Your search keyword '"Yu-Tian Tao"' showing total 13 results

1. Complete chloroplast genome of endangered species Dipterocarpus retusus Blume (Dipterocarpaceae) and its phylogenetic implications

Author

Yu-Tian Tao, Meng Yuan, Qin-Qin Li, and Zhong-Shuai Sun

Subjects

Dipterocarpus retusus, Dipterocarpus, chloroplast genome, phylogenomics, Genetics, QH426-470

Abstract

Dipterocarpus retusus Blume is an endangered species on the IUCN Red List. In this study, we reported the complete chloroplast (cp) genome of D. retusus (GenBank accession number: OP271853). The cp genome was 154,303 bp long, with a large single-copy (LSC) region of 85,586 bp and a small single-copy (SSC) region of 20,273 bp separated by a pair of inverted repeats (IRs) of 24,222 bp. It encodes 128 genes, including 84 protein-coding genes, 36 tRNA genes, and eight ribosomal RNA genes. We also reconstructed the cp genome phylogeny of Dipterocarpus, which indicated D. retusus was closely related with the sympatric species D. gracilis. This study may contribute valuable information to the phylogenetic relationships within the genus Dipterocarpus.

Published

2024

2. Complete chloroplast genome data reveal the existence of the Solidago canadensis L. complex and its potential introduction pathways into China

Author

Yu-Tian Tao, Lu-Xi Chen, Ming Jiang, Jie Jin, Zhong-Shuai Sun, Chao-Nan Cai, Han-Yang Lin, Allison Kwok, Jun-Min Li, and Mark van Kleunen

Subjects

Solidago, chloroplast genome, phylogenetic analysis, introduction pathways, molecular marker, Plant culture, SB1-1110

Abstract

Solidago canadensis, native to North America, is an invasive species in many areas of the world, where it causes serious damage to natural ecosystems and economic losses. However, a dearth of genetic resources and molecular markers has hampered our understanding of its invasion history. Here, we de novo assembled 40 complete chloroplast genomes of Solidago species, including 21 S. canadensis individuals, 15 S. altissima individuals, and four S. decurrens individuals, the sizes of which ranged from 152,412 bp to 153,170 bp. The phylogenetic trees based on the complete chloroplast genome sequences and nuclear genome-wide SNP data showed that S. canadensis and S. altissima cluster together and form a monophyletic pair, as sister to S. decurrens, indicating the existence of the S. canadensis L. complex in China. Three potential introduction pathways were identified. The chloroplast-genome structure and gene contents are conservative in the genomes of the S. canadensis L. complex and S. decurrens. The analysis of sequence divergence indicated five variable regions, and 10 chloroplast protein-coding genes that underwent positive selection were identified. Our findings shed new light on the invasion history of S. canadensis and the data sets generated in this study will facilitate future research on its chloroplast genome evolution.

Published

2024

3. Genome-wide identification and analysis of bZIP gene family reveal their roles during development and drought stress in Wheel Wingnut (Cyclocarya paliurus)

Author

Yu-Tian Tao, Lu-Xi Chen, Jie Jin, Zhao-Kui Du, and Jun-Min Li

Subjects

Cyclocarya paliurus, bZIP gene family, Leaf development, Drought stress, RT-qPCR, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The bZIP gene family has important roles in various biological processes, including development and stress responses. However, little information about this gene family is available for Wheel Wingnut (Cyclocarya paliurus). Results In this study, we identified 58 bZIP genes in the C. paliurus genome and analyzed phylogenetic relationships, chromosomal locations, gene structure, collinearity, and gene expression profiles. The 58 bZIP genes could be divided into 11 groups and were unevenly distributed among 16 C. paliurus chromosomes. An analysis of cis-regulatory elements indicated that bZIP promoters were associated with phytohormones and stress responses. The expression patterns of bZIP genes in leaves differed among developmental stages. In addition, several bZIP members were differentially expressed under drought stress. These expression patterns were verified by RT-qPCR. Conclusions Our results provide insights into the evolutionary history of the bZIP gene family in C. paliurus and the function of these genes during leaf development and in the response to drought stress. In addition to basic genomic information, our results provide a theoretical basis for further studies aimed at improving growth and stress resistance in C. paliurus, an important medicinal plant.

