Your search keyword '"Li, Wuhui"' showing total 4 results

1. Determination of dosage compensation and comparison of gene expression in a triploid hybrid fish.

Author

Ren L, Tang C, Li W, Cui J, Tan X, Xiong Y, Chen J, Wang J, Xiao J, Zhou Y, Wang J, Tao M, Zhang C, and Liu S

Subjects

Animals, Diploidy, Female, Gene Expression Profiling, Genes, Dominant, Male, Quantitative Trait, Heritable, Reproducibility of Results, Transcriptome, Dosage Compensation, Genetic, Fishes genetics, Gene Dosage, Gene Expression, Hybridization, Genetic, Triploidy

Abstract

Background: Polyploidy and hybridization are both recognized as major forces in evolution. Most of our current knowledge about differences in gene regulation in polyploid hybrids comes from plant studies. The gene expression of diverged genomes and regulatory interactions are still unclear in lower vertebrates., Results: We generated 229 million cleaned reads (42.23 Gbp) from triploid of maternal grass carp (Ctenopharyngodon idellus, Cyprininae, 2n = 48) × paternal blunt snout bream (Megalobrama amblycephala, Cultrinae, 2n = 48) and their diploid parents using next-generation sequencing. In total, 157,878 contigs were assembled and 15,444 genes were annotated. We examined gene expression level changes among the parents and their triploid offspring. The mechanisms of dosage compensation that reduced triploid expression levels to the diploid state were determined in triploid fish. In this situation, novel gene expression and gene silencing were observed. Then, we established a model to determine the extent and direction of expression level dominance (ELD) and homoeolog expression bias (HEB) based on the relative expression level among the parents and their triploid offspring., Conclusions: Our results showed that the genome-wide ELD was biased toward maternal genome in triploid. Extensive alterations in homoeolog expression suggested a combination of regulatory and epigenetic interactions through the transcriptome network. Additionally, the expression patterns of growth genes provided insights into the relationship between the characteristics of growth and underlying mechanisms in triploids. Regulation patterns of triploid state suggest that various expression levels from the initial genomic merger have important roles in adaptation.

Published

2017

2. Molecular characterization of gonadotropin subunits (fshβ, lhβ and cgα) of largemouth bass (micropterus salmoides) and their expression in response to luteinizing hormone‐releasing hormone analogue and dopamine antagonists.

Author

Li, Wuhui, Hu, Jie, Sun, Chengfei, Dong, Junjian, Tian, Yuanyuan, Zhao, Jinliang, and Ye, Xing

Subjects

*LARGEMOUTH bass, *DOPAMINE antagonists, *LUTEINIZING hormone releasing hormone, *AMINO acid sequence, *LUTEINIZING hormone, *PRECOCIOUS puberty, *GONADOTROPIN

Abstract

Gonadotropins (GtHs), including follicle‐stimulating hormone (FSH) and luteinizing hormone (LH), are important hormones involved in gametogenesis, gonadal steroidogenesis, and maturation. In this study, GtH subunits (FSHβ, LHβ and CGα) of largemouth bass (Micropterus salmoides) were cloned and characterized, and their regulation by luteinizing hormone‐releasing hormone analog (LHRHa2) and dopamine antagonist (DOM) treatment in vivo was investigated. The full‐length cDNA sequences of FSHβ, LHβ, and CGα were 683, 576, and 685bp, encoding 120, 152, and 132 amino acids, respectively. The deduced amino acid sequence analysis revealed that GtH subunits contain conserved cysteine residues and potential N‐linked glycosylation sites and showed high homology with the corresponding subunit sequences from other Perciformes by phylogenetic analysis. In the primary growth cortical alveoli stage of largemouth bass, the three GtH subunits were highly expressed in the pituitary, brain and ovary, but weakly in other tissues. After LHRHa2 and DOM injection, mRNA levels of FSHβ, LHβ, and CGα in the pituitary were significantly increased at 12 or 24 hr (p <.05), but significantly decreased at 48 hr; plasma FSH and LH levels showed a consistent trend. Histological analysis classified ovaries from LHRHa2‐ and DOM‐treated fish into the early oocyte maturation stage and late vitellogenesis stage, while those from the control group fish were classified into the early vitellogenesis stage. These results suggested that both LHRHa2 and DOM stimulated GtH subunit expression, increased plasma FSH and LH and accelerated ovary development of largemouth bass, providing a framework for a better understanding of the mechanisms of hormone‐mediated reproduction control in teleosts. [ABSTRACT FROM AUTHOR]

Published

2021

3. Asymmetric expression of homoeologous genes contributes to dietary adaption of an allodiploid hybrid fish derived from Megalobrama amblycephala (♀) × Culter alburnus (♂).

