Analysis of aflatoxin B1 and aflatoxigenic mold in commercial poultry feeds in Tamil Nadu, India

A total of 48 commercial poultry feed samples collected from different poultry feed manufactures in Tamil Nadu, India were examined for the contamination of aflatoxin B1 (AFB1) and Aspergillus flavus. AFB1 in the samples was estimated by sandwich ELISA and the presence of A. flavus was detected by Real-Time PCR assay. Real-Time PCR analysis using A. flavus- specific omt primers confirmed the presence of A. flavus in all the samples tested. ELISA results indicated that the AFB1 contents in the poultry feeds ranged from 1.0 to18.7 ppb, which were below the permissible safe limits for poultry bird consumption and health. The results suggest adoption of good man-ufacturing practices by the commercial poultry feed manufacturers during procurement of feed ingredients, handling, storage and processing which might have suppressed the growth of A. flavus and aflatoxin contamination

Antecedents of Facebook Updates, and the Role of Personality of Facebook Users in Sri Lanka

This study is to prove the impact of different motives in updating Facebook status and role of personality in Facebook updates. Therefore, the study is focus to identify the impact of motive namely validation, communication and self-expression on Facebook status updates while it is examining the moderation effect of individual personality on original relationship. As study is based on the Facebook users, population of the study consist of all Facebook users and based on the convenience sampling method researchers have selected 252 Facebook users in Sri Lanka as the sample of the study. Data were collected from the sample using a researcher developed questionnaire. In order to prove hypotheses and make inferences, regression analysis was employed in the study. Moreover, regression analysis proved that there is an impact from validation, communication and self-expression on Facebook status updates. Further, the relationship between validation, communication and self-expression with Facebook status update is moderated by the extraversion and openness to experience. Based on the inferences of the study, it can be concluded that validation, communication and self-expression act as motives to update Facebook status and the intensity of that motives depend on the personality of an individua

The ssu Locus Plays a Key Role in Organosulfur Metabolism in Pseudomonas putida S-313

Pseudomonas putida S-313 can utilize a broad range of aromatic sulfonates as sulfur sources for growth in sulfate-free minimal medium. The sulfonates are cleaved monooxygenolytically to yield the corresponding phenols. miniTn5 mutants of strain S-313 which were no longer able to desulfurize arylsulfonates were isolated and were found to carry transposon insertions in the ssuEADCBF operon, which contained genes for an ATP-binding cassette-type transporter (ssuABC), a two-component reduced flavin mononucleotide-dependent monooxygenase (ssuED) closely related to the Escherichia coli alkanesulfonatase, and a protein related to clostridial molybdopterin-binding proteins (ssuF). These mutants were also deficient in growth with a variety of other organosulfur sources, including aromatic and aliphatic sulfate esters, methionine, and aliphatic sulfonates other than the natural sulfonates taurine and cysteate. This pleiotropic phenotype was complemented by the ssu operon, confirming its key role in organosulfur metabolism in this species. Further complementation analysis revealed that the ssuF gene product was required for growth with all of the tested substrates except methionine and that the oxygenase encoded by ssuD was required for growth with sulfonates or methionine. The flavin reductase SsuE was not required for growth with aliphatic sulfonates or methionine but was needed for growth with arylsulfonates, suggesting that an alternative isozyme exists for the former compounds that is not active in transformation of the latter substrates. Aryl sulfate ester utilization was catalyzed by an arylsulfotransferase, and not by an arylsulfatase as in the related species Pseudomonas aeruginosa