Evaluation of Signature Erosion in Ebola Virus Due to Genomic Drift and Its Impact on the Performance of Diagnostic Assays

Evaluation of Signature Erosion in Ebola Virus Due to Genomic Drift and Its Impact on the Performance of Diagnostic Assays

Genome sequence analyses of the 2014 Ebola Virus (EBOV) isolates revealed a potential problem with the diagnostic assays currently in use; i.e., drifting genomic profiles of the virus may affect the sensitivity or even produce false-negative results. We evaluated signature erosion in ebolavirus mole...

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Main Authors: Shanmuga Sozhamannan, Mitchell Y. Holland, Adrienne T. Hall, Daniel A. Negrón, Mychal Ivancich, Jeffrey W. Koehler, Timothy D. Minogue, Catherine E. Campbell, Walter J. Berger, George W. Christopher, Bruce G. Goodwin, Michael A. Smith
Format: Article
Language:English
Published: MDPI AG 2015-06-01
Series:Viruses
Subjects:
EBOV
Western African outbreak
WGS
qRT-PCR
signature erosion
PSET
BioVelocity
Online Access:http://www.mdpi.com/1999-4915/7/6/2763
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spelling doaj-acc5096ce33c4c3bbd7ab4ad734219b72020-11-24T22:27:26ZengMDPI AGViruses1999-49152015-06-01763130315410.3390/v7062763v7062763Evaluation of Signature Erosion in Ebola Virus Due to Genomic Drift and Its Impact on the Performance of Diagnostic AssaysShanmuga Sozhamannan0Mitchell Y. Holland1Adrienne T. Hall2Daniel A. Negrón3Mychal Ivancich4Jeffrey W. Koehler5Timothy D. Minogue6Catherine E. Campbell7Walter J. Berger8George W. Christopher9Bruce G. Goodwin10Michael A. Smith11Critical Reagents Program, Medical Countermeasure Systems Annex, 110 Thomas Johnson Drive, Frederick, MD 21702, USANoblis, Inc., 3150 Fairview Park Drive South, Falls Church, VA 22042, USADiagnostic Systems Division, United States Army Medical Research Institute of Infectious Diseases, Fort Detrick, MD 21702, USANoblis, Inc., 3150 Fairview Park Drive South, Falls Church, VA 22042, USANoblis, Inc., 3150 Fairview Park Drive South, Falls Church, VA 22042, USADiagnostic Systems Division, United States Army Medical Research Institute of Infectious Diseases, Fort Detrick, MD 21702, USADiagnostic Systems Division, United States Army Medical Research Institute of Infectious Diseases, Fort Detrick, MD 21702, USADCE consulting, Vienna, VA 22181, USANoblis, Inc., 3150 Fairview Park Drive South, Falls Church, VA 22042, USAMedical Countermeasure Systems, Ft. Belvoir, VI 22060, USACritical Reagents Program, Medical Countermeasure Systems Annex, 110 Thomas Johnson Drive, Frederick, MD 21702, USACritical Reagents Program, Medical Countermeasure Systems Annex, 110 Thomas Johnson Drive, Frederick, MD 21702, USAGenome sequence analyses of the 2014 Ebola Virus (EBOV) isolates revealed a potential problem with the diagnostic assays currently in use; i.e., drifting genomic profiles of the virus may affect the sensitivity or even produce false-negative results. We evaluated signature erosion in ebolavirus molecular assays using an in silico approach and found frequent potential false-negative and false-positive results. We further empirically evaluated many EBOV assays, under real time PCR conditions using EBOV Kikwit (1995) and Makona (2014) RNA templates. These results revealed differences in performance between assays but were comparable between the old and new EBOV templates. Using a whole genome approach and a novel algorithm, termed BioVelocity, we identified new signatures that are unique to each of EBOV, Sudan virus (SUDV), and Reston virus (RESTV). Interestingly, many of the current assay signatures do not fall within these regions, indicating a potential drawback in the past assay design strategies. The new signatures identified in this study may be evaluated with real-time reverse transcription PCR (rRT-PCR) assay development and validation. In addition, we discuss regulatory implications and timely availability to impact a rapidly evolving outbreak using existing but perhaps less than optimal assays versus redesign these assays for addressing genomic changes.http://www.mdpi.com/1999-4915/7/6/2763EBOVWestern African outbreakWGSqRT-PCRsignature erosionPSETBioVelocity
