Sequence Analysis of the Genome of an Oil-Bearing Tree, Jatropha curcas L.

The whole genome of Jatropha curcas was sequenced, using a combination of the conventional Sanger method and new-generation multiplex sequencing methods. Total length of the non-redundant sequences thus obtained was 285 858 490 bp consisting of 120 586 contigs and 29 831 singlets. They accounted for...

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Autores principales: Sato, Shusei, Hirakawa, Hideki, Isobe, Sachiko, Fukai, Eigo, Watanabe, Akiko, Kato, Midori, Kawashima, Kumiko, Minami, Chiharu, Muraki, Akiko, Nakazaki, Naomi, Takahashi, Chika, Nakayama, Shinobu, Kishida, Yoshie, Kohara, Mitsuyo, Yamada, Manabu, Tsuruoka, Hisano, Sasamoto, Shigemi, Tabata, Satoshi, Aizu, Tomoyuki, Toyoda, Atsushi, Shin-i, Tadasu, Minakuchi, Yohei, Kohara, Yuji, Fujiyama, Asao, Tsuchimoto, Suguru, Kajiyama, Shin'ichiro, Makigano, Eri, Ohmido, Nobuko, Shibagaki, Nakako, Cartagena, Joyce A., Wada, Naoki, Kohinata, Tsutomu, Atefeh, Alipour, Yuasa, Shota, Matsunaga, Sachihiro, Fukui, Kiichi
Formato: Texto
Lenguaje:English
Publicado: Oxford University Press 2011
Materias:
Full Papers
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3041505/
https://www.ncbi.nlm.nih.gov/pubmed/21149391
http://dx.doi.org/10.1093/dnares/dsq030
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author Sato, Shusei
Hirakawa, Hideki
Isobe, Sachiko
Fukai, Eigo
Watanabe, Akiko
Kato, Midori
Kawashima, Kumiko
Minami, Chiharu
Muraki, Akiko
Nakazaki, Naomi
Takahashi, Chika
Nakayama, Shinobu
Kishida, Yoshie
Kohara, Mitsuyo
Yamada, Manabu
Tsuruoka, Hisano
Sasamoto, Shigemi
Tabata, Satoshi
Aizu, Tomoyuki
Toyoda, Atsushi
Shin-i, Tadasu
Minakuchi, Yohei
Kohara, Yuji
Fujiyama, Asao
Tsuchimoto, Suguru
Kajiyama, Shin'ichiro
Makigano, Eri
Ohmido, Nobuko
Shibagaki, Nakako
Cartagena, Joyce A.
Wada, Naoki
Kohinata, Tsutomu
Atefeh, Alipour
Yuasa, Shota
Matsunaga, Sachihiro
Fukui, Kiichi
author_facet Sato, Shusei
Hirakawa, Hideki
Isobe, Sachiko
Fukai, Eigo
Watanabe, Akiko
Kato, Midori
Kawashima, Kumiko
Minami, Chiharu
Muraki, Akiko
Nakazaki, Naomi
Takahashi, Chika
Nakayama, Shinobu
Kishida, Yoshie
Kohara, Mitsuyo
Yamada, Manabu
Tsuruoka, Hisano
Sasamoto, Shigemi
Tabata, Satoshi
Aizu, Tomoyuki
Toyoda, Atsushi
Shin-i, Tadasu
Minakuchi, Yohei
Kohara, Yuji
Fujiyama, Asao
Tsuchimoto, Suguru
Kajiyama, Shin'ichiro
Makigano, Eri
Ohmido, Nobuko
Shibagaki, Nakako
Cartagena, Joyce A.
Wada, Naoki
Kohinata, Tsutomu
Atefeh, Alipour
Yuasa, Shota
Matsunaga, Sachihiro
Fukui, Kiichi
author_sort Sato, Shusei
collection PubMed
description The whole genome of Jatropha curcas was sequenced, using a combination of the conventional Sanger method and new-generation multiplex sequencing methods. Total length of the non-redundant sequences thus obtained was 285 858 490 bp consisting of 120 586 contigs and 29 831 singlets. They accounted for ∼95% of the gene-containing regions with the average G + C content was 34.3%. A total of 40 929 complete and partial structures of protein encoding genes have been deduced. Comparison with genes of other plant species indicated that 1529 (4%) of the putative protein-encoding genes are specific to the Euphorbiaceae family. A high degree of microsynteny was observed with the genome of castor bean and, to a lesser extent, with those of soybean and Arabidopsis thaliana. In parallel with genome sequencing, cDNAs derived from leaf and callus tissues were subjected to pyrosequencing, and a total of 21 225 unigene data have been generated. Polymorphism analysis using microsatellite markers developed from the genomic sequence data obtained was performed with 12 J. curcas lines collected from various parts of the world to estimate their genetic diversity. The genomic sequence and accompanying information presented here are expected to serve as valuable resources for the acceleration of fundamental and applied research with J. curcas, especially in the fields of environment-related research such as biofuel production. Further information on the genomic sequences and DNA markers is available at http://www.kazusa.or.jp/jatropha/.
