aeruginosa | | NA | Lawal et al. 2018 |
Eukaryota | Eurotium Amstelodami | | wild strains | Schleibinger et al. 2005 |
Eukaryota | Penicillium Brevicompactum | | wild strains | Schleibinger et al. 2005 |
Prokaryota | Bacillus Acidiceler | | NA | Méndez-Bravo et al. 2018 |
Prokaryota | Shigella Sonnei | | China Center of Industrial Culture collection | Wang et al. 2018 |
Eukaryota | Fusarium Oxysporum | | onion | Wang et al. 2018 |
Eukaryota | Fusarium Proliferatum | | onion | Wang et al. 2018 |
Prokaryota | Bacillus Sp. | antifungal activity against Fusarium solani | Rhizosphere soil of avocado | Guevara-Avendaño et al. 2019 |
Prokaryota | Ignatzschineria Indica | | pig (Sus scrofa domesticus) carcass | Cernosek et al. 2020 |
Prokaryota | Pseudomonas Fluorescens | 0 | Medicago spp. plant rhizospheres | Hernández-León et al. 2015 |
Prokaryota | Hyphomonas Sp. | | swine wastewater | Cho et al. 2019 |
Prokaryota | Rhizobium Sp. | | swine wastewater | Cho et al. 2019 |
Prokaryota | Pseudomonas Protegens | | NA | Mannaa et al. 2018 |
Prokaryota | Serratia Marcescens | antifungal activity against Aspergillus flavus | tea rhizosphere in Xinyang, Henan province, China | Gong et al. 2022 |
Prokaryota | Bacillus Muralis | antifungal activity against mycelial growth and spore germination of phytopathogenic Moniliophtora roreri | phytopathology strain collection of El Colegio de la Frontera Sur (ECOSUR), Tapachula, Chiapas, Mexico | De la Cruz-López et al. 2022 |
Prokaryota | Bacillus Pumilus | antifungal activity against mycelial growth and spore germination of phytopathogenic Moniliophtora roreri | phytopathology strain collection of El Colegio de la Frontera Sur (ECOSUR), Tapachula, Chiapas, Mexico | De la Cruz-López et al. 2022 |
Prokaryota | Novosphingobium Lindaniclasticum | antifungal activity against mycelial growth and spore germination of phytopathogenic Moniliophtora roreri | phytopathology strain collection of El Colegio de la Frontera Sur (ECOSUR), Tapachula, Chiapas, Mexico | De la Cruz-López et al. 2022 |
Prokaryota | Bacillus Subtilis | antifungal activity against mycelial growth and spore germination of phytopathogenic Moniliophtora roreri | phytopathology strain collection of El Colegio de la Frontera Sur (ECOSUR), Tapachula, Chiapas, Mexico | De la Cruz-López et al. 2022 |
Prokaryota | Bacillus Amyloliquefaciens | antifungal activity against mycelial growth and spore germination of phytopathogenic Moniliophtora roreri | phytopathology strain collection of El Colegio de la Frontera Sur (ECOSUR), Tapachula, Chiapas, Mexico | De la Cruz-López et al. 2022 |
Prokaryota | Bacillus Megaterium | antifungal activity against mycelial growth and spore germination of phytopathogenic Moniliophtora roreri | phytopathology strain collection of El Colegio de la Frontera Sur (ECOSUR), Tapachula, Chiapas, Mexico | De la Cruz-López et al. 2022 |
Prokaryota | Bacillus Subtilis | antibacterial activity against growth of Ralstonia solanacearum | Plant Bacteriology Lab, Division of Plant Pathology, Indian Council of Agricultural Research - Indian Agricultural Research Institute, New Delhi | Kashyap et al. 2022 |
Prokaryota | Pseudomonas Fluorescens | antibacterial activity against growth of Ralstonia solanacearum | Plant Bacteriology Lab, Division of Plant Pathology, Indian Council of Agricultural Research - Indian Agricultural Research Institute, New Delhi | Kashyap et al. 2022 |
Prokaryota | Pseudomonas Sp. | antifungal activity against Thielaviopsis ethacetica mycelial growth | Brazilian Biorenewables National Laboratory – LNBR/CNPEM Microorganism Collection, Campinas, SP; isolatedfrom soil and roots of highly productive sugarcane-producing regions; Brazil | Freitas et al. 2022 |
