Author
Listed:
- Shilin Chen
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Jiang Xu
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Chang Liu
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Yingjie Zhu
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- David R. Nelson
(Immunology and Biochemistry, University of Tennessee Health Science Center)
- Shiguo Zhou
(Laboratory for Molecular and Computational Genomics, Laboratory of Genetics, UW Biotechnology Center, University of Wisconsin–Madison)
- Chunfang Li
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Lizhi Wang
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Xu Guo
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Yongzhen Sun
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Hongmei Luo
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Ying Li
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Jingyuan Song
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Bernard Henrissat
(Architecture et Fonction des Macromolécules Biologiques, Aix-Marseille Université, CNRS UMR 7257)
- Anthony Levasseur
(INRA, UMR1163 de Biotechnologie des Champignons Filamenteux, Aix-Marseille Université, ESIL)
- Jun Qian
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Jianqin Li
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Xiang Luo
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Linchun Shi
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Liu He
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Li Xiang
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Xiaolan Xu
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Yunyun Niu
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Qiushi Li
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Mira V. Han
(National Evolutionary Synthesis Center)
- Haixia Yan
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Jin Zhang
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Haimei Chen
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Aiping Lv
(China Academy of Chinese Medical Sciences)
- Zhen Wang
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- Mingzhu Liu
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
- David C. Schwartz
(Laboratory for Molecular and Computational Genomics, Laboratory of Genetics, UW Biotechnology Center, University of Wisconsin–Madison)
- Chao Sun
(Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College)
Abstract
Ganoderma lucidum is a widely used medicinal macrofungus in traditional Chinese medicine that creates a diverse set of bioactive compounds. Here we report its 43.3-Mb genome, encoding 16,113 predicted genes, obtained using next-generation sequencing and optical mapping approaches. The sequence analysis reveals an impressive array of genes encoding cytochrome P450s (CYPs), transporters and regulatory proteins that cooperate in secondary metabolism. The genome also encodes one of the richest sets of wood degradation enzymes among all of the sequenced basidiomycetes. In all, 24 physical CYP gene clusters are identified. Moreover, 78 CYP genes are coexpressed with lanosterol synthase, and 16 of these show high similarity to fungal CYPs that specifically hydroxylate testosterone, suggesting their possible roles in triterpenoid biosynthesis. The elucidation of the G. lucidum genome makes this organism a potential model system for the study of secondary metabolic pathways and their regulation in medicinal fungi.
Suggested Citation
Shilin Chen & Jiang Xu & Chang Liu & Yingjie Zhu & David R. Nelson & Shiguo Zhou & Chunfang Li & Lizhi Wang & Xu Guo & Yongzhen Sun & Hongmei Luo & Ying Li & Jingyuan Song & Bernard Henrissat & Anthon, 2012.
"Genome sequence of the model medicinal mushroom Ganoderma lucidum,"
Nature Communications, Nature, vol. 3(1), pages 1-9, January.
Handle:
RePEc:nat:natcom:v:3:y:2012:i:1:d:10.1038_ncomms1923
DOI: 10.1038/ncomms1923
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