Published

2022

4. Plant Virome Analysis by the Deep Sequencing of Small RNAs of Fritillaria thunbergii var. chekiangensis and the Rapid Identification of Viruses

Author

Lu-xi Chen, Hang-kai Pan, Yu-tian Tao, Dang Yang, Hui-min Deng, Kai-jie Xu, Wen-bin Chen, and Jun-min Li

Subjects

fritillaria thunbergii var. chekiangensis, multiplex rt-pcr, small rna sequencing, virus, Plant culture, SB1-1110

Abstract

Thunberg fritillary (Fritillaria thunbergii), a perennial used in traditional Chinese herbal medicine, is a members of the family Liliaceae. The degeneration of germplasm is a severe problem in the production of Fritillaria thunbergii var. chekiangensis. However, no information about viral infections of F. thunbergii var. chekiangensis has been reported. In this study, we sequenced the small RNAs of F. thunbergii var. chekiangensis from leaves and bulbs, and viruses were identified using a phylogenetic analysis and BLAST search for sequence. In addition, multiplex reverse transcriptase-polymerase chain reaction (RT-PCR) was used to rapidly detect viruses in this variety. Our study first reported that five viruses infected F. thunbergii var. chekiangensis. Among them, fritillary virus Y (FVY), lily mottle virus (LMoV), Thunberg fritillary mosaic virus (TFMV), and hop yellow virus (HYV) had been reported in F. thunbergii, while apple stem grooving virus was first reported in the genus Fritillaria. A multiplex RT-PCR method was developed to rapidly test the four viruses FVY, LMoV, TFMV, and HYV in F. thunbergii var. chekiangensis. Our results provide a better understanding of the infection of F. thunbergii var. chekiangensis by viruses and a basic reference for the better design of suitable control measures.

Published

2022

5. Predicted functional interactome of Caenorhabditis elegans and a web tool for the functional interpretation of differentially expressed genes

Author

Peng-Cheng Chen, Li Ruan, Jie Jin, Yu-Tian Tao, Xiao-Bao Ding, Hai-bo Zhang, Wen-Ping Guo, Qiao-lei Yang, Heng Yao, and Xin Chen

Subjects

Caenorhabditis elegans, Functional interaction, Database, Gene set linkage analysis, Transcriptomic analysis tool, Biology (General), QH301-705.5

Abstract

Abstract Background The nematode worm, Caenorhabditis elegans, is a saprophytic species that has been emerging as a standard model organism since the early 1960s. This species is useful in numerous fields, including developmental biology, neurobiology, and ageing. A high-quality comprehensive molecular interaction network is needed to facilitate molecular mechanism studies in C. elegans. Results We present the predicted functional interactome of Caenorhabditis elegans (FIC), which integrates functional association data from 10 public databases to infer functional gene interactions on diverse functional perspectives. In this work, FIC includes 108,550 putative functional associations with balanced sensitivity and specificity, which are expected to cover 21.42% of all C. elegans protein interactions, and 29.25% of these associations may represent protein interactions. Based on FIC, we developed a gene set linkage analysis (GSLA) web tool to interpret potential functional impacts from a set of differentially expressed genes observed in transcriptome analyses. Conclusion We present the predicted C. elegans interactome database FIC, which is a high-quality database of predicted functional interactions among genes. The functional interactions in FIC serve as a good reference interactome for GSLA to annotate differentially expressed genes for their potential functional impacts. In a case study, the FIC/GSLA system shows more comprehensive and concise annotations compared to other widely used gene set annotation tools, including PANTHER and DAVID. FIC and its associated GSLA are available at the website http://worm.biomedtzc.cn .

Published

2020

6. Predicted mouse interactome and network-based interpretation of differentially expressed genes.

Author

Hai-Bo Zhang, Xiao-Bao Ding, Jie Jin, Wen-Ping Guo, Qiao-Lei Yang, Peng-Cheng Chen, Heng Yao, Li Ruan, Yu-Tian Tao, and Xin Chen

Subjects

Medicine, Science

Abstract

The house mouse or Mus musculus has become a premier mammalian model for genetic research due to its genetic and physiological similarities to humans. It brought mechanistic insights into numerous human diseases and has been routinely used to assess drug efficiency and toxicity, as well as to predict patient responses. To facilitate molecular mechanism studies in mouse, we present the Mouse Interactome Database (MID, Version 1), which includes 155,887 putative functional associations between mouse protein-coding genes inferred from functional association evidence integrated from 9 public databases. These putative functional associations are expected to cover 19.32% of all mouse protein interactions, and 26.02% of these function associations may represent protein interactions. On top of MID, we developed a gene set linkage analysis (GSLA) web tool to annotate potential functional impacts from observed differentially expressed genes. Two case studies show that the MID/GSLA system provided precise and informative annotations that other widely used gene set annotation tools, such as PANTHER and DAVID, did not. Both MID and GSLA are accessible through the website http://mouse.biomedtzc.cn.

