Your search keyword '"Wang, Zheng-Feng"' showing total 11 results

1. Genome assembly of Ottelia alismoides, a multiple-carbon utilisation aquatic plant.

Author

Wang, Zheng-Feng, Wu, Lin-Fang, Chen, Lei, Zhu, Wei-Guang, Yu, En-Ping, Xu, Feng-Xia, and Cao, Hong-Lin

Subjects

*CRASSULACEAN acid metabolism, *AQUATIC plants, *GENOMES, *WHOLE genome sequencing, *GENOMICS, *POTAMOGETON

Abstract

Objectives: Ottelia Pers. is in the Hydrocharitaceae family. Species in the genus are aquatic, and China is their centre of origin in Asia. Ottelia alismoides (L.) Pers., which is distributed worldwide, is a distinguishing element in China, while other species of this genus are endemic to China. However, O. alismoides is also considered endangered due to habitat loss and pollution in some Asian countries. Ottelia alismoides is the only submerged macrophyte that contains three carbon dioxide-concentrating mechanisms, i.e. bicarbonate (HCO3−) use, crassulacean acid metabolism and the C4 pathway. In this study, we present its first genome assembly to help illustrate the various carbon metabolism mechanisms and to enable genetic conservation in the future. Data description: Using DNA and RNA extracted from one O. alismoides leaf, this work produced ∼ 73.4 Gb HiFi reads, ∼ 126.4 Gb whole genome sequencing short reads and ∼ 21.9 Gb RNA-seq reads. The de novo genome assembly was 6,455,939,835 bp in length, with 11,923 scaffolds/contigs and an N50 of 790,733 bp. Genome assembly completeness assessment with Benchmarking Universal Single-Copy Orthologs revealed a score of 94.4%. The repetitive sequence in the assembly was 4,875,817,144 bp (75.5%). A total of 116,176 genes were predicted. The protein sequences were functionally annotated against multiple databases, facilitating comparative genomic analysis. [ABSTRACT FROM AUTHOR]

Published

2024

2. Draft genome of Brasenia schreberi, a worldwide distributed and endangered aquatic plant.

Author

Wu, Lin-Fang, Zhu, Wei-Guang, Yu, En-Ping, Cao, Hong-Lin, and Wang, Zheng-Feng

Subjects

AQUATIC weeds, GENOMES, WHOLE genome sequencing, AQUATIC habitats, DATABASES, AQUATIC plants

Abstract

Objectives: Brasenia is a monotypic genus in the family of Cabombaceae. The only species, B. schreberi, is a macrophyte distributed worldwide. Because it requires good water quality, it is endangered in China and other countries due to the deterioration of aquatic habitats. The young leaves and stems of B. schreberi are covered by thick mucilage, which has high medical value. As an allelopathic aquatic plant, it can also be used in the management of aquatic weeds. Here, we present its assembled and annotated genome to help shed light on medial and allelopathic substrates and facilitate their conservation. Data description: Genomic DNA and RNA extracted from B. schreberi leaf tissues were used for whole genome and RNA sequencing using a Nanopore and/or MGI sequencer. The assembly was 1,055,148,839 bp in length, with 92 contigs and an N50 of 22,379,495 bp. The repetitive elements in the assembly were 555,442,205 bp. A completeness assessment of the assembly with BUSCO and compleasm indicated 88.4 and 90.9% completeness in the Eudicots database and 95.4 and 96.6% completeness in the Embryphyta database. Gene annotation revealed 67,747 genes that coded for 73,344 proteins. [ABSTRACT FROM AUTHOR]

Published

2024

3. Draft genome of Castanopsis chinensis, a dominant species safeguarding biodiversity in subtropical broadleaved evergreen forests.