Prokaryota | Bacillus Mycoides | | isolate from Irish potato soils | Heenan-Daly et al. 2021 |
Prokaryota | Pseudomonas Pseudoalcaligenes | promotes the growth of Zea mays L. and confer the resistance to drought stress in this maize | Applied Microbiology and Biotechnology lab, Department of Biosciences, Comsats University Islamabad | Yasmin et al. 2021 |
Eukaryota | Candida Albicans | | ATCC MYA-2876, American Type Culture Collection | Costa et al. 2020 |
Eukaryota | Candida Glabrata | | ATCC 90030, American Type Culture Collection | Costa et al. 2020 |
Eukaryota | Candida Tropicalis | | ATCC 750, American Type Culture Collection | Costa et al. 2020 |
Prokaryota | Staphylococcus Aureus | | Leibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbH | Fitzgerald et al. 2020 |
Prokaryota | Pseudomonas Aeruginosa | | Leibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbH | Fitzgerald et al. 2020 |
Prokaryota | Escherichia Coli | | Leibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbH | Fitzgerald et al. 2020 |
Prokaryota | Staphylococcus Epidermidis | | strains were provided by Prof. O'Gara at NUI Galway | Fitzgerald et al. 2020 |
Prokaryota | Bacillus Subtilis | growth stimulation effects on Solanum tuberosum tubers (potato) and Zea mays seeds (maize) | NA | Mülner et al. 2020 |
Prokaryota | Bacillus Subtilis | | NA | Mülner et al. 2020 |
Prokaryota | Bacillus Atrophaeus | growth stimulation effects on Solanum tuberosum tubers (potato) and Zea mays seeds (maize) | NA | Mülner et al. 2020 |
Prokaryota | Bacillus Amyloliquefaciens | | Leibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbH | Mülner et al. 2020 |
Prokaryota | Bacillus Velezensis | growth stimulation effects on Solanum tuberosum tubers (potato) and Zea mays seeds (maize) | Leibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbH | Mülner et al. 2020 |
Prokaryota | Bacillus Velezensis | growth stimulation effects on Solanum tuberosum tubers (potato) and Zea mays seeds (maize) | NA | Mülner et al. 2020 |
Prokaryota | Bacillus Velezensis | | NA | Mülner et al. 2020 |
Prokaryota | Bacillus Licheniformis | | Leibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbH | Mülner et al. 2020 |
Prokaryota | Bacillus Licheniformis | | NA | Mülner et al. 2020 |
Prokaryota | Pseudomonas Aeruginosa | | National Collections of Industrial Food and Marine Bacteria, American Type Culture Collection | Slade et al. 2022 |
Prokaryota | Chromobacterium Vaccinii | antifungal activity against Trichoderma sp. MWU14-9201, Phoma sp. MWU-UMCS9302, Colletotrichum sp. MWU-UMCS9301, Coleophoma sp. MWU-UMCS9305 and Phytophthora cinnamomi R001 | isolate from cultivated cranberry bog soils in Massachusetts (USA) | Ebadzadsahrai et al. 2020 |
Prokaryota | Staphylococcus Epidermidis | | American Type Culture Collection | Jenkins and Bean 2020 |
Prokaryota | Streptomyces Griseus | | NA | Riu et al. 2022 |
Eukaryota | Chromera Velia | | Culture Collection of Algae and Protozoa (CCAP) at the SAMS Limited Scottish Marine Institute (Oban, Argyll, Scotland, UK) | Koteska et al. 2023 |
Prokaryota | Bacillus Cereus | promote fungal hypocrellin A production in Shiraia sp. S9 | isolate and deposite at the China General Microbiological Culture Collection Center (CGMCC) | Xu et al. 2022 |
Prokaryota | Burkholderia Pyrrocinia | promote aerial and root growth in Arabidopsis thaliana seedlings | Rhizosphere soil samples from roots of maize (Zea mays L.) grown in Gongju, South Korea | Luo et al. 2022 |
Prokaryota | Streptomyces Alboflavus | n/a | NA | Wang et al. 2013 |
