Genome sequencing and analysis of Aspergillus oryzae

Masayuki Machida; Kiyoshi Asai; Motoaki Sano; Toshihiro Tanaka; Toshitaka Kumagai; Goro Terai; Ken Ichi Kusumoto; Toshihide Arima; Osamu Akita; Yutaka Kashiwagi; Keietsu Abe; Katsuya Gomi; Hiroyuki Horiuchi; Katsuhiko Kitamoto; Tetsuo Kobayashi; Michio Takeuchi; David W. Denning; James E. Galagan; William C. Nierman; Jiujiang Yu; David B. Archer; Joan W. Bennett; Deepak Bhatnagar; Thomas E. Cleveland; Natalie D. Fedorova; Osamu Gotoh; Hiroshi Horikawa; Akira Hosoyama; Masayuki Ichinomiya; Rie Igarashi; Kazuhiro Iwashita; Praveen Rao Juvvadi; Masashi Kato; Yumiko Kato; Taishin Kin; Akira Kokubun; Hiroshi Maeda; Noriko Maeyama; Jun Ichi Maruyama; Hideki Nagasaki; Tasuku Nakajima; Ken Oda; Kinya Okada; Ian Paulsen; Kazutoshi Sakamoto; Toshihiko Sawano; Mikio Takahashi; Kumiko Takase; Yasunobu Terabayashi; Jennifer R. Wortman; Osamu Yamada; Youhei Yamagata; Hideharu Anazawa; Yoji Hata; Yoshinao Koide; Takashi Komori; Yasuji Koyama; Toshitaka Minetoki; Sivasundaram Suharnan; Akimitsu Tanaka; Katsumi Isono; Satoru Kuhara; Naotake Ogasawara; Hisashi Kikuchi

doi:10.1038/nature04300

Genome sequencing and analysis of Aspergillus oryzae

Masayuki Machida, Kiyoshi Asai, Motoaki Sano, Toshihiro Tanaka, Toshitaka Kumagai, Goro Terai, Ken Ichi Kusumoto, Toshihide Arima, Osamu Akita, Yutaka Kashiwagi, Keietsu Abe, Katsuya Gomi, Hiroyuki Horiuchi, Katsuhiko Kitamoto, Tetsuo Kobayashi, Michio Takeuchi, David W. Denning, James E. Galagan, William C. Nierman, Jiujiang YuDavid B. Archer, Joan W. Bennett, Deepak Bhatnagar, Thomas E. Cleveland, Natalie D. Fedorova, Osamu Gotoh, Hiroshi Horikawa, Akira Hosoyama, Masayuki Ichinomiya, Rie Igarashi, Kazuhiro Iwashita, Praveen Rao Juvvadi, Masashi Kato, Yumiko Kato, Taishin Kin, Akira Kokubun, Hiroshi Maeda, Noriko Maeyama, Jun Ichi Maruyama, Hideki Nagasaki, Tasuku Nakajima, Ken Oda, Kinya Okada, Ian Paulsen, Kazutoshi Sakamoto, Toshihiko Sawano, Mikio Takahashi, Kumiko Takase, Yasunobu Terabayashi, Jennifer R. Wortman, Osamu Yamada, Youhei Yamagata, Hideharu Anazawa, Yoji Hata, Yoshinao Koide, Takashi Komori, Yasuji Koyama, Toshitaka Minetoki, Sivasundaram Suharnan, Akimitsu Tanaka, Katsumi Isono, Satoru Kuhara, Naotake Ogasawara, Hisashi Kikuchi

AGR - Agricultural Chemistry

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

1029 Citations (Scopus)

Abstract

The genome of Aspergillus oryzae, a fungus important for the production of traditional fermented foods and beverages in Japan, has been sequenced. The ability to secrete large amounts of proteins and the development of a transformation system¹ have facilitated the use of A. oryzae in modern biotechnology^2-4. Although both A. oryzae and Aspergillus flavus belong to the section Flavi of the subgenus Circumdati of Aspergillus, A. oryzae, unlike A. flavus, does not produce aflatoxin, and its long history of use in the food industry has proved its safety. Here we show that the 37-megabase (Mb) genome of A. oryzae contains 12,074 genes and is expanded by 7-9 Mb in comparison with the genomes of Aspergillus nidulans⁵ and Aspergillus fumigatus⁶. Comparison of the three aspergilli species revealed the presence of syntenic blocks and A. oryzae-specific blocks (lacking synteny with A. nidulans and A. fumigatus) in a mosaic manner throughout the genome of A. oryzae. The blocks of A. oryzae-specific sequence are enriched for genes involved in metabolism, particularly those for the synthesis of secondary metabolites. Specific expansion of genes for secretory hydrolytic enzymes, amino acid metabolism and amino acid/sugar uptake transporters supports the idea that A. oryzae is an ideal microorganism for fermentation.

