Draft Genome Sequences of Three Escherichia coli Strains Investigated for the Effects of Lysogeny on Niche Diversification.

During the course of investigating the effects of lysogeny on niche diversification of Escherichia coli, we used the temperate phages induced from one E. coli strain to infect another and created an isogenic lysogen of the latter. The draft genome sequences of the three E. coli strains are reported herein.

Draft Genome Sequence of Escherichia coli E1728 Isolated from Marine Sediment in Hong Kong.

Recent findings of Escherichia coli persisting autochthonously in environmental matrices outside animal bodies have revealed largely unknown facets of the lifestyle and ecophysiology of the species that have yet to be explored. Here, we report the draft genome sequence of E. coli E1728 isolated from marine sediment.

Host-specific 16S rRNA gene markers of Bacteroidales for source tracking of fecal pollution in the subtropical coastal seawater of Hong Kong.

This study investigated the diversity of Bacteroidales communities in the feces of eight host species in Hong Kong (subtropical Asia), including human (in the form of sewage), cow, pig, horse, cat, dog, rabbit and rat. The analysis of terminal restriction fragment length polymorphism (TRFLP) in the 16S rRNA genes revealed significant differences in Bacteroidales communities among all host species, with the exception of dog and cat. Manual examination of TRFLP profiles resulted in six terminal restriction fragments (TRFs) that were potentially specific to the sewage (one TRF), cow (three TRFs) or pig (two TRFs) samples. All six TRFs were (1) present in 100% of the samples of the respective target host, (2) absent in other hosts or present only in low frequency and low intensity, and (3) verified for sizes using in silico digestion of DNA sequences in clone libraries. The six TRFs could reliably indicate the source of fecal contaminations in natural seawater amended with sewage, cow or pig fecal samples. In field tests conducted for two polluted and one unpolluted coastal site, the sewage-specific TRF was detected in all seawater samples of the sites known to be impacted by raw and treated sewage. However, only two of three cow-specific TRFs were detected for the two polluted sites, which also received fecal input from feral cows. No pig-specific TRF was detected, although one of the coastal sites was chronically polluted by pig farm run-offs. Nevertheless, the total absence of the six potentially host-specific TRFs in the seawater of an unpolluted site demonstrated the specificity of the TRFs as gene markers in indicating actual pollution.