Effects of GC Bias in Next-Generation-Sequencing Data on De Novo Genome Assembly

Chen, Yen-Chun; Liu, Tsunglin; Yu, Chun Hui; Chiang, Tzen‐Yuh; Hwang, Chyi

doi:10.1371/journal.pone.0062856

Cited by 238 publications

(204 citation statements)

References 42 publications

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“…Biased gene conversion is a known mechanism that causes GC-biased mutation (21,26); hence, we suggest this mechanism, driven by elevated localized recombination, is generating a hotspot of skewed base composition. The genomic region we describe here was not detected by standard short-read sequencing approaches, known to be sensitive to nucleotide composition (27). These issues may be circumvented through the use of third generation sequencing technologies offering substantially longer read lengths and reduced nucleotide bias.…”

Section: Discussionmentioning

confidence: 91%

Genome sequence of a diabetes-prone rodent reveals a mutation hotspot around the ParaHox gene cluster

Hargreaves

Zhang

Christensen

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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The sand rat Psammomys obesus is a gerbil species native to deserts of North Africa and the Middle East, and is constrained in its ecology because high carbohydrate diets induce obesity and type II diabetes that, in extreme cases, can lead to pancreatic failure and death. We report the sequencing of the sand rat genome and discovery of an unusual, extensive, and mutationally biased GC-rich genomic domain. This highly divergent genomic region encompasses several functionally essential genes, and spans the ParaHox cluster which includes the insulin-regulating homeobox gene Pdx1. The sequence of sand rat Pdx1 has been grossly affected by GC-biased mutation, leading to the highest divergence observed for this gene across the Bilateria. In addition to genomic insights into restricted caloric intake in a desert species, the discovery of a localized chromosomal region subject to elevated mutation suggests that mutational heterogeneity within genomes could influence the course of evolution.

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Section: Discussionmentioning

confidence: 91%

Genome sequence of a diabetes-prone rodent reveals a mutation hotspot around the ParaHox gene cluster

Hargreaves

Zhang

Christensen

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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“…The sequencing procedure introduces read-depth discrepancies across many regions of interest. This bias is in part dependent on the GC-content of each sequenced region (28 ). GC-bias alleviation was achieved by estimating each region's GC content and subsequently grouping the read-depth of similar GC-content regions together to create matching groups.…”

Section: Resultsmentioning

confidence: 99%

Cell-Free DNA Analysis of Targeted Genomic Regions in Maternal Plasma for Non-Invasive Prenatal Testing of Trisomy 21, Trisomy 18, Trisomy 13, and Fetal Sex

Koumbaris¹,

Kypri²,

Tsangaras³

et al. 2016

Clinical Chemistry

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BACKGROUND There is great need for the development of highly accurate cost effective technologies that could facilitate the widespread adoption of noninvasive prenatal testing (NIPT). METHODS We developed an assay based on the targeted analysis of cell-free DNA for the detection of fetal aneuploidies of chromosomes 21, 18, and 13. This method enabled the capture and analysis of selected genomic regions of interest. An advanced fetal fraction estimation and aneuploidy determination algorithm was also developed. This assay allowed for accurate counting and assessment of chromosomal regions of interest. The analytical performance of the assay was evaluated in a blind study of 631 samples derived from pregnancies of at least 10 weeks of gestation that had also undergone invasive testing. RESULTS Our blind study exhibited 100% diagnostic sensitivity and specificity and correctly classified 52/52 (95% CI, 93.2%–100%) cases of trisomy 21, 16/16 (95% CI, 79.4%–100%) cases of trisomy 18, 5/5 (95% CI, 47.8%–100%) cases of trisomy 13, and 538/538 (95% CI, 99.3%–100%) normal cases. The test also correctly identified fetal sex in all cases (95% CI, 99.4%–100%). One sample failed prespecified assay quality control criteria, and 19 samples were nonreportable because of low fetal fraction. CONCLUSIONS The extent to which free fetal DNA testing can be applied as a universal screening tool for trisomy 21, 18, and 13 depends mainly on assay accuracy and cost. Cell-free DNA analysis of targeted genomic regions in maternal plasma enables accurate and cost-effective noninvasive fetal aneuploidy detection, which is critical for widespread adoption of NIPT.

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“…Additionally, multiplexed PCR-based amplicon library preparation is needed for NGS which can introduce sequencing bias resulting in uneven read coverage and increase in the numbers of duplicate fragments present in the library [98]. ddPCR, also, seems to be better at detecting rare genetic variants, and is less susceptible to inhibitors when compared to real-time quantitative PCR [99].…”

Section: Methods Targeting Druggable Mutation and Other Aberrations Imentioning

confidence: 99%

Liquid biopsy - emergence of a new era in personalized cancer care

2018

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The most successful treatment for cancer involves identifying druggable, biological markers for targeted therapy. In the clinical setting, surgical removal of tumors is the only procedure for identifying such targetable molecules. Shed from tumor cells, these markers are also present in circulating blood, albeit in very negligible amounts. Liquid biopsy is a procedure performed on a blood sample to look for such circulating cancer markers cells or pieces of nucleic acid from the tumor. The procedure shows promise in revolutionizing personalized cancer treatments. Here we briefly review the technique, characterization, and its utilization in clinics.

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Effects of GC Bias in Next-Generation-Sequencing Data on De Novo Genome Assembly

Cited by 238 publications

References 42 publications

Genome sequence of a diabetes-prone rodent reveals a mutation hotspot around the ParaHox gene cluster

Genome sequence of a diabetes-prone rodent reveals a mutation hotspot around the ParaHox gene cluster

Cell-Free DNA Analysis of Targeted Genomic Regions in Maternal Plasma for Non-Invasive Prenatal Testing of Trisomy 21, Trisomy 18, Trisomy 13, and Fetal Sex

Liquid biopsy - emergence of a new era in personalized cancer care

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