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Basic Characteristics of Mutations
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Mutation Site
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L175S |
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Mutation Site Sentence
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Replacements typical for d4 HBV are G74V;I80A and Y100C in core and P111S;T123P;T125I;L175S and M197T in surface protein;respectively. |
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Mutation Level
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Amino acid level |
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Mutation Type
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Nonsynonymous substitution |
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Gene/Protein/Region
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S |
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Standardized Encoding Gene
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S
|
|
Genotype/Subtype
|
D |
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Viral Reference
|
X02496
|
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Functional Impact and Mechanisms
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Disease
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Occult HBV Infection
|
|
Immune
|
- |
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Target Gene
|
-
|
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Clinical and Epidemiological Correlations
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Clinical Information
|
- |
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Treatment
|
- |
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Location
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- |
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Literature Information
|
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PMID
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19077239
|
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Title
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Occult hepatitis B infection: an evolutionary scenario
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Author
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van Hemert FJ,Zaaijer HL,Berkhout B,Lukashov VV
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Journal
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Virology journal
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Journal Info
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2008 Dec 11;5:146
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Abstract
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BACKGROUND: Occult or latent hepatitis B virus (HBV) infection is defined as infection with detectable HBV DNA and undetectable surface antigen (HBsAg) in patients' blood. The cause of an overt HBV infection becoming an occult one is unknown. To gain insight into the mechanism of the development of occult infection, we compared the full-length HBV genome from a blood donor carrying an occult infection (d4) with global genotype D genomes. RESULTS: The phylogenetic analysis of polymerase, core and X protein sequences did not distinguish d4 from other genotype D strains. Yet, d4 surface protein formed the evolutionary outgroup relative to all other genotype D strains. Its evolutionary branch was the only one where accumulation of substitutions suggests positive selection (dN/dS = 1.3787). Many of these substitutions accumulated specifically in regions encoding the core/surface protein interface, as revealed in a 3D-modeled protein complex. We identified a novel RNA splicing event (deleting nucleotides 2986-202) that abolishes surface protein gene expression without affecting polymerase, core and X-protein related functions. Genotype D strains differ in their ability to perform this 2986-202 splicing. Strains prone to 2986-202 splicing constitute a separate clade in a phylogenetic tree of genotype D HBVs. A single substitution (G173T) that is associated with clade membership alters the local RNA secondary structure and is proposed to affect splicing efficiency at the 202 acceptor site. CONCLUSION: We propose an evolutionary scenario for occult HBV infection, in which 2986-202 splicing generates intracellular virus particles devoid of surface protein, which subsequently accumulates mutations due to relaxation of coding constraints. Such viruses are deficient of autonomous propagation and cannot leave the host cell until it is lysed.
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Sequence Data
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EU155889-EU155895
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