Author

Chen, Pan, Lian, Ju-Yu, Wu, Bin, Cao, Hong-Lin, Li, Zhi-Hong, and Wang, Zheng-Feng

Subjects

FOREST biodiversity, GENOMES, NUCLEOTIDE sequencing, EVERGREENS, AMINO acid sequence, SPECIES

Abstract

Objectives: Castanopsis is the third largest genus in the Fagaceae family and is essentially tropical or subtropical in origin. The species in this genus are mainly canopy-dominant trees, and the key components of evergreen broadleaved forests play a crucial role in the maintenance of local biodiversity. Castanopsis chinensis, distributed from South China to Vietnam, is a representative species. It currently suffers from a high disturbance of human activity and climate change. Here, we present its assembled genome to facilitate its preliminary conservation and breeding on the genome level. Data description: The C. chinensis genome was assembled and annotated by Nanopore and MGI whole-genome sequencing and RNA-seq reads using leaf tissues. The assembly was 888,699,661 bp in length, consisting of 133 contigs and a contig N50 of 23,395,510 bp. A completeness assessment of the assembly with Benchmarking Universal Single-Copy Orthologs (BUSCO) indicated a score of 98.3%. Repetitive elements comprised 471,006,885 bp, accounting for 55.9% of the assembled sequences. A total of 51,406 genes that coded for 54,310 proteins were predicted. Multiple databases were used to functionally annotate the protein sequences. [ABSTRACT FROM AUTHOR]

Published

2023

4. Genome assembly of Erythrophleum Fordii, a special "ironwood" tree in China.

Author

Wen, Chang-Yu, Lian, Ju-Yu, Peng, Wei-Xiong, Wang, Zheng-Feng, Yang, Zhi-Gang, and Cao, Hong-Lin

Subjects

GENOMES, GENOMICS, WHOLE genome sequencing, WOOD, AMINO acid sequence

Abstract

Objectives: Erythrophleum is a genus in the Fabaceae family. The genus contains only about 10 species, and it is best known for its hardwood and medical properties worldwide. Erythrophleum fordii Oliv. is the only species of this genus distributed in China. It has superior wood and can be used in folk medicine, which leads to its overexploitation in the wild. For its effective conservation and elucidation of the distinctive genetic traits of wood formation and medical components, we present its first genome assembly. Data description: This work generated ~ 160.8 Gb raw Nanopore whole genome sequencing (WGS) long reads, ~ 126.0 Gb raw MGI WGS short reads and ~ 29.0 Gb raw RNA-seq reads using E. fordii leaf tissues. The de novo assembly contained 864,825,911 bp in the E. fordii genome, with 59 contigs and a contig N50 of 30,830,834 bp. Benchmarking Universal Single-Copy Orthologs (BUSCO) revealed 98.7% completeness of the assembly. The assembly contained 471,006,885 bp (54.4%) repetitive sequences and 28,761 genes that coded for 33,803 proteins. The protein sequences were functionally annotated against multiple databases, facilitating comparative genomic analysis. [ABSTRACT FROM AUTHOR]

Published

2023

5. Genome Assembly of Cordia subcordata , a Coastal Protection Species in Tropical Coral Islands.

Author

Chen, Yi-Lan, Wang, Zheng-Feng, Jian, Shu-Guang, Liao, Hai-Min, and Liu, Dong-Ming

Subjects

*CORAL reefs & islands, *WILDLIFE conservation, *GENE families, *GENOMES, *WHOLE genome sequencing, *NUCLEOTIDE sequencing

Abstract

Cordia subcordata trees or shrubs, belonging to the Boraginaceae family, have strong resistance and have adapted to their habitat on a tropical coral island in China, but the lack of genome information regarding its genetic background is unclear. In this study, the genome was assembled using both short/long whole genome sequencing reads and Hi–C reads. The assembled genome was 475.3 Mb, with 468.7 Mb (99.22%) of the sequences assembled into 16 chromosomes. Repeat sequences accounted for 54.41% of the assembled genome. A total of 26,615 genes were predicted, and 25,730 genes were functionally annotated using different annotation databases. Based on its genome and the other 17 species, phylogenetic analysis using 336 single-copy genes obtained from ortholog analysis showed that C. subcordata was a sister to Coffea eugenioides, and the divergence time was estimated to be 77 MYA between the two species. Gene family evolution analysis indicated that the significantly expanded gene families were functionally related to chemical defenses against diseases. These results can provide a reference to a deeper understanding of the genetic background of C. subcordata and can be helpful in exploring its adaptation mechanism on tropical coral islands in the future. [ABSTRACT FROM AUTHOR]

