Project description:16S rDNA amplicon sequences of metagenomes extracted from Pasig River, Metro Manila, Philippines,

Project description:16S rDNA amplicon sequences of metagenomes extracted from Ipo Dam, Metro Manila, Philippines

Project description:16S rDNA amplicon sequences of metagenomes extracted from aqueduct water samples collected in Metro Manila, Philippines

Project description:16S rDNA amplicon sequences of metagenomes extracted from deep well water samples collected in Mega Manila, Philippines

Project description:16S rDNA amplicon sequences of metagenomes extracted from before and after treatment plant water samples collected in Mega Manila, Philippines

Project description:Metagenome sequences from pre-treatment plant water samples collected in Metro Manila, Philippines

Project description:Coding-Complete Genome Sequences of 11 SARS-CoV-2 B.1.1.7 and B.1.351 variants from Metro Manila, Philippines

Project description:This experiment was annotated by TAIR (http://www.arabidopsis.org). In this experiment we examined whole genome response to herbicidal levels of 2,4-D application. Arabidopsis plants (14 days) grown in vitro on MS medium in petri dishes were flooded with 1 mL stock of 2,4-D to enable root uptake. Plants were treated with 1.0 mM 2,4-D for a period of 1 hour immediately after which RNA was extracted and used for the microarray based experiments. the goal of this study was to explore the herbicidal mode of action of auxinic herbicide 2,4-D. Experimenter name = Chitra Raghavan Experimenter department = Trevor Stevenson Laboratory Experimenter institute = IRRI Experimenter address = Entomology and Plant Pathology Division IRRI Experimenter zip/postal_code = Manila 4031 Experimenter country = Philippines Keywords: compound_treatment_design

Project description:This experiment was annotated by TAIR (http://www.arabidopsis.org). In this experiment we examined whole genome response to herbicidal levels of 2,4-D application. Arabidopsis plants (14 days) grown in vitro on MS medium in petri dishes were flooded with 1 mL stock of 2,4-D to enable root uptake. Plants were treated with 1.0 mM 2,4-D for a period of 1 hour immediately after which RNA was extracted and used for the microarray based experiments. the goal of this study was to explore the herbicidal mode of action of auxinic herbicide 2,4-D. Experimenter name = Chitra Raghavan; Experimenter department = Trevor Stevenson Laboratory; Experimenter institute = IRRI; Experimenter address = Entomology and Plant Pathology Division IRRI; Experimenter zip/postal_code = Manila 4031; Experimenter country = Philippines Experiment Overall Design: 3 samples were used in this experiment

Project description:We characterized the bacterial diversity of chlorinated drinking water from three surface water treatment plants supplying the city of Paris, France. For this purpose, we used serial analysis of V6 ribosomal sequence tag (SARST-V6) to produce concatemers of PCR-amplified ribosomal sequence tags (RSTs) from the V6 hypervariable region of the 16S rRNA gene for sequence analysis. Using SARST-V6, we obtained bacterial profiles for each drinking water sample, demonstrating a strikingly high degree of biodiversity dominated by a large collection of low-abundance phylotypes. In all water samples, between 57.2-77.4% of the sequences obtained indicated bacteria belonging to the Proteobacteria phylum. Full-length 16S rDNA sequences were also generated for each sample, and comparison of the RSTs with these sequences confirmed the accurate assignment for several abundant bacterial phyla identified by SARST-V6 analysis, including members of unclassified bacteria, which account for 6.3-36.5% of all V6 sequences. These results suggest that these bacteria may correspond to a common group adapted to drinking water systems. The V6 primers used were subsequently evaluated with a computer algorithm to assess their hybridization efficiency. Potential errors associated with primer-template mismatches and their impacts on taxonomic group detection were investigated. The biodiversity present in all three drinking water samples suggests that the bacterial load of the drinking water leaving treatment plants may play an important role in determining the downstream community dynamics of water distribution networks. 3 different drinking water samples (Orly, Ivry, Joinville drinking water sample)