collection DOAJ
language English
format Article
sources DOAJ
author Shanmuga Sozhamannan
Mitchell Y. Holland
Adrienne T. Hall
Daniel A. Negrón
Mychal Ivancich
Jeffrey W. Koehler
Timothy D. Minogue
Catherine E. Campbell
Walter J. Berger
George W. Christopher
Bruce G. Goodwin
Michael A. Smith
spellingShingle Shanmuga Sozhamannan
Mitchell Y. Holland
Adrienne T. Hall
Daniel A. Negrón
Mychal Ivancich
Jeffrey W. Koehler
Timothy D. Minogue
Catherine E. Campbell
Walter J. Berger
George W. Christopher
Bruce G. Goodwin
Michael A. Smith
Evaluation of Signature Erosion in Ebola Virus Due to Genomic Drift and Its Impact on the Performance of Diagnostic Assays
Viruses
EBOV
Western African outbreak
WGS
qRT-PCR
signature erosion
PSET
BioVelocity
author_facet Shanmuga Sozhamannan
Mitchell Y. Holland
Adrienne T. Hall
Daniel A. Negrón
Mychal Ivancich
Jeffrey W. Koehler
Timothy D. Minogue
Catherine E. Campbell
Walter J. Berger
George W. Christopher
Bruce G. Goodwin
Michael A. Smith
author_sort Shanmuga Sozhamannan
title Evaluation of Signature Erosion in Ebola Virus Due to Genomic Drift and Its Impact on the Performance of Diagnostic Assays
title_short Evaluation of Signature Erosion in Ebola Virus Due to Genomic Drift and Its Impact on the Performance of Diagnostic Assays
title_full Evaluation of Signature Erosion in Ebola Virus Due to Genomic Drift and Its Impact on the Performance of Diagnostic Assays
title_fullStr Evaluation of Signature Erosion in Ebola Virus Due to Genomic Drift and Its Impact on the Performance of Diagnostic Assays
title_full_unstemmed Evaluation of Signature Erosion in Ebola Virus Due to Genomic Drift and Its Impact on the Performance of Diagnostic Assays
title_sort evaluation of signature erosion in ebola virus due to genomic drift and its impact on the performance of diagnostic assays
publisher MDPI AG
series Viruses
issn 1999-4915
publishDate 2015-06-01
description Genome sequence analyses of the 2014 Ebola Virus (EBOV) isolates revealed a potential problem with the diagnostic assays currently in use; i.e., drifting genomic profiles of the virus may affect the sensitivity or even produce false-negative results. We evaluated signature erosion in ebolavirus molecular assays using an in silico approach and found frequent potential false-negative and false-positive results. We further empirically evaluated many EBOV assays, under real time PCR conditions using EBOV Kikwit (1995) and Makona (2014) RNA templates. These results revealed differences in performance between assays but were comparable between the old and new EBOV templates. Using a whole genome approach and a novel algorithm, termed BioVelocity, we identified new signatures that are unique to each of EBOV, Sudan virus (SUDV), and Reston virus (RESTV). Interestingly, many of the current assay signatures do not fall within these regions, indicating a potential drawback in the past assay design strategies. The new signatures identified in this study may be evaluated with real-time reverse transcription PCR (rRT-PCR) assay development and validation. In addition, we discuss regulatory implications and timely availability to impact a rapidly evolving outbreak using existing but perhaps less than optimal assays versus redesign these assays for addressing genomic changes.
topic EBOV
Western African outbreak
WGS
qRT-PCR
signature erosion
PSET
BioVelocity
url http://www.mdpi.com/1999-4915/7/6/2763
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