Published

2023

6. Genome Assemblies of Two Ormosia Species: Gene Duplication Related to Their Evolutionary Adaptation.

Author

Liu, Pan-Pan, Yu, En-Ping, Tan, Zong-Jian, Sun, Hong-Mei, Zhu, Wei-Guang, Wang, Zheng-Feng, and Cao, Hong-Lin

Subjects

CHROMOSOME duplication, SECONDARY metabolism, PLANT defenses, GENOMES, PLANT genomes, SPECIES, LUPINUS albus, METABOLITES

Abstract

Ormosia is a genus of the Fabaceae family that shows a distinct evolutionary history due to its typical Asian-American tropical disjunction distribution pattern. However, both its phylogeny and biogeographic mechanisms have not been fully resolved. In addition, Ormosia species have great economic and ecological potential in the wood and handicraft (using their attractive seeds) industries, reforestation, and folk medicine (due to their flavonoids, alkaloids, and terpenoids), making them highly valuable in research, especially from a genomic perspective. We report the genome assemblies of two common Ormosia species, Ormosia emarginata and Ormosia semicastrata, in South China, using both long and short sequencing reads. The genome assemblies of O. emarginata and O. semicastrata comprised 90 contigs with a total length of 1,420,917,605 bp and 63 contigs with a total length of 1,511,766,959 bp, respectively. Benchmarking Universal Single-Copy Orthologs (BUSCO) assessment revealed 97.0% and 98.3% completeness of the O. emarginata and O. semicastrata assemblies, respectively. The assemblies contain 48,599 and 52,067 protein-coding genes, respectively. Phylogenetic analyses using 1032 single-copy genes with 19 species indicated that they are closely related to Lupinus albus. We investigated genes related to plant hormones, signaling, the circadian rhythm, transcription factors, and secondary metabolites derived from the whole genome and tandem and proximal duplications, indicating that these duplications should play important roles in the growth, development, and defense of Ormosia species. To our knowledge, our study is the first report on Ormosia genome assemblies. This information will facilitate phylogenetic and biogeographic analyses and species breeding in the future. [ABSTRACT FROM AUTHOR]

Published

2023

7. Draft genome and transcriptome of Nepenthes mirabilis, a carnivorous plant in China.

Author

Gao, Yuan, Liao, Hao-Bin, Liu, Ting-Hong, Wu, Jia-Ming, Wang, Zheng-Feng, and Cao, Hong-Lin

Subjects

ADAPTIVE radiation, CARNIVOROUS plants, WHOLE genome sequencing, TRANSCRIPTOMES, COMPARATIVE genomics, GENOMES

Abstract

Objectives: Nepenthes belongs to the monotypic family Nepenthaceae, one of the largest carnivorous plant families. Nepenthes species show impressive adaptive radiation and suffer from being overexploited in nature. Nepenthes mirabilis is the most widely distributed species and the only Nepenthes species that is naturally distributed within China. Herein, we reported the genome and transcriptome assemblies of N. mirabilis. The assemblies will be useful resources for comparative genomics, to understand the adaptation and conservation of carnivorous species. Data description: This work produced ~ 139.5 Gb N. mirabilis whole genome sequencing reads using leaf tissues, and ~ 21.7 Gb and ~ 27.9 Gb of raw RNA-seq reads for its leaves and flowers, respectively. Transcriptome assembly obtained 339,802 transcripts, in which 79,758 open reading frames (ORFs) were identified. Function analysis indicated that these ORFs were mainly associated with proteolysis and DNA integration. The assembled genome was 691,409,685 bp with 159,555 contigs/scaffolds and an N50 of 10,307 bp. The BUSCO assessment of the assembled genome and transcriptome indicated 91.1% and 93.7% completeness, respectively. A total of 42,961 genes were predicted in the genome identified, coding for 45,461 proteins. The predicted genes were annotated using multiple databases, facilitating future functional analyses of them. This is the first genome report on the Nepenthaceae family. [ABSTRACT FROM AUTHOR]

