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Pasteuriaceae
Desulfuribacillus Alkaliarsenatis Gen. Nov. Sp. Nov., a Deep-Lineage
LTER Proposal
Microbial Community Composition During Degradation of Organic Matter
Bacterial Degradation of Isoprene in the Terrestrial Environment Myriam
Genome Diversity of Spore-Forming Firmicutes MICHAEL Y
Integrated Management of Mi-1 Virulent Meloidogyne Incognita
Reorganising the Order Bacillales Through Phylogenomics
Controlling the Meloidogyne Disease Complex in Ugandan Tomatoes
POPULATION DYNAMICS of Pasteuria Penetrans in a PEANUT FIELD and DESCRIPTION of a Pasteuria ISOLATE INFECTING Mesocriconema Ornatum
Protein Profiling As a Tool for Identifying Environmental Aerobic Endospore-Forming Bacteria
Gut Microbiota and Obesity: a Role for Probiotics
Understanding Molecular Identification and Polyphasic
Leon Hartman Thesis
Biocontrol Potential of Pasteuria Spp. for the Management of Plant Parasitic Nematodes
Nematicidal Spore-Forming Bacilli Share Similar Virulence Factors And
Interspecies Interactions That Result in Bacillus Subtilis Forming Biofilms Are
Investigations of Pasteuria and the Root-Lesion Nematode Pratylenchus Penetrans in Soils Collected from Certified Organic Farms in the Mid-Atlantic United States
The Molecular Basis of Pasteuria-Nematode
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Pdf: High Quality, but Uncorrected Proofs
Pasteuria Penetrans (Bacilli: Bacillales: Pasteuriaceae)1 Ruhiyyih Dyrdahl-Young and Peter Digennaro2
Firmicutes Dominate the Bacterial Taxa Within Sugar-Cane Processing Plants
Survey of Pasteuria, the Parasitic Bacterial Group to Plant Parasitic Nematodes in Turkey
Henrici, 1932) There Were Illustrated Bacteria Growing Upon Submerged Slides Which Ap- Peared to Be Attached to the Slide by Stalks
Would Seem to Be an Indispensable Basis for More Detailed Work
Interspecies Interactions That Result in Bacillus Subtilis Forming Biofilms Are
Novel Strategies for Soil-Borne Diseases: Exploiting the Microbiome and Volatile-Based Mechanisms Toward Controlling Meloidogyne-Based Disease Complexes