Publications by authors named "G A Heavner"
RNA-based biomarkers have been successfully detected at field sites undergoing bioremediation, but the detection of expressed enzymes is a more direct way to prove activity for a particular biocatalytic process of interest since they provide evidence of potential activity rather than simply confirming presence and abundance of genes in a given population by measurement of DNA copies using qPCR. Here we successfully applied shotgun proteomics to field samples from a trichloroethene (TCE)-contaminated industrial site in southern Ontario, Canada that had been bio-augmented with the commercially available KB-1 microbial culture. The KB-1 culture contains multiple strains of () as well as an organohalide respiring species.
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- The study investigates using mRNA levels of key enzymes as indicators for monitoring organohalide respiration (OHR) rates in bioaugmentation cultures at chlorinated solvent-contaminated sites.
- Genome-wide data identified crucial enzymes in the KB-1 bioaugmentation culture, allowing differentiation between strains based on specific enzyme expressions.
- Quantitative analysis revealed that certain transcripts corresponded well with OHR rates, highlighting HupL as a promising biomarker, while adding oxygen caused significant drops in respiration rates.
The interpretation of high-throughput gene expression data for non-model microorganisms remains obscured because of the high fraction of hypothetical genes and the limited number of methods for the robust inference of gene networks. Therefore, to elucidate gene-gene and gene-condition linkages in the bioremediation-important genus Dehalococcoides, we applied a Bayesian inference strategy called Reverse Engineering/Forward Simulation (REFS™) on transcriptomic data collected from two organohalide-respiring communities containing different Dehalococcoides mccartyi strains: the Cornell University mixed community D2 and the commercially available KB-1® bioaugmentation culture. In total, 49 and 24 microarray datasets were included in the REFS™ analysis to generate an ensemble of 1,000 networks for the Dehalococcoides population in the Cornell D2 and KB-1® culture, respectively.
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- The study investigates the relationship between mRNA and protein levels in a specific anaerobic community involved in bioremediation.
- mRNA levels of certain genes in Dehalococcoides and Methanospirillum show varying abundances and regulation, but there are discrepancies between mRNA abundance and corresponding protein levels.
- These findings emphasize the complex nature of gene expression in microbes and the need for direct measurements to accurately assess biomarker levels in environmental contexts.
A cDNA-microarray was designed and used to monitor the transcriptomic profile of Dehalococcoides mccartyi strain 195 (in a mixed community) respiring various chlorinated organics, including chloroethenes and 2,3-dichlorophenol. The cultures were continuously fed in order to establish steady-state respiration rates and substrate levels. The organization of array data into a clustered heat map revealed two major experimental partitions.
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