Anke et al., “Secondary Metabolites with Nematicidal and Antimicrobial Activity from Nematophagous Fungi and Ascomycetes.” Can. J. Bot. (1995) 73 (Supple. 1):S932-S939. |
Hayashi et al., Agric. Biol. Chem. (1981) 45(6):1527-1529. Abstract. |
Kawazu et al., Biosci. Biotechnol. Biochem. (1993) 57(1):98-101. Abstract. |
Kloeper et al., “Development of a Powder Formulation of Rhizobacteria for Inoculation of Potato Seed Pieces.” Phytopathology (1981) 71:590-592. |
Mayer et al., “Screening of Higher Fungi for the Production of Nematicidal Compounds Using Meloidogyne incognita (Kofoid & White) Chitwood as Test Organism.” Med. Fac. Landbouww Univ. Gent. (1996) 61(3a):839-847. |
Masaphy et al., “Isolation and Characterization of a Novel Atrazine Metabolite Produced by the Fuungus Pleurotus pulmonarius, 2-Chloro-4-Ethylamino-6-(1-Hydroxysiopropyl)Amino-1,3,5-Traiazine.” Applied and Environmental Microbiology (1993) 59(12):4342-4346. |
Masaphy et al., “Manganese-Enhanced Biotransformation of Atrazine by the White Root Fungus Pleurotus pulmonarium and its Correlation with Oxidation Activity.” Applied and Environmental Microbiology (1996) 62(10):3587-3593. |
Mishra et al., J. Ind. Microbiol. (1987) 2(5):267-276. Abstract. |
Shan et al., New Metabolites with Nematicidal and Antimicrobial Activities from the Ascomycete Lachnum papyraceum (Karst.) Karst, The Journal of Antibiotics (1996) 49(5):447-452. |
Shimizu, “Bioactive Marine Natural Products, with Emphasis on Handling of Water-Soluble Compounds.” Natural Products (1985) 48:223-235. |
Stadler et al., Lachnumon and Lachnumol A, New Metabolites with Nematicidal and Antimicrobial Activities from the Ascomycete Lachnum papyraceum (Karst.) Karst., The Journal of Antibiotics (1993) 46(6)961-967. |
Stadler et al., Lachnumon and Lachnumol A, New Metabolites with Nematicidal and Antimicrobial Activities from the Ascomycete Lachnum papyraceum (Karst.) Karst., The Journal of Antibiotics (1993) 46(6):968-971. |
Stadler et al., Journal of Antibiotics (1994) 47(11):1284-1289. Abstract. |
Stadler et al., Planta Medica (1994) 60(2):128-132. Abstract. |
Stadler et al., Metabolites with Nematicidal and Antimicrobial Activities from the Ascomycete Lachnum papyraceum (Karst.) Karst., The Journal of Antibiotics (1995) 48(2):149-153. |
Stadler et al., New Metabolites with Nematicidal and Antimicrobial Activities from the Ascomycete Lachnum papyraceum (Karst.) Karst., The Journal of Antibiotics (1995) 48(2):154-157. |
Stadler et al., New Metabolites with Nematicidal and Antimicrobial Activities from the Ascomycete Lachnum papyraceum (Karst.) Karst., The Journal of Antibiotics (1995) 48(2):158-161. |
Stadler et al., Metabolites with Nematicidal and Antimicrobial Activities from the Ascomycete Lachnum papyraceum (Karst.) Karst., The Jouranl of Antibiotics (1995) 48(3):261-266. |
Stadler et al., “Novel Bioactive Azaphilones from Fruit Bodies and Mycelial Cultures of the Ascomycete Bulgaria inquinans (FR.).” Natural Product Letters (1995) 7:7-14. |
Stadler et al., “1,2-Dihydroxymintlactone, a New Nematicidal Monoterpene Isolated from the Basidiomycete Cheimonophyllum candidissimum (Berk & Curt.) Sing.” Z. Naturforsch. (1995) 50:473-475. |
Sterner, Metabolites with Nematicidal and Antimicrobioal Activities from the Ascomycete Lachnum papyraceum (Karst.) Karst., The Journal of Antibiotics (1995) 48(3):267-270. |
Townshend et al., Biological Control of Meloidogyne hapla on Alfalfa and Tomato with the Fungus Meria coniospora. Journal of Nematology (1989) 21:179-183. |
Vidhyasekaran et al., “Development of Formulations of Pseudomonas fluorescens for Control of Chickpea Wilt.” Plant Disease (1995) 79:782-786. |