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Literature DB >> 16347359

Selective Process for Efficient Isolation of Soil Bacillus spp.

R S Travers¹, P A Martin, C F Reichelderfer.

Abstract

We were able to isolate Bacillus thuringiensis from environmental samples with a background of 10 bacteria per g of soil. Our selection process differed significantly from classical selection methods which permit only the desired organism to grow. In our process, germination of B. thuringiensis spores was selectively inhibited by sodium acetate, while most of the undesired sporeformers germinated. Next, all of the nonsporulated microbes were eliminated by heat treatment at 80 degrees C for 3 min. The surviving spores were then plated on a rich agar medium and allowed to grow until they sporulated. Of random colonies picked from agar, 20 to 96% were crystal-forming Bacillus species. B. thuringiensis and B. sphaericus were routinely selected by this method.

Entities: Chemical Species

Year: 1987 PMID： 16347359 PMCID： PMC203852 DOI： 10.1128/aem.53.6.1263-1266.1987

Source DB: PubMed Journal: Appl Environ Microbiol ISSN： 0099-2240 Impact factor: 4.792

4 in total

1. Method for determining Bacillus thuringiensis var. thuringiensis Berliner in soil.

Authors: S M Saleh; R F Harris; O N Allen
Journal: Can J Microbiol Date: 1969-09 Impact factor: 2.419

2. Fate of Bacillus thuringiensis in soil: effect of soil pH and organic amendment.

Authors: S M Saleh; R F Harris; O N Allen
Journal: Can J Microbiol Date: 1970-08 Impact factor: 2.419

3. Insecticidal activity of recent bacterial isolates and their toxins against mosquito larvae.

Authors: S Singer
Journal: Nature Date: 1973-07-13 Impact factor: 49.962

4. Bacillus thuringiensis distribution in soils of the United States.

Authors: A J DeLucca; J G Simonson; A D Larson
Journal: Can J Microbiol Date: 1981-09 Impact factor: 2.419

4 in total

81 in total

1. A Bacillus thuringiensis S-layer protein involved in toxicity against Epilachna varivestis (Coleoptera: Coccinellidae).

Authors: Guadalupe Peña; Juan Miranda-Rios; Gustavo de la Riva; Liliana Pardo-López; Mario Soberón; Alejandra Bravo
Journal: Appl Environ Microbiol Date: 2006-01 Impact factor: 4.792

2. Biosynthesis of silver nanoparticles using Bacillus thuringiensis against dengue vector, Aedes aegypti (Diptera: Culicidae).

Authors: A Najitha Banu; C Balasubramanian; P Vinayaga Moorthi
Journal: Parasitol Res Date: 2013-10-31 Impact factor: 2.289

3. Isolation of Bacillus thuringiensis from Stored Tobacco and Lasioderma serricorne (F.).

Authors: P Kaelin; P Morel; F Gadani
Journal: Appl Environ Microbiol Date: 1994-01 Impact factor: 4.792

4. The Phylloplane as a Source of Bacillus thuringiensis Variants.

Authors: R A Smith; G A Couche
Journal: Appl Environ Microbiol Date: 1991-01 Impact factor: 4.792

5. Comparison of Disulfide Contents and Solubility at Alkaline pH of Insecticidal and Noninsecticidal Bacillus thuringiensis Protein Crystals.

Authors: C Du; P A Martin; K W Nickerson
Journal: Appl Environ Microbiol Date: 1994-10 Impact factor: 4.792

6. Distribution, Frequency, and Diversity of Bacillus thuringiensis in an Animal Feed Mill.

Authors: M P Meadows; D J Ellis; J Butt; P Jarrett; H D Burges
Journal: Appl Environ Microbiol Date: 1992-04 Impact factor: 4.792

7. Toxin Gene Contents and Activity of Bacillus thuringiensis Strains Against Two Sugarcane Borer Species, Diatraea saccharalis (F.) and D. flavipennella (Box).

Authors: L M Silva; M C Silva; S M F A Silva; R C Alves; H A A Siqueira; E J Marques
Journal: Neotrop Entomol Date: 2017-09-02 Impact factor: 1.434