Your search keyword '"Liu, Jianquan"' showing total 8 results

1. The pan-genome and local adaptation of Arabidopsis thaliana.

Author

Kang, Minghui, Wu, Haolin, Liu, Huanhuan, Liu, Wenyu, Zhu, Mingjia, Han, Yu, Liu, Wei, Chen, Chunlin, Song, Yan, Tan, Luna, Yin, Kangqun, Zhao, Yusen, Yan, Zhen, Lou, Shangling, Zan, Yanjun, and Liu, Jianquan

Subjects

PAN-genome, GENETIC variation, GENE expression, PROMOTERS (Genetics), SPECIES, ARABIDOPSIS thaliana

Abstract

Arabidopsis thaliana serves as a model species for investigating various aspects of plant biology. However, the contribution of genomic structural variations (SVs) and their associate genes to the local adaptation of this widely distribute species remains unclear. Here, we de novo assemble chromosome-level genomes of 32 A. thaliana ecotypes and determine that variable genes expand the gene pool in different ecotypes and thus assist local adaptation. We develop a graph-based pan-genome and identify 61,332 SVs that overlap with 18,883 genes, some of which are highly involved in ecological adaptation of this species. For instance, we observe a specific 332 bp insertion in the promoter region of the HPCA1 gene in the Tibet-0 ecotype that enhances gene expression, thereby promotes adaptation to alpine environments. These findings augment our understanding of the molecular mechanisms underlying the local adaptation of A. thaliana across diverse habitats. Single reference genomes and short-read sequencing data are not enough to harness the full genetic variation of a species. Here, the authors report pan-genome of Arabidopsis thaliana based on chromosomal-level genomes of 32 accessions and identify variations associated with local adaptation. [ABSTRACT FROM AUTHOR]

Published

2023

2. Evolutionary origin of genomic structural variations in domestic yaks.

Author

Liu, Xinfeng, Liu, Wenyu, Lenstra, Johannes A., Zheng, Zeyu, Wu, Xiaoyun, Yang, Jiao, Li, Bowen, Yang, Yongzhi, Qiu, Qiang, Liu, Hongyu, Li, Kexin, Liang, Chunnian, Guo, Xian, Ma, Xiaoming, Abbott, Richard J., Kang, Minghui, Yan, Ping, and Liu, Jianquan

Subjects

YAK, C-kit protein, NATURAL selection, GENETIC variation, GENE expression

Abstract

Yak has been subject to natural selection, human domestication and interspecific introgression during its evolution. However, genetic variants favored by each of these processes have not been distinguished previously. We constructed a graph-genome for 47 genomes of 7 cross-fertile bovine species. This allowed detection of 57,432 high-resolution structural variants (SVs) within and across the species, which were genotyped in 386 individuals. We distinguished the evolutionary origins of diverse SVs in domestic yaks by phylogenetic analyses. We further identified 334 genes overlapping with SVs in domestic yaks that bore potential signals of selection from wild yaks, plus an additional 686 genes introgressed from cattle. Nearly 90% of the domestic yaks were introgressed by cattle. Introgression of an SV spanning the KIT gene triggered the breeding of white domestic yaks. We validated a significant association of the selected stratified SVs with gene expression, which contributes to phenotypic variations. Our results highlight that SVs of different origins contribute to the phenotypic diversity of domestic yaks. Yaks have been subject to natural selection, human domestication and interspecific introgression during their evolution. Here, the authors have identified genomic structural variations and the linked genes involved in these processes in domestic yaks, to reveal new insight into genetic basis of phenotypic diversity. [ABSTRACT FROM AUTHOR]

Published

2023

3. LncRNA expression analysis by comparative transcriptomics among closely related poplars and their regulatory roles in response to salt stress.

Author

Li, Guiting, Chen, Qingyuan, Bai, Qiuxian, Feng, Yannan, Mao, Kaili, Yang, Mengran, He, Ling, Liu, Meijun, Liu, Jianquan, and Wan, Dongshi

Subjects

GENE expression, BIOLOGICAL evolution, GENETIC regulation, POPLARS, LINCRNA

Abstract

Long noncoding ribonucleic acids (lncRNAs) play crucial roles in regulating key biological processes; however, our knowledge of lncRNAs' roles in plant adaptive evolution is still limited. Here, we determined the divergence of conserved lncRNAs in closely related poplar species that were either tolerant or sensitive to salt stress by comparative transcriptome analysis. Among the 34,363 identified lncRNAs, ~3% were shared among poplar species with conserved sequences but diversified in their function, copy number, originating genomic region and expression patterns. Further cluster analysis revealed that the conserved lncRNAs showed more similar expression patterns within salt-tolerant poplars (Populus euphratica and P. pruinosa) than between salt-tolerant and salt-sensitive poplars. Among these lncRNAs, the antisense lncRNA lncERF024 was induced by salt and the differentiated expression between salt-sensitive and salt-tolerant poplars. The overexpression of lncERF024 in P. alba var. pyramidalis enhanced poplar tolerance to salt stress. Furthermore, RNA pull-down and RNA-seq analysis showed that numerous candidate genes or proteins associated with stress response and photosynthesis might be involved in salt resistance in PeulncERF024-OE poplars. Altogether, our study provided a novel insight into how the diversification of lncRNA expression contributes to plant adaptation traits and showed that lncERF024 may be involved in the regulation of both gene expression and protein function conferring salt tolerance in Populus. [ABSTRACT FROM AUTHOR]

Published

2023

4. Haplotype-resolved genomes of two buckwheat crops provide insights into their contrasted rutin concentrations and reproductive systems.