Author

Li, Wuhui, Wang, Shi, Hu, Jie, Tang, Chenchen, Wu, Chang, Liu, Junmei, Ren, Li, Sun, Chengfei, Dong, Junjian, Liu, Shaojun, and Ye, Xing

Subjects

*GENETIC variation, *HETEROSIS, *GENE expression in fishes, *GENE expression, *AMINO acid metabolism, *FISH breeding, *PHENOTYPIC plasticity

Abstract

Background: Hybridization, which can quickly merge two or more divergent genomes and form new allopolyploids, is an important technique in fish genetic breeding. However, the merged subgenomes must adjust and coexist with one another in a single nucleus, which may cause subgenome interaction and dominance at the gene expression level and has been observed in some allopolyploid plants. In our previous studies, newly formed allodiploid hybrid fish derived from herbivorous Megalobrama amblycephala (♀) × carnivorous Culter alburnus (♂) had herbivorous characteristic. It is thus interesting to further characterize whether the subgenome interaction and dominance derive dietary adaptation of this hybrid fish. Results: Differential expression, homoeolog expression silencing and bias were investigated in the hybrid fish after 70 days of adaptation to carnivorous and herbivorous diets. A total of 2.65 × 108 clean reads (74.06 Gb) from the liver and intestinal transcriptomes were mapped to the two parent genomes based on specific SNPs. A total of 2538 and 4385 differentially expressed homoeologous genes (DEHs) were identified in the liver and intestinal tissues between the two groups of fish, respectively, and these DEHs were highly enriched in fat digestion and carbon metabolism, amino acid metabolism and steroid biosynthesis. Furthermore, subgenome dominance were observed in tissues, with paternal subgenome was more dominant than maternal subgenome. Moreover, subgenome expression dominance controlled functional pathways in metabolism, disease, cellular processes, environment and genetic information processing during the two dietary adaptation processes. In addition, few but sturdy villi in the intestine, significant fat accumulation and a higher concentration of malondialdehyde in the liver were observed in fish fed carnivorous diet compared with fish fed herbivorous diet. Conclusions: Our results indicated that diet drives phenotypic and genetic variation, and the asymmetric expression of homoeologous genes (including differential expression, expression silencing and bias) may play key roles in dietary adaptation of hybrid fish. Subgenome expression dominance may contribute to uncovering the mechanistic basis of heterosis and also provide perspectives for fish genetic breeding and application. [ABSTRACT FROM AUTHOR]

Published

2021

4. Asymmetric expression patterns reveal a strong maternal effect and dosage compensation in polyploid hybrid fish.

Author

Li, Wuhui, Liu, Junmei, Tan, Hui, Luo, Lingling, Cui, Jialin, Hu, Jie, Wang, Shi, Liu, Qingfeng, Hu, Fangzhou, Tang, Chenchen, Ren, Li, Yang, Conghui, Zhao, Rurong, Tao, Min, Zhang, Chun, Qin, Qinbo, and Liu, Shaojun

Subjects

*PLOIDY, *GENE expression, *DIPLOIDY, *GENOMES, *MOLECULAR genetics

Abstract

Background: Hybridization and polyploidization are regarded as the major driving forces in plant speciation, diversification, and ecological adaptation. Our knowledge regarding the mechanisms of duplicated-gene regulation following genomic merging or doubling is primarily derived from plants and is sparse for vertebrates. Results: We successfully obtained an F1 generation (including allodiploid hybrids and triploid hybrids) from female Megalobrama amblycephala Yih (BSB, 2n = 48) × male Xenocypri davidi Bleeker (YB, 2n = 48). The duplicated-gene expression patterns of the two types of hybrids were explored using RNA-Seq data. In total, 5.44 × 108 (69.32 GB) clean reads and 499,631 assembled unigenes were obtained from the testis transcriptomes. The sequence similarity analysis of 4265 orthologs revealed that the merged genomes were dominantly expressed in different ploidy hybrids. The differentially expressed genes in the two types of hybrids were asymmetric compared with those in both parents. Furthermore, the genome-wide expression level dominance (ELD) was biased toward the maternal BSB genome in both the allodiploid and triploid hybrids. In addition, the dosage-compensation mechanisms that reduced the triploid expression levels to the diploid state were determined in the triploid hybrids. Conclusions: Our results indicate that divergent genomes undergo strong interactions and domination in allopolyploid offspring. Genomic merger has a greater effect on the gene-expression patterns than genomic doubling. The various expression mechanisms (including maternal effect and dosage compensation) in different ploidy hybrids suggest that the initial genomic merger and doubling play important roles in polyploidy adaptation and evolution. [ABSTRACT FROM AUTHOR]

Published

2018