Thermal inactivation of hear-resistant bacterial spores in milk concentration

Segner, Wayne Philip.

Unknown Date

Thesis (Ph. D.)--University of Wisconsin--Madison, 1962. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 56-62).

The isolation and characterization of three autolytic enzymes associated with sporulation of Bacillus thuringiensis var. thuringiensis

Kingan, Steven Lee,

January 1967

Thesis (M.S.)--University of Wisconsin--Madison, 1967. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Timing of enzyme synthesis during outgrowth of spores of Bacillus cereus strain T

Steinberg, William,

January 1967

Thesis (Ph. D.)--University of Wisconsin--Madison, 1967. / Typescript. Vita. Description based on print version record. Includes bibliographical references.

Sporulation of Clostridium perfringens in laboratory media

Groom, Rosemary Ann,

January 1965

Thesis (M.S.)--University of Wisconsin--Madison, 1965. / eContent provider-neutral record in process. Description based on print version record. Bibliography: l. 78-85.

Investigation into the diversity of antifungal aerobic endospore-forming bacteria associated with bulk and crop rhizosphere soil.

Musoke, Jolly.

January 2011

Members of the genus Bacillus are mainly Gram positive, aerobic rod shaped, endospore-forming bacteria that are increasingly being recognised for their ability to promote plant growth and antagonise fungal pathogens. From a biological control perspective, Bacillus spp. strains that produce antifungal compounds are of particular interest. In this study, aerobic endospore-formers were isolated from an undisturbed indigenous grassland soil and screened for antifungal activity and other plant growth promoting traits. Endospore-formers were also isolated from rhizosphere soil associated with the roots of maize, wheat and kale grown in pots containing soil from the same grassland site. Microbial diversity amongst isolates showing antifungal activity was investigated using different molecular fingerprinting methods, namely, intergenic transcribed spacer–PCR (ITS-PCR), random amplified polymorphic DNA-PCR (RAPD-PCR) and 16S rRNA gene amplification and sequencing. Characterization of the active antimicrobial compound(s) associated with selected isolates was also attempted. Prior to isolating from bulk and rhizosphere soils, samples were pre-heated to eliminate heat sensitive vegetative cells. Mean endospore counts were; wheat rhizosphere, Log 6.03 c.f.u g-1 soil; maize rhizosphere, Log 5.88 c.f.u g-1 soil; kale rhizosphere Log 5.90 c.f.u g-1 soil; and bulk soil Log 5.67 c.f.u g-1soil. A total of three hundred and eighty-four isolates were screened for antagonism towards Rhizoctonia solani using dual-culture plate bioassays. Thirty four of the isolates (~9%) mostly isolated from the bulk soil inhibited R. solani at varying degrees. Differences in antimicrobial interactions were apparent in in vitro bioassay; supposedly due to different concentrations and/or types of antimicrobial compounds. Biochemical tests for amylase, cellulase, chitinase, and proteinase activity, siderophore production and inorganic phosphate solubilisation were conducted. None of the isolates possessed all of these attributes and only a few showed multiple traits. Ninety-one percent of the isolates exhibited proteinase activity, 76% were able to hydrolyze starch whereas only four displayed cellulase activity. Only four isolates from the bulk-soil were capable of solubilising inorganic phosphate. ITS-PCR and 16S rRNA gene sequence analysis showed high levels of genetic homology amongst isolates and the majority were closely associated with representatives of the B. cereus group. Isolate C76 was the exception, being closely matched with B. subtilis. ITS-PCR banding profile was useful for distinguishing between species but did not distinguish within species. RAPD-PCR distinguished finer levels of genetic diversity between and within sample sets, with primer OPG-11 showing the greatest levels of heterogeneity. DNA extraction methods and the influence of template DNA dilution were investigated to determine their influence on RAPD-PCR analysis reproducibility. Prominent bands were comparable for crude template- and kit-extracted DNA but slight changes in band intensity and in some instances, additional faint bands were observed. At the highest DNA concentrations tested (7 μg/ml), further bands with molecular weights above 2.5 kbp were apparent. Strict standardization of PCR conditions greatly reduced variability of the RAPD-PCR analysis. Isolates from the different sample sets were screened for the presence of genetic markers associated with the biosynthesis of zwittermicin A, an aminopolyol antibiotic produced by some members of the B. cereus group. In an initial screen only one isolate, W96, yielded PCR amplicons consistent with those previously reported in the literature for the zwittermicin A genes. Later a further sixteen isolates grouped with W96 on the basis of the RAPD-PCR fingerprinting profiles, were screened for the presence of these genes. Of these, only six showed PCR amplification products similar to W96. Sequence homology testing against the GenBank database confirmed the presence of the zwittermicin A genes in these isolates. Isolate W96 was selected for further extraction and characterization of its antifungal compound(s). However, after culturing in various broth media cell free supernatants of W96 failed to show antifungal activity in vitro even when the supernatants were concentrated 20-fold. These findings provide a general overview of the diversity of aerobic endospore-forming bacteria present in an undisturbed indigenous grassland soil that exhibited antifungal activity in vitro and the limited influence tested crop rhizospheres have on this diversity. Combined use of ITS-PCR, 16S rRNA sequencing and RAPD-PCR techniques served as a rapid and effective means of grouping isolates for further investigations of their potential use as biocontrol agents and plant growth promoting rhizobacteria. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2011.

Aerobic bacteria.

Sporeforming bacteria.

Rhiozosphere.

Soil microbiology.

Theses--Microbiology.

Identification and characterization of some psychrotrophic heat resistant/sporeforming bacteria in the Grade A raw milk supply of Oregon

Meer, Ralph R.

07 August 1987

Heat resistant sporeforming psychrotrophic bacteria were isolated from raw milk samples from 59 Grade A farms in Oregon. Forty-nine of the 59 (83%) raw milk samples in this survey contained sporeforming psychrotrophic bacteria; isolates from twenty-four (40%) of the samples exhibited proteolytic properties. Populations of sporeforming psychrotrophic bacteria ranged from <10 to >10,000 CFU/mL for all samples. One hundred-two isolates were identified as Bacillus species. Twelve different Bacillus species were identified with B. licheniformis being the most predominate (18% of the samples) and B. laterosporus the least frequently isolated species, (2%). Fifty-eight percent of the bacilli isolates produced a bitter off-flavor and putrid odor, while 42% produced a fruity and/or rancid off-flavor when inoculated into sterile whole milk. Based on biochemical activity tests, 83% of the thermoduric isolates hydrolysed casein while 56% were proteolytic (in litmus milk), 57% demonstrated lipolytic activity and 31% produced acid in litmus milk. Forty-eight isolates that tested positive for proteolysis were evaluated quantitatively for activity, which ranged from 0.93 to 1.93 units (expressed as mM of alanine). Isolates of Bacillus cereus var. mycoides demonstrated significantly higher (p>0.05) proteolytic activity than other Bacillus species isolated. / Graduation date: 1988

Milk -- Microbiology

Milk -- Flavor and odor

Sporeforming bacteria

Bacillus (Bacteria)