The medaka draft genome and insights into vertebrate genome evolution

Masahiro Kasahara; Kiyoshi Naruse; Shin Sasaki; Yoichiro Nakatani; Wei Qu; Budrul Ahsan; Tomoyuki Yamada; Yukinobu Nagayasu; Koichiro Doi; Yasuhiro Kasai; Tomoko Jindo; Daisuke Kobayashi; Atsuko Shimada; Atsushi Toyoda; Yoko Kuroki; Asao Fujiyama; Takashi Sasaki; Atsushi Shimizu; Shuichi Asakawa; Nobuyoshi Shimizu; Shin Ichi Hashimoto; Jun Yang; Yongjun Lee; Kouji Matsushima; Sumio Sugano; Mitsuru Sakaizumi; Takanori Narita; Kazuko Ohishi; Shinobu Haga; Fumiko Ohta; Hisayo Nomoto; Keiko Nogata; Tomomi Morishita; Tomoko Endo; Tadasu Shin-I; Hiroyuki Takeda; Shinichi Morishita; Yuji Kohara

doi:10.1038/nature05846

The medaka draft genome and insights into vertebrate genome evolution

Masahiro Kasahara, Kiyoshi Naruse, Shin Sasaki, Yoichiro Nakatani, Wei Qu, Budrul Ahsan, Tomoyuki Yamada, Yukinobu Nagayasu, Koichiro Doi, Yasuhiro Kasai, Tomoko Jindo, Daisuke Kobayashi, Atsuko Shimada, Atsushi Toyoda, Yoko Kuroki, Asao Fujiyama, Takashi Sasaki, Atsushi Shimizu, Shuichi Asakawa, Nobuyoshi ShimizuShin Ichi Hashimoto, Jun Yang, Yongjun Lee, Kouji Matsushima, Sumio Sugano, Mitsuru Sakaizumi, Takanori Narita, Kazuko Ohishi, Shinobu Haga, Fumiko Ohta, Hisayo Nomoto, Keiko Nogata, Tomomi Morishita, Tomoko Endo, Tadasu Shin-I, Hiroyuki Takeda, Shinichi Morishita, Yuji Kohara

Center for Supercentenarian Medical Research

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

858 Citations (Scopus)

Abstract

Teleosts comprise more than half of all vertebrate species and have adapted to a variety of marine and freshwater habitats. Their genome evolution and diversification are important subjects for the understanding of vertebrate evolution. Although draft genome sequences of two pufferfishes have been published, analysis of more fish genomes is desirable. Here we report a high-quality draft genome sequence of a small egg-laying freshwater teleost, medaka (Oryzias latipes). Medaka is native to East Asia and an excellent model system for a wide range of biology, including ecotoxicology, carcinogenesis, sex determination and developmental genetics. In the assembled medaka genome (700 megabases), which is less than half of the zebrafish genome, we predicted 20,141 genes, including ∼2,900 new genes, using 5′-end serial analysis of gene expression tag information. We found single nucleotide polymorphisms (SNPs) at an average rate of 3.42% between the two inbred strains derived from two regional populations; this is the highest SNP rate seen in any vertebrate species. Analyses based on the dense SNP information show a strict genetic separation of 4 million years (Myr) between the two populations, and suggest that differential selective pressures acted on specific gene categories. Four-way comparisons with the human, pufferfish (Tetraodon), zebrafish and medaka genomes revealed that eight major interchromosomal rearrangements took place in a remarkably short period of ∼50 Myr after the whole-genome duplication event in the teleost ancestor and afterwards, intriguingly, the medaka genome preserved its ancestral karyotype for more than 300 Myr.

Original language	English
Pages (from-to)	714-719
Number of pages	6
Journal	Nature
Volume	447
Issue number	7145
DOIs	https://doi.org/10.1038/nature05846
Publication status	Published - 2007 Jun 7

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Kasahara, M., Naruse, K., Sasaki, S., Nakatani, Y., Qu, W., Ahsan, B., Yamada, T., Nagayasu, Y., Doi, K., Kasai, Y., Jindo, T., Kobayashi, D., Shimada, A., Toyoda, A., Kuroki, Y., Fujiyama, A., Sasaki, T., Shimizu, A., Asakawa, S., ... Kohara, Y. (2007). The medaka draft genome and insights into vertebrate genome evolution. Nature, 447(7145), 714-719. https://doi.org/10.1038/nature05846

Kasahara, M, Naruse, K, Sasaki, S, Nakatani, Y, Qu, W, Ahsan, B, Yamada, T, Nagayasu, Y, Doi, K, Kasai, Y, Jindo, T, Kobayashi, D, Shimada, A, Toyoda, A, Kuroki, Y, Fujiyama, A, Sasaki, T, Shimizu, A, Asakawa, S, Shimizu, N, Hashimoto, SI, Yang, J, Lee, Y, Matsushima, K, Sugano, S, Sakaizumi, M, Narita, T, Ohishi, K, Haga, S, Ohta, F, Nomoto, H, Nogata, K, Morishita, T, Endo, T, Shin-I, T, Takeda, H, Morishita, S & Kohara, Y 2007, 'The medaka draft genome and insights into vertebrate genome evolution', Nature, vol. 447, no. 7145, pp. 714-719. https://doi.org/10.1038/nature05846

