Cargando…
Genome evolution in the allotetraploid frog Xenopus laevis
To explore the origins and consequences of tetraploidy in the African clawed frog, we sequenced the Xenopus laevis genome and compared it to the related diploid X. tropicalis genome. We demonstrate the allotetraploid origin of X. laevis by partitioning its genome into two homeologous subgenomes, mar...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
2016
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5313049/ https://www.ncbi.nlm.nih.gov/pubmed/27762356 http://dx.doi.org/10.1038/nature19840 |
| _version_ | 1782508300195069952 |
|---|---|
| author | Session, Adam M. Uno, Yoshinobu Kwon, Taejoon Chapman, Jarrod A. Toyoda, Atsushi Takahashi, Shuji Fukui, Akimasa Hikosaka, Akira Suzuki, Atsushi Kondo, Mariko van Heeringen, Simon J. Quigley, Ian Heinz, Sven Ogino, Hajime Ochi, Haruki Hellsten, Uffe Lyons, Jessica B Simakov, Oleg Putnam, Nicholas Stites, Jonathan Kuroki, Yoko Tanaka, Toshiaki Michiue, Tatsuo Watanabe, Minoru Bogdanovic, Ozren Lister, Ryan Georgiou, Georgios Paranjpe, Sarita S. van Kruijsbergen, Ila Shu, Shengquiang Carlson, Joseph Kinoshita, Tsutomu Ohta, Yuko Mawaribuchi, Shuuji Jenkins, Jerry Grimwood, Jane Schmutz, Jeremy Mitros, Therese Mozaffari, Sahar Suzuki, Yutaka Haramoto, Yoshikazu Yamamoto, Takamasa S. Takagi, Chiyo Heald, Rebecca Miller, Kelly Haudenschild, Christian Kitzman, Jacob Nakayama, Takuya Izutsu, Yumi Robert, Jacques Fortriede, Joshua Burns, Kevin Lotay, Vaneet Karimi, Kamran Yasuoka, Yuuri Dichmann, Darwin S. Flajnik, Martin F. Houston, Douglas W Shendure, Jay DuPasquier, Louis Vize, Peter D. Zorn, Aaron M. Ito, Michihiko Marcotte, Ed Wallingford, John B. Ito, Yuzuru Asashima, Makoto Ueno, Naoto Matsuda, Yoichi Veenstra, Gert Jan C. Fujiyama, Asao Harland, Richard M. Taira, Masanori Rokhsar, Daniel S. |
| author_facet | Session, Adam M. Uno, Yoshinobu Kwon, Taejoon Chapman, Jarrod A. Toyoda, Atsushi Takahashi, Shuji Fukui, Akimasa Hikosaka, Akira Suzuki, Atsushi Kondo, Mariko van Heeringen, Simon J. Quigley, Ian Heinz, Sven Ogino, Hajime Ochi, Haruki Hellsten, Uffe Lyons, Jessica B Simakov, Oleg Putnam, Nicholas Stites, Jonathan Kuroki, Yoko Tanaka, Toshiaki Michiue, Tatsuo Watanabe, Minoru Bogdanovic, Ozren Lister, Ryan Georgiou, Georgios Paranjpe, Sarita S. van Kruijsbergen, Ila Shu, Shengquiang Carlson, Joseph Kinoshita, Tsutomu Ohta, Yuko Mawaribuchi, Shuuji Jenkins, Jerry Grimwood, Jane Schmutz, Jeremy Mitros, Therese Mozaffari, Sahar Suzuki, Yutaka Haramoto, Yoshikazu Yamamoto, Takamasa S. Takagi, Chiyo Heald, Rebecca Miller, Kelly Haudenschild, Christian Kitzman, Jacob Nakayama, Takuya Izutsu, Yumi Robert, Jacques Fortriede, Joshua Burns, Kevin Lotay, Vaneet Karimi, Kamran Yasuoka, Yuuri Dichmann, Darwin S. Flajnik, Martin F. Houston, Douglas W Shendure, Jay DuPasquier, Louis Vize, Peter D. Zorn, Aaron M. Ito, Michihiko Marcotte, Ed Wallingford, John B. Ito, Yuzuru Asashima, Makoto Ueno, Naoto Matsuda, Yoichi Veenstra, Gert Jan C. Fujiyama, Asao Harland, Richard M. Taira, Masanori Rokhsar, Daniel S. |
| author_sort | Session, Adam M. |
| collection | PubMed |