Prokaryota | Streptomyces Albidoflavus | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Sp. | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Rishiriensis | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Albus | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Antibioticus | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Aureofaciens | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Coelicolor | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Diastatochromogenes | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Griseus | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Hirsutus | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Hygroscopicus | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Murinus | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Olivaceus | n/a | NA | Schöller et al. 2002 |
Prokaryota | Streptomyces Thermoviolaceus | n/a | NA | Schöller et al. 2002 |
Prokaryota | Serratia Proteamaculans | n/a | NA | Weise et al. 2014 |
Prokaryota | Serratia Plymuthica | n/a | NA | Weise et al. 2014 |
Prokaryota | Lactococcus Sp. | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Lactobacillus Sp. | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Oenococcus Oeni | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Lactobacillus Brevis | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Lactobacillus Hilgardii | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Lactobacillus Plantarum | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Streptomyces Sp. | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Actinomycetes Sp. | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Alcaligenes Sp. | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Bacillus Sp. | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Citrobacter Sp. | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Enterobacter Sp. | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Klebsiella Sp. | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Klebsiella Oxytoca | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Serratia Sp. | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Aeromonas Veronii | This compound is assumed to have an antagonistic effect against sapstain fungi. | NA | Schulz and Dickschat 2007 |
Prokaryota | Stenotrophomonas Maltophilia | n/a | NA | Zou et al. 2007 |
Prokaryota | Alcaligenes Faecalis | n/a | NA | Zou et al. 2007 |
Prokaryota | Arthrobacter Nitroguajacolicus | n/a | NA | Zou et al. 2007 |
Prokaryota | Lysobacter Gummosus | n/a | NA | Zou et al. 2007 |
Prokaryota | Sporosarcina Ginsengisoli | n/a | NA | Zou et al. 2007 |
Prokaryota | Bacillus Simplex | Reduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus. | NA | Gu et al. 2007 |
Prokaryota | Bacillus Subtilis | Reduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus. | NA | Gu et al. 2007 |
Prokaryota | Bacillus Weihenstephanensis | Reduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus. | NA | Gu et al. 2007 |
Prokaryota | Microbacterium Oxydans | Reduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus. | NA | Gu et al. 2007 |
Prokaryota | Streptomyces Lateritius | Reduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus. | NA | Gu et al. 2007 |
Prokaryota | Serratia Marcescens | Reduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus. | NA | Gu et al. 2007 |
Prokaryota | Streptomyces Sp. | n/a | NA | Dickschat et al. 2005_2 |
Prokaryota | Cytophaga-Flavobacterium-Bacteroides | n/a | NA | Dickschat et al. 2005_3 |
Prokaryota | Collimonas Fungivorans | n/a | NA | Garbeva et al. 2014 |