Published

2022

7. Nur77 Serves as a Potential Prognostic Biomarker That Correlates with Immune Infiltration and May Act as a Good Target for Prostate adenocarcinoma

Author

Qiong-Ying Hu, Jie Liu, Xiao-Kun Zhang, Wan-Ting Yang, Yu-Tian Tao, Ce Chen, Ye-He Qian, Jin-Shan Tang, Xin-Sheng Yao, Ying-He Xu, and Jing-Hui Wang

Subjects

prostate cancer, Nur77, prognosis, target, Organic chemistry, QD241-441

Abstract

Prostate adenocarcinoma (PRAD) is the most frequent malignancy, and is the second leading cause of death due to cancer in men. Thus, new prognostic biomarkers and drug targets for PRAD are urgently needed. As we know, nuclear receptor Nur77 is important in cancer development and changes in the tumor microenvironment; whereas, the function of Nur77 in PRAD remains to be elucidated. The TCGA database was used to explore the Nur77 expression and its role in the prognosis of PRAD. It was shown that Nur77 was down regulated in PRAD, and low Nur77 expression was correlated with advanced clinical pathologic characteristics (high grade, histological type, age) and poor prognosis. Furthermore, key genes screening was examined by univariate Cox analysis and Kaplan-Meier survival. Additionally, Nur77 was closely related to immune infiltration and some anti-tumor immune functions. The differentially expressed genes (DEGs) were presented by protein-protein interaction (PPI) network analysis. Therefore, the expression level of Nur77 might help predict the survival of PRAD cases, which presents a new insight and a new target for the treatment of PRAD. In vitro experiments verified that natural product malayoside targeting Nur77 exhibited significant therapeutic effects on PRAD and largely induced cell apoptosis by up-regulating the expression of Nur77 and its mitochondrial localization. Taken together, Nur77 is a prognostic biomarker for patients with PRAD, which may refresh the profound understanding of PRAD individualized treatment.

Published

2023

8. HIR V2: a human interactome resource for the biological interpretation of differentially expressed genes via gene set linkage analysis

Author

Wen-Ping Guo, Xin Chen, Yu-Tian Tao, Peng-Cheng Chen, Hai-bo Zhang, Heng Yao, Li Ruan, Qiao-lei Yang, Xiao-Bao Ding, and Jie Jin

Subjects

0303 health sciences, Computational biology, Biology, Phenotype, Interactome, General Biochemistry, Genetics and Molecular Biology, Protein–protein interaction, Transcriptome, 03 medical and health sciences, Annotation, 0302 clinical medicine, Human interactome, Genetic linkage, 030220 oncology & carcinogenesis, AcademicSubjects/SCI00960, Humans, Original Article, General Agricultural and Biological Sciences, Gene, 030304 developmental biology, Information Systems

Abstract

Background To facilitate biomedical studies of disease mechanisms, a high-quality interactome that connects functionally related genes is needed to help investigators formulate pathway hypotheses and to interpret the biological logic of a phenotype at the biological process level. Results Interactions in the updated version of the human interactome resource (HIR V2) were inferred from 36 mathematical characterizations of 6 types of data that suggest functional associations between genes. This update of the HIR consists of 88,069 pairs of genes representing functional associations that are of strengths similar to those between well-studied protein interactions. Among these functional interactions, 57.04% may represent protein interactions, which are expected to cover 32.48% of the true human protein interactome. The gene set linkage analysis (GSLA) tool is developed based on the high-quality HIR V2 to identify the potential functional impacts of observed transcriptomic changes, helping to elucidate their biological significance and complementing the currently widely used enrichment-based gene set interpretation tools. Conclusions We present the HIR V2, a high-quality functional interactome of human genes, along with the gene set linkage analysis (GSLA) webtool, which utilizes the HIR V2 to interpret the biological significance of transcriptionally changed genes. A case study shows that the annotations reported by the HIR V2/GSLA system are more comprehensive and concise compared to those obtained by widely used gene set annotation tools such as PANTHER and DAVID. The HIR V2 and GSLA are available at http://human.biomedtzc.cn .