| description | To explore the origins and consequences of tetraploidy in the African clawed frog, we sequenced the Xenopus laevis genome and compared it to the related diploid X. tropicalis genome. We demonstrate the allotetraploid origin of X. laevis by partitioning its genome into two homeologous subgenomes, marked by distinct families of “fossil” transposable elements. Based on the activity of these elements and the age of hundreds of unitary pseudogenes, we estimate that the two diploid progenitor species diverged ~34 million years ago (Mya) and combined to form an allotetraploid ~17–18 Mya. 56% of all genes are retained in two homeologous copies. Protein function, gene expression, and the amount of flanking conserved sequence all correlate with retention rates. The subgenomes have evolved asymmetrically, with one chromosome set more often preserving the ancestral state and the other experiencing more gene loss, deletion, rearrangement, and reduced gene expression. |
| format | Online Article Text |
| id | pubmed-5313049 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2016 |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-53130492017-04-20 Genome evolution in the allotetraploid frog Xenopus laevis Session, Adam M. Uno, Yoshinobu Kwon, Taejoon Chapman, Jarrod A. Toyoda, Atsushi Takahashi, Shuji Fukui, Akimasa Hikosaka, Akira Suzuki, Atsushi Kondo, Mariko van Heeringen, Simon J. Quigley, Ian Heinz, Sven Ogino, Hajime Ochi, Haruki Hellsten, Uffe Lyons, Jessica B Simakov, Oleg Putnam, Nicholas Stites, Jonathan Kuroki, Yoko Tanaka, Toshiaki Michiue, Tatsuo Watanabe, Minoru Bogdanovic, Ozren Lister, Ryan Georgiou, Georgios Paranjpe, Sarita S. van Kruijsbergen, Ila Shu, Shengquiang Carlson, Joseph Kinoshita, Tsutomu Ohta, Yuko Mawaribuchi, Shuuji Jenkins, Jerry Grimwood, Jane Schmutz, Jeremy Mitros, Therese Mozaffari, Sahar Suzuki, Yutaka Haramoto, Yoshikazu Yamamoto, Takamasa S. Takagi, Chiyo Heald, Rebecca Miller, Kelly Haudenschild, Christian Kitzman, Jacob Nakayama, Takuya Izutsu, Yumi Robert, Jacques Fortriede, Joshua Burns, Kevin Lotay, Vaneet Karimi, Kamran Yasuoka, Yuuri Dichmann, Darwin S. Flajnik, Martin F. Houston, Douglas W Shendure, Jay DuPasquier, Louis Vize, Peter D. Zorn, Aaron M. Ito, Michihiko Marcotte, Ed Wallingford, John B. Ito, Yuzuru Asashima, Makoto Ueno, Naoto Matsuda, Yoichi Veenstra, Gert Jan C. Fujiyama, Asao Harland, Richard M. Taira, Masanori Rokhsar, Daniel S. Nature Article To explore the origins and consequences of tetraploidy in the African clawed frog, we sequenced the Xenopus laevis genome and compared it to the related diploid X. tropicalis genome. We demonstrate the allotetraploid origin of X. laevis by partitioning its genome into two homeologous subgenomes, marked by distinct families of “fossil” transposable elements. Based on the activity of these elements and the age of hundreds of unitary pseudogenes, we estimate that the two diploid progenitor species diverged ~34 million years ago (Mya) and combined to form an allotetraploid ~17–18 Mya. 56% of all genes are retained in two homeologous copies. Protein function, gene expression, and the amount of flanking conserved sequence all correlate with retention rates. The subgenomes have evolved asymmetrically, with one chromosome set more often preserving the ancestral state and the other experiencing more gene loss, deletion, rearrangement, and reduced gene expression. 2016-10-20 /pmc/articles/PMC5313049/ /pubmed/27762356 http://dx.doi.org/10.1038/nature19840 Text en Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use: http://www.nature.com/authors/editorial_policies/license.html#terms |