Eukaryota | Tuber Magnatum | n/a | Italian geographical areas ( Umbria, Piedmont, Marche, Emilia Romagna, Border region area between Emilia Romagna and Marche, Tuscany, Molise) | Gioacchini et al. 2008 |
Eukaryota | Tuber Melanosporum | n/a | T. melanosporum was from the cultivated truffle zones in the province and T. aestivum from the natural truffle zones in the same region | Cullere et al. 2010 |
Eukaryota | Tuber Aestivum | n/a | T. melanosporum was from the cultivated truffle zones in the province and T. aestivum from the natural truffle zones in the same region | Cullere et al. 2010 |
Prokaryota | Burkholderia Ambifaria | n/a | Burkholderia ambifaria LMG 17828 from root, LMG 19182 from rhizosphere and LMG 19467 from clinical. | Groenhagen et al. 2013 |
Prokaryota | Burkholderia Glumae | n/a | NA | Blom et al. 2011 |
Prokaryota | Burkholderia Caribensis | n/a | NA | Blom et al. 2011 |
Prokaryota | Burkholderia Lata | n/a | NA | Blom et al. 2011 |
Prokaryota | Burkholderia Phenazinium | n/a | NA | Blom et al. 2011 |
Prokaryota | Burkholderia Phenoliruptrix | n/a | NA | Blom et al. 2011 |
Prokaryota | Burkholderia Pyrrocinia | n/a | NA | Blom et al. 2011 |
Prokaryota | Burkholderia Sacchari | n/a | NA | Blom et al. 2011 |
Prokaryota | Burkholderia Terricola | n/a | NA | Blom et al. 2011 |
Prokaryota | Burkholderia Xenovorans | n/a | NA | Blom et al. 2011 |
Prokaryota | Chromobacterium Violaceum | n/a | NA | Blom et al. 2011 |
Prokaryota | Cupriavidus Necator | n/a | NA | Blom et al. 2011 |
Prokaryota | Limnobacter Thiooxidans | n/a | NA | Blom et al. 2011 |
Prokaryota | Pandoraea Norimbergensis | n/a | NA | Blom et al. 2011 |
Prokaryota | Pseudomonas Aeruginosa | n/a | NA | Blom et al. 2011 |
Prokaryota | Pseudomonas Fluorescens | n/a | NA | Blom et al. 2011 |
Prokaryota | Pseudomonas Putida | n/a | NA | Blom et al. 2011 |
Prokaryota | Serratia Entomophila | n/a | NA | Blom et al. 2011 |
Prokaryota | Serratia Marcescens | n/a | NA | Blom et al. 2011 |
Prokaryota | Serratia Plymuthica | n/a | NA | Blom et al. 2011 |
Prokaryota | Serratia Proteamaculans | n/a | NA | Blom et al. 2011 |
Prokaryota | Burkholderia Tropica | n/a | NA | Tenorio-Salgado et al. 2013 |
Prokaryota | Bacillus Amyloliquefaciens | n/a | NA | Lee et al. 2012 |
Prokaryota | Bacillus Subtilis | n/a | NA | Lee et al. 2012 |
Prokaryota | Paenibacillus Polymyxa | n/a | NA | Lee et al. 2012 |
Prokaryota | Collimonas Pratensis | n/a | NA | Garbeva et al. 2014 |
Prokaryota | Staphylococcus Aureus | n/a | NA | Elgaali et al. 2002 |
Prokaryota | Escherichia Coli | n/a | NA | Siripatrawan et al. 2008 |
Prokaryota | Burkholderia Sp. | bacterial interations | rhizosphere and bulk soil of Carex arenaria | Tyc et al. 2017 |
Prokaryota | Paenibacillus Sp. | bacterial interations | rhizosphere and bulk soil of Carex arenaria | Tyc et al. 2017 |
Prokaryota | Escherichia Coli | | American Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology Laboratory | Elgaali et al. 2002 |
Prokaryota | Bacillus Cereus | | American Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology Laboratory | Elgaali et al. 2002 |
Prokaryota | Bacillus Polymyxa | | American Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology Laboratory | Elgaali et al. 2002 |
Prokaryota | Enterococcus Durans | | American Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology Laboratory | Elgaali et al. 2002 |
Prokaryota | Enterococcus Faecium | | American Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology Laboratory | Elgaali et al. 2002 |
Prokaryota | Lactobacillus Lactis | | American Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology Laboratory | Elgaali et al. 2002 |
