The first complete mitochondrial genome of Curcuma amarissima (Zingiberaceae): insights into multi-branch structure, codon usage, and phylogenetic evolution
文献类型: 外文期刊
第一作者: Liang, Heng
作者: Liang, Heng;Gao, Gang;Deng, Jiabin;Liang, Heng;Deng, Jiabin;Gao, Gang;Yang, Ruiwu;Wang, Yidan
作者机构:
关键词:
Mitogenome;
期刊名称:BMC GENOMICS ( 影响因子:3.7; 五年影响因子:4.2 )
ISSN: 1471-2164
年卷期: 2025 年 26 卷 1 期
页码:
收录情况: SCI
摘要: BackgroundAs a key genus in Zingiberaceae, Curcuma is widely studied for its taxonomic diversity, the presence of bioactive curcuminoids and volatile oils, and its extensive applications in traditional medicine and economic products such as spices and cosmetics. Although chloroplast genomes have been assembled and published for over 20 Curcuma species, mitochondrial genomic data remain limited.ResultsWe successfully sequenced, assembled, and annotated the mitogenome of Curcuma amarissima (C. amarissima) using both Illumina short reads and Nanopore long reads, achieving the first complete mitogenome characterization in the Zingiberaceae family. The C. amarissima mitogenome features a unique multi-branched structure, spanning 6,505,655 bp and consisting of 39 distinct segments. It contains a total of 43 protein-coding genes, 63 tRNA genes, and 4 rRNA genes, with a GC content of 44.04%. Codon usage analysis indicated a weak bias, with neutrality plot analysis suggesting natural selection as a key factor shaping mitochondrial codon usage in C. amarissima. The mitogenome provides valuable insights into genome size, coding genes, structural features, RNA editing, repetitive sequences, and sequence migration, enhancing our understanding of the evolution and molecular biology of multi-branched mitochondria in Zingiberaceae. The high frequency of repeat sequences may contribute to the structural stability of the mitochondria. Comparing chloroplast genome, phylogenetic analysis based on the mitochondrial genome establishes a foundation for further exploration of evolutionary relationships within Zingiberaceae.ConclusionsIn short, the mitochondrial genome characterized here advances our understanding of multi-branched mitogenome organization in Zingiberaceae and offers useful genomic resources that may support future breeding, germplasm conservation, and phylogenetic studies, though further research is necessary.
分类号:
- 相关文献
作者其他论文 更多>>
-
Volatile profiles and characteristic odorants in camellia seeds with different heat pretreatments
作者:Feng, Shiling;Li, Pingjin;Li, Yusong;Chen, Xinyu;Leng, Haiqin;Zhou, Lijun;Chen, Tao;Ding, Chunbang;Xiao, Xinsheng;Liang, Heng
关键词:Camellia seeds; Heat pretreatment; Maillard reaction; Volatile flavour; HS-SPME/GC-O-MS
-
Multiplex one-step RT-qPCR assays for simultaneous detection of BRV, BCoV, Escherichia coli K99+ and Cryptosporidium parvum
作者:Zhao, Xinru;Li, Min;Yang, Yingying;Wang, Yidan;Zheng, Xiaoru;Li, Huatao;Fu, Kaiqiang;Cao, Zhi;Yin, Dehua;Gao, Haihui
关键词:BRV; BCoV;
E. coli K99(+);C. parvum ; multiplexTaq Man real-time PCR -
Assembly and analysis of the first complete mitochondrial genome sequencing of main Tea-oil Camellia cultivars Camellia drupifera (Theaceae): revealed a multi-branch mitochondrial conformation for Camellia
作者:Liang, Heng;Qi, Huasha;Chen, Jiali;Sun, Xiuxiu;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Liu, Moyang;Chen, Cheng;Liang, Heng;Qi, Huasha;Chen, Jiali;Sun, Xiuxiu;Wang, Chunmei;Xia, Tengfei;Feng, Xuejie;Zheng, Daojun;Liang, Heng;Qi, Huasha;Chen, Jiali;Sun, Xiuxiu;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Qi, Huasha;Chen, Jiali;Sun, Xiuxiu;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Feng, Shiling;Wang, Yidan
关键词:Mitochondrial genome; Tea-oil Camellia; Comparative genomics
-
Analysis of the complete mitogenomes of three high economic value tea plants (Tea-oil Camellia) provide insights into evolution and phylogeny relationship
作者:Liang, Heng;Qi, Huasha;Wang, Chunmei;Chen, Jiali;Sun, Xiuxiu;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Qi, Huasha;Wang, Chunmei;Chen, Jiali;Sun, Xiuxiu;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Qi, Huasha;Wang, Chunmei;Chen, Jiali;Sun, Xiuxiu;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Qi, Huasha;Wang, Chunmei;Chen, Jiali;Sun, Xiuxiu;Xia, Tengfei;Zheng, Daojun;Wang, Yidan;Liu, Moyang;Chen, Cheng;Feng, Shiling
关键词:mitochondrial genome; Tea-oil Camellia; comparative genomics; homologous fragments; phylogeny
-
Comparative analysis of mitochondrial and chloroplast genomes of Dracaena cambodiana from contrasting island habitats
作者:Liang, Heng;Sun, Xiuxiu;Qi, Huasha;Chen, Jiali;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Sun, Xiuxiu;Qi, Huasha;Chen, Jiali;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Sun, Xiuxiu;Qi, Huasha;Chen, Jiali;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Sun, Xiuxiu;Qi, Huasha;Chen, Jiali;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Wang, Yidan;Liu, Moyang;Chen, Cheng;Feng, Shiling
关键词:organelle genome; D. cambodiana; comparative genomics; adaptive evolution; genomic resources
-
A Comprehensive Analysis of the Multiple AP2/ERF Regulatory Network Unveils Putative Components of the Fatty Acid Pathway for Environmental Adaptation
作者:Deng, Junjie;Liang, Heng;Zheng, Daojun;Liu, Moyang;Deng, Junjie;Yang, Ming;Zhu, Guangshun;Ye, Zhenpei;Lai, Xinjie;Liu, Moyang;Liang, Heng;Zheng, Daojun;Liu, Moyang;Deng, Junjie;Yang, Ming;Zhu, Guangshun;Ye, Zhenpei;Lai, Xinjie;Liu, Moyang
关键词:amplification; adaptive evolution;
AP2 /ERFs ; fatty acid -
Extraction of polysaccharides from Camellia oleifera leaves by dual enzymes combined with deep eutectic solvents screened by ANN and COSMO-RS
作者:Deng, Guanfeng;Li, Pingjin;Chen, Tao;Zhou, Lijun;Yang, Hongyu;Jiang, Xiaoyu;Ding, Chunbang;Feng, Shiling;Liang, Heng
关键词:Polysaccharides; ANN; COSMO-RS
