Your search keyword '"Dai-Gui Zhang"' showing total 5 results

1. Sinosenecio yangii (Asteraceae), a new species from Guizhou, China

Author

Jing-Yi Peng, Dai-Gui Zhang, Tao Deng, Xian-Han Huang, Jun-Tong Chen, Ying Meng, Yi Wang, and Qiang Zhou

Subjects

Botany, QK1-989

Abstract

A new species Sinosenecio yangii D.G. Zhang & Q. Zhou (Asteraceae, Senecioneae) from Guizhou Province, China, is described and illustrated based on its morphological characteristics and molecular evidence. It closely resembles S. confervifer and S. guangxiensis, the former in the scapigerous habit and smooth and glabrous achene surface, the latter in the calyculate involucre and purple abaxial leaf surface, and both in the shape and indumentum of leaf lamina, but differs markedly from the latter two in having fewer capitula and epappose achenes. Phylogenetic analysis based on nrITS and ndhC-trnV sequences shows that this new species belongs to the S. latouchei clade and is sister to S. guangxiensis with moderate support.

Published

2022

2. Newly reported chloroplast genome of Sinosenecio albonervius Y. Liu & Q. E. Yang and comparative analyses with other Sinosenecio species

Author

Jing-Yi Peng, Xiao-Shuang Zhang, Dai-Gui Zhang, Yi Wang, Tao Deng, Xian-Han Huang, Tian-Hui Kuang, and Qiang Zhou

Subjects

Sinosenecio, Comparison of the chloroplast genome, Phylogenetic analysis, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Sinosenecio B. Nordenstam (Asteraceae) currently comprises 44 species. To investigate the interspecific relationship, several chloroplast markers, including ndhC-trnV, rpl32-trnL, matK, and rbcL, are used to analyze the phylogeny of Sinosenecio. However, the chloroplast genomes of this genus have not been thoroughly investigated. We sequenced and assembled the Sinosenecio albonervius chloroplast genome for the first time. A detailed comparative analysis was performed in this study using the previously reported chloroplast genomes of three Sinosenecio species. Results The results showed that the chloroplast genomes of four Sinosenecio species exhibit a typical quadripartite structure. There are equal numbers of total genes, protein-coding genes and RNA genes among the annotated genomes. Per genome, 49–56 simple sequence repeats and 99 repeat sequences were identified. Thirty codons were identified as RSCU values greater than 1 in the chloroplast genome of S. albonervius based on 54 protein-coding genes, indicating that they showed biased usage. Among 18 protein-coding genes, 46 potential RNA editing sites were discovered. By comparing these chloroplast genomes' structures, inverted repeat regions and coding regions were more conserved than single-copy and non-coding regions. The junctions among inverted repeat and single-copy regions showed slight difference. Several hot spots of genomic divergence were detected, which can be used as new DNA barcodes for species identification. Phylogenetic analysis of the whole chloroplast genome showed that the four Sinosenecio species have close interspecific relationships. Conclusions The complete chloroplast genome of Sinosenecio albonervius was revealed in this study, which included a comparison of Sinosenecio chloroplast genome structure, variation, and phylogenetic analysis for related species. These will help future research on Sinosenecio taxonomy, identification, origin, and evolution to some extent.

Published

2022

3. Oreocharis xieyongii, an unusual new species of Gesneriaceae from western Hunan, China

Author

Zhen-Yu Lv, Ziyoviddin Yusupov, Dai-Gui Zhang, Ya-Zhou Zhang, Xiao-Shuang Zhang, Nan Lin, Komiljon Tojibaev, Hang Sun, and Tao Deng

Subjects

China, Gesneriaceae, Morphology, Phylogeny, Taxonomy, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

A new species, Oreocharis xieyongii T. Deng, D.G. Zhang & H. Sun, from Hunan Province, central China, is described. The combination of purple zygomorphic corolla with longer adaxial lobes and exserted stamens defines the species and discriminates it from all other current Oreocharis species. Morphological traits of the new species were compared to those of two similar species, Oreocharis xiangguiensis and O. rubrostriata. Phylogenetic analysis indicates that the new species is nested within the Oreocharis. Although only half of Oreocharis species were included in our study, evolutionary character analysis indicates that the ancestral states of the genus are likely the purple corolla, longer abaxial lip and inserted stamens. The longer adaxial lip is perhaps an apomorphy and only present in O. xieyongii and O. rubrostriata. Both morphological and molecular evidence suggest that O. xieyongii is a taxon new to science.