Published

2021

9. Predicted rat interactome database and gene set linkage analysis

Author

Yu-Tian, Tao, Xiao-Bao, Ding, Jie, Jin, Hai-Bo, Zhang, Wen-Ping, Guo, Li, Ruan, Qiao-Lei, Yang, Peng-Cheng, Chen, Heng, Yao, and Xin, Chen

Subjects

Gene Ontology, Gene Expression Profiling, Databases, Genetic, Animals, AcademicSubjects/SCI00960, Original Article, Rats

Abstract

Rattus norvegicus, or the rat, has been widely used as animal models for a diversity of human diseases in the last 150 years. The rat, as a disease model, has the advantage of relatively large body size and highly similar physiology to humans. In drug discovery, rat models are routinely used in drug efficacy and toxicity assessments. To facilitate molecular pharmacology studies in rats, we present the predicted rat interactome database (PRID), which is a database of high-quality predicted functional gene interactions with balanced sensitivity and specificity. PRID integrates functional gene association data from 10 public databases and infers 305 939 putative functional associations, which are expected to include 13.02% of all rat protein interactions, and 52.59% of these function associations may represent protein interactions. This set of functional interactions may not only facilitate hypothesis formulation in molecular mechanism studies, but also serve as a reference interactome for users to perform gene set linkage analysis (GSLA), which is a web-based tool to infer the potential functional impacts of a set of changed genes observed in transcriptomics analyses. In a case study, we show that GSLA based on PRID may provide more precise and informative annotations for investigators to understand the physiological mechanisms underlying a phenotype and lead investigators to testable hypotheses for further studies. Widely used functional annotation tools such as Gene Ontology (GO) analysis, and Database for Annotation, Visualization and Integrated Discovery (DAVID) did not provide similar insights. Database URL: http://rat.biomedtzc.cn

Published

2020

10. Predicted Drosophila Interactome Resource and web tool for functional interpretation of differentially expressed genes

Author

Xin Chen, Heng Yao, Peng-Cheng Chen, Li Ruan, Yu-Tian Tao, Jie Jin, Hai-bo Zhang, Qiao-lei Yang, Wen-Ping Guo, and Xiao-Bao Ding

Subjects

ved/biology.organism_classification_rank.species, Computational biology, Interactome, General Biochemistry, Genetics and Molecular Biology, Transcriptome, Annotation, User-Computer Interface, Genetic linkage, Databases, Genetic, Protein Interaction Mapping, Animals, Drosophila Proteins, Model organism, Gene, Internet, biology, Models, Genetic, ved/biology, Gene Expression Profiling, Reproducibility of Results, biology.organism_classification, Drosophila melanogaster, Original Article, Drosophila, General Agricultural and Biological Sciences, Drosophila Protein, Algorithms, Information Systems

Abstract

Drosophila melanogaster is a well-established model organism that is widely used in genetic studies. This species enjoys the availability of a wide range of research tools, well-annotated reference databases and highly similar gene circuitry to other insects. To facilitate molecular mechanism studies in Drosophila, we present the Predicted Drosophila Interactome Resource (PDIR), a database of high-quality predicted functional gene interactions. These interactions were inferred from evidence in 10 public databases providing information for functional gene interactions from diverse perspectives. The current version of PDIR includes 102 835 putative functional associations with balanced sensitivity and specificity, which are expected to cover 22.56% of all Drosophila protein interactions. This set of functional interactions is a good reference for hypothesis formulation in molecular mechanism studies. At the same time, these interactions also serve as a high-quality reference interactome for gene set linkage analysis (GSLA), which is a web tool for the interpretation of the potential functional impacts of a set of changed genes observed in transcriptomics analyses. In a case study, we show that the PDIR/GSLA system was able to produce a more comprehensive and concise interpretation of the collective functional impact of multiple simultaneously changed genes compared with the widely used gene set annotation tools, including PANTHER and David. PDIR and its associated GSLA service can be accessed at http://drosophila.biomedtzc.cn.

Published

2020

11. OUP accepted manuscript

Author

Yu-Tian Tao, Wen-Ping Guo, Heng Yao, Jie Jin, Xin Chen, Li Ruan, Hai-bo Zhang, Qiao-lei Yang, Peng-Cheng Chen, and Xiao-Bao Ding

Subjects

0303 health sciences, Database, Drug discovery, 030302 biochemistry & molecular biology, Molecular Pharmacology, Biology, computer.software_genre, Interactome, General Biochemistry, Genetics and Molecular Biology, Protein–protein interaction, 03 medical and health sciences, Annotation, General Agricultural and Biological Sciences, Rat Protein, computer, Gene, Function (biology), 030304 developmental biology, Information Systems