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spelling pubmed-30415052011-02-24 Sequence Analysis of the Genome of an Oil-Bearing Tree, Jatropha curcas L. Sato, Shusei Hirakawa, Hideki Isobe, Sachiko Fukai, Eigo Watanabe, Akiko Kato, Midori Kawashima, Kumiko Minami, Chiharu Muraki, Akiko Nakazaki, Naomi Takahashi, Chika Nakayama, Shinobu Kishida, Yoshie Kohara, Mitsuyo Yamada, Manabu Tsuruoka, Hisano Sasamoto, Shigemi Tabata, Satoshi Aizu, Tomoyuki Toyoda, Atsushi Shin-i, Tadasu Minakuchi, Yohei Kohara, Yuji Fujiyama, Asao Tsuchimoto, Suguru Kajiyama, Shin'ichiro Makigano, Eri Ohmido, Nobuko Shibagaki, Nakako Cartagena, Joyce A. Wada, Naoki Kohinata, Tsutomu Atefeh, Alipour Yuasa, Shota Matsunaga, Sachihiro Fukui, Kiichi DNA Res Full Papers The whole genome of Jatropha curcas was sequenced, using a combination of the conventional Sanger method and new-generation multiplex sequencing methods. Total length of the non-redundant sequences thus obtained was 285 858 490 bp consisting of 120 586 contigs and 29 831 singlets. They accounted for ∼95% of the gene-containing regions with the average G + C content was 34.3%. A total of 40 929 complete and partial structures of protein encoding genes have been deduced. Comparison with genes of other plant species indicated that 1529 (4%) of the putative protein-encoding genes are specific to the Euphorbiaceae family. A high degree of microsynteny was observed with the genome of castor bean and, to a lesser extent, with those of soybean and Arabidopsis thaliana. In parallel with genome sequencing, cDNAs derived from leaf and callus tissues were subjected to pyrosequencing, and a total of 21 225 unigene data have been generated. Polymorphism analysis using microsatellite markers developed from the genomic sequence data obtained was performed with 12 J. curcas lines collected from various parts of the world to estimate their genetic diversity. The genomic sequence and accompanying information presented here are expected to serve as valuable resources for the acceleration of fundamental and applied research with J. curcas, especially in the fields of environment-related research such as biofuel production. Further information on the genomic sequences and DNA markers is available at http://www.kazusa.or.jp/jatropha/. Oxford University Press 2011-02 2010-12-13 /pmc/articles/PMC3041505/ /pubmed/21149391 http://dx.doi.org/10.1093/dnares/dsq030 Text en © The Author 2010. Published by Oxford University Press on behalf of Kazusa DNA Research Institute http://creativecommons.org/licenses/by-nc/2.5/ This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/2.5), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Full Papers
Sato, Shusei
Hirakawa, Hideki
Isobe, Sachiko
Fukai, Eigo
Watanabe, Akiko
Kato, Midori
Kawashima, Kumiko
Minami, Chiharu
Muraki, Akiko
Nakazaki, Naomi
Takahashi, Chika
Nakayama, Shinobu
Kishida, Yoshie
Kohara, Mitsuyo
Yamada, Manabu
Tsuruoka, Hisano
Sasamoto, Shigemi
Tabata, Satoshi
Aizu, Tomoyuki
Toyoda, Atsushi
Shin-i, Tadasu
Minakuchi, Yohei
Kohara, Yuji
Fujiyama, Asao
Tsuchimoto, Suguru
Kajiyama, Shin'ichiro
Makigano, Eri
Ohmido, Nobuko
Shibagaki, Nakako
Cartagena, Joyce A.
Wada, Naoki
Kohinata, Tsutomu
Atefeh, Alipour
Yuasa, Shota
Matsunaga, Sachihiro
Fukui, Kiichi
Sequence Analysis of the Genome of an Oil-Bearing Tree, Jatropha curcas L.
title Sequence Analysis of the Genome of an Oil-Bearing Tree, Jatropha curcas L.
title_full Sequence Analysis of the Genome of an Oil-Bearing Tree, Jatropha curcas L.
title_fullStr Sequence Analysis of the Genome of an Oil-Bearing Tree, Jatropha curcas L.
title_full_unstemmed Sequence Analysis of the Genome of an Oil-Bearing Tree, Jatropha curcas L.
title_short Sequence Analysis of the Genome of an Oil-Bearing Tree, Jatropha curcas L.
title_sort sequence analysis of the genome of an oil-bearing tree, jatropha curcas l.
topic Full Papers
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3041505/
https://www.ncbi.nlm.nih.gov/pubmed/21149391
http://dx.doi.org/10.1093/dnares/dsq030
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