Original language	English
Pages (from-to)	1157-1161
Number of pages	5
Journal	Nature
Volume	438
Issue number	7071
DOIs	https://doi.org/10.1038/nature04300
Publication status	Published - 2005 Dec 22

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Machida, M., Asai, K., Sano, M., Tanaka, T., Kumagai, T., Terai, G., Kusumoto, K. I., Arima, T., Akita, O., Kashiwagi, Y., Abe, K., Gomi, K., Horiuchi, H., Kitamoto, K., Kobayashi, T., Takeuchi, M., Denning, D. W., Galagan, J. E., Nierman, W. C., ... Kikuchi, H. (2005). Genome sequencing and analysis of Aspergillus oryzae. Nature, 438(7071), 1157-1161. https://doi.org/10.1038/nature04300

@article{077842f64b0c47f5ae29af9d37aec38c,

title = "Genome sequencing and analysis of Aspergillus oryzae",

abstract = "The genome of Aspergillus oryzae, a fungus important for the production of traditional fermented foods and beverages in Japan, has been sequenced. The ability to secrete large amounts of proteins and the development of a transformation system1 have facilitated the use of A. oryzae in modern biotechnology2-4. Although both A. oryzae and Aspergillus flavus belong to the section Flavi of the subgenus Circumdati of Aspergillus, A. oryzae, unlike A. flavus, does not produce aflatoxin, and its long history of use in the food industry has proved its safety. Here we show that the 37-megabase (Mb) genome of A. oryzae contains 12,074 genes and is expanded by 7-9 Mb in comparison with the genomes of Aspergillus nidulans5 and Aspergillus fumigatus6. Comparison of the three aspergilli species revealed the presence of syntenic blocks and A. oryzae-specific blocks (lacking synteny with A. nidulans and A. fumigatus) in a mosaic manner throughout the genome of A. oryzae. The blocks of A. oryzae-specific sequence are enriched for genes involved in metabolism, particularly those for the synthesis of secondary metabolites. Specific expansion of genes for secretory hydrolytic enzymes, amino acid metabolism and amino acid/sugar uptake transporters supports the idea that A. oryzae is an ideal microorganism for fermentation.",

author = "Masayuki Machida and Kiyoshi Asai and Motoaki Sano and Toshihiro Tanaka and Toshitaka Kumagai and Goro Terai and Kusumoto, {Ken Ichi} and Toshihide Arima and Osamu Akita and Yutaka Kashiwagi and Keietsu Abe and Katsuya Gomi and Hiroyuki Horiuchi and Katsuhiko Kitamoto and Tetsuo Kobayashi and Michio Takeuchi and Denning, {David W.} and Galagan, {James E.} and Nierman, {William C.} and Jiujiang Yu and Archer, {David B.} and Bennett, {Joan W.} and Deepak Bhatnagar and Cleveland, {Thomas E.} and Fedorova, {Natalie D.} and Osamu Gotoh and Hiroshi Horikawa and Akira Hosoyama and Masayuki Ichinomiya and Rie Igarashi and Kazuhiro Iwashita and Juvvadi, {Praveen Rao} and Masashi Kato and Yumiko Kato and Taishin Kin and Akira Kokubun and Hiroshi Maeda and Noriko Maeyama and Maruyama, {Jun Ichi} and Hideki Nagasaki and Tasuku Nakajima and Ken Oda and Kinya Okada and Ian Paulsen and Kazutoshi Sakamoto and Toshihiko Sawano and Mikio Takahashi and Kumiko Takase and Yasunobu Terabayashi and Wortman, {Jennifer R.} and Osamu Yamada and Youhei Yamagata and Hideharu Anazawa and Yoji Hata and Yoshinao Koide and Takashi Komori and Yasuji Koyama and Toshitaka Minetoki and Sivasundaram Suharnan and Akimitsu Tanaka and Katsumi Isono and Satoru Kuhara and Naotake Ogasawara and Hisashi Kikuchi",

year = "2005",

month = dec,

day = "22",

doi = "10.1038/nature04300",

language = "English",

volume = "438",

pages = "1157--1161",

journal = "Nature",

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publisher = "Nature Publishing Group",

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Machida, M, Asai, K, Sano, M, Tanaka, T, Kumagai, T, Terai, G, Kusumoto, KI, Arima, T, Akita, O, Kashiwagi, Y, Abe, K , Gomi, K, Horiuchi, H, Kitamoto, K, Kobayashi, T, Takeuchi, M, Denning, DW, Galagan, JE, Nierman, WC, Yu, J, Archer, DB, Bennett, JW, Bhatnagar, D, Cleveland, TE, Fedorova, ND, Gotoh, O, Horikawa, H, Hosoyama, A, Ichinomiya, M, Igarashi, R, Iwashita, K, Juvvadi, PR, Kato, M, Kato, Y, Kin, T, Kokubun, A, Maeda, H, Maeyama, N, Maruyama, JI, Nagasaki, H, Nakajima, T, Oda, K, Okada, K, Paulsen, I, Sakamoto, K, Sawano, T, Takahashi, M, Takase, K, Terabayashi, Y, Wortman, JR, Yamada, O, Yamagata, Y, Anazawa, H, Hata, Y, Koide, Y, Komori, T, Koyama, Y, Minetoki, T, Suharnan, S, Tanaka, A, Isono, K, Kuhara, S, Ogasawara, N & Kikuchi, H 2005, 'Genome sequencing and analysis of Aspergillus oryzae', Nature, vol. 438, no. 7071, pp. 1157-1161. https://doi.org/10.1038/nature04300

