An RNA-dependent RNA polymerase gene in bat genomes derived from an ancient negative-strand RNA virus

Masayuki Horie; Yuki Kobayashi; Tomoyuki Honda; Kan Fujino; Takumi Akasaka; Claudia Kohl; Gudrun Wibbelt; Kristin Mühldorfer; Andreas Kurth; Marcel A. Müller; Victor M. Corman; Nadine Gillich; Yoshiyuki Suzuki; Martin Schwemmle; Keizo Tomonaga

doi:10.1038/srep25873

An RNA-dependent RNA polymerase gene in bat genomes derived from an ancient negative-strand RNA virus

Masayuki Horie, Yuki Kobayashi, Tomoyuki Honda, Kan Fujino, Takumi Akasaka, Claudia Kohl, Gudrun Wibbelt, Kristin Mühldorfer, Andreas Kurth, Marcel A. Müller, Victor M. Corman, Nadine Gillich, Yoshiyuki Suzuki, Martin Schwemmle, Keizo Tomonaga

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

26 Citations (Scopus)

Abstract

Endogenous bornavirus-like L (EBLL) elements are inheritable sequences derived from ancient bornavirus L genes that encode a viral RNA-dependent RNA polymerase (RdRp) in many eukaryotic genomes. Here, we demonstrate that bats of the genus Eptesicus have preserved for more than 11.8 million years an EBLL element named eEBLL-1, which has an intact open reading frame of 1,718 codons. The eEBLL-1 coding sequence revealed that functional motifs essential for mononegaviral RdRp activity are well conserved in the EBLL-1 genes. Genetic analyses showed that natural selection operated on eEBLL-1 during the evolution of Eptesicus. Notably, we detected efficient transcription of eEBLL-1 in tissues from Eptesicus bats. To the best of our knowledge, this study is the first report showing that the eukaryotic genome has gained a riboviral polymerase gene from an ancient virus that has the potential to encode a functional RdRp.

Original language	English
Article number	25873
Journal	Scientific reports
Volume	6
DOIs	https://doi.org/10.1038/srep25873
Publication status	Published - May 13 2016
Externally published	Yes

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Horie, M., Kobayashi, Y., Honda, T., Fujino, K., Akasaka, T., Kohl, C., Wibbelt, G., Mühldorfer, K., Kurth, A., Müller, M. A., Corman, V. M., Gillich, N., Suzuki, Y., Schwemmle, M., & Tomonaga, K. (2016). An RNA-dependent RNA polymerase gene in bat genomes derived from an ancient negative-strand RNA virus. Scientific reports, 6, Article 25873. https://doi.org/10.1038/srep25873

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abstract = "Endogenous bornavirus-like L (EBLL) elements are inheritable sequences derived from ancient bornavirus L genes that encode a viral RNA-dependent RNA polymerase (RdRp) in many eukaryotic genomes. Here, we demonstrate that bats of the genus Eptesicus have preserved for more than 11.8 million years an EBLL element named eEBLL-1, which has an intact open reading frame of 1,718 codons. The eEBLL-1 coding sequence revealed that functional motifs essential for mononegaviral RdRp activity are well conserved in the EBLL-1 genes. Genetic analyses showed that natural selection operated on eEBLL-1 during the evolution of Eptesicus. Notably, we detected efficient transcription of eEBLL-1 in tissues from Eptesicus bats. To the best of our knowledge, this study is the first report showing that the eukaryotic genome has gained a riboviral polymerase gene from an ancient virus that has the potential to encode a functional RdRp.",

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AU - Horie, Masayuki

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AU - Akasaka, Takumi

AU - Kohl, Claudia

AU - Wibbelt, Gudrun

AU - Mühldorfer, Kristin

AU - Kurth, Andreas

AU - Müller, Marcel A.

AU - Corman, Victor M.

AU - Gillich, Nadine

AU - Suzuki, Yoshiyuki

AU - Schwemmle, Martin

AU - Tomonaga, Keizo

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N2 - Endogenous bornavirus-like L (EBLL) elements are inheritable sequences derived from ancient bornavirus L genes that encode a viral RNA-dependent RNA polymerase (RdRp) in many eukaryotic genomes. Here, we demonstrate that bats of the genus Eptesicus have preserved for more than 11.8 million years an EBLL element named eEBLL-1, which has an intact open reading frame of 1,718 codons. The eEBLL-1 coding sequence revealed that functional motifs essential for mononegaviral RdRp activity are well conserved in the EBLL-1 genes. Genetic analyses showed that natural selection operated on eEBLL-1 during the evolution of Eptesicus. Notably, we detected efficient transcription of eEBLL-1 in tissues from Eptesicus bats. To the best of our knowledge, this study is the first report showing that the eukaryotic genome has gained a riboviral polymerase gene from an ancient virus that has the potential to encode a functional RdRp.

AB - Endogenous bornavirus-like L (EBLL) elements are inheritable sequences derived from ancient bornavirus L genes that encode a viral RNA-dependent RNA polymerase (RdRp) in many eukaryotic genomes. Here, we demonstrate that bats of the genus Eptesicus have preserved for more than 11.8 million years an EBLL element named eEBLL-1, which has an intact open reading frame of 1,718 codons. The eEBLL-1 coding sequence revealed that functional motifs essential for mononegaviral RdRp activity are well conserved in the EBLL-1 genes. Genetic analyses showed that natural selection operated on eEBLL-1 during the evolution of Eptesicus. Notably, we detected efficient transcription of eEBLL-1 in tissues from Eptesicus bats. To the best of our knowledge, this study is the first report showing that the eukaryotic genome has gained a riboviral polymerase gene from an ancient virus that has the potential to encode a functional RdRp.

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An RNA-dependent RNA polymerase gene in bat genomes derived from an ancient negative-strand RNA virus

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