Prokaryota | Leuconostoc Mesenteroides | | American Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology Laboratory | Elgaali et al. 2002 |
Prokaryota | Streptococcus Agalactiae | | American Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology Laboratory | Elgaali et al. 2002 |
Prokaryota | Streptococcus Thermophilus | | American Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology Laboratory | Elgaali et al. 2002 |
Eukaryota | Fusarium Sp. | | NA | Brock et al. 2011 |
Eukaryota | Penicillium Sp. | | NA | Larsen 1998 |
Prokaryota | Pseudomonas Perolens | na | sterile fish muscle (Sebastes melanops) | Miller et al. 1973 |
Prokaryota | Pseudomonas Tolaasii | na | na | Lo Cantore et al. 2015 |
Prokaryota | Pseudonocardia Thermophila | na | soil | Wilkins 1996 |
Prokaryota | Saccharomonospora Rectivirgula | na | soil | Wilkins 1996 |
Prokaryota | Saccharomonospora Viridis | na | soil | Wilkins 1996 |
Prokaryota | Thermoactinomyces Vulgaris | na | soil | Wilkins 1996 |
Prokaryota | Thermomonospora Fusca | na | soil | Wilkins 1996 |
Prokaryota | Streptomyces Griseus | na | soil | Wilkins 1996 |
Prokaryota | Streptomyces Sp. | na | breathing zone of a waste collection worker | Wilkins 1996 |
Prokaryota | Pseudochrobactrum Saccharolyticum | Nematicidal activity | cow dung | XU et al. 2015 |
Prokaryota | Proteus Hauseri | Nematicidal activity | cow dung | XU et al. 2015 |
Prokaryota | Wautersiella Falsenii | Nematicidal activity | cow dung | XU et al. 2015 |
Prokaryota | Arthrobacter Nicotianae | Nematicidal activity | cow dung | XU et al. 2015 |
Prokaryota | Achromobacter Xylosoxidans | Nematicidal activity | cow dung | XU et al. 2015 |
Prokaryota | Pseudomonas Putida | reduces mycelium growth and sclerotia germination of Sclerotinia sclerotiorum USB-F593; lyses red blood cells | rhizosphere of bean plants, southern Italy | Giorgio et al. 2015 |
Prokaryota | Pseudomonas Vranovensis | na | rhizosphere of field-grown potato plants | Hunziker et al. 2015 |
Prokaryota | Pseudomonas Veronii | na | rhizosphere of field-grown potato plants | Hunziker et al. 2015 |
Prokaryota | Pseudomonas Chlororaphis | na | rhizosphere of field-grown potato plants | Hunziker et al. 2015 |
Prokaryota | Pseudomonas Fluorescens | na | rhizosphere of field-grown potato plants | Hunziker et al. 2015 |
Prokaryota | Pseudomonas Frederiksbergensis | na | phyllosphere of field-grown potato plants | Hunziker et al. 2015 |
Prokaryota | Pseudomonas Syringae | na | phyllosphere of field-grown potato plants | Hunziker et al. 2015 |
Prokaryota | Pseudomonas Jessenii | na | phyllosphere of field-grown potato plants | Hunziker et al. 2015 |
Prokaryota | Pseudomonas Aeruginosa | na | na | Briard et al. 2016 |
Prokaryota | Pseudomonas Chlororaphis | bacteriostatic on Agrobacterium tumefaciens C58, suppresses growth of cyanobacterium strain Synechococcus sp. PCC 7942, kills Caenorhabditis elegans | Rhizosphere of maize, Kiev region, Ukraine | Popova et al. 2014 |
Prokaryota | Serratia Proteamaculans | bacteriostatic on Agrobacterium tumefaciens C58, suppresses growth of cyanobacterium strain Synechococcus sp. PCC 7942, kills Caenorhabditis elegans | spoiled meat | Popova et al. 2014 |
Prokaryota | Serratia Plymuthica | stimulates growth of Pseudomonas fluorescens Pf0-1 | maize rhizosphere, Netherlands | Garbeva et al. 2014 |
Prokaryota | Chryseobacterium Sp. | na | na | Tyc et al. 2015 |
Prokaryota | Tsukamurella Sp. | na | na | Tyc et al. 2015 |
Prokaryota | Dyella Sp. | na | na | Tyc et al. 2015 |
Prokaryota | Janthinobacterium Sp. | na | na | Tyc et al. 2015 |
Prokaryota | Ralstonia Solanacearum | na | na | Spraker et al. 2014 |
