Your search keyword '"Zhuangwei Hou"' showing total 3 results

1. Extraordinary preservation of gene collinearity over three hundred million years revealed in homosporous lycophytes.

Author

Cheng Li, Wickell, David, Li-Yaung Kuo, Xueqing Chen, Bao Nie, Xuezhu Liao, Dan Peng, Jiaojiao Ji, Jenkins, Jerry, Williams, Mellissa, Shengqiang Shu, Plott, Christopher, Barry, Kerrie, Rajasekar, Shanmugam, Grimwood, Jane, Xiaoxu Han, Shichao Sun, Zhuangwei Hou, Weijun He, and Guanhua Dai

Subjects

LYCOPHYTES, GENOME size, NUCLEOTIDE sequencing, GENES, TREE planting

Abstract

Homosporous lycophytes (Lycopodiaceae) are a deeply diverged lineage in the plant tree of life, having split from heterosporous lycophytes (Selaginella and Isoetes) ~400 Mya. Compared to the heterosporous lineage, Lycopodiaceae has markedly larger genome sizes and remains the last major plant clade for which no chromosome-level assembly has been available. Here, we present chromosomal genome assemblies for two homosporous lycophyte species, the allotetraploid Huperzia asiatica and the diploid Diphasiastrum complanatum. Remarkably, despite that the two species diverged ~350 Mya, around 30% of the genes are still in syntenic blocks. Furthermore, both genomes had undergone independent whole genome duplications, and the resulting intragenomic syntenies have likewise been preserved relatively well. Such slow genome evolution over deep time is in stark contrast to heterosporous lycophytes and is correlated with a decelerated rate of nucleotide substitution. Together, the genomes of H. asiatica and D. complanatum not only fill a crucial gap in the plant genomic landscape but also highlight a potentially meaningful genomic contrast between homosporous and heterosporous species. [ABSTRACT FROM AUTHOR]

Published

2024

2. Comparative analysis of organellar genomes between diploid and tetraploid Chrysanthemum indicum with its relatives.

Author

Huihui Liu, Zhuangwei Hou, Lei Xu, Qing Ma, Min Wei, Tembrock, Luke R., Shuo Zhang, and Zhiqiang Wu

Subjects

CHRYSANTHEMUMS, POLYPLOIDY, GENOMES, HAWTHORNS, COMPARATIVE studies, RELATIVES

Abstract

Chrysanthemum indicum, a species native to Eastern Asia is well known as one of the progenitor species of the cultivated Chrysanthemum which is grown for its ornamental and medicinal value. Previous genomic studies on Chrysanthemum have largely ignored the dynamics of plastid genome (plastome) and mitochondria genome (mitogenome) evolution when analyzing this plant lineage. In this study, we sequenced and assembled the plastomes and mitogenomes of diploid and tetraploid C. indicum as well as the morphologically divergent variety C. indicum var. aromaticum. We used published data from 27 species with both plastome and mitogenome complete sequences to explore differences in sequence evolution between the organellar genomes. The size and structure of organellar genome between diploid and tetraploid C. indicum were generally similar but the tetraploid C. indicum and C. indicum var. aromaticum were found to contain unique sequences in the mitogenomes which also contained previously undescribed open reading frames (ORFs). Across Chrysanthemum mitogenome structure varied greatly but sequences transferred from plastomes in to the mitogenomes were conserved. Finally, differences observed between mitogenome and plastome gene trees may be the result of the difference in the rate of sequence evolution between genes in these two genomes. In total the findings presented here greatly expand the resources for studying Chrysanthemum organellar genome evolution with possible applications to conservation, breeding, and gene banking in the future. [ABSTRACT FROM AUTHOR]

Published

2023

3. Effects of Soil pH on Growth and Dry Matter Accumulation of Tobacco Plants.

Author

Zhuangwei HOU, Bin ZHOU, Jiemin YANG, Xiaohua DENG, Feng TIAN, and Mingfa ZHANG

Published

2017