Bioinformatics Cloud Engineer
Second Genome 2018 — Present
- Converted Holmes, Second Genome’s genomic processing pipeline, to a serverless architecture using Docker, AWS lambda, AWS Batch, and AWS SQS.
- Helped convert Gallifrey, Second Genome’s metagenomic/metatranscriptomic processing pipeline to a server less architecture using Docker, AWS Batch
- Worked to unify Second Genome’s python code base so that all teams could work from the same library
Postdoctoral Research Fellow
My role was the head bioinformatician for a diverse group of microbiologists, chemists and data scientists at the California Institute of Technology (Caltech). My day to day tasks included the processing of genomic and proteomic data, and generating analysis summaries and plots using statistical software and programing tools such as R and python. As part of this role I was responsible for the production of automated pipelines for data analysis and have developed numerous tools and scripts for processing genomic data. I implemented SQL databases to store the extensive genomic and proteomic data that were generated and developed simple interfaces such that other members of the group could access this information without in-depth knowledge of SQL.
University of Quensland 2010―2014
My PhD research focused on metagenomic analysis of microbial and viral communities from engineered ecosystems found in wastewater treatment plants. Throughout my PhD I was at the interface of microbial ecology, chemical engineering, and computational biology and have gained many skills ranging from microscopy, reactor operation and computer programming. I developed a number of bioinformatic pipelines and substantial computer software in perl, python and C++. My background in molecular biology allowed me to place the inferences of metagenomic data into a broader biological framework and work with other members of the lab that did not have computer skills.
University of Queensland
2014, PhD in Microbial Ecology
2010, Bachelor of Biotechnology
Honors & Awards
2015, Dean’s award for outstanding PhD dissertation, University of Queensland
2010, Australian Research Council PhD Fellowship
Yu, H., Susanti, D., McGlynn, S. E., Skennerton, C. T., Chourey, K., Iyer, R., Scheller, S., Tavormina, P. L., Hettich, R. L., Mukhopadhyay, B., Orphan V. J. (2018) “Comparative Genomics and Proteomic Analysis of Assimilatory Sulfate Reduction Pathways in Anaerobic Methanotrophic Archaea“. Frontiers Microbiol. 9: 2917
Skennerton, C. T., Chourey, K., Iyer, R., Hettich, R. L., Tyson, G. W., Orphan, V. J. (2017) “Methane-Fueled Syntrophy through Extracellular Electron Transfer: Uncovering the Genomic Traits Conserved within Diverse Bacterial Partners of Anaerobic Methanotrophic Archaea“. mBio 8(4):e00530-17
Skennerton, C. T., Haroon, M. F., Briegel, A., Shi, J., Jensen, G. J., Tyson, G. W., Orphan, V. J. (2016) “Phylogenomic analysis of Candidatus ‘Izimaplasma’ species: free-living representatives from a Tenericutes clade found in methane seeps“. ISMEJ. 10: 2679–2692
Marlow, J. J., Skennerton, C. T., Li, Z., Chourey, K., Hettich, R. L., Pan, C., Orphan, V. J. (2016). “Proteomic Stable Isotope Probing Reveals Biosynthesis Dynamics of Slow Growing Methane Based Microbial Communities“. Frontiers Microbiol. 7: 563
Barr, J. J., Dutilh, B. E., Skennerton, C. T., Fukushima, T., Hastie, M. L., Gorman, J. J., Tyson, G. W., Bond, P. L. (2016). “Metagenomic and metaproteomic analyses of Accumulibacter phosphatis enriched floccular and granular biofilm”. Environ. Microbiol. 18(1): 273–287
Skennerton, C. T., Ward, L. M., Michel, A., Metcalfe, K., Valiente, C., Mullin, S., Chan, K. Y., Gradinaru, V., Orphan, V. J. (2015). “Genomic Reconstruction of an Uncultured Hydrothermal Vent Gammaproteobacterial Methanotroph (Family Methylothermaceae) Indicates Multiple Adaptations to Oxygen Limitation“. Frontiers Microbiol. 6
Parks, D. H., Imelfort, M., Skennerton, C. T., Hugenholtz, P., Tyson, G. W. (2015). “CheckM: assessing the quality of microbial genomes recovered from isolates, single cells, and metagenomes”. Genome Res. 25: 1043–1055.
Skennerton, C. T., Barr, J. J., Slater, F. R., Bond, P. L., Tyson, G. W. (2015). “Expanding our view of genomic diversity in Candidatus Accumulibacter clades”. Environ. Microbiol. 17 (5): 1574–1585.
Soo, R. M., Skennerton, C. T., Sekiguchi, Y., Imelfort, M., Paech, S. J., Dennis, P. G., Steen, J. A., Parks, D. H., Tyson, G. W., Hugenholtz, P. (2014). “An expanded genomic representation of the phylum cyanobacteria”. Genome Biol. Evol. 6 (5): 1031– 1045.
Haroon, M. F., Skennerton, C. T., Steen, J. A., Lachner, N., Hugenholtz, P., Tyson, G. W. (2013). “In-Solution Fluorescence In Situ Hybridization and Fluorescence-Activated Cell Sorting for Single Cell and Population Genome Recovery”. In: Microbial Metagenomics, Metatranscriptomics, and Metaproteomics. Ed. by Edward F. DeLong. Vol. 531. Academic Press, 3–19.
Skennerton, C. T., Imelfort, M., Tyson, G. W. (2013). “Crass: identification and reconstruction of CRISPR from unassembled metagenomic data”. Nucleic Acids Res. 41 (10): e105.
Skennerton, C. T., Angly, F. E., Breitbart, M., Bragg, L., He, S., McMahon, K. D., Hugenholtz, P., Tyson, G. W. (2011) “Phage encoded H-NS: a potential achilles heel in the bacterial defence system”. PLoS One, 6 (5): e20095.