Author

Lin, Hao, Yao, Yingjun, Sun, Pengchuan, Feng, Landi, Wang, Shuo, Ren, Yumeng, Yu, Xi, Xi, Zhengxiang, and Liu, Jianquan

Subjects

BUCKWHEAT, GENITALIA, GENOME size, RUTIN, HAPLOTYPES, GENE expression, GENOMES, PHENOTYPES

Abstract

Background: Two widely cultivated annual buckwheat crops, Fagopyrum esculentum and F. tataricum, differ from each other in both rutin concentration and reproductive system. However, the underlying genetic mechanisms remain poorly elucidated. Results: Here, we report the first haplotype-resolved chromosome-level genome assemblies of the two species. Two haplotype genomes of F. esculentum were assembled as 1.23 and 1.19 Gb with N50 = 9.8 and 12.4 Mb, respectively; the two haplotype genomes of F. tataricum were 453.7 and 446.2 Mb with N50 = 50 and 30 Mb, respectively. We further annotated protein-coding genes of each haplotype genome based on available gene sets and 48 newly sequenced transcriptomes. We found that more repetitive sequences, especially expansion of long terminal repeat retrotransposons (LTR-RTs), contributed to the large genome size of F. esculentum. Based on the well-annotated sequences, gene expressions, and luciferase experiments, we identified the sequence mutations of the promoter regions of two key genes that are likely to have greatly contributed to the high rutin concentration and selfing reproduction in F. tartaricum. Conclusions: Our results highlight the importance of high-quality genomes to identify genetic mutations underlying phenotypic differences between closely related species. F. tataricum may have been experienced stronger selection than F. esculentum through choosing these two non-coding alleles for the desired cultivation traits. These findings further suggest that genetic manipulation of the non-coding promoter regions could be widely employed for breeding buckwheat and other crops. [ABSTRACT FROM AUTHOR]

Published

2023

5. Bioinformatic analysis of chromatin organization and biased expression of duplicated genes between two poplars with a common whole-genome duplication.

Author

Zhang, Le, Zhao, Jingtian, Bi, Hao, Yang, Xiangyu, Zhang, Zhiyang, Su, Yutao, Li, Zhenghao, Zhang, Lei, Sanderson, Brian J., Liu, Jianquan, and Ma, Tao

Subjects

POPLAR genetics, CHROMATIN, BIOINFORMATICS, DNA methylation, GENE expression

Abstract

The nonrandom three-dimensional organization of chromatin plays an important role in the regulation of gene expression. However, it remains unclear whether this organization is conserved and whether it is involved in regulating gene expression during speciation after whole-genome duplication (WGD) in plants. In this study, high-resolution interaction maps were generated using high-throughput chromatin conformation capture (Hi-C) techniques for two poplar species, Populus euphratica and Populus alba var. pyramidalis, which diverged ~14 Mya after a common WGD. We examined the similarities and differences in the hierarchical chromatin organization between the two species, including A/B compartment regions and topologically associating domains (TADs), as well as in their DNA methylation and gene expression patterns. We found that chromatin status was strongly associated with epigenetic modifications and gene transcriptional activity, yet the conservation of hierarchical chromatin organization across the two species was low. The divergence of gene expression between WGD-derived paralogs was associated with the strength of chromatin interactions, and colocalized paralogs exhibited strong similarities in epigenetic modifications and expression levels. Thus, the spatial localization of duplicated genes is highly correlated with biased expression during the diploidization process. This study provides new insights into the evolution of chromatin organization and transcriptional regulation during the speciation process of poplars after WGD. [ABSTRACT FROM AUTHOR]

Published

2021

6. Rapidly Evolving Genes and Stress Adaptation of Two Desert Poplars, Populus euphratica and P. pruinosa.

Author

Zhang, Jian, Xie, Penghui, Lascoux, Martin, Meagher, Thomas R., and Liu, Jianquan

Subjects

POPLARS, EFFECT of stress on plants, PLANT evolution, BIOLOGICAL adaptation, GENE expression, NUCLEOTIDE sequence