Published

2022

4. Scutellaria jishouensis (Lamiaceae), a new species from Hunan, China

Author

LU TAN, XIAO-MEI XIANG, BING LIU, ZHI-CHENG WANG, DAI-GUI ZHANG, and GONG-XI CHEN

Subjects

Tracheophyta, Magnoliopsida, Lamiaceae, Biodiversity, Plant Science, Plantae, Ecology, Evolution, Behavior and Systematics, Taxonomy, Lamiales

Abstract

A new species of Scutellaria (Lamiaceae), Scutellaria jishouensis G. X. Chen, L. Tan & X. M. Xiang, sp. nov from Dehang Scenic Spot, Hunan Province of China, is described and illustrated. Scutellaria jishouensis is morphologically similar to S. indica and S. calcarata, but can be easily distinguished by its creeping, spreading to erect or ascending-erect, stem with forked adventitious roots; leaves membranous, sparsely crenate or entire; racemes 1-10 cm, corolla sparsely pilose or glabrous on adaxial, glabrous inside, and flowering and fruiting in late April-June. Phylogenetic analyses, based on the nuclear ribosomal internal and external transcribed spacers, showed that S. jishouensis and S. calcarata were sister species with good support. The results of both morphological data and the phylogenetic analysis support the specific rank of S. jishouensis.

Published

2022

5. Newly reported chloroplast genome of Sinosenecio albonervius Y. LiuQ. E. Yang and comparative analyses with other Sinosenecio species

Author

Jing-Yi Peng, Xiao-Shuang Zhang, Dai-Gui Zhang, Yi Wang, Tao Deng, Xian-Han Huang, Tian-Hui Kuang, and Qiang Zhou

Subjects

Chloroplasts, Genetics, Asteraceae, Genome, Chloroplast, Phylogeny, Biotechnology, Microsatellite Repeats

Abstract

Background Sinosenecio B. Nordenstam (Asteraceae) currently comprises 44 species. To investigate the interspecific relationship, several chloroplast markers, including ndhC-trnV, rpl32-trnL, matK, and rbcL, are used to analyze the phylogeny of Sinosenecio. However, the chloroplast genomes of this genus have not been thoroughly investigated. We sequenced and assembled the Sinosenecio albonervius chloroplast genome for the first time. A detailed comparative analysis was performed in this study using the previously reported chloroplast genomes of three Sinosenecio species. Results The results showed that the chloroplast genomes of four Sinosenecio species exhibit a typical quadripartite structure. There are equal numbers of total genes, protein-coding genes and RNA genes among the annotated genomes. Per genome, 49–56 simple sequence repeats and 99 repeat sequences were identified. Thirty codons were identified as RSCU values greater than 1 in the chloroplast genome of S. albonervius based on 54 protein-coding genes, indicating that they showed biased usage. Among 18 protein-coding genes, 46 potential RNA editing sites were discovered. By comparing these chloroplast genomes' structures, inverted repeat regions and coding regions were more conserved than single-copy and non-coding regions. The junctions among inverted repeat and single-copy regions showed slight difference. Several hot spots of genomic divergence were detected, which can be used as new DNA barcodes for species identification. Phylogenetic analysis of the whole chloroplast genome showed that the four Sinosenecio species have close interspecific relationships. Conclusions The complete chloroplast genome of Sinosenecio albonervius was revealed in this study, which included a comparison of Sinosenecio chloroplast genome structure, variation, and phylogenetic analysis for related species. These will help future research on Sinosenecio taxonomy, identification, origin, and evolution to some extent.

Published

2022