The chromosome‐level genome sequence of the camphor tree provides insights into Lauraceae evolution and terpene biosynthesis.

Autor: Shen, Tengfei, Qi, Haoran, Luan, Xiaoyue, Xu, Wenlin, Yu, Faxin, Zhong, Yongda, Xu, Meng
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Zdroj: Plant Biotechnology Journal; Feb2022, Vol. 20 Issue 2, p244-246, 3p
Abstrakt: Keywords: genome assembly; evolutionary status; whole-genome duplication; terpenoid metabolic pathway; Cinnamomum camphora EN genome assembly evolutionary status whole-genome duplication terpenoid metabolic pathway Cinnamomum camphora 244 246 3 01/17/22 20220201 NES 220201 I Cinnamomum camphora i , commonly known as the camphor tree, an economically and ecologically important aromatic tree species, has a long history of cultivation and utilization. The chromosome-level genome sequence of the camphor tree provides insights into Lauraceae evolution and terpene biosynthesis Compared with the 76 I TPS i genes in the 12 pseudochromosomes of the stout camphor genome, a total of 83 I CcamTPS i genes were predicted and annotated in the camphor tree genome, including 53 mono I TPS i s, 21 sesqui I TPS i s and nine di I TPS i s. These rapidly evolving genes were distributed unevenly on seven chromosomes and were clustered together in tandem (Figure 1f). [Extracted from the article]
Databáze: Complementary Index
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