Published

2023

8. Genome assembly of Musa beccarii shows extensive chromosomal rearrangements and genome expansion during evolution of Musaceae genomes.

Author

Wang, Zheng-Feng, Rouard, Mathieu, Droc, Gaetan, Heslop-Harrison, Pat (J S), and Ge, Xue-Jun

Subjects

*CHROMOSOMAL rearrangement, *BANANAS, *ORNAMENTAL plants, *X chromosome, *PAN-genome, *POLYKETIDE synthases, *RIBOSOMAL DNA, *GENOMES

Abstract

Background Musa beccarii (Musaceae) is a banana species native to Borneo, sometimes grown as an ornamental plant. The basic chromosome number of Musa species is x = 7, 10, or 11; however, M. beccarii has a basic chromosome number of x = 9 (2n = 2x = 18), which is the same basic chromosome number of species in the sister genera Ensete and Musella. Musa beccarii is in the section Callimusa , which is sister to the section Musa. We generated a high-quality chromosome-scale genome assembly of M. beccarii to better understand the evolution and diversity of genomes within the family Musaceae. Findings The M. beccarii genome was assembled by long-read and Hi-C sequencing, and genes were annotated using both long Iso-seq and short RNA-seq reads. The size of M. beccarii was the largest among all known Musaceae assemblies (∼570 Mbp) due to the expansion of transposable elements and increased 45S ribosomal DNA sites. By synteny analysis, we detected extensive genome-wide chromosome fusions and fissions between M. beccarii and the other Musa and Ensete species, far beyond those expected from differences in chromosome number. Within Musaceae, M. beccarii showed a reduced number of terpenoid synthase genes, which are related to chemical defense, and enrichment in lipid metabolism genes linked to the physical defense of the cell wall. Furthermore, type III polyketide synthase was the most abundant biosynthetic gene cluster (BGC) in M. beccarii. BGCs were not conserved in Musaceae genomes. Conclusions The genome assembly of M. beccarii is the first chromosome-scale genome assembly in the Callimusa section in Musa , which provides an important genetic resource that aids our understanding of the evolution of Musaceae genomes and enhances our knowledge of the pangenome. [ABSTRACT FROM AUTHOR]

Published

2023

9. Chromosomal-level assembly of the Leptodermis oblonga (Rubiaceae) genome and its phylogenetic implications.

Author

Guo, Xiao-Ming, Wang, Zheng-Feng, Zhang, Ying, and Wang, Rui-Jiang

Subjects

*RUBIACEAE, *GENOMES, *PHENOTYPES, *COMPARATIVE genomics, *NUCLEOTIDE sequencing, *PHYLOGENY, *CHLOROPLAST DNA

