Design and development of exome capture sequencing for the domestic pig (Sus scrofa)

Robert, Christelle; Fuentes-Utrilla, Pablo; Troup, K.; Loecherbach, Julia; Turner, Frances; Talbot, Richard; Archibald, Alan; Mileham, Alan J.; Deeb, Nader; Hume, David; Watson, Michael

doi:10.1186/1471-2164-15-550

Cited by 25 publications

(17 citation statements)

References 42 publications

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“…However, when comparing base coverages, 93 to 94% (<9 Mb) of the targeted bases (<53 Mb) were covered at least once and 89 to 91% were covered at least five times in the canine design 15 , while the cat coverages were higher at nearly 100%. The pig exome capture probes demonstrate 90% of bases covered at 20x coverage, discovering 264,000 SNPs and indels 67 . Overall, direct comparisons are difficult due to the differences in annotation, genome assembly accuracy, and design techniques.…”

Section: Discussionmentioning

confidence: 99%

A domestic cat whole exome sequencing resource for trait discovery

Rodney

Buckley

Fulton

et al. 2020

Preprint

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Over 94 million domestic cats are considered pets, who, as our companions, are also susceptible to cancers, common and rare diseases. Whole exome sequencing (WES) is a cost-effective strategy to study their putative disease-causing variants. Presented is ~35.8 Mb exome capture design based on the annotated Felis_catus_9.0 genome assembly, covering 201,683 regions of the cat genome. WES was conducted on 41 cats from various breeds with known and unknown diseases and traits, including 10 cats with prior whole genome sequence (WGS) data available, to test WES capture probe performance. A WES and WGS comparison was completed to understand variant discovery capability of each platform. At ~80x exome coverage, the percent of on-target base coverage >20x was 96.4% with an average of 10.4% off-target. For variant discovery, greater than 98% of WGS SNPs were also discovered by WES. Platform specific variants were mainly restricted to a small number of sex chromosome and olfactory receptor genes. Within the 41 cats with ~31 diseases and normal traits, 45 previously known disease or trait causal variants were observed, such as Persian progressive retinal degeneration and hydrocephalus. Novel candidate variants for polycystic kidney disease and atrichia in the Peterbald breed were also identified as well as a new cat patient with a known variant for cystinuria. These results show the discovery potential of deep exome sequencing to validate existing disease gene models and identify novel gene candidate alleles for many common and rare diseases in cats.

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Section: Discussionmentioning

confidence: 99%

A domestic cat whole exome sequencing resource for trait discovery

Rodney

Buckley

Fulton

et al. 2020

Preprint

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“…Unfortunately, such information is not at the same level of completion for species other than human—beyond human and mouse, other animal genomes can lack up to 20 megabases of annotation [9]—and even for species as well-studied as human, it is now clear that the transcript annotations are not fully complete.…”

Section: What This Means For Studies In Other Speciesmentioning

confidence: 99%

The incredible complexity of RNA splicing

Robert

Watson

2016

Genome Biol

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“…; Robert et al . ). In 2014, the first report on a WES design, called the exome‐1.0, in the dog was published (Broeckx et al .…”

Section: Introductionmentioning

confidence: 97%

Toward the most ideal case–control design with related and unrelated dogs in whole‐exome sequencing studies

et al. 2015

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With the recent development of whole-exome sequencing enrichment designs for the dog, a novel tool for disease-association studies became available. The aim of disease-association studies is to identify one or a very limited number of putative causal variants or genes from the large pool of genetic variation. To maximize the efficiency of these studies and to provide some directions of what to expect, we evaluated the effect on variant reduction for various combinations of cases and controls for both dominant and recessive types of inheritance assuming variable degrees of penetrance and detectance. In this study, variant data of 14 dogs (13 Labrador Retrievers and one Dogue de Bordeaux), obtained by whole-exome sequencing, were analyzed. In the filtering process, we found that unrelated dogs from the same breed share up to 70% of their variants, which is likely a consequence of the breeding history of the dog. For the designs tested with unrelated dogs, combining two cases and two controls gave the best result. These results were improved further by adding closely related dogs. Reduced penetrance and/or detectance has a drastic effect on the efficiency and is likely to have a profound effect on the sample size needed to elucidate the causal variant. Overall, we demonstrated that sequencing a small number of dogs results in a marked reduction of variants that are likely sufficient to pinpoint causal variants or genes.

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Design and development of exome capture sequencing for the domestic pig (Sus scrofa)

Cited by 25 publications

References 42 publications

A domestic cat whole exome sequencing resource for trait discovery

A domestic cat whole exome sequencing resource for trait discovery

The incredible complexity of RNA splicing

Toward the most ideal case–control design with related and unrelated dogs in whole‐exome sequencing studies

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