Rapid whole-genome mutational profiling using next-generation sequencing technologies

Smith, Douglas R.; Quinlan, Aaron R.; Peckham, Heather E.; Makowsky, Kathryn; Tao, Wei; Woolf, Betty; Shen, Lei; Donahue, William F.; Tusneem, Nadeem; Strömberg, Michael; Stewart, Donald A.; Zhang, Lu; Ranade, Swati; Warner, Jason; Lee, Clarence C.; Coleman, Brittney; Zhang, Zheng; McLaughlin, Stephen; Malek, Joel A.; Sorenson, Jon M.; Blanchard, Alan P.; Chapman, Jarrod; Hillman, David R.; Chen, Feng; Rokhsar, Daniel S.; McKernan, Kevin; Jeffries, Thomas W.; Marth, Gábor; Richardson, Paul M.

doi:10.1101/gr.077776.108

Cited by 225 publications

(180 citation statements)

References 11 publications

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“…Recently, several new high-throughput sequencing approaches such as 454 pyrosequencing, Illumina (Illumina, San Diego, CA, USA) and SOLiD (Applied Biosystems, Foster City, CA, USA) have been developed (Margulies et al, 2005;Hamady et al, 2008;Smith et al, 2008;Schulte et al, 2010). At present, the 454 pyrosequencing technology has been widely used to reveal microbial diversity and ecology in different natural environments, such as the deep sea (Sogin et al, 2006;Huber et al, 2007), extreme hydrogeological conditions (Edwards et al, 2006) and soil (Leininger et al, 2006;Roesch et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

Reproducibility and quantitation of amplicon sequencing-based detection

et al. 2011

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To determine the reproducibility and quantitation of the amplicon sequencing-based detection approach for analyzing microbial community structure, a total of 24 microbial communities from a long-term global change experimental site were examined. Genomic DNA obtained from each community was used to amplify 16S rRNA genes with two or three barcode tags as technical replicates in the presence of a small quantity (0.1% wt/wt) of genomic DNA from Shewanella oneidensis MR-1 as the control. The technical reproducibility of the amplicon sequencing-based detection approach is quite low, with an average operational taxonomic unit (OTU) overlap of 17.2% ± 2.3% between two technical replicates, and 8.2% ± 2.3% among three technical replicates, which is most likely due to problems associated with random sampling processes. Such variations in technical replicates could have substantial effects on estimating b-diversity but less on a-diversity. A high variation was also observed in the control across different samples (for example, 66.7-fold for the forward primer), suggesting that the amplicon sequencing-based detection approach could not be quantitative. In addition, various strategies were examined to improve the comparability of amplicon sequencing data, such as increasing biological replicates, and removing singleton sequences and less-representative OTUs across biological replicates. Finally, as expected, various statistical analyses with preprocessed experimental data revealed clear differences in the composition and structure of microbial communities between warming and non-warming, or between clipping and non-clipping. Taken together, these results suggest that amplicon sequencing-based detection is useful in analyzing microbial community structure even though it is not reproducible and quantitative. However, great caution should be taken in experimental design and data interpretation when the amplicon sequencing-based detection approach is used for quantitative analysis of the b-diversity of microbial communities.

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Section: Introductionmentioning

confidence: 99%

Reproducibility and quantitation of amplicon sequencing-based detection

et al. 2011

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“…In contrast to many existing approaches that report a single set of predicted hets based on a particular set of filters and parameter values (Levy et al 2007;Wheeler et al 2008;Yeager et al 2008), ProbHD reports a heterozygosity probability for each site, allowing users to trade off false-positives for falsenegatives as desired. We compared ProbHD with the Mosaik/ GigaBayes predictor, a package designed for short-read alignment and SNP-calling (Smith et al 2008). We showed that ProbHD has a small but significant advantage at high sequence coverage, and a larger advantage at lower coverage.…”

Section: Discussionmentioning

confidence: 99%

A probabilistic approach for SNP discovery in high-throughput human resequencing data

Hoberman¹,

Dias²,

Ge³

et al. 2009

Genome Res.

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New high-throughput sequencing technologies are generating large amounts of sequence data, allowing the development of targeted large-scale resequencing studies. For these studies, accurate identification of polymorphic sites is crucial. Heterozygous sites are particularly difficult to identify, especially in regions of low coverage. We present a new strategy for identifying heterozygous sites in a single individual by using a machine learning approach that generates a heterozygosity score for each chromosomal position. Our approach also facilitates the identification of regions with unequal representation of two alleles and other poorly sequenced regions. The availability of confidence scores allows for a principled combination of sequencing results from multiple samples. We evaluate our method on a gold standard data genotype set from HapMap. We are able to classify sites in this data set as heterozygous or homozygous with 98.5% accuracy. In de novo data our probabilistic heterozygote detection (''ProbHD'') is able to identify 93% of heterozygous sites at a <5% false call rate (FCR) as estimated based on independent genotyping results. In direct comparison of ProbHD with high-coverage 1000 Genomes sequencing available for a subset of our data, we observe >99.9% overall agreement for genotype calls and close to 90% agreement for heterozygote calls. Overall, our data indicate that high-throughput resequencing of human genomic regions requires careful attention to systematic biases in sample preparation as well as sequence contexts, and that their impact can be alleviated by machine learning-based sequence analyses allowing more accurate extraction of true DNA variants.[Supplemental material is available online at http://www.genome.org. Alignment and SNP-calling software is available at

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“…These involved temperature changes of up to 15 °C in Greenland within a few decades 4 . There is good into pieces shorter than 100 base pairs.…”

Section: Ancient Art and Architecture Collection Ltdmentioning

confidence: 99%

“…Not least, some of the drawbacks of the new technologies for studying modern DNA are advantages when it comes to ancient DNA. Thus, whereas the Sanger method allows individual stretches of up to 800 base pairs to be determined in a single reaction, the new techniques yield much shorter sequences, sometimes as few as 30 base pairs 4 . This is a disadvantage when dealing with modern DNA.…”

mentioning

confidence: 99%

Mammoth genomics

Hofreiter¹

2008

Nature

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Rapid whole-genome mutational profiling using next-generation sequencing technologies

Cited by 225 publications

References 11 publications

Reproducibility and quantitation of amplicon sequencing-based detection

Reproducibility and quantitation of amplicon sequencing-based detection

A probabilistic approach for SNP discovery in high-throughput human resequencing data

Mammoth genomics

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