Abstract

Rubiaceae is the fourth largest and a taxonomically complex family of angiosperms. Many species in this family harbor low reproductive isolation and frequently exhibit inconsistent phenotypic characteristics. Therefore, taxonomic classification and their phylogenetic relationships in the Rubiaceae family is challenging, especially in the genus Leptodermis. Considering the low taxonomic confusion and wide distribution, Leptodermis oblonga is selected as a representative Leptodermis for genome sequencing. The assemblies resulted in 497 Mbp nuclear and 155,100 bp chloroplast genomes, respectively. Using the nuclear genome as a reference, SNPs were called from 37 Leptodermis species or varieties. The phylogenetic tree based on SNPs exhibited high resolution for species delimitation of the complex and well-resolved phylogenetic relationships in the genus. Moreover, 28,987 genes were predicted in the nuclear genome and used for comparative genomics study. As the first chromosomal-level genome of the subfamily Rubioideae in Rubiaceae, it will provide fruitfully evolutionary understanding in the family. • First assemblies of nuclear and chloroplast genomes in the genus Leptodermis. • First report of chromosomal-level genome of the subfamily Rubioideae in Rubiaceae. • A total of 28,987 genes were predicted in the nuclear genome of Leptodermis oblonga. • Leptodermis oblonga did not exhibit an ancient large genomic duplication event. • Using the nuclear genome of Leptodermis oblonga as reference, SNPs were called and used to infer phylogenetic tree in Leptodermis genus. The tree based on SNPs exhibited high resolution for species delimitation and well-resolved phylogenetic relationships in the genus. [ABSTRACT FROM AUTHOR]

Published

2021

10. The complete mitochondrial genome of Ormosia boluoensis.

Author

Wang, Zheng-Feng, Zhang, Yue, Zhong, Xiang-Jing, Kang, Ning, and Cao, Hong-Lin

Subjects

MICROSATELLITE repeats, GENOMES, TRANSFER RNA, MITOCHONDRIA, RIBOSOMAL DNA, RIBOSOMAL RNA, ENDANGERED species

Abstract

Ormosia is a particular genus in the Fabaceae family with its striking seeds. The genus Ormosia boluoensis is a newly reported and critically endangered species, and field investigations have indicated that there are only hundreds of it. For the effective conservation, we report its complete mitochondrial genome. The length of the O. boluoensis mitochondrial genome is 248,619 bp, including 28 protein-coding genes, 14 transfer RNA genes, 3 ribosomal RNA genes, and 45 simple sequence repeats. Phylogenetic analysis revealed that O. boluoensis was a sister to the clade including Sophora flavescens, Ammopiptanthus nanus, and Ammopiptanthus mongolicus. [ABSTRACT FROM AUTHOR]

Published

2021

11. Draft genome of Puya raimondii (Bromeliaceae), the Queen of the Andes.

Author

Liu, Lu, Tumi, Liscely, Suni, Mery L., Arakaki, Monica, Wang, Zheng-Feng, and Ge, Xue-Jun

Subjects

*PINEAPPLE, *GENOMES, *GENE families, *BROMELIACEAE, *COMPARATIVE genomics, *PLANT genomes

Abstract

Puya raimondii , the Queen of the Andes, is an endangered high Andean species in the Bromeliaceae family. Here, we report its first genome to promote its conservation and evolutionary study. Comparative genomics showed P. raimondii diverged from Ananas comosus about 14.8 million years ago, and the long terminal repeats were likely to contribute to the genus diversification in last 3.5 million years. The gene families related to plant reproductive development and stress responses significantly expanded in the genome. At the same time, gene families involved in disease defense, photosynthesis and carbohydrate metabolism significantly contracted, which may be an evolutionary strategy to adapt to the harsh conditions in high Andes. The demographic history analysis revealed the P. raimondii population size sharply declined in the Pleistocene and then increased in the Holocene. We also designed and tested 46 pairs of universal primers for amplifying orthologous single-copy nuclear genes in Puya species. • First assembly of nuclear genome in the genus Puya. • A total of 26,696 genes were predicted in the nuclear genome of Puya raimondii. • The Puya raimondii genome revealed its adaptation to high Andes with the genes associated with reproductive development and stress responses significantly expanded. • Using the nuclear genome of Puya raimondii as reference, single-copy nuclear genes were tested and proved to be useful in improving phylogenetic reconstruction of Puya species [ABSTRACT FROM AUTHOR]

Published

2021