Resolving the full spectrum of human genome variation using Linked-Reads

Marks, Patrick; Garcia, Sarah; Barrio, Álvaro Martínez; Belhocine, Kamila; Bernate, Jorge; Bharadwaj, Rajiv; Bjornson, Keith P.; Catalanotti, Claudia; Delaney, Josh; Fehr, Adrian; Fiddes, Ian T.; Galvin, Brendan D.; Heaton, Haynes; Herschleb, Jill; Hindson, Christopher M.; Holt, Esty; Jabara, Cassandra B.; Jett, Susanna; Keivanfar, Nikka; Kyriazopoulou-Panagiotopoulou, Sofia; Lek, Monkol; Lin, Bill K.; Lowe, Adam; Mahamdallie, Shazia; Maheshwari, Shamoni; Makarewicz, Tony; Marshall, Jamie L.; Meschi, Francesca; O'Keefe, Christopher J.; Ordonez, Heather; Patel, Pranav; Price, Andrew D.F.; Royall, Ariel; Ruark, Elise; Seal, Sheila; Schnall-Levin, Michael; Shah, Preyas; Stafford, David; Williams, Stephen R.; Wu, Indira; Xu, Andrew Wei; Rahman, Nazneen; MacArthur, Daniel G.; Church, Deanna M.

doi:10.1101/gr.234443.118

Cited by 199 publications

(127 citation statements)

References 40 publications

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“…First, the reads were aligned to the bovine reference genome (UMD 3.1) using the Lariat aligner; subsequently, SNPs and insertion-deletion polymorphisms (indels) were called using the GATK mode (version 3.8) [26] within Long Ranger pipeline. The identified SNPs (Single nucleotide polymorphisms) were phased using two methods: first, using the phasing method implemented in Long Ranger, which builds on the Markov chain Monte Carlo (MCMC) algorithm-based phasing method proposed by Bansal et al [27] by extending the probabilistic model to be robust to mixed fragments containing alleles from both haplotypes [28]. In the second method, the variants (SNPs) were phased using Hapcut2 [18] using default options.…”

Section: Read Assembly and Haplotype Phasingmentioning

confidence: 99%

A Comparison between Hi-C and 10X Genomics Linked Read Sequencing for Whole Genome Phasing in Hanwoo Cattle

Srikanth

Park

Lim

et al. 2020

Genes

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Until recently, genome-scale phasing was limited due to the short read sizes of sequence data. Though the use of long-read sequencing can overcome this limitation, they require extensive error correction. The emergence of technologies such as 10X genomics linked read sequencing and Hi-C which uses short-read sequencers along with library preparation protocols that facilitates long-read assemblies have greatly reduced the complexities of genome scale phasing. Moreover, it is possible to accurately assemble phased genome of individual samples using these methods. Therefore, in this study, we compared three phasing strategies which included two sample preparation methods along with the Long Ranger pipeline of 10X genomics and HapCut2 software, namely 10X-LG, 10X-HapCut2, and HiC-HapCut2 and assessed their performance and accuracy. We found that the 10X-LG had the best phasing performance amongst the method analyzed. They had the highest phasing rate (89.6%), longest adjusted N50 (1.24 Mb), and lowest switch error rate (0.07%). Moreover, the phasing accuracy and yield of the 10X-LG stayed over 90% for distances up to 4 Mb and 550 Kb respectively, which were considerably higher than 10X-HapCut2 and Hi-C Hapcut2. The results of this study will serve as a good reference for future benchmarking studies and also for reference-based imputation in Hanwoo.

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Section: Read Assembly and Haplotype Phasingmentioning

confidence: 99%

A Comparison between Hi-C and 10X Genomics Linked Read Sequencing for Whole Genome Phasing in Hanwoo Cattle

Srikanth

Park

Lim

et al. 2020

Genes

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“…Similar technologies have recently been further optimized and commercialized by 10× Genomics Inc. (Weisenfeld et al, 2017). These technologies have already provided haplotype aware SR-WGS (Zheng et al, 2016) and improved SV calling from SR-WGS data (Nazaryan-Petersen et al, 2018; Marks et al, 2019). While synthetic long-reads leverage advantages of LRS, some short-read issues may persist, e.g., PCR-bias and intra-read complexity may not always be fully resolved.…”

Section: Introductionmentioning

confidence: 99%

Long-Read Sequencing Emerging in Medical Genetics

2019

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The wide implementation of next-generation sequencing (NGS) technologies has revolutionized the field of medical genetics. However, the short read lengths of currently used sequencing approaches pose a limitation for the identification of structural variants, sequencing repetitive regions, phasing of alleles and distinguishing highly homologous genomic regions. These limitations may significantly contribute to the diagnostic gap in patients with genetic disorders who have undergone standard NGS, like whole exome or even genome sequencing. Now, the emerging long-read sequencing (LRS) technologies may offer improvements in the characterization of genetic variation and regions that are difficult to assess with the prevailing NGS approaches. LRS has so far mainly been used to investigate genetic disorders with previously known or strongly suspected disease loci. While these targeted approaches already show the potential of LRS, it remains to be seen whether LRS technologies can soon enable true whole genome sequencing routinely. Ultimately, this could allow the de novo assembly of individual whole genomes used as a generic test for genetic disorders. In this article, we summarize the current LRS-based research on human genetic disorders and discuss the potential of these technologies to facilitate the next major advancements in medical genetics.

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“…to process stLFR reads for human germline variant calling and phasing 37 . Using a high accuracy pipeline to call variants of CCS long reads, which was also used in the previous study of human HG002/NA24385 with high precision and recall values of variant-calling 38 .…”

Section: Discussionmentioning

confidence: 99%

An integrated Asian human SNV and indel benchmark established using multiple sequencing methods

Huang

Shao²,

et al. 2020

Sci Rep

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Sequencing technologies have been rapidly developed recently, leading to the breakthrough of sequencing-based clinical diagnosis, but accurate and complete genome variation benchmark would be required for further assessment of precision medicine applications. Despite the human cell line of NA12878 has been successfully developed to be a variation benchmark, population-specific variation benchmark is still lacking. Here, we established an Asian human variation benchmark by constructing and sequencing a stabilized cell line of a Chinese Han volunteer. By using seven different sequencing strategies, we obtained ~3.88 Tb clean data from different laboratories, hoping to reach the point of high sequencing depth and accurate variation detection. Through the combination of variations identified from different sequencing strategies and different analysis pipelines, we identified 3.35 million SNVs and 348.65 thousand indels, which were well supported by our sequencing data and passed our strict quality control, thus should be high confidence variation benchmark. Besides, we also detected 5,913 high-quality SNVs which had 969 sites were novel and located in the high homologous regions supported by long-range information in both the co-barcoding single tube Long Fragment Read (stLFR) data and PacBio HiFi CCS data. Furthermore, by using the long reads data (stLFR and HiFi CCS), we were able to phase more than 99% heterozygous SNVs, which helps to improve the benchmark to be haplotype level. Our study provided comprehensive sequencing data as well as the integrated variation benchmark of an Asian derived cell line, which would be valuable for future sequencing-based clinical development.

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Resolving the full spectrum of human genome variation using Linked-Reads

Cited by 199 publications

References 40 publications

A Comparison between Hi-C and 10X Genomics Linked Read Sequencing for Whole Genome Phasing in Hanwoo Cattle

A Comparison between Hi-C and 10X Genomics Linked Read Sequencing for Whole Genome Phasing in Hanwoo Cattle

Long-Read Sequencing Emerging in Medical Genetics

An integrated Asian human SNV and indel benchmark established using multiple sequencing methods

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