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Rapid protein sequence evolution via compensatory frameshift is widespread in RNA virus genomes
Rapid protein sequence evolution via compensatory frameshift is widespread in RNA virus genomes
by Park, Dongbin , Hahn, Yoonsoo
in Algorithms / Amino Acid Sequence / Amino acids / Bioinformatics / Biomedical and Life Sciences / Compensatory frameshift / Computational Biology/Bioinformatics / Computer Appl. in Life Sciences / Epidemics / Evolution / Frameshift Mutation / Gene mutations / Gene sequencing / Genetic aspects / Genome, Viral / Genomes / Genomics / Identification and classification / Influenza / Life Sciences / Methods / Microarrays / Mutation / Natural history / Nucleotide sequence / Nucleotides / Phylogeny / Protein evolution / Proteins / Range extension / Reading / RNA / RNA polymerase / RNA virus / RNA viruses / RNA Viruses - genetics / RNA, Viral / Structure / Viral genome / Viral proteins / Virus research / Viruses
2021
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Rapid protein sequence evolution via compensatory frameshift is widespread in RNA virus genomes
by Park, Dongbin , Hahn, Yoonsoo
in Algorithms / Amino Acid Sequence / Amino acids / Bioinformatics / Biomedical and Life Sciences / Compensatory frameshift / Computational Biology/Bioinformatics / Computer Appl. in Life Sciences / Epidemics / Evolution / Frameshift Mutation / Gene mutations / Gene sequencing / Genetic aspects / Genome, Viral / Genomes / Genomics / Identification and classification / Influenza / Life Sciences / Methods / Microarrays / Mutation / Natural history / Nucleotide sequence / Nucleotides / Phylogeny / Protein evolution / Proteins / Range extension / Reading / RNA / RNA polymerase / RNA virus / RNA viruses / RNA Viruses - genetics / RNA, Viral / Structure / Viral genome / Viral proteins / Virus research / Viruses
2021
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Rapid protein sequence evolution via compensatory frameshift is widespread in RNA virus genomes
Rapid protein sequence evolution via compensatory frameshift is widespread in RNA virus genomes
by Park, Dongbin , Hahn, Yoonsoo
in Algorithms / Amino Acid Sequence / Amino acids / Bioinformatics / Biomedical and Life Sciences / Compensatory frameshift / Computational Biology/Bioinformatics / Computer Appl. in Life Sciences / Epidemics / Evolution / Frameshift Mutation / Gene mutations / Gene sequencing / Genetic aspects / Genome, Viral / Genomes / Genomics / Identification and classification / Influenza / Life Sciences / Methods / Microarrays / Mutation / Natural history / Nucleotide sequence / Nucleotides / Phylogeny / Protein evolution / Proteins / Range extension / Reading / RNA / RNA polymerase / RNA virus / RNA viruses / RNA Viruses - genetics / RNA, Viral / Structure / Viral genome / Viral proteins / Virus research / Viruses
2021

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Rapid protein sequence evolution via compensatory frameshift is widespread in RNA virus genomes
Rapid protein sequence evolution via compensatory frameshift is widespread in RNA virus genomes
Journal Article

Rapid protein sequence evolution via compensatory frameshift is widespread in RNA virus genomes

Park, Dongbin,
Hahn, Yoonsoo
2021
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Overview
Background RNA viruses possess remarkable evolutionary versatility driven by the high mutability of their genomes. Frameshifting nucleotide insertions or deletions (indels), which cause the premature termination of proteins, are frequently observed in the coding sequences of various viral genomes. When a secondary indel occurs near the primary indel site, the open reading frame can be restored to produce functional proteins, a phenomenon known as the compensatory frameshift. Results In this study, we systematically analyzed publicly available viral genome sequences and identified compensatory frameshift events in hundreds of viral protein-coding sequences. Compensatory frameshift events resulted in large-scale amino acid differences between the compensatory frameshift form and the wild type even though their nucleotide sequences were almost identical. Phylogenetic analyses revealed that the evolutionary distance between proteins with and without a compensatory frameshift were significantly overestimated because amino acid mismatches caused by compensatory frameshifts were counted as substitutions. Further, this could cause compensatory frameshift forms to branch in different locations in the protein and nucleotide trees, which may obscure the correct interpretation of phylogenetic relationships between variant viruses. Conclusions Our results imply that the compensatory frameshift is one of the mechanisms driving the rapid protein evolution of RNA viruses and potentially assisting their host-range expansion and adaptation.
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Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject

Algorithms

/ Amino Acid Sequence

/ Amino acids

/ Bioinformatics

/ Biomedical and Life Sciences

/ Compensatory frameshift

/ Computational Biology/Bioinformatics

/ Computer Appl. in Life Sciences

/ Epidemics

/ Evolution

/ Frameshift Mutation

/ Gene mutations

/ Gene sequencing

/ Genetic aspects

/ Genome, Viral

/ Genomes

/ Genomics

/ Identification and classification

/ Influenza

/ Life Sciences

/ Methods

/ Microarrays

/ Mutation

/ Natural history

/ Nucleotide sequence

/ Nucleotides

/ Phylogeny

/ Protein evolution

/ Proteins

/ Range extension

/ Reading

/ RNA

/ RNA polymerase

/ RNA virus

/ RNA viruses

/ RNA Viruses - genetics

/ RNA, Viral

/ Structure

/ Viral genome

/ Viral proteins

/ Virus research

/ Viruses

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