Distinct Host Tropism Protein Signatures to Identify Possible Zoonotic Influenza A Viruses.

Zoonotic influenza A viruses constantly pose a health threat to humans as novel strains occasionally emerge from the avian population to cause human infections. Many past epidemic as well as pandemic strains have originated from avian species. While most viruses are restricted to their primary hosts...

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Main Authors: Christine L P Eng, Joo Chuan Tong, Tin Wee Tan
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4767729?pdf=render
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spelling doaj-fc4d0ef468644201a042365a3f5ae0182020-11-25T02:34:58ZengPublic Library of Science (PLoS)PLoS ONE1932-62032016-01-01112e015017310.1371/journal.pone.0150173Distinct Host Tropism Protein Signatures to Identify Possible Zoonotic Influenza A Viruses.Christine L P EngJoo Chuan TongTin Wee TanZoonotic influenza A viruses constantly pose a health threat to humans as novel strains occasionally emerge from the avian population to cause human infections. Many past epidemic as well as pandemic strains have originated from avian species. While most viruses are restricted to their primary hosts, zoonotic strains can sometimes arise from mutations or reassortment, leading them to acquire the capability to escape host species barrier and successfully infect a new host. Phylogenetic analyses and genetic markers are useful in tracing the origins of zoonotic infections, but there are still no effective means to identify high risk strains prior to an outbreak. Here we show that distinct host tropism protein signatures can be used to identify possible zoonotic strains in avian species which have the potential to cause human infections. We have discovered that influenza A viruses can now be classified into avian, human, or zoonotic strains based on their host tropism protein signatures. Analysis of all influenza A viruses with complete proteome using the host tropism prediction system, based on machine learning classifications of avian and human viral proteins has uncovered distinct signatures of zoonotic strains as mosaics of avian and human viral proteins. This is in contrast with typical avian or human strains where they show mostly avian or human viral proteins in their signatures respectively. Moreover, we have found that zoonotic strains from the same influenza outbreaks carry similar host tropism protein signatures characteristic of a common ancestry. Our results demonstrate that the distinct host tropism protein signature in zoonotic strains may prove useful in influenza surveillance to rapidly identify potential high risk strains circulating in avian species, which may grant us the foresight in anticipating an impending influenza outbreak.http://europepmc.org/articles/PMC4767729?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Christine L P Eng
Joo Chuan Tong
Tin Wee Tan
spellingShingle Christine L P Eng
Joo Chuan Tong
Tin Wee Tan
Distinct Host Tropism Protein Signatures to Identify Possible Zoonotic Influenza A Viruses.
PLoS ONE
author_facet Christine L P Eng
Joo Chuan Tong
Tin Wee Tan
author_sort Christine L P Eng
title Distinct Host Tropism Protein Signatures to Identify Possible Zoonotic Influenza A Viruses.
title_short Distinct Host Tropism Protein Signatures to Identify Possible Zoonotic Influenza A Viruses.
title_full Distinct Host Tropism Protein Signatures to Identify Possible Zoonotic Influenza A Viruses.
title_fullStr Distinct Host Tropism Protein Signatures to Identify Possible Zoonotic Influenza A Viruses.
title_full_unstemmed Distinct Host Tropism Protein Signatures to Identify Possible Zoonotic Influenza A Viruses.
title_sort distinct host tropism protein signatures to identify possible zoonotic influenza a viruses.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2016-01-01
description Zoonotic influenza A viruses constantly pose a health threat to humans as novel strains occasionally emerge from the avian population to cause human infections. Many past epidemic as well as pandemic strains have originated from avian species. While most viruses are restricted to their primary hosts, zoonotic strains can sometimes arise from mutations or reassortment, leading them to acquire the capability to escape host species barrier and successfully infect a new host. Phylogenetic analyses and genetic markers are useful in tracing the origins of zoonotic infections, but there are still no effective means to identify high risk strains prior to an outbreak. Here we show that distinct host tropism protein signatures can be used to identify possible zoonotic strains in avian species which have the potential to cause human infections. We have discovered that influenza A viruses can now be classified into avian, human, or zoonotic strains based on their host tropism protein signatures. Analysis of all influenza A viruses with complete proteome using the host tropism prediction system, based on machine learning classifications of avian and human viral proteins has uncovered distinct signatures of zoonotic strains as mosaics of avian and human viral proteins. This is in contrast with typical avian or human strains where they show mostly avian or human viral proteins in their signatures respectively. Moreover, we have found that zoonotic strains from the same influenza outbreaks carry similar host tropism protein signatures characteristic of a common ancestry. Our results demonstrate that the distinct host tropism protein signature in zoonotic strains may prove useful in influenza surveillance to rapidly identify potential high risk strains circulating in avian species, which may grant us the foresight in anticipating an impending influenza outbreak.
url http://europepmc.org/articles/PMC4767729?pdf=render
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