Gapless genome assembly of azalea and multi-omics investigation into divergence between two species with distinct flower color. Nie, S., Zhao, S., Shi, T., Zhao, W., Zhang, R., Tian, X., Guo, J., Yan, X., Bao, Y., Li, Z., Kong, L., Ma, H., Chen, Z., Liu, H., El-Kassaby, Y. A, Porth, I., Yang, F., & Mao, J. Horticulture Research, 10(1):uhac241, January, 2023.
Gapless genome assembly of azalea and multi-omics investigation into divergence between two species with distinct flower color [link]Paper  doi  abstract   bibtex   
The genus Rhododendron (Ericaceae), with more than 1000 species highly diverse in flower color, is providing distinct ornamental values and a model system for flower color studies. Here, we investigated the divergence between two parental species with different flower color widely used for azalea breeding. Gapless genome assembly was generated for the yellow-flowered azalea, Rhododendron molle. Comparative genomics found recent proliferation of long terminal repeat retrotransposons (LTR-RTs), especially Gypsy, has resulted in a 125 Mb (19%) genome size increase in species-specific regions, and a significant amount of dispersed gene duplicates (13 402) and pseudogenes (17 437). Metabolomic assessment revealed that yellow flower coloration is attributed to the dynamic changes of carotenoids/flavonols biosynthesis and chlorophyll degradation. Time-ordered gene co-expression networks (TO-GCNs) and the comparison confirmed the metabolome and uncovered the specific gene regulatory changes underpinning the distinct flower pigmentation. B3 and ERF TFs were found dominating the gene regulation of carotenoids/flavonols characterized pigmentation in R. molle, while WRKY, ERF, WD40, C2H2, and NAC TFs collectively regulated the anthocyanins characterized pigmentation in the red-flowered R simsii. This study employed a multi-omics strategy in disentangling the complex divergence between two important azaleas and provided references for further functional genetics and molecular breeding.
@article{nie_gapless_2023,
	title = {Gapless genome assembly of azalea and multi-omics investigation into divergence between two species with distinct flower color},
	volume = {10},
	issn = {2052-7276},
	url = {https://doi.org/10.1093/hr/uhac241},
	doi = {10.1093/hr/uhac241},
	abstract = {The genus Rhododendron (Ericaceae), with more than 1000 species highly diverse in flower color, is providing distinct ornamental values and a model system for flower color studies. Here, we investigated the divergence between two parental species with different flower color widely used for azalea breeding. Gapless genome assembly was generated for the yellow-flowered azalea, Rhododendron molle. Comparative genomics found recent proliferation of  long terminal repeat retrotransposons (LTR-RTs), especially Gypsy, has resulted in a 125 Mb (19\%) genome size increase in species-specific regions, and a significant amount of dispersed gene duplicates (13 402) and pseudogenes (17 437). Metabolomic assessment revealed that yellow flower coloration is attributed to the dynamic changes of carotenoids/flavonols biosynthesis and chlorophyll degradation. Time-ordered gene co-expression networks (TO-GCNs) and the comparison confirmed the metabolome and uncovered the specific gene regulatory changes underpinning the distinct flower pigmentation. B3 and ERF TFs were found dominating the gene regulation of carotenoids/flavonols characterized pigmentation in R. molle, while WRKY, ERF, WD40, C2H2, and NAC TFs collectively regulated the anthocyanins characterized pigmentation in the red-flowered R simsii. This study employed a multi-omics strategy in disentangling the complex divergence between two important azaleas and provided references for further functional genetics and molecular breeding.},
	number = {1},
	urldate = {2023-03-03},
	journal = {Horticulture Research},
	author = {Nie, Shuai and Zhao, Shi-Wei and Shi, Tian-Le and Zhao, Wei and Zhang, Ren-Gang and Tian, Xue-Chan and Guo, Jing-Fang and Yan, Xue-Mei and Bao, Yu-Tao and Li, Zhi-Chao and Kong, Lei and Ma, Hai-Yao and Chen, Zhao-Yang and Liu, Hui and El-Kassaby, Yousry A and Porth, Ilga and Yang, Fu-Sheng and Mao, Jian-Feng},
	month = jan,
	year = {2023},
	pages = {uhac241},
}

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