Determining the Likelihood of Variant Pathogenicity Using Amino Acid-level Signal-to-Noise Analysis of Genetic Variation.

dc.contributor.author

Jones, Edward G

dc.contributor.author

Landstrom, Andrew P

dc.date.accessioned

2020-04-01T13:27:54Z

dc.date.available

2020-04-01T13:27:54Z

dc.date.issued

2019-01-16

dc.date.updated

2020-04-01T13:27:53Z

dc.description.abstract

Advancements in the cost and speed of next generation genetic sequencing have generated an explosion of clinical whole exome and whole genome testing. While this has led to increased identification of likely pathogenic mutations associated with genetic syndromes, it has also dramatically increased the number of incidentally found genetic variants of unknown significance (VUS). Determining the clinical significance of these variants is a major challenge for both scientists and clinicians. An approach to assist in determining the likelihood of pathogenicity is signal-to-noise analysis at the protein sequence level. This protocol describes a method for amino acid-level signal-to-noise analysis that leverages variant frequency at each amino acid position of the protein with known protein topology to identify areas of the primary sequence with elevated likelihood of pathologic variation (relative to population "background" variation). This method can identify amino acid residue location "hotspots" of high pathologic signal, which can be used to refine the diagnostic weight of VUSs such as those identified by next generation genetic testing.

dc.identifier.issn

1940-087X

dc.identifier.issn

1940-087X

dc.identifier.uri

https://hdl.handle.net/10161/20295

dc.language

eng

dc.publisher

MyJove Corporation

dc.relation.ispartof

Journal of visualized experiments : JoVE

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10.3791/58907

dc.subject

Humans

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Amino Acids

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Proteins

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Likelihood Functions

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Gene Frequency

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Mutation

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KCNQ1 Potassium Channel

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Genetic Variation

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Signal-To-Noise Ratio

dc.title

Determining the Likelihood of Variant Pathogenicity Using Amino Acid-level Signal-to-Noise Analysis of Genetic Variation.

dc.type

Journal article

duke.contributor.orcid

Landstrom, Andrew P|0000-0002-1878-9631

pubs.issue

143

pubs.organisational-group

School of Medicine

pubs.organisational-group

Cell Biology

pubs.organisational-group

Pediatrics, Cardiology

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Duke

pubs.organisational-group

Basic Science Departments

pubs.organisational-group

Pediatrics

pubs.organisational-group

Clinical Science Departments

pubs.publication-status

Published

pubs.volume

2019

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