A quantitative sequencing framework for absolute abundance measurements of mucosal and lumenal microbial communities

Barlow, Jacob T.; Bogatyrev, Said R.; Ismagilov, Rustem F.

doi:10.1038/s41467-020-16224-6

Cited by 98 publications

(120 citation statements)

References 65 publications

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“…Droplet digital PCR (ddPCR; Hindson et al, 2011) is a promising tool for this approach because it provides heightened accuracy and throughput compared to conventional real-time qPCR; most importantly, it estimates abundances directly and does not rely on comparison to a quantitative standard (Baker, 2012;Hindson et al, 2011;Kim, Jeong, & Cho, 2015;Morella, Yang, Hernandez, & Koskella, 2018). Barlow, Bogatyrev, and Ismagilov (2020)…”

Section: Is An Internal S Tandard Needed?mentioning

confidence: 99%

“…Droplet digital PCR (ddPCR; Hindson et al., 2011) is a promising tool for this approach because it provides heightened accuracy and throughput compared to conventional real‐time qPCR; most importantly, it estimates abundances directly and does not rely on comparison to a quantitative standard (Baker, 2012; Hindson et al., 2011; Kim, Jeong, & Cho, 2015; Morella, Yang, Hernandez, & Koskella, 2018). Barlow, Bogatyrev, and Ismagilov (2020) recently used such an approach to demonstrate that absolute abundances of gut bacteria shifted in mice eating a ketogenic diet and that relative abundances of particular taxa gave misleading results compared to absolute abundances. At the time of writing, ddPCR is currently more expensive than qPCR and also operates over a smaller dynamic range.…”

Section: Is An Internal Standard Needed?mentioning

confidence: 99%

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The quest for absolute abundance: The use of internal standards for DNA‐based community ecology

Harrison

Calder

Shuman

et al. 2020

Molecular Ecology Resources

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To characterize microbiomes and other ecological assemblages, ecologists routinely sequence and compare loci that differ among focal taxa. Counts of these sequences convey information regarding the occurrence and relative abundances of taxa, but provide no direct measure of their absolute abundances, due to the technical limitations of the sequencing process. The relative abundances in compositional data are inherently constrained and difficult to interpret. The incorporation of internal standards (ISDs; colloquially referred to as ‘spike‐ins’) into DNA pools can ameliorate the problems posed by relative abundance data and allow absolute abundances to be approximated. Unfortunately, many laboratory and sampling biases cause ISDs to underperform or fail. Here, we discuss how careful deployment of ISDs can avoid these complications and be an integral component of well‐designed studies seeking to characterize ecological assemblages via sequencing of DNA.

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Section: Is An Internal S Tandard Needed?mentioning

confidence: 99%

Section: Is An Internal Standard Needed?mentioning

confidence: 99%

The quest for absolute abundance: The use of internal standards for DNA‐based community ecology

Harrison

Calder

Shuman

et al. 2020

Molecular Ecology Resources

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“…The human DNA was exploited as natural spike-in control to normalise the bacterial reads to human reads, and obtain insights into the absolute abundance patterns of bacterial airway inhabitants 19 . The absolute abundance estimations enabled us to approach a broad range of statistical tools for comparative microbial community analyses, including ordination, clustering and network analysis [24][25][26][27][28][29][30] . We probed the maximum number of bacterial genome positions by generating single-end instead of paired-end reads and consequently, were able to cover the rare species of the airway habitat in our metagenome investigation.…”

Section: Introductionmentioning

confidence: 99%

The human respiratory tract microbial community structures in healthy and cystic fibrosis infants

Pust

Wiehlmann

Davenport

et al. 2020

npj Biofilms Microbiomes

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The metagenome development of the human respiratory tract was investigated by shotgun metagenome metagenomic sequencing of cough swabs from healthy children and children with cystic fibrosis (CF) between 3 weeks and 6 years of age. A healthy microbial community signature was associated with increased absolute abundances in terms of bacterial–human cell ratios of core and rare species across all age groups, with a higher diversity of rare species and a tightly interconnected species co-occurrence network, in which individual members were found in close proximity to each other and negative correlations were absent. Even without typical CF pathogens, the CF infant co-occurrence network was found to be less stable and prone to fragmentation due to fewer connections between species, a higher number of bridging species and the presence of negative species correlations. Detection of low-abundant DNA of the CF hallmark pathogen Pseudomonas aeruginosa was neither disease- nor age-associated in our cohort. Healthy and CF children come into contact with P. aeruginosa on a regular basis and from early on.

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“…Critically, such microbial sequence counts lack a denominator accounting for the amount of the habitat sampled, and thus, sparsely-colonized and densely-colonized samples become indistinguishable, despite most study systems being open systems in which the total number of microbial cells can vary over many orders of magnitude. Another limitation of such compositional data is that because the sum of all microbes is constrained, an increase in the abundance of one microbe reduces the relative abundance of all other microbes, creating misleading interpretations in the absence of appropriate statistical methods [1][2][3][4] . Experimental determination of the microbial load, for example by relating microbial abundance to sample volume, mass, or surface area, has led to important insights in microbiome research that otherwise would have been missed with relative abundance data [5][6][7][8][9][10][11][12] .…”

Section: Introductionmentioning

confidence: 99%

“…Most commonly, researchers combine amplicon sequencing with an additional orthogonal method. These include supplementary shallow WMS 12 , quantitative PCR (qPCR) or digital PCR of host and/or microbial genes 3,16,19,[23][24][25][26] , adding sequenceable "spike-ins" calibrated based on sample volume 27 , mass 10 , or qPCR-determined host DNA content 25 , counting colony forming units (CFU) 11,28 , and flow cytometry 5,7 . The multitude of methods and publications hints at the enduring nature of this problem.…”

Section: Introductionmentioning

confidence: 99%

Host-associated microbe PCR (hamPCR): accessing new biology through convenient measurement of both microbial load and community composition

Lundberg

Ayutthaya

Strauß

et al. 2020

Preprint

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The microbial population size, or load, in a host is a fundamental metric of colonization by commensals or infection by pathogens. Sequence-based measurement of DNA amount contributed by host and microbes in a sample provides a simple way of measuring microbial load, and it also has the ability to estimate microbiome diversity. Unfortunately, it is also very costly, especially when host DNA greatly outweighs microbial DNA. We introduce a robust two-step PCR strategy to quantify absolute abundance of the host-associated microbiome and describe its composition in a single, cost-effective amplicon library. We demonstrate the accuracy and flexibility of this method across multiple amplicons and hosts, and further present a simple technique that can be used, prior to sequencing, to optimize the host representation in a batch of libraries without a loss of information.

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A quantitative sequencing framework for absolute abundance measurements of mucosal and lumenal microbial communities

Cited by 98 publications

References 65 publications

The quest for absolute abundance: The use of internal standards for DNA‐based community ecology

The quest for absolute abundance: The use of internal standards for DNA‐based community ecology

The human respiratory tract microbial community structures in healthy and cystic fibrosis infants

Host-associated microbe PCR (hamPCR): accessing new biology through convenient measurement of both microbial load and community composition

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