Laboratory contamination over time during low-biomass sample analysis

Weyrich, Laura S.; Farrer, Andrew G.; Eisenhofer, Raphael; Arriola, Luis A.; Young, Jennifer M.; Selway, Caitlin A.; Handsley-Davis, Matilda; Adler, Christina; Breen, James; Cooper, Alan

doi:10.1101/460212

Cited by 29 publications

(46 citation statements)

References 44 publications

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“…By contrast, amplicons derived from Dallol ponds, Black and Yellow lakes but also first-PCR 'negative'-controls were dominated by bacterial sequences. Most of them were related 25 to well-known kit and laboratory contaminants (17,18), other were human-related bacteria likely introduced during intensive afar and tourist daily visits to the site; a few archaeal sequences might result from aerosol cross-contamination despite extensive laboratory precautions (see Supplementary Methods). After removal of contaminant sequences (grey bars, Fig.…”

Section: Resultsmentioning

confidence: 99%

Hyperdiverse archaea near life limits at the polyextreme geothermal Dallol area

Belilla

Moreira

Jardillier

et al. 2019

Preprint

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Microbial life has adapted to various individual extreme conditions; yet, organisms simultaneously adapted to low pH, high salt and high temperature are unknown. We combined environmental 16S/18S rRNA-gene metabarcoding, cultural approaches, fluorescence-activated cell sorting, scanning electron microscopy and chemical analyses to study samples along such 25 unique polyextreme gradients in the Dallol-Danakil area (Ethiopia). We identify two physicochemical barriers to life in the presence of surface liquid water defined by high chaotropicity-low water activity in Mg 2+ /Ca 2+ -dominated brines and hyperacidity-salt combinations. When detected, life was dominated by highly diverse ultrasmall archaea widely distributed across phyla with and without previously known hyperhalophilic members. We detect 30 active silica encrustment/fossilization of cells but also abiotic biomorphs of varied chemistry, raising warnings for the interpretation of morphological biosignatures on Earth and beyond. One Sentence Summary:The absence of life from some polyextreme sites in the presence of liquid surface water on Earth 35 helps to circumscribe habitability Belilla et al. 2 Main Text:Microbial life has adapted to so-called extreme values of temperature, pH or salinity, but also to 5 several polyextreme, e.g. hot acidic or salty alkaline, ecosystems (1, 2). However, organisms adapted simultaneously to low pH and high salt, and eventually also high temperature, are not known (1). Are molecular adaptations to those combinations incompatible or (hot) acidic hypersaline environments simply rare and unexplored? The Dallol geothermal dome and its surroundings (Danakil Depression, Afar, Ethiopia) allow to address this question by offering 10 unique polyextreme gradients combining high salt content (20 to >50%; either Mg 2+ /Ca 2+ or Na + (/Fe 2+/3+ )-rich), high temperature (25-110°C) and low pH (≤-1.5 to 6). Dallol is an up-lifted (~40 m) dome structure located in the North of the Danakil depression (~120 m below-sea-level), a 200 km-long basin within the Afar rift, at the triple junction between the Nubian, Somalian and Arabian Plates (3). Lying only 30 km north of the hypersaline, hydrothermally-influenced, Lake 15 Assale (Karum) and the Erta Ale volcanic range, Dallol does not display volcanic outcrops but intense degassing and hydrothermal activity. These activities are observed on the salt dome and the adjacent Black Mountain and Yellow Lake (Gaet'Ale) areas (3, 4) ( Fig. 1a-b). Gas and fluid isotopic measurements indicate that meteoritic waters, notably infiltrating from the high Ethiopian plateau (>2,500 m), interact with an underlying geothermal reservoir (280-370°C) (4, 20 5). Further interaction of those fluids with the km-thick marine evaporites filling the Danakil depression results in unique combinations of polyextreme conditions and salt chemistries (3,4,6, 7), which have led some authors consider Dallol as a Mars analog (8).Here, we use environmental 16S/18S rRNA-gene metabarcoding, cultural approaches, fluorescence-activa...

