Novel conjugative plasmids from the natural isolate Lactococcus lactis subspecies cremoris DPC3758: a repository of genes for the potential improvement of dairy starters

A collection of 17 natural lactococcal isolates from raw milk cheeses were studied in terms of their plasmid distribution, content, and diversity. All strains in the collection harbored an abundance of plasmids, including Lactococcus lactis ssp. cremoris DPC3758, whose 8-plasmid complement was selected for sequencing. The complete sequences of pAF22 (22,388 kb), pAF14 (14,419 kb), pAF12 (12,067 kb), pAF07 (7,435 kb), and pAF04 (3,801 kb) were obtained, whereas gene functions of technological interest were mapped to pAF65 (65 kb) and pAF45 (45 kb) by PCR. The plasmids of L. lactis DPC3758 were found to encode many genes with the potential to improve the technological properties of dairy starters. These included 3 anti-phage restriction/modification (R/M) systems (1 of type I and 2 of type II) and genes for immunity/resistance to nisin, lacticin 481, cadmium, and copper. Regions encoding conjugative/mobilization functions were present in 6 of the 8 plasmids, including those containing the R/M systems, thus enabling the food-grade transfer of these mechanisms to industrial strains. Using cadmium selection, the sequential stacking of the R/M plasmids into a plasmid-free host provided the recipient with increased protection against 936- and c2-type phages. The association of food-grade selectable markers and mobilization functions on L. lactis DPC3758 plasmids will facilitate their exploitation to obtain industrial strains with enhanced phage protection and robustness. These natural plasmids also provide another example of the major role of plasmids in contributing to host fitness and preservation within its ecological niche.     

Role of temperature and Suwannee River natural organic matter on inactivation kinetics of rotavirus and bacteriophage MS2 by solar irradiation

Although the sunlight-mediated inactivation of viruses has been recognized as an important process that controls surface water quality, the mechanisms of virus inactivation by sunlight are not yet clearly understood. We investigated the synergistic role of temperature and Suwannee River natural organic matter (SRNOM), an exogenous sensitizer, for sunlight-mediated inactivation of porcine rotavirus and MS2 bacteriophage. Upon irradiation by a full spectrum of simulated sunlight in the absence of SRNOM and in the temperature range of 14-42 °C, high inactivation rate constants, k(obs), of MS2 (k(obs) ≤ 3.8 h(-1) or 1-log(10) over 0.6 h) and rotavirus (k(obs) ≤ 11.8 h(-1) or ～1-log(10) over 0.2 h) were measured. A weak temperature (14-42 °C) dependence of k(obs) values was observed for both viruses irradiated by the full sunlight spectrum. Under the same irradiation condition, the presence of SRNOM reduced the inactivation of both viruses due to attenuation of lower wavelengths of the simulated sunlight. For rotavirus and MS2 solutions irradiated by only UVA and visible light in the absence of SRNOM, inactivation kinetics were slow (k(obs) < 0.3 h(-1) or <1-log(10) unit reduction over 7 h) and temperature-independent for the range considered. Conversely, under UVA and visible light irradiation and in the presence of SRNOM, temperature-dependent inactivation of MS2 was observed. For rotavirus, the SRNOM-mediated exogenous inactivation was only important at temperatures >33 °C, with low rotavirus k(obs) values (k(obs) ≈ 0.2 h(-1); 1-log(10) unit reduction over 12 h) for the temperature range of 14-33 °C. These k(obs) values increased to 0.5 h(-1) at 43 °C and 1.5 h(-1) (1-log(10) reduction over 1.6 h) at 50 °C. While SRNOM-mediated exogenous inactivation of MS2 was triggered by singlet oxygen, the presence of hydrogen peroxide was important for rotavirus inactivation in the 40-50 °C range.     

Determination of Phytic Acid in Juices and Milks by Developing a Quick Complexometric-Titration Method

Food Analytical Methods - Phytic acid is a compound regularly found in plant-based food and beverages. Although it may provide some health benefits to human body, it is commonly defined as an...     

Psychiatric aftercare clinic effectiveness as a function of patient demographic characteristics.

Investigations of aftercare clinics have repeatedly shown that ex-psychiatric patients who attend aftercare clinics have a lower rate of recidivism than base-rate recidivism figures. It was hypothesized that the clinic's effectiveness may be a function of the type of patient who chooses to attend rather than of the treatment provided by the clinic. Results of a study of 67 discharged mental patients, of whom 39 attended aftercare clinics indicate that demographic characteristics did not differentiate clinic attenders from nonattenders. In addition, Ss who attended aftercare clinics demonstrated a lower rate of recidivism than nonattenders. As expected, no difference between attenders and nonattenders was found for posthospital employment. (17 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Demographic characteristics as predictors of recidivism and posthospital employment.

Analyzed the relationship between patient demographic characteristics and psychiatric outcome as measured by recidivism and posthospital employment. Ss were 78 former psychiatric patients. Results indicate that the overwhelming amount of variance in recidivism accounted for by demographic data can be attributed to the number of previous hospitalizations. Similarly, 1 demographic variable (employment history) accounted for the major amount of variance in posthospital employment. Implications for research investigations of psychiatric treatment outcome are discussed. (PsycINFO Database Record (c) 2010 APA, all rights reserved)