TY - JOUR

T1 - Genome sequencing and analysis of Aspergillus oryzae

AU - Machida, Masayuki

AU - Asai, Kiyoshi

AU - Sano, Motoaki

AU - Tanaka, Toshihiro

AU - Kumagai, Toshitaka

AU - Terai, Goro

AU - Kusumoto, Ken Ichi

AU - Arima, Toshihide

AU - Akita, Osamu

AU - Kashiwagi, Yutaka

AU - Abe, Keietsu

AU - Gomi, Katsuya

AU - Horiuchi, Hiroyuki

AU - Kitamoto, Katsuhiko

AU - Kobayashi, Tetsuo

AU - Takeuchi, Michio

AU - Denning, David W.

AU - Galagan, James E.

AU - Nierman, William C.

AU - Yu, Jiujiang

AU - Archer, David B.

AU - Bennett, Joan W.

AU - Bhatnagar, Deepak

AU - Cleveland, Thomas E.

AU - Fedorova, Natalie D.

AU - Gotoh, Osamu

AU - Horikawa, Hiroshi

AU - Hosoyama, Akira

AU - Ichinomiya, Masayuki

AU - Igarashi, Rie

AU - Iwashita, Kazuhiro

AU - Juvvadi, Praveen Rao

AU - Kato, Masashi

AU - Kato, Yumiko

AU - Kin, Taishin

AU - Kokubun, Akira

AU - Maeda, Hiroshi

AU - Maeyama, Noriko

AU - Maruyama, Jun Ichi

AU - Nagasaki, Hideki

AU - Nakajima, Tasuku

AU - Oda, Ken

AU - Okada, Kinya

AU - Paulsen, Ian

AU - Sakamoto, Kazutoshi

AU - Sawano, Toshihiko

AU - Takahashi, Mikio

AU - Takase, Kumiko

AU - Terabayashi, Yasunobu

AU - Wortman, Jennifer R.

AU - Yamada, Osamu

AU - Yamagata, Youhei

AU - Anazawa, Hideharu

AU - Hata, Yoji

AU - Koide, Yoshinao

AU - Komori, Takashi

AU - Koyama, Yasuji

AU - Minetoki, Toshitaka

AU - Suharnan, Sivasundaram

AU - Tanaka, Akimitsu

AU - Isono, Katsumi

AU - Kuhara, Satoru

AU - Ogasawara, Naotake

AU - Kikuchi, Hisashi

PY - 2005/12/22

Y1 - 2005/12/22

N2 - The genome of Aspergillus oryzae, a fungus important for the production of traditional fermented foods and beverages in Japan, has been sequenced. The ability to secrete large amounts of proteins and the development of a transformation system1 have facilitated the use of A. oryzae in modern biotechnology2-4. Although both A. oryzae and Aspergillus flavus belong to the section Flavi of the subgenus Circumdati of Aspergillus, A. oryzae, unlike A. flavus, does not produce aflatoxin, and its long history of use in the food industry has proved its safety. Here we show that the 37-megabase (Mb) genome of A. oryzae contains 12,074 genes and is expanded by 7-9 Mb in comparison with the genomes of Aspergillus nidulans5 and Aspergillus fumigatus6. Comparison of the three aspergilli species revealed the presence of syntenic blocks and A. oryzae-specific blocks (lacking synteny with A. nidulans and A. fumigatus) in a mosaic manner throughout the genome of A. oryzae. The blocks of A. oryzae-specific sequence are enriched for genes involved in metabolism, particularly those for the synthesis of secondary metabolites. Specific expansion of genes for secretory hydrolytic enzymes, amino acid metabolism and amino acid/sugar uptake transporters supports the idea that A. oryzae is an ideal microorganism for fermentation.

AB - The genome of Aspergillus oryzae, a fungus important for the production of traditional fermented foods and beverages in Japan, has been sequenced. The ability to secrete large amounts of proteins and the development of a transformation system1 have facilitated the use of A. oryzae in modern biotechnology2-4. Although both A. oryzae and Aspergillus flavus belong to the section Flavi of the subgenus Circumdati of Aspergillus, A. oryzae, unlike A. flavus, does not produce aflatoxin, and its long history of use in the food industry has proved its safety. Here we show that the 37-megabase (Mb) genome of A. oryzae contains 12,074 genes and is expanded by 7-9 Mb in comparison with the genomes of Aspergillus nidulans5 and Aspergillus fumigatus6. Comparison of the three aspergilli species revealed the presence of syntenic blocks and A. oryzae-specific blocks (lacking synteny with A. nidulans and A. fumigatus) in a mosaic manner throughout the genome of A. oryzae. The blocks of A. oryzae-specific sequence are enriched for genes involved in metabolism, particularly those for the synthesis of secondary metabolites. Specific expansion of genes for secretory hydrolytic enzymes, amino acid metabolism and amino acid/sugar uptake transporters supports the idea that A. oryzae is an ideal microorganism for fermentation.

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Genome sequencing and analysis of Aspergillus oryzae

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