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Section: Resultsmentioning

confidence: 99%

Hyperdiverse archaea near life limits at the polyextreme geothermal Dallol area

Belilla

Moreira

Jardillier

et al. 2019

Preprint

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“…Another limitation with this metabarcoding study is that there were no blank samples included in the metagenomics workflow, which prevented us to discard commonly found contaminants from the extraction kits and other laboratory contaminants prior to sequencing (Weyrich et al, 2019). Given the high sensitivity aspect of HTS, there is also a risk of cross-contamination with positive controls used for PCR, in which case renders the interpretation of "true" versus "false" signals ambiguous.…”

Section: Discussionmentioning

confidence: 99%

High‐resolution biomonitoring of plant pathogens and plant species using metabarcoding of pollen pellet contents collected from a honey bee hive

et al. 2019

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The Canadian beekeeping industry is spread across the country, with the greatest proportion of managed honey bee colonies occurring in the Prairie Provinces. Nationally, the number of beekeepers has recently been trending upwards. Simultaneously, agronomic and environmental plant pest incidents are increasing due to a number of factors, including the introduction of exotic organisms through international trade, which is a major pathway for the introduction of potentially invasive alien species and quarantine pests. Therefore, regulatory agencies are interested in developing high‐throughput tools to achieve earlier detection of unwanted species in order to expedite application of mitigating measures to limit the impacts of their introduction. This study evaluates the potential of pollen pellet contents collected by honey bees to monitor plant pests using metabarcoding, a high‐throughput sequencing (HTS) approach for monitoring complex environmental samples. The study used the ITS1 intergenic region to target oomycetes and fungi, the ATP9‐NAD9 spacer to specifically target Phytophthora species, and the ITS2 region to target plant species. From the HTS results, a number of plants that were detected corresponded to known hosts of certain pathogens or species closely related to potentially invasive plant species. Genera including phytopathogenic species found in the pollen samples comprised Fusarium sp., Ophiostoma sp., Peronospora sp., Phytophthora sp., and Pythium sp. Correlations, high entropy, and co‐occurrences between certain plants and oomycetes or fungi were observed. The potential for using honey bee‐collected pollen pellets to study phytopathogens in a given environment is demonstrated here, and this concept could represent a promising complementary tool for the surveillance of phytopathogens or unwanted plants with previously described air and insect sampling methods if the protocol was applied with additional genetic markers.

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“…Multiple microbial contaminants, belonging to the bacterial genera Acinetobacter, Alcaligenes, Bacillus, Bradyrhizobium, Herbaspirillum, Legionella, Leifsonia, Mesorhizobium, Methylobacterium, Microbacterium, Novosphingobium, Pseudomonas, Ralstonia, Sphingomonas, Stenotrophomonas, and Xanthomonas have been identified within the published 1,000 (human) genomes. [16][17][18] Significant bacterial contaminations in existing human-derived sequence databases can be introduced by reagents, environment, handlers, or machines during the collection of the sample, the extraction of nucleic acid and the preparation of libraries. 7,[9][10][11] In 2014, it has been demonstrated that DNA extraction kits, commonly used in laboratories, present contaminating microbial DNA, which impacts both PCR-based 16S rRNA gene surveys and shotgun metagenomics, influencing the interpretation of the results obtained from samples containing a low microbial biomass.…”

Section: Bacterial Contaminationsmentioning

confidence: 99%

“…7,[9][10][11] In 2014, it has been demonstrated that DNA extraction kits, commonly used in laboratories, present contaminating microbial DNA, which impacts both PCR-based 16S rRNA gene surveys and shotgun metagenomics, influencing the interpretation of the results obtained from samples containing a low microbial biomass. 7,18 Indeed, in the case of samples containing a low amount of microbial biomass, the starting material may be effectively swamped by the contaminating DNA, generating misleading results.…”

Section: Bacterial Contaminationsmentioning

confidence: 99%

Contaminations in (meta)genome data: An open issue for the scientific community

Pasquadibisceglie

Proietto

et al. 2019

IUBMB Life

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In recent years, the high throughput and the low cost of next‐generation sequencing (NGS) technologies have led to an increase of the amount of (meta)genomic data, revolutionizing genomic research studies. However, the quality of sequencing data could be affected by experimental errors derived from defective methods and protocols. This represents a serious problem for the scientific community with a negative impact on the correctness of studies that involve genomic sequence analysis. As a countermeasure, several alignment and taxonomic classification tools have been developed to uncover and correct errors. In this critical review some of these integrated software tools and pipelines used to detect contaminations in reference genome databases and sequenced samples are reported. In particular, case studies of bacterial contaminations, contaminations of human origin, mitochondrial contaminations of ancient DNA, and cross contaminations are examined.

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Laboratory contamination over time during low-biomass sample analysis

Cited by 29 publications

References 44 publications

Hyperdiverse archaea near life limits at the polyextreme geothermal Dallol area

Hyperdiverse archaea near life limits at the polyextreme geothermal Dallol area

High‐resolution biomonitoring of plant pathogens and plant species using metabarcoding of pollen pellet contents collected from a honey bee hive

Contaminations in (meta)genome data: An open issue for the scientific community

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