@article{7d29fc580cc54b01b4f07dbf345e41fc,

title = "The medaka draft genome and insights into vertebrate genome evolution",

abstract = "Teleosts comprise more than half of all vertebrate species and have adapted to a variety of marine and freshwater habitats. Their genome evolution and diversification are important subjects for the understanding of vertebrate evolution. Although draft genome sequences of two pufferfishes have been published, analysis of more fish genomes is desirable. Here we report a high-quality draft genome sequence of a small egg-laying freshwater teleost, medaka (Oryzias latipes). Medaka is native to East Asia and an excellent model system for a wide range of biology, including ecotoxicology, carcinogenesis, sex determination and developmental genetics. In the assembled medaka genome (700 megabases), which is less than half of the zebrafish genome, we predicted 20,141 genes, including ∼2,900 new genes, using 5′-end serial analysis of gene expression tag information. We found single nucleotide polymorphisms (SNPs) at an average rate of 3.42% between the two inbred strains derived from two regional populations; this is the highest SNP rate seen in any vertebrate species. Analyses based on the dense SNP information show a strict genetic separation of 4 million years (Myr) between the two populations, and suggest that differential selective pressures acted on specific gene categories. Four-way comparisons with the human, pufferfish (Tetraodon), zebrafish and medaka genomes revealed that eight major interchromosomal rearrangements took place in a remarkably short period of ∼50 Myr after the whole-genome duplication event in the teleost ancestor and afterwards, intriguingly, the medaka genome preserved its ancestral karyotype for more than 300 Myr.",

author = "Masahiro Kasahara and Kiyoshi Naruse and Shin Sasaki and Yoichiro Nakatani and Wei Qu and Budrul Ahsan and Tomoyuki Yamada and Yukinobu Nagayasu and Koichiro Doi and Yasuhiro Kasai and Tomoko Jindo and Daisuke Kobayashi and Atsuko Shimada and Atsushi Toyoda and Yoko Kuroki and Asao Fujiyama and Takashi Sasaki and Atsushi Shimizu and Shuichi Asakawa and Nobuyoshi Shimizu and Hashimoto, {Shin Ichi} and Jun Yang and Yongjun Lee and Kouji Matsushima and Sumio Sugano and Mitsuru Sakaizumi and Takanori Narita and Kazuko Ohishi and Shinobu Haga and Fumiko Ohta and Hisayo Nomoto and Keiko Nogata and Tomomi Morishita and Tomoko Endo and Tadasu Shin-I and Hiroyuki Takeda and Shinichi Morishita and Yuji Kohara",

note = "Funding Information: Acknowledgements This work was supported by a Grant-in-Aid for Scientific Research on Priority Areas {\textquoteleft}{\textquoteleft}Genome{\textquoteright}{\textquoteright} from the Ministry of Education, Culture, Sports, Science and Technology of Japan (MEXT), and the Japan Science and Technology Corporation (JST). We thank the Human Genome Center, University of Tokyo for computational time, and the National BioResource Project of MEXT for medaka strain supply and other support. We thank T. Koh for his assistance in genome assembly, A. Mori, T. Shishiki and T. Furudate for their assistance in genome browser development, Y. Ishikawa, H. Mitani and M. Matsuda for medaka resources, M. Shinya and T. Kimura for the Hd-rR/HNI F2 panel, N. Shibata for O. curvinotus, and A. Hase, N. Hasegawa, S. Iiyama, N. Ishihara, K. Kawaguchi, Y. Minakuchi, S. Miura, J. Miyamoto, H. Miyauchi, M. Mizukoshi, Y. Mochizuki, Y. Sugiyama, H. Takizawa-Hayashi, M. Tamiya, T. Tandoh and E. Yokoyama for their technical assistance.",

year = "2007",

month = jun,

day = "7",

doi = "10.1038/nature05846",

language = "English",

volume = "447",

pages = "714--719",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Publishing Group",

