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51	Aspects of milk protein catabolism by lactobacilli. Broome, Malcolm Charles, mikewood@deakin.edu.au January 1988 (has links) Lactobacillus plantarum and subspecies of Lactobacillus casei were isolated from good quality mature Cheddar cheese and characterized with respect to metabolic functions that would allow their use in cheesemaking. In this way microbiological control of the maturation process with particular emphasis on protein catabolism was achieved. The lactobacilli isolated were selected for low growth rates (and acid production) in milk, and low proteinase activity to allow for their addition in high numbers to cheesemilk together with the normal starter flora (group N streptococci). The growth and acid production of the starter bacteria were unaffected by the presence of the lactobacilli during cheese manufacture and it was found that the added lactobacilli were able to grow and function under the conditions prevalent in Cheddar cheese during maturation. It was also demonstrated that the lactobacilli could be grown in an artificial medium to high numbers under controlled conditions and could be harvested for the preparation of cell concentrates, a necessary characteristic for commercialization. The lactobacilli also metabolized citrate, a potential problem in cheese maturation associated with C02 production but this did not adversely affect the maturation process under the conditions used. Compared to the group N streptococci the non-starter lactobacilli possessed a proteinase system that had a higher temperature optimum and was less affected by heat and sodium chloride. They also possessed a more active peptidase system although both the lactobacilli and the starter organisms possessed a similar range of peptidases. Non-starter lactobacilli were added to normal cheese and cheese made with proteinase negative starter. The added organisms did not adversely affect manufacturing parameters and did not metabolize citrate or lead to the formation of biogenic amines. However protein catabolism rates, particularly with respect to peptide degradation, were increased, as was flavour development and intensity. It was observed that the body and texture of the cheeses was unaffected by the treatment. By controlling both the starter and non-starter microflora in the cheeses a practical system for favourably influencing cheese maturation was possible. The investigation has demonstrated that carefully selected and characterized non-starter lactobacilli can be incorporated into Cheddar cheese manufacture in order to influence flavour development during maturation. Moreover the organisms can be added to the vat stage of manufacture without causing problems to the manufacturing process. This approach is a simple cost effective means of improving the cost of Cheddar cheese production and provides an unique opportunity to improve and control quality of all Cheddar cheese produced. milk proteins lactic acid bacteria cheese microbioogy lactobacillus
52	Evaluation of commercial practices to enhance the shelf-life of cottage cheese Cheung, Kuen 11 November 1993 (has links) Graduation date: 1994 Cottage cheese -- Preservatives Lactic acid bacteria Food preservatives
53	Development of an internal pH-controlled, phage inhibitory bulk starter medium for the propagation of thermophilic lactic acid bacteria used in the production of mozzarella cheese Whitehead, William E. 27 May 1993 (has links) Graduation date: 1994 Lactic acid bacteria Thermophilic bacteria Bacterial starter cultures Cheese -- Microbiology
54	Examining the structure, function and mode of action of bacteriocins from lactic acid bacteria Martin-Visscher, Leah A. 06 1900 (has links) Carnocyclin A (CclA) is a remarkably stable, potent bacteriocin produced by Carnobacterium maltaromaticum UAL307. Elucidation of the amino acid and genetic sequences revealed that CclA is a circular bacteriocin. Preliminary structural studies (dynamic light scattering, NMR, circular dichroism, stereochemical analysis) indicated that CclA is monomeric and alpha-helical in aqueous conditions and composed of L-residues. The 3D structure of [13C,15N]CclA was solved by NMR, revealing a compact arrangement of four helices. To examine the structure of the precursor peptide (pCclA) several fusion proteins were constructed and overexpressed; however, pCclA could not be isolated. To investigate the requirements for cyclization, several internally hexahistidine-tagged (His6) pCclA mutants were constructed. Expression conditions are underway. PisI was heterologously expressed and confirmed to impart protection against piscicolin 126 (PisA). Labeled and unlabeled PisA and PisI were purified following overexpression as maltose-binding protein fusions (MalE-fusions) and Factor Xa cleavage. NMR studies indicated that PisI and PisA do not physically interact. The 3D structure of PisI was solved by NMR, confirming that the four-helix bundle is a conserved motif for the immunity proteins of type IIa bacteriocins. The putative receptor proteins for these bacteriocins were cloned and overexpressed as His6-fusion proteins. Experiments are underway to optimize the expression and purification of these membrane proteins. The peptidase domain of the ABC-transporter protein (CbnTP) for carnobacteriocin B2 (CbnB2) was overexpressed as a His6-fusion protein. Active protease could not be purified from inclusion bodies, but was obtained as soluble protein following low-temperature overexpression. The CbnB2 precursor pCbnB2 (and a truncated derivative pCbnB2-RP) was purified following overexpression as a MalE-fusion and Factor Xa cleavage. pCbnB2 was incubated with CbnTP and MALDI-TOF and activity testing confirmed that CbnTP cleaved the leader peptide from pCbnB2. Five CysSer CbnTP mutants were constructed. Crystallographic studies of CbnTP are underway. Six bacteriocins (nisin, gallidermin, lacticin 3147, CclA, PisA, enterocin 710C) were tested against Gram-negative bacteria (E. coli DH5, Pseudomonas aeruginosa ATCC 14207, Salmonella typhimurium ATCC 23564) in the absence and presence of EDTA. PisA and lacticin 3147 exhibited minimal activity, whereas the other bacteriocins killed at least one strain, in the presence of EDTA. bacteriocins carnocyclin A immunity protein lactic acid bacteria type IIa bacteriocins
