Evolutionary trends of the first hypervariable region of the hepatitis C virus E2 protein in individuals with differing liver disease severity

R. Curran; C. L. Jameson; J. K. Craggs; A. M. Grabowska; B. J. Thomson; A. Robins; W. L. Irving; Jonathan Ball

doi:10.1099/0022-1317-83-1-11

Evolutionary trends of the first hypervariable region of the hepatitis C virus E2 protein in individuals with differing liver disease severity

R. Curran, C. L. Jameson, J. K. Craggs, A. M. Grabowska, B. J. Thomson, A. Robins, W. L. Irving, Jonathan Ball

University of Nottingham

Research output: Contribution to journal › Article › peer-review

48 Citations (Scopus)

Abstract

Hepatitis C virus (HCV) exists as a complex swarm of genetically related viruses known as a quasispecies. Recent work has shown that quasispecies complexity and evolutionary rates are associated with the outcome of acute infection. Knowledge of how the virus population evolves at different stages of chronic infection is less clear. We have studied rates of evolution of the first hypervariable region (HVR1) of the E2 envelope protein in six individuals with disparate liver disease severity. These data show that virus populations present in individuals with mild nonp-progressive liver disease evolve in a typical Darwinian fashion, with a consistent accumulation of non-synonymous (amino acid-changing) substitutions. By contrast, the virus population remains relatively static in individuals with severe progressive liver disease. Possible mechanisms for this disparity are discussed.

Original language	English
Pages (from-to)	11-23
Number of pages	13
Journal	Journal of General Virology
Volume	83
Issue number	1
DOIs	https://doi.org/10.1099/0022-1317-83-1-11
Publication status	Published - 1 Jan 2002
Externally published	Yes

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abstract = "Hepatitis C virus (HCV) exists as a complex swarm of genetically related viruses known as a quasispecies. Recent work has shown that quasispecies complexity and evolutionary rates are associated with the outcome of acute infection. Knowledge of how the virus population evolves at different stages of chronic infection is less clear. We have studied rates of evolution of the first hypervariable region (HVR1) of the E2 envelope protein in six individuals with disparate liver disease severity. These data show that virus populations present in individuals with mild nonp-progressive liver disease evolve in a typical Darwinian fashion, with a consistent accumulation of non-synonymous (amino acid-changing) substitutions. By contrast, the virus population remains relatively static in individuals with severe progressive liver disease. Possible mechanisms for this disparity are discussed.",

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T1 - Evolutionary trends of the first hypervariable region of the hepatitis C virus E2 protein in individuals with differing liver disease severity

AU - Curran, R.

AU - Jameson, C. L.

AU - Craggs, J. K.

AU - Grabowska, A. M.

AU - Thomson, B. J.

AU - Robins, A.

AU - Irving, W. L.

AU - Ball, Jonathan

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N2 - Hepatitis C virus (HCV) exists as a complex swarm of genetically related viruses known as a quasispecies. Recent work has shown that quasispecies complexity and evolutionary rates are associated with the outcome of acute infection. Knowledge of how the virus population evolves at different stages of chronic infection is less clear. We have studied rates of evolution of the first hypervariable region (HVR1) of the E2 envelope protein in six individuals with disparate liver disease severity. These data show that virus populations present in individuals with mild nonp-progressive liver disease evolve in a typical Darwinian fashion, with a consistent accumulation of non-synonymous (amino acid-changing) substitutions. By contrast, the virus population remains relatively static in individuals with severe progressive liver disease. Possible mechanisms for this disparity are discussed.

AB - Hepatitis C virus (HCV) exists as a complex swarm of genetically related viruses known as a quasispecies. Recent work has shown that quasispecies complexity and evolutionary rates are associated with the outcome of acute infection. Knowledge of how the virus population evolves at different stages of chronic infection is less clear. We have studied rates of evolution of the first hypervariable region (HVR1) of the E2 envelope protein in six individuals with disparate liver disease severity. These data show that virus populations present in individuals with mild nonp-progressive liver disease evolve in a typical Darwinian fashion, with a consistent accumulation of non-synonymous (amino acid-changing) substitutions. By contrast, the virus population remains relatively static in individuals with severe progressive liver disease. Possible mechanisms for this disparity are discussed.

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Evolutionary trends of the first hypervariable region of the hepatitis C virus E2 protein in individuals with differing liver disease severity

Abstract

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