Reconstructing complex regions of genomes using long-read sequencing technology

Huddleston, John; Ranade, Swati; Malig, Maika; Antonacci, Francesca; Chaisson, Mark; Hon, Lawrence S.; Sudmant, Peter H.; Graves, Tina; Alkan, Can; Dennis, Megan Y.; Wilson, Richard K.; Turner, Stephen W.; Korlach, Jonas; Eichler, Evan E.

doi:10.1101/gr.168450.113

Cited by 228 publications

(184 citation statements)

References 22 publications

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“…It is possible that the PIF gene resides within a highly complex and structured repetitive chromosomal region that has not yet been sequenced and annotated (53). Indeed, antimicrobial peptides encoded by genes in a region flanked by repetitive elements have been reported previously in bovines (54).…”

Section: Discussionmentioning

confidence: 99%

PreImplantation factor promotes neuroprotection by targeting microRNA let-7

Mueller

Zhou

Yang

et al. 2014

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

106

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Dysfunction and loss of neurons are the major characteristics of CNS disorders that include stroke, multiple sclerosis, and Alzheimer's disease. Activation of the Toll-like receptor 7 by extra-cellular micro-RNA let-7, a highly expressed microRNA in the CNS, induces neuronal cell death. Let-7 released from injured neurons and immune cells acts on neighboring cells, exacerbating CNS damage.Here we show that a synthetic peptide analogous to the mammalian PreImplantation factor (PIF) secreted by developing embryos and which is present in the maternal circulation during pregnancy inhibits the biogenesis of let-7 in both neuronal and immune cells of the mouse. The synthetic peptide, sPIF, destabilizes KH-type splicing regulatory protein (KSRP), a key microRNA-processing protein, in a Toll-like receptor 4 (TLR4)-dependent manner, leading to decreased production of let-7. Furthermore, s.c. administration of sPIF into neonatal rats following hypoxic-ischemic brain injury robustly rescued cortical volume and number of neurons and decreased the detrimental glial response, as is consistent with diminished levels of KSRP and let-7 in sPIF-treated brains. Our results reveal a previously unexpected mechanism of action of PIF and underscore the potential clinical utility of sPIF in treating hypoxic-ischemic brain damage. The newly identified PIF/TLR4/KSRP/ let-7 regulatory axis also may operate during embryo implantation and development.

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Section: Discussionmentioning

confidence: 99%

PreImplantation factor promotes neuroprotection by targeting microRNA let-7

Mueller

Zhou

Yang

et al. 2014

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

106

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“…One of the current issues is that many of the repeats of interest are longer than the individual sequence reads, but this may be ameliorated with the advent of long-read technology (e.g. [60,61] or through the synthetic generation of longer reads (e.g. [62]).…”

Section: (E) Looking Aheadmentioning

confidence: 99%

What's in a genome? The C-value enigma and the evolution of eukaryotic genome content

Elliott

Gregory

2015

Phil. Trans. R. Soc. B

228

221

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One contribution of 17 to a theme issue 'Eukaryotic origins: progress and challenges'. What's in a genome? The C-value enigma and the evolution of eukaryotic genome content Tyler A. Elliott and T. Ryan Gregory Department of Integrative Biology, University of Guelph, Guelph, Ontario, Canada N1G 2W1 Some notable exceptions aside, eukaryotic genomes are distinguished from those of Bacteria and Archaea in a number of ways, including chromosome structure and number, repetitive DNA content, and the presence of introns in protein-coding regions. One of the most notable differences between eukaryotic and prokaryotic genomes is in size. Unlike their prokaryotic counterparts, eukaryotes exhibit enormous (more than 60 000-fold) variability in genome size which is not explained by differences in gene number. Genome size is known to correlate with cell size and division rate, and by extension with numerous organism-level traits such as metabolism, developmental rate or body size. Less well described are the relationships between genome size and other properties of the genome, such as gene content, transposable element content, base pair composition and related features. The rapid expansion of 'complete' genome sequencing projects has, for the first time, made it possible to examine these relationships across a wide range of eukaryotes in order to shed new light on the causes and correlates of genome size diversity. This study presents the results of phylogenetically informed comparisons of genome data for more than 500 species of eukaryotes. Several relationships are described between genome size and other genomic parameters, and some recommendations are presented for how these insights can be extended even more broadly in the future.

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“…The circular consensus method is not limited to Pacific Biosciences sequencing and has been described as a preparatory method valuable in sequencing RNA viruses to very high accuracy, allowing the detection of ultrarare variants and accurate measurement of low-frequency variants (2). The long sequence reads of the Pacific Biosciences platform have allowed the analysis of challenging areas of the genome, such as the major histocompatibility complex (MHC) class I region transcripts (19,129) and regions of segmental duplication (52). Studies performed to generate de novo assemblies have also illustrated the impact of the platform and its potential role in developing routine analysis of human genomes driven by de novo assembly rather than comparisons to a reference sequence (18,31).…”

Section: Short-and Long-read Sequencingmentioning

confidence: 99%

Advancements in Next-Generation Sequencing

Levy

Myers

2016

Annu. Rev. Genom. Hum. Genet.

458

290

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The term next-generation sequencing is almost a decade old, but it remains the colloquial way to describe highly parallel or high-output sequencing methods that produce data at or beyond the genome scale. Since the introduction of these technologies, the number of applications and methods that leverage the power of genome-scale sequencing has increased at an exponential pace. This review highlights recent concepts, technologies, and methods from next-generation sequencing to illustrate the breadth and depth of the applications and research areas that are driving progress in genomics.

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Reconstructing complex regions of genomes using long-read sequencing technology

Cited by 228 publications

References 22 publications

PreImplantation factor promotes neuroprotection by targeting microRNA let-7

PreImplantation factor promotes neuroprotection by targeting microRNA let-7

What's in a genome? The C-value enigma and the evolution of eukaryotic genome content

Advancements in Next-Generation Sequencing

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