Abstract

Understanding which genes have evolved rapidly with the recent tree speciation in arid habitats can provide valuable insights into different adaptation mechanisms. We employed a comparative evolutionary analysis of expressed sequence tags (ESTs) from two desert poplars, Populus pruinosa and P. euphratica, which diverged in the recent past. Following an approach taken previously with P. euphratica, we conducted a deep transcriptomic analysis of P. pruinosa. To maximize representation of conditional transcripts, mRNA was obtained from living tissues of two types of callus and desert-grown trees. De novo assembly generated 114,866 high-quality unique sequences using Solexa sequence data. Following assembly we were able to identify, with high confidence, 2859 orthologous sequence pairs between the two species. Based on the ratio of nonsynonymous (Ka) to synonymous (Ks) substitutions, we identified a total of 84 (2.9%) ortholog pairs exhibiting rapid evolution with signs of strong selection (Ka/Ks>1). Genes homologous to these ortholog pairs in model species are mainly involved in ‘responses to stress’, ‘ubiquitin-dependent protein catabolic processes’, and ‘biological regulation’. Finally, we examined the expression patterns of candidate genes with rapid evolution in response to salt stress. Only one pair of orthologs up-regulated their expression in both species while three and four genes were found to up-regulated in P. pruinosa and in P. euphratica respectively. Our findings together suggest that the genes at the same category or network but with differentiated expressions or functions may have evolved rapidly during adaptive divergence of the two species to differentiated salty desert habitats. [ABSTRACT FROM AUTHOR]

Published

2013

7. Screening and verification of hub genes involved in osteoarthritis using bioinformatics.

Author

Xie, Junxiong, Deng, Zhiqin, Alahdal, Murad, Liu, Jianquan, Zhao, Zhe, Chen, Xiaoqiang, Wang, Guanghui, Hu, Xiaotian, Duan, Li, Wang, Daping, and Li, Wencui

Subjects

GENES, CYCLIN-dependent kinase inhibitor-2A, GENE ontology, CYCLIN-dependent kinase inhibitors, OSTEOARTHRITIS, ONLINE databases, BIOINFORMATICS, GENE expression

Abstract

Osteoarthritis (OA) is one of the most common causes of disability and its development is associated with numerous factors. A major challenge in the treatment of OA is the lack of early diagnosis. In the present study, a bioinformatics method was employed to filter key genes that may be responsible for the pathogenesis of OA. From the Gene Expression Omnibus database, the datasets GSE55457, GSE12021 and GSE55325 were downloaded, which comprised 59 samples. Of these, 30 samples were from patients diagnosed with osteoarthritis and 29 were normal. Differentially expressed genes (DEGs) were obtained by downloading and analyzing the original data using bioinformatics. The Gene Ontology enrichment and Kyoto Encyclopedia of Genes and Genomes pathways were analyzed using the Database for Annotation, Visualization and Integrated Discovery online database. Protein-protein interaction network analysis was performed using the Search Tool for the Retrieval of Interacting Genes/proteins online database. BSCL2 lipid droplet biogenesis associated, seipin, FOS-like 2, activator protein-1 transcription factor subunit (FOSL2), cyclin-dependent kinase inhibitor 1A (CDKN1A) and kinectin 1 (KTN1) genes were identified as key genes by using Cytoscape software. Functional enrichment revealed that the DEGs were mainly accumulated in the ErbB, MAPK and PI3K-Akt pathways. Reverse transcription-quantitative PCR analysis confirmed a significant reduction in the expression levels of FOSL2, CDKN1A and KTN1 in OA samples. These genes have the potential to become novel diagnostic and therapeutic targets for OA. [ABSTRACT FROM AUTHOR]

Published

2021

8. Rapidly Evolving Genes and Stress Adaptation of Two Desert Poplars, Populus euphratica and P. pruinosa.

Author

Zhang, Jian, Xie, Penghui, Lascoux, Martin, Meagher, Thomas R., and Liu, Jianquan

Subjects

*POPLARS, *EFFECT of stress on plants, *PLANT evolution, *BIOLOGICAL adaptation, *GENE expression, *NUCLEOTIDE sequence

Abstract

Understanding which genes have evolved rapidly with the recent tree speciation in arid habitats can provide valuable insights into different adaptation mechanisms. We employed a comparative evolutionary analysis of expressed sequence tags (ESTs) from two desert poplars, Populus pruinosa and P. euphratica, which diverged in the recent past. Following an approach taken previously with P. euphratica, we conducted a deep transcriptomic analysis of P. pruinosa. To maximize representation of conditional transcripts, mRNA was obtained from living tissues of two types of callus and desert-grown trees. De novo assembly generated 114,866 high-quality unique sequences using Solexa sequence data. Following assembly we were able to identify, with high confidence, 2859 orthologous sequence pairs between the two species. Based on the ratio of nonsynonymous (Ka) to synonymous (Ks) substitutions, we identified a total of 84 (2.9%) ortholog pairs exhibiting rapid evolution with signs of strong selection (Ka/Ks>1). Genes homologous to these ortholog pairs in model species are mainly involved in ‘responses to stress’, ‘ubiquitin-dependent protein catabolic processes’, and ‘biological regulation’. Finally, we examined the expression patterns of candidate genes with rapid evolution in response to salt stress. Only one pair of orthologs up-regulated their expression in both species while three and four genes were found to up-regulated in P. pruinosa and in P. euphratica respectively. Our findings together suggest that the genes at the same category or network but with differentiated expressions or functions may have evolved rapidly during adaptive divergence of the two species to differentiated salty desert habitats. [ABSTRACT FROM AUTHOR]

Published

2013