number = "7145",

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TY - JOUR

T1 - The medaka draft genome and insights into vertebrate genome evolution

AU - Kasahara, Masahiro

AU - Naruse, Kiyoshi

AU - Sasaki, Shin

AU - Nakatani, Yoichiro

AU - Qu, Wei

AU - Ahsan, Budrul

AU - Yamada, Tomoyuki

AU - Nagayasu, Yukinobu

AU - Doi, Koichiro

AU - Kasai, Yasuhiro

AU - Jindo, Tomoko

AU - Kobayashi, Daisuke

AU - Shimada, Atsuko

AU - Toyoda, Atsushi

AU - Kuroki, Yoko

AU - Fujiyama, Asao

AU - Sasaki, Takashi

AU - Shimizu, Atsushi

AU - Asakawa, Shuichi

AU - Shimizu, Nobuyoshi

AU - Hashimoto, Shin Ichi

AU - Yang, Jun

AU - Lee, Yongjun

AU - Matsushima, Kouji

AU - Sugano, Sumio

AU - Sakaizumi, Mitsuru

AU - Narita, Takanori

AU - Ohishi, Kazuko

AU - Haga, Shinobu

AU - Ohta, Fumiko

AU - Nomoto, Hisayo

AU - Nogata, Keiko

AU - Morishita, Tomomi

AU - Endo, Tomoko

AU - Shin-I, Tadasu

AU - Takeda, Hiroyuki

AU - Morishita, Shinichi

AU - Kohara, Yuji

N1 - Funding Information: Acknowledgements This work was supported by a Grant-in-Aid for Scientific Research on Priority Areas ‘‘Genome’’ from the Ministry of Education, Culture, Sports, Science and Technology of Japan (MEXT), and the Japan Science and Technology Corporation (JST). We thank the Human Genome Center, University of Tokyo for computational time, and the National BioResource Project of MEXT for medaka strain supply and other support. We thank T. Koh for his assistance in genome assembly, A. Mori, T. Shishiki and T. Furudate for their assistance in genome browser development, Y. Ishikawa, H. Mitani and M. Matsuda for medaka resources, M. Shinya and T. Kimura for the Hd-rR/HNI F2 panel, N. Shibata for O. curvinotus, and A. Hase, N. Hasegawa, S. Iiyama, N. Ishihara, K. Kawaguchi, Y. Minakuchi, S. Miura, J. Miyamoto, H. Miyauchi, M. Mizukoshi, Y. Mochizuki, Y. Sugiyama, H. Takizawa-Hayashi, M. Tamiya, T. Tandoh and E. Yokoyama for their technical assistance.

PY - 2007/6/7

Y1 - 2007/6/7

N2 - Teleosts comprise more than half of all vertebrate species and have adapted to a variety of marine and freshwater habitats. Their genome evolution and diversification are important subjects for the understanding of vertebrate evolution. Although draft genome sequences of two pufferfishes have been published, analysis of more fish genomes is desirable. Here we report a high-quality draft genome sequence of a small egg-laying freshwater teleost, medaka (Oryzias latipes). Medaka is native to East Asia and an excellent model system for a wide range of biology, including ecotoxicology, carcinogenesis, sex determination and developmental genetics. In the assembled medaka genome (700 megabases), which is less than half of the zebrafish genome, we predicted 20,141 genes, including ∼2,900 new genes, using 5′-end serial analysis of gene expression tag information. We found single nucleotide polymorphisms (SNPs) at an average rate of 3.42% between the two inbred strains derived from two regional populations; this is the highest SNP rate seen in any vertebrate species. Analyses based on the dense SNP information show a strict genetic separation of 4 million years (Myr) between the two populations, and suggest that differential selective pressures acted on specific gene categories. Four-way comparisons with the human, pufferfish (Tetraodon), zebrafish and medaka genomes revealed that eight major interchromosomal rearrangements took place in a remarkably short period of ∼50 Myr after the whole-genome duplication event in the teleost ancestor and afterwards, intriguingly, the medaka genome preserved its ancestral karyotype for more than 300 Myr.

AB - Teleosts comprise more than half of all vertebrate species and have adapted to a variety of marine and freshwater habitats. Their genome evolution and diversification are important subjects for the understanding of vertebrate evolution. Although draft genome sequences of two pufferfishes have been published, analysis of more fish genomes is desirable. Here we report a high-quality draft genome sequence of a small egg-laying freshwater teleost, medaka (Oryzias latipes). Medaka is native to East Asia and an excellent model system for a wide range of biology, including ecotoxicology, carcinogenesis, sex determination and developmental genetics. In the assembled medaka genome (700 megabases), which is less than half of the zebrafish genome, we predicted 20,141 genes, including ∼2,900 new genes, using 5′-end serial analysis of gene expression tag information. We found single nucleotide polymorphisms (SNPs) at an average rate of 3.42% between the two inbred strains derived from two regional populations; this is the highest SNP rate seen in any vertebrate species. Analyses based on the dense SNP information show a strict genetic separation of 4 million years (Myr) between the two populations, and suggest that differential selective pressures acted on specific gene categories. Four-way comparisons with the human, pufferfish (Tetraodon), zebrafish and medaka genomes revealed that eight major interchromosomal rearrangements took place in a remarkably short period of ∼50 Myr after the whole-genome duplication event in the teleost ancestor and afterwards, intriguingly, the medaka genome preserved its ancestral karyotype for more than 300 Myr.

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The medaka draft genome and insights into vertebrate genome evolution

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