Sequencing Nothing: Exploring Failure Modes of Nanopore Sensing and Implications for Life Detection

Publication date: Available online 16 May 2018Source: Life Sciences in Space ResearchAuthor(s): Alexandra Pontefract, Julie Hachey, Maria T. Zuber, Gary Ruvkun, Christopher E. CarrAbstractThe detection of extant life is a major focus of many planned future planetary missions, a current challenge of which is the ability to target biomarkers capable of providing unambiguous evidence of life. DNA sequencing is increasingly recognized as a powerful tool for life detection for planetary exploration missions; beyond use of sequence information to determine the origins of the sample (e.g., extant life or forward contamination), recent advances in the field have enabled interrogation of single molecules, with or without amplification. The focus of this work is on failure modes, specifically the issues encountered when there is no-to-low input DNA into a sequencing device, and the potential for the generation of sequencing artifacts that could be interpreted as a false positive. Using Oxford Nanopore Technologies (ONT) MinION, we assess whether single molecule sequencing, involving no amplification, generates noise signals that could be misinterpreted in the context of a planetary exploration mission, and also whether the ability of the instrument to handle these types of situations could make it feasible for clean room monitoring. Utilizing quality score filtering techniques in place at the time of this experiment, runs containing only initial flowcell chemistry and/or library reagen...
Source: Life Sciences in Space Research - Category: Biology Source Type: research