Long Term Evaluation of the Effects of Bacillus thuringiensis kurstaki, Gypsy Moth Nucleopolyhedrosis Virus Product Gypchek®, and Entomophaga maimaiga on Nontarget. Download PDF Download. Germination of Bacillus thuringiensis Spores in Bacteriophagous. During screening of Bacillus thuringiensis isolates for nematicidal.

Abstract Biological insecticide formulations based on the entomogenous bacterium. Bacillus thuringiensis, have begun to be used widely in agriculture. This spore-forming bacillus can be grown in submerged culture and formulated to provide stable agricultural formulations compatible with aerial and ground application systems. The safety of these products to nontarget organisms and man is responsible for the growing interest in their use on a variety of crops including pastures and forests. No longer a laboratory curiosity, B. Thuringiensis is an economic alternative to chemical insecticides.

• 1 Kannan Revathi, Rajamanickam Chandrasekaran, Annamalai Thanigaivel, Suyambulingam Arunachalam Kirubakaran, Sengottayan Senthil-Nathan, Biocontrol efficacy of protoplast fusants betweenBacillus thuringiensisandBacillus subtilisagainstSpodoptera lituraFabr., Archives Of Phytopathology And Plant Protection, 2014, 47, 11, 1365 • 2 David I. Shapiro-Ilan, Denny J. Bruck, Lawrence A. Lacey, Insect Pathology, 2012, 29 • 3 Ke-xue Huang, Monty Badger, Keith Haney, Steve L.

Evans, Large scale production of Bacillus thuringiensis PS149B1 insecticidal proteins Cry34Ab1 and Cry35Ab1 from Pseudomonas fluorescens, Protein Expression and Purification, 2007, 53, 2, 325 • 4 O.N. Kanagaratnam, V.

Converse, Suitability of 30 Agricultural Products and By-Products as Nutrient Sources for Laboratory Production ofBacillus thuringiensissubsp.aizawai(HD133), Journal of Invertebrate Pathology, 1997, 70, 2, 113 • 5 M.R. Halverson, S. Budijono, Enzyme inactivation in a droplet forming a bubble during drying, Journal of Food Engineering, 1996, 27, 1, 17 • 6 Wan-Yin Fu, Shing-Yi Suen, Mark R. Etzel, Inactivation of Lacto Coccus Lactis Ssp. Lactis C2 and Alkaline Phosphatase During Spray Drying, Drying Technology, 1995, 13, 5-7, 1463 • 7 Yoshinori Tanada, Harry K. Manual Samsung Ht-z220t.

Kaya, Insect Pathology, 1993, 554 • 8 A. El-Moursy, R. Aboul-Ela, H.

Abdel-Razek, Chemical additives that affect the potency of endotoxin of Bacillus thuringiensis against Plodia interpunctella, International Journal of Tropical Insect Science, 1992, 13, 06, 775 • 9 H. Abd El-Baset, M.

Ragaei, Mode of action of chemical additives in enhancing the potency ofBacillus thuringiensisagainst lepidopterous insects, Journal of Applied Entomology, 1992, 114, 1-5, 167 • 10 C. Ludlum, Gary W. Felton, Sean S. Duffey, Plant defenses: Chlorogenic acid and polyphenol oxidase enhance toxicity ofBacillus thuringiensis subsp.kurstaki toHeliothis zea, Journal of Chemical Ecology, 1991, 17, 1, 217 • 11 Mirta M.

Faloci, Osvaldo M. Yantorno, Horacio A. Apple Prores 422 Codec Mac Premiere there. Marino, Jorge A. Arcas, Rodolfo J. Ertola, Effect of the media composition on the growth parameters and biological properties ofBacillus thuringiensis var.israelensis delta-endotoxin, World Journal of Microbiology and Biotechnology, 1990, 6, 1, 32 • 12 C. Avignone Rossa, O.

Ertola, Organic and inorganic nitrogen source ratio effects onBacillus thuringiensis var.israelensis delta-endotoxin production, World Journal of Microbiology and Biotechnology, 1990, 6, 1, 27 • 13 H. Sharaby, Potentiation ofBacillus thuringiensisendotoxin against the greasy cutwormAgrotis ypsilon, Journal of Applied Entomology, 1989, 108, 1-5, 372 • 14 D. Pearson, O.P. Ward, Bioinsecticide activity, bacterial cell lysis and proteolytic activity in cultures ofBacillus thuringiensissubsp.israelensis, Journal of Applied Bacteriology, 1988, 65, 3, 195 • 15 D.

Ward, Effect of culture conditions on growth and sporulation ofBacillus thuringiensis subsp.israelensis and development of media for production of the protein crystal endotoxin, Biotechnology Letters, 1988, 10, 7, 451 • 16 Gerald E. Rowe, Argyrios Margaritis, Howard T. Dulmage, Bioprocess Developments in the Production of Bioinsecticides byBacillus Thuringiensis, Critical Reviews in Biotechnology, 1987, 6, 1, 87 • 17 B. Khachatourians, Plasmid stability ofBacillus thuringiensis var.kurstaki (HD-1) during continuous phased cultivation, Biotechnology Letters, 1987, 9, 7, 483 • 18 M. Brownbridge, J. Margalit, New Bacillus thuringiensis strains isolated in Israel are highly toxic to mosquito larvae, Journal of Invertebrate Pathology, 1986, 48, 2, 216 • 19 H. Foda, Aziza Sharaby, Possible extension of the activity spectrum of Bacillus thuringiensis strains through chemical additives, Journal of Applied Entomology, 1986, 101, 1-5, 304 • 20 J.