Eukaryota | Aspergillus Versicolor | na | damp indoor environments, food products | Sunesson et al. 1995 |
Eukaryota | Penicillium Commune | na | in dry-cured meat products, cheese | Sunesson et al. 1995 |
Eukaryota | Phialophora Fastigiata | na | na | Sunesson et al. 1995 |
Prokaryota | Leuconostoc Mesenteroides | can be used to modify or intensify the flavour of industrial cheeses or fermented milks or to preserve the peculiar flavour of traditional dairy products | NA | Pogačić et al. 2016 |
Prokaryota | Serratia Sp. | n/a | NA | Bruce et al. 2004 |
Eukaryota | Saccharomyces Cerevisiae | n/a | NA | Bruce et al. 2004 |
Prokaryota | Staphylococcus Aureus | | National collection of type cultures (NCTC) UK | Tait et al. 2014 |
Prokaryota | Escherichia Coli | | National collection of type cultures (NCTC) UK | Tait et al. 2014 |
Prokaryota | Pseudomonas Putida | na | na | Schöller et al. 1997 |
Prokaryota | Pseudomonas Fluorescens | na | soil, water, plants | Schöller et al. 1997 |
Prokaryota | Pseudomonas Aeruginosa | na | soil, water, skin flora | Schöller et al. 1997 |
Prokaryota | Serratia Liquefaciens | na | soil, water, plants; digestive tracts of rodents, insects, fish, humans | Schöller et al. 1997 |
Prokaryota | Enterobacter Cloacae | na | ubiquitary,intestinal | Schöller et al. 1997 |
Prokaryota | Leuconostoc Mesenteroides | na | Cantal cheese | Pogačić et al. 2016 |
Prokaryota | Alcaligenes Faecalis | na | na | Su et al. 2016 |
Prokaryota | Bacillus Cereus | na | na | Su et al. 2016 |
Prokaryota | Brevibacterium Epidermidis | na | na | Su et al. 2016 |
Prokaryota | Proteus Penneri | na | na | Su et al. 2016 |
Prokaryota | Proteus Vulgaris | na | na | Su et al. 2016 |
Prokaryota | Providencia Rettgeri | na | na | Su et al. 2016 |
Prokaryota | Pseudochrobactrum Asaccharolyticum | na | na | Su et al. 2016 |
Eukaryota | Tuber Magnatum | n/a | Fortywoodland of the Basilicata region | Mauriello et al. 2004 |
Eukaryota | Tuber Panniferum | n/a | Fortywoodland of the Basilicata region | Mauriello et al. 2004 |
Eukaryota | Penicillium Clavigerum | | compost | Fischer et al. 1999 |
Prokaryota | Pseudomonas Aeruginosa | | clinic | Preti et al. 2009 |
Prokaryota | Citrobacter Freundii | | American Type Culture Collection | Robacker and Bartelt 1997 |
Prokaryota | Klebsiella Pneumoniae | | American Type Culture Collection | Robacker and Bartelt 1997 |
Prokaryota | Streptomyces Sp. | | NA | Jones et al. 2017 |
Prokaryota | Pseudomonas Putida | positive influence of the plant root growth and protection against soil-borne pathogens | NA | Sheoran et al. 2015 |
Prokaryota | Pseudomonas Putida | na | black pepper root | Sheoran et al. 2015 |
Eukaryota | Tuber Borchii | None | T. melanosporum, T. borchii were collected from northern Italy (Piedmont) and T. indicum from Yunnan and Sichuan Provinces (China). | Splivallo et al. 2007b |
Eukaryota | Tuber Melanosporum | None | T. melanosporum, T. borchii were collected from northern Italy (Piedmont) and T. indicum from Yunnan and Sichuan Provinces (China). | Splivallo et al. 2007b |
Prokaryota | Peribacillus Sp. | NA | NA | Toral et al. 2021 |
Prokaryota | Pseudomonas Segetis | NA | NA | Toral et al. 2021 |
Prokaryota | Psychrobacillus Vulpis | NA | NA | Toral et al. 2021 |
Prokaryota | Bacillus Subtilis | NA | NA | Lee et al. 2023 |
Eukaryota | Phytophthora Cinnamomi | N/A | Phytophthora cinnamomi | Qiu R et al. 2014 |
Eukaryota | Phytophthora Cactorum | N/A | Phytophthora cactorum | Loulier et al. 2020 |
Eukaryota | Lentinula Edodes | | | Geng et al. 2024 |
Prokaryota | Microbacterium | | | Ballot et al. 2023 |