Abstract

Rattus norvegicus, or the rat, has been widely used as animal models for a diversity of human diseases in the last 150 years. The rat, as a disease model, has the advantage of relatively large body size and highly similar physiology to humans. In drug discovery, rat models are routinely used in drug efficacy and toxicity assessments. To facilitate molecular pharmacology studies in rats, we present the predicted rat interactome database (PRID), which is a database of high-quality predicted functional gene interactions with balanced sensitivity and specificity. PRID integrates functional gene association data from 10 public databases and infers 305 939 putative functional associations, which are expected to include 13.02% of all rat protein interactions, and 52.59% of these function associations may represent protein interactions. This set of functional interactions may not only facilitate hypothesis formulation in molecular mechanism studies, but also serve as a reference interactome for users to perform gene set linkage analysis (GSLA), which is a web-based tool to infer the potential functional impacts of a set of changed genes observed in transcriptomics analyses. In a case study, we show that GSLA based on PRID may provide more precise and informative annotations for investigators to understand the physiological mechanisms underlying a phenotype and lead investigators to testable hypotheses for further studies. Widely used functional annotation tools such as Gene Ontology (GO) analysis, and Database for Annotation, Visualization and Integrated Discovery (DAVID) did not provide similar insights. Database URL: http://rat.biomedtzc.cn.

Published

2020

12. Intraspecific diversity of fission yeast mitochondrial genomes

Author

Jochen B. W. Wolf, Yan-Kai Wang, Yu-Tian Tao, Li-Lin Du, Sergio Tusso, Song Huang, and Fang Suo

Subjects

Mitochondrial DNA, Genome evolution, Nuclear gene, population genomics, ved/biology.organism_classification_rank.species, Sequence assembly, mitochondrial DNA, Biology, de novo assembly, Genome, Population genomics, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, Schizosaccharomyces, Genetics, Model organism, Clade, Ecology, Evolution, Behavior and Systematics, Phylogeny, 030304 developmental biology, Recombination, Genetic, 0303 health sciences, mitogenome, ved/biology, Intron, Genetic Variation, biology.organism_classification, Evolutionary biology, Schizosaccharomyces pombe, Genome, Mitochondrial, Metagenomics, evolutionary history, 030217 neurology & neurosurgery, Research Article

Abstract

The fission yeastSchizosaccharomyces pombeis an important model organism, but its natural diversity and evolutionary history remain under-studied. In particular, the population genomics of theS. pombemitochondrial genome (mitogenome) has not been thoroughly investigated. Here, we assembled the complete circular-mapping mitogenomes of 192S. pombeisolatesde novo, and found that these mitogenomes belong to 69 non-identical sequence types ranging from 17618 bp to 26910 bp in length. Using the assembled mitogenomes, we identified 20 errors in the reference mitogenome and discovered two previously unknown mitochondrial introns. Analysing sequence diversity of these 69 types of mitogenomes revealed two highly distinct clades, with only three mitogenomes exhibiting signs of inter-clade recombination. This diversity pattern suggests that currently availableS. pombeisolates descend from two long-separated ancestral lineages. This conclusion is corroborated by the diversity pattern of the recombination-repressedK-region located between donor mating-type locimat2andmat3in the nuclear genome. We estimated that the two ancestralS. pombelineages diverged about 31 million generations ago. These findings shed new light on the evolution ofS. pombeand the datasets generated in this study will facilitate future research on genome evolution.

Published

2019

13. Intraspecific Diversity of Fission Yeast Mitochondrial Genomes.

Author

Yu-Tian Tao, Fang Suo, Tusso, Sergio, Yan-Kai Wang, Song Huang, Wolf, Jochen B. W., and Li-Lin Du

Abstract

The fission yeast Schizosaccharomyces pombe is an important model organism, but its natural diversity and evolutionary history remain under-studied. In particular, the population genomics of the S. pombe mitochondrial genome (mitogenome) has not been thoroughly investigated. Here, we assembled the complete circular-mapping mitogenomes of 192 S. pombe isolates de novo, and found that these mitogenomes belong to 69 nonidentical sequence types ranging from 17,618 to 26,910 bp in length. Using the assembled mitogenomes, we identified 20 errors in the reference mitogenome and discovered two previously unknown mitochondrial introns. Analyzing sequence diversity of these 69 types of mitogenomes revealed two highly distinct clades, with only three mitogenomes exhibiting signs of inter-clade recombination. This diversity pattern suggests that currently available S. pombe isolates descend from two long-separated ancestral lineages. This conclusion is corroborated by the diversity pattern of the recombinationrepressed K-region located between donor mating-type loci mat2 and mat3 in the nuclear genome. We estimated that the two ancestral S. pombe lineages diverged about 31 million generations ago. These findings shed new light on the evolution of S. pombe and the data sets generated in this study will facilitate future research on genome evolution. [ABSTRACT FROM AUTHOR]

Published

2019