SIG-DB: Leveraging homomorphic encryption to securely interrogate privately held genomic databases.

SIG-DB: Leveraging homomorphic encryption to securely interrogate privately held genomic databases.

Genomic data are becoming increasingly valuable as we develop methods to utilize the information at scale and gain a greater understanding of how genetic information relates to biological function. Advances in synthetic biology and the decreased cost of sequencing are increasing the amount of privat...

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Main Authors: Alexander J Titus, Audrey Flower, Patrick Hagerty, Paul Gamble, Charlie Lewis, Todd Stavish, Kevin P O'Connell, Greg Shipley, Stephanie M Rogers
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2018-09-01
Series:PLoS Computational Biology
Online Access:http://europepmc.org/articles/PMC6138421?pdf=render
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spelling doaj-b4ebc3cf1f584deab88ecdcaefa7565e2020-11-25T01:57:43ZengPublic Library of Science (PLoS)PLoS Computational Biology1553-734X1553-73582018-09-01149e100645410.1371/journal.pcbi.1006454SIG-DB: Leveraging homomorphic encryption to securely interrogate privately held genomic databases.Alexander J TitusAudrey FlowerPatrick HagertyPaul GambleCharlie LewisTodd StavishKevin P O'ConnellGreg ShipleyStephanie M RogersGenomic data are becoming increasingly valuable as we develop methods to utilize the information at scale and gain a greater understanding of how genetic information relates to biological function. Advances in synthetic biology and the decreased cost of sequencing are increasing the amount of privately held genomic data. As the quantity and value of private genomic data grows, so does the incentive to acquire and protect such data, which creates a need to store and process these data securely. We present an algorithm for the Secure Interrogation of Genomic DataBases (SIG-DB). The SIG-DB algorithm enables databases of genomic sequences to be searched with an encrypted query sequence without revealing the query sequence to the Database Owner or any of the database sequences to the Querier. SIG-DB is the first application of its kind to take advantage of locality-sensitive hashing and homomorphic encryption to allow generalized sequence-to-sequence comparisons of genomic data.http://europepmc.org/articles/PMC6138421?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Alexander J Titus
Audrey Flower
Patrick Hagerty
Paul Gamble
Charlie Lewis
Todd Stavish
Kevin P O'Connell
Greg Shipley
Stephanie M Rogers
spellingShingle Alexander J Titus
Audrey Flower
Patrick Hagerty
Paul Gamble
Charlie Lewis
Todd Stavish
Kevin P O'Connell
Greg Shipley
Stephanie M Rogers
SIG-DB: Leveraging homomorphic encryption to securely interrogate privately held genomic databases.
PLoS Computational Biology
author_facet Alexander J Titus
Audrey Flower
Patrick Hagerty
Paul Gamble
Charlie Lewis
Todd Stavish
Kevin P O'Connell
Greg Shipley
Stephanie M Rogers
author_sort Alexander J Titus
title SIG-DB: Leveraging homomorphic encryption to securely interrogate privately held genomic databases.
title_short SIG-DB: Leveraging homomorphic encryption to securely interrogate privately held genomic databases.
title_full SIG-DB: Leveraging homomorphic encryption to securely interrogate privately held genomic databases.
title_fullStr SIG-DB: Leveraging homomorphic encryption to securely interrogate privately held genomic databases.
title_full_unstemmed SIG-DB: Leveraging homomorphic encryption to securely interrogate privately held genomic databases.
title_sort sig-db: leveraging homomorphic encryption to securely interrogate privately held genomic databases.
publisher Public Library of Science (PLoS)
series PLoS Computational Biology
issn 1553-734X
1553-7358
publishDate 2018-09-01
description Genomic data are becoming increasingly valuable as we develop methods to utilize the information at scale and gain a greater understanding of how genetic information relates to biological function. Advances in synthetic biology and the decreased cost of sequencing are increasing the amount of privately held genomic data. As the quantity and value of private genomic data grows, so does the incentive to acquire and protect such data, which creates a need to store and process these data securely. We present an algorithm for the Secure Interrogation of Genomic DataBases (SIG-DB). The SIG-DB algorithm enables databases of genomic sequences to be searched with an encrypted query sequence without revealing the query sequence to the Database Owner or any of the database sequences to the Querier. SIG-DB is the first application of its kind to take advantage of locality-sensitive hashing and homomorphic encryption to allow generalized sequence-to-sequence comparisons of genomic data.
url http://europepmc.org/articles/PMC6138421?pdf=render
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