| spellingShingle | Article Session, Adam M. Uno, Yoshinobu Kwon, Taejoon Chapman, Jarrod A. Toyoda, Atsushi Takahashi, Shuji Fukui, Akimasa Hikosaka, Akira Suzuki, Atsushi Kondo, Mariko van Heeringen, Simon J. Quigley, Ian Heinz, Sven Ogino, Hajime Ochi, Haruki Hellsten, Uffe Lyons, Jessica B Simakov, Oleg Putnam, Nicholas Stites, Jonathan Kuroki, Yoko Tanaka, Toshiaki Michiue, Tatsuo Watanabe, Minoru Bogdanovic, Ozren Lister, Ryan Georgiou, Georgios Paranjpe, Sarita S. van Kruijsbergen, Ila Shu, Shengquiang Carlson, Joseph Kinoshita, Tsutomu Ohta, Yuko Mawaribuchi, Shuuji Jenkins, Jerry Grimwood, Jane Schmutz, Jeremy Mitros, Therese Mozaffari, Sahar Suzuki, Yutaka Haramoto, Yoshikazu Yamamoto, Takamasa S. Takagi, Chiyo Heald, Rebecca Miller, Kelly Haudenschild, Christian Kitzman, Jacob Nakayama, Takuya Izutsu, Yumi Robert, Jacques Fortriede, Joshua Burns, Kevin Lotay, Vaneet Karimi, Kamran Yasuoka, Yuuri Dichmann, Darwin S. Flajnik, Martin F. Houston, Douglas W Shendure, Jay DuPasquier, Louis Vize, Peter D. Zorn, Aaron M. Ito, Michihiko Marcotte, Ed Wallingford, John B. Ito, Yuzuru Asashima, Makoto Ueno, Naoto Matsuda, Yoichi Veenstra, Gert Jan C. Fujiyama, Asao Harland, Richard M. Taira, Masanori Rokhsar, Daniel S. Genome evolution in the allotetraploid frog Xenopus laevis |
| title | Genome evolution in the allotetraploid frog Xenopus laevis |
| title_full | Genome evolution in the allotetraploid frog Xenopus laevis |
| title_fullStr | Genome evolution in the allotetraploid frog Xenopus laevis |
| title_full_unstemmed | Genome evolution in the allotetraploid frog Xenopus laevis |
| title_short | Genome evolution in the allotetraploid frog Xenopus laevis |
| title_sort | genome evolution in the allotetraploid frog xenopus laevis |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5313049/ https://www.ncbi.nlm.nih.gov/pubmed/27762356 http://dx.doi.org/10.1038/nature19840 |
| work_keys_str_mv | AT sessionadamm genomeevolutionintheallotetraploidfrogxenopuslaevis AT unoyoshinobu genomeevolutionintheallotetraploidfrogxenopuslaevis AT kwontaejoon genomeevolutionintheallotetraploidfrogxenopuslaevis AT chapmanjarroda genomeevolutionintheallotetraploidfrogxenopuslaevis AT toyodaatsushi genomeevolutionintheallotetraploidfrogxenopuslaevis AT takahashishuji genomeevolutionintheallotetraploidfrogxenopuslaevis AT fukuiakimasa genomeevolutionintheallotetraploidfrogxenopuslaevis AT hikosakaakira genomeevolutionintheallotetraploidfrogxenopuslaevis AT suzukiatsushi genomeevolutionintheallotetraploidfrogxenopuslaevis AT kondomariko genomeevolutionintheallotetraploidfrogxenopuslaevis AT vanheeringensimonj genomeevolutionintheallotetraploidfrogxenopuslaevis AT quigleyian genomeevolutionintheallotetraploidfrogxenopuslaevis AT heinzsven genomeevolutionintheallotetraploidfrogxenopuslaevis AT oginohajime genomeevolutionintheallotetraploidfrogxenopuslaevis AT ochiharuki genomeevolutionintheallotetraploidfrogxenopuslaevis AT hellstenuffe genomeevolutionintheallotetraploidfrogxenopuslaevis AT lyonsjessicab genomeevolutionintheallotetraploidfrogxenopuslaevis AT simakovoleg genomeevolutionintheallotetraploidfrogxenopuslaevis AT putnamnicholas genomeevolutionintheallotetraploidfrogxenopuslaevis AT stitesjonathan genomeevolutionintheallotetraploidfrogxenopuslaevis AT kurokiyoko genomeevolutionintheallotetraploidfrogxenopuslaevis AT tanakatoshiaki genomeevolutionintheallotetraploidfrogxenopuslaevis AT michiuetatsuo genomeevolutionintheallotetraploidfrogxenopuslaevis AT watanabeminoru genomeevolutionintheallotetraploidfrogxenopuslaevis AT