Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An EcoRI fragment of Rhizobium meliloti M2011 which shows homology to Klebsiella pneumoniae DNA carrying nifH and nifD was cloned in both orientations into the Cm gene of plasmid pACYC184 and expressed in Escherichia coli minicells. Fragment specific polypeptides of Mr 12 500, 21 000, 30 000, and 31 000 could be identified. By transposon mutagenesis it was shown that two of them (Mr 12 500 and 21 000) are fusion products with parts of the chloramphenicol acetyltransferase. The other two polypeptides are specified by one coding region which could be mapped by transposon mutagenesis. There are several reasons (homology to Klebsiella nifH, sequence data and molecular weight of the gene products) to assume that this coding region represents the R. meliloti nifH gene (gene for the subunit of the R. meliloti nitrogenase reductase, RmII).
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PMID:Expression of Rhizobium meliloti genes for nitrogen fixation in Escherichia coli minicells: Mapping of the subunit of the nitrogenase reductase. 2431 37

Internalization of Salmonella enterica and enterohaemorrhagic Escherichia coli (EHEC) in seed sprouts poses a health risk to consumers, and the conventional sanitization methods are not always effective to reduce this risk. This study initiated a biocontrol approach to limit the internalization using endophytic Bacillus subtilis strains, which were isolated from the inner tissue of mung bean seeds or lettuce stems. By using the deferred agar method, 12 strains of B. subtilis out of 94 putative Bacillus isolates displayed inhibitory activity against at least one of the pathogenic indicators, S. enterica Typhimurium ATCC 14028 and E. coli O157:H7 505B. Two B. subtilis isolates (LCA1 and M24) showed a broad inhibitory spectrum against multiple strains of S. enterica and EHEC, Staphylococcus aureus sp., Klebsiella pneumoniae ATCC 700603, and Listeria monocytogenes Scott A, while the laboratory B. subtilis strain 168 was only moderately inhibitory against L. monocytogenes. To facilitate the tracking of the three B. subtilis strains (LCA1, M24, and 168) in the mung bean sprouts, the three strains were genetically engineered to carry the chloramphenicol acetyltransferase (cat), generating the strains LCA1-cat, M24-cat, and 168-cat, respectively. Data of the study using the cat-tagged strains demonstrated that both the two vegetable-associated and the laboratory B. subtilis strains could internalize in mung bean sprouts during the sprouting, but the latter displayed about 1.2 lg CFU/g of seeds lower in internalization. Overall, the presence of the three B. subtilis strains could significantly reduce the internalization of S. enterica or EHEC cocktail in mung bean sprouts during the sprouting. Among them, LCA1 showed the greatest inhibition against the EHEC cocktails with a reduction of about 2.0lg CFU/g of seeds by the end of sprouting (day 5), while 168 had the smallest reduction at about 0.6lg CFU/g of seeds. In addition, the three strains demonstrated a similar inhibition against the S. enterica cocktails by a reduction of about 1.1-1.4lg CFU/g of seeds by day 5. Results of this study suggest that the source (native vs. alien) of B. subtilis isolates may not affect the efficacy of the inhibition, but it might be affected by the production of antimicrobial substance and/or nutrition/space competition. The results also indicate that strain LCA1 may be useful as a biocontrol agent to reduce Salmonella and EHEC contamination in seed sprouts.
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PMID:Biocontrol of the internalization of Salmonella enterica and Enterohaemorrhagic Escherichia coli in mung bean sprouts with an endophytic Bacillus subtilis. 2836 24


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