55	Growth of lactococci relative to antibiotic and quaternary ammonium compounds Valladao, Marilin 13 June 1990 (has links) The work presented in this thesis is concerned with the effect of several antibiotics and quaternary ammonium sanitizers upon growth of lactic acid bacteria. Section I reports the purification of beta-lactamase from Lactococcus cremoris PR-108, by ion exchange chromatography, using the chromogenic substrate pyridine-2-azo-p-dimethylaniline (PADAC) as the enzymatic indicator. Section II reports a study of the influence of antibiotics on lactococcal growth, where the effects of incubation time, culture dilution and the use of seeded and spread agar plate techniques are investigated. These studies were extended, in section III, to include investigations of the effect of quaternary ammonium base sanitizer (Ster-bac) on lactic starters. In addition, this section describes an reverse phase high performance liquid chromatography assay for the detection of quaternary ammonium compounds in milk. / Graduation date: 1991 Lactic acid bacteria Antibiotics -- Physiological effect Ammonium compounds as disinfectants
56	Immunomodulatory effects of lactic acid bacteria on human intestinal epithelial cells and macrophages in the context of a pro-inflammatory challenge Cooper, William 01 September 2009 (has links) Immunomodulatory effects of lactic acid bacteria vary with strain and may vary with growth phase and medium. The ability of different lactobacilli strains (Lactobacillus helveticus R0052, L. rhamnosus R0011, L. rhamnosus GG) at different growth phases to modulate macrophage and intestinal epithelial cell cytokine production following a pro-inflammatory challenge was examined. Modulation of cytokine production by human macrophage cell lines (U-937) and intestinal epithelial cells (HT-29) induced by Tumor Necrosis Factor α was assayed by ELISA for interleukin-8 (IL-8). Granulocyte-macrophage colony stimulating factor (GM-CSF) production was assayed by ELISA in the HT-29 cell line. Strain-dependent differences were observed in the ability of viable bacteria and spent de Mann-Rogosa- Sharpe (MRS) broths from log versus stationary growth phase in HT-29 and U-937 cells. Overall, variation in the immunomodulatory activity of these lactic acid bacteria and spent broths reflects not only strain variation but potentially also differences in growth phase and substrate. / UOIT Lactic acid bacteria Cytokine production Intestinal epithelial cells Immunomodulatory activity
57	Comparison between Simultaneous and Traditional Consecutive Malolactic Fermentations in Wine Pan, Wei 07 December 2012 (has links) Successfully inducing malolactic fermentation in the production of grape wines can be challenging, especially in wines after finishing alcoholic fermentation with limited energy sources, low pH values and high ethanol concentrations. In this thesis, the kinetics of several chemicals of enological relevance were studied in a white wine (Chardonnay) and a red wine (Cab Franc) vinified by traditional, consecutive alcoholic (AF) and malolactic fermentations (MLF), and simultaneous AF/MLF, where bacteria were co-inoculated with yeast. The Chardonnay must was adjusted to four pH values (3.20, 3.35, 3.50 or 3.65), the cab Franc was kept as original pH value (3.56) and the concentrations of sugars, organic acids as well as acetaldehyde were followed throughout the fermentations. For Chardonnay the degradation of glucose and fructose was slower at the lowest must pH value (3.20) and independent from the time of bacterial inoculation. In all cases, malolactic conversion was faster after yeast-bacterial co-inoculation and was completed in simultaneous treatments at pH values of 3.35-3.65, and consecutive treatments at pH 3.50 and 3.65. No statistically significant difference was observed among the final acetic acid concentration, in all inoculation and pH treatments. For Cab Franc, it confirmed that co-inoculation shortened the fermentation periods while having minor effects on other parameters. Overall, simultaneous AF/MLF allowed for greatly reduced fermentation times, while the must pH remained a strong factor for fermentation success and determined the final concentration of various wine components. The time of inoculation influenced formation and degradation kinetics of organic acids and acetaldehyde significantly.
58	Examining the structure, function and mode of action of bacteriocins from lactic acid bacteria Martin-Visscher, Leah A. Unknown Date No description available. bacteriocins carnocyclin A immunity protein lactic acid bacteria type IIa bacteriocins
59	Biochemical identification of bacteriocins from Enterococcus faecalis 710C Liu, Xiaoji Unknown Date No description available. Bacteriocin Mass spectrometry Lactic acid bacteria Food safety Antimicrobial peptide
60	Evaluation of lactic acid bacteria for the acceleration of cheese ripening using pulsed electric fields Briggs, Stephanie Sheryl January 2003 (has links) Cheese ripening is a costly and lengthy process. Increasing the enzyme pool in the cheese curd has been shown to accelerate the cheese ageing process, enhance flavour and texture. The characteristics of two lactic acid bacteria attenuated by pulsed electric fields were studied in a milk system and in cheese slurry. The potential of accelerating cheese ripening via the addition of starter cultures attenuated by pulsed electric fields (PEF) was studied. / Pulsed electric field treatment was performed in a static treatment chamber using bi-polar waveform with a field intensity of 20 kV and 2 mus pulse width. The number of pulses ranged from 10 to 500. Evaluation of the starter cultures was assessed through the analysis of acidifying abilities, survival fractions, enzymatic activities and proteolysis (RP-HPLC and Cd-ninhydrin) in water soluble nitrogen extracts following the different attenuation treatments. / Pulsed electric fields significantly affected the general viability of the cells through a delayed acidification and an inhibition of enzymatic activity. A study in cheese slurry systems showed that the cultures under investigation were not able to provide an increased proteolysis levels following PEF treatment. The results of this study also suggest that optimal PEF treatment varies for each LAB strain and that the Lactococcus strains do not possess high enough proteinase and peptidase activities to be beneficial for the acceleration of cheese ripening. Lactic acid bacteria. Cheesemaking.

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