bogdanovicozren genomeevolutionintheallotetraploidfrogxenopuslaevis AT listerryan genomeevolutionintheallotetraploidfrogxenopuslaevis AT georgiougeorgios genomeevolutionintheallotetraploidfrogxenopuslaevis AT paranjpesaritas genomeevolutionintheallotetraploidfrogxenopuslaevis AT vankruijsbergenila genomeevolutionintheallotetraploidfrogxenopuslaevis AT shushengquiang genomeevolutionintheallotetraploidfrogxenopuslaevis AT carlsonjoseph genomeevolutionintheallotetraploidfrogxenopuslaevis AT kinoshitatsutomu genomeevolutionintheallotetraploidfrogxenopuslaevis AT ohtayuko genomeevolutionintheallotetraploidfrogxenopuslaevis AT mawaribuchishuuji genomeevolutionintheallotetraploidfrogxenopuslaevis AT jenkinsjerry genomeevolutionintheallotetraploidfrogxenopuslaevis AT grimwoodjane genomeevolutionintheallotetraploidfrogxenopuslaevis AT schmutzjeremy genomeevolutionintheallotetraploidfrogxenopuslaevis AT mitrostherese genomeevolutionintheallotetraploidfrogxenopuslaevis AT mozaffarisahar genomeevolutionintheallotetraploidfrogxenopuslaevis AT suzukiyutaka genomeevolutionintheallotetraploidfrogxenopuslaevis AT haramotoyoshikazu genomeevolutionintheallotetraploidfrogxenopuslaevis AT yamamototakamasas genomeevolutionintheallotetraploidfrogxenopuslaevis AT takagichiyo genomeevolutionintheallotetraploidfrogxenopuslaevis AT healdrebecca genomeevolutionintheallotetraploidfrogxenopuslaevis AT millerkelly genomeevolutionintheallotetraploidfrogxenopuslaevis AT haudenschildchristian genomeevolutionintheallotetraploidfrogxenopuslaevis AT kitzmanjacob genomeevolutionintheallotetraploidfrogxenopuslaevis AT nakayamatakuya genomeevolutionintheallotetraploidfrogxenopuslaevis AT izutsuyumi genomeevolutionintheallotetraploidfrogxenopuslaevis AT robertjacques genomeevolutionintheallotetraploidfrogxenopuslaevis AT fortriedejoshua genomeevolutionintheallotetraploidfrogxenopuslaevis AT burnskevin genomeevolutionintheallotetraploidfrogxenopuslaevis AT lotayvaneet genomeevolutionintheallotetraploidfrogxenopuslaevis AT karimikamran genomeevolutionintheallotetraploidfrogxenopuslaevis AT yasuokayuuri genomeevolutionintheallotetraploidfrogxenopuslaevis AT dichmanndarwins genomeevolutionintheallotetraploidfrogxenopuslaevis AT flajnikmartinf genomeevolutionintheallotetraploidfrogxenopuslaevis AT houstondouglasw genomeevolutionintheallotetraploidfrogxenopuslaevis AT shendurejay genomeevolutionintheallotetraploidfrogxenopuslaevis AT dupasquierlouis genomeevolutionintheallotetraploidfrogxenopuslaevis AT vizepeterd genomeevolutionintheallotetraploidfrogxenopuslaevis AT zornaaronm genomeevolutionintheallotetraploidfrogxenopuslaevis AT itomichihiko genomeevolutionintheallotetraploidfrogxenopuslaevis AT marcotteed genomeevolutionintheallotetraploidfrogxenopuslaevis AT wallingfordjohnb genomeevolutionintheallotetraploidfrogxenopuslaevis AT itoyuzuru genomeevolutionintheallotetraploidfrogxenopuslaevis AT asashimamakoto genomeevolutionintheallotetraploidfrogxenopuslaevis AT uenonaoto genomeevolutionintheallotetraploidfrogxenopuslaevis AT matsudayoichi genomeevolutionintheallotetraploidfrogxenopuslaevis AT veenstragertjanc genomeevolutionintheallotetraploidfrogxenopuslaevis AT fujiyamaasao genomeevolutionintheallotetraploidfrogxenopuslaevis AT harlandrichardm genomeevolutionintheallotetraploidfrogxenopuslaevis AT tairamasanori genomeevolutionintheallotetraploidfrogxenopuslaevis AT rokhsardaniels genomeevolutionintheallotetraploidfrogxenopuslaevis |