Advanced Tools for Assessing Bioremediation

E6. Big Data and Integration of Molecular Tools in Site Assessment: Advanced Omics

 

Title

Abstract or Paper PDFPresentation PDF
Omics: How Not to Make Your Site a Science Project. D. Taggart, S. Rosolina, and K. Clark.ViewView
Use of Metagenomic and Metatranscriptomic Approaches to Elucidate Microbial Processes In Situ. S.K. De Long and K. Rossmassler.  ViewView
Application of Selective Reaction Monitoring (SRM) Proteomics to Quantify Reductive Dehalogenase Peptides (RDases) in Microbial Consortium SDC-9. K.H. Kucharzyk , J. Meisel, L. Mullins, M. Michelson, P.B. Hatzinger, F.E. Loeffler, F.K. Murdoch, J.T. Wilson, and J. Istock.  ViewView
Expansion of the Molecular Biological Tool Box: Environmental Proteomics Predicts In Situ Degradation Rates. M.M. Michalsen, K.H. Kucharzyk, J. Meisel, L. Mullins, P.B. Hatzinger, F.E. Loeffler, F.K. Murdoch, J.T. Wilson, and J.D. Istok.ViewView
The Application of Shotgun Sequencing to More Fully Define the Functional Abilities of Microorganisms at Contaminated Sites. H. Dang, Y.H. Kanitkar, R.D. Stedtfeld, S.A. Hashsham, A.M. Cupples, and P.B. Hatzinger.
View
Utilization of Molecular Biological Tools to Assess Performance of Biosparge Pilot System for Sulfolane Degradation. T.A. Key, D. Jouen, P. Dennis, S. Hains, J. Harder, E. Bergeron, and A. Madison.View 
Application of Metagenomic-Guided Proteomics to Assess Degradation of RDX in Pure Cultures and Groundwater from Contaminated Sites. K.H. Kucharzyk, J. Meisel, L. Mullins, A. Minard-Smith, V. Lal, M. Michalsen, M. Fuller, and M. Gander.View 
Application of Metagenomic-Guided Proteomics to Assess Degradation of Chlorinated Ethenes in Pure Cultures and Groundwater from Contaminated Sites. K.H. Kucharzyk, J. Meisel, L. Mullins, A. Minard-Smith, and V. Lal.View