Project description:Wastewater treatment is crucial to environmental hygiene in urban environments. However, wastewater treatment plants (WWTPs) collect chemicals, organic matter, and microorganisms including pathogens and multi-resistant bacteria from various sources which may be potentially released into the environment via WWTP effluent. To better understand microbial dynamics in WWTPs, we characterized and compared the bacterial community of the inflow and effluent of a WWTP in Berlin, Germany using full-length 16S rRNA gene sequences, which allowed for species level determination in many cases and generally resolved bacterial taxa. Significantly distinct bacterial communities were identified in the wastewater inflow and effluent samples. Dominant operational taxonomic units (OTUs) varied both temporally and spatially. Disease associated bacterial groups were efficiently reduced in their relative abundance from the effluent by the WWTP treatment process, except for Legionella and Leptospira species which demonstrated an increase in relative proportion from inflow to effluent. This indicates that WWTPs, while effective against enteric bacteria, may enrich and release other potentially pathogenic bacteria into the environment. The taxonomic resolution of full-length 16S rRNA genes allows for improved characterization of potential pathogenic taxa and other harmful bacteria which is required to reliably assess health risk.

| S-EPMC6609626 | biostudies-literature

16S rRNA in wastewater

Project description:Wastewater Metagenome

| PRJNA844374 | ENA

Full-length HLA class II sequences

Project description:Full-length HLA class II sequences

| PRJEB42469 | ENA

Quantifying full-length circular RNAs in cancer

Project description:Quantifying full-length circular RNAs in cancer

| PRJNA693503 | ENA

Assembly of full-length macaque gene models

Project description:Assembly of full-length macaque gene models