Yanping Wei scite author profile

The global prevalence of prediabetes and type 2 diabetes (T2D) is increasing, and it is contributing to the susceptibility to diabetes and its related epidemic in offspring. Although the impacts of paternal impaired fasting blood glucose and glucose intolerance on the metabolism of offspring have been well established, the exact molecular and mechanistic basis that mediates these impacts remains largely unclear. Here we show that paternal prediabetes increases the susceptibility to diabetes in offspring through gametic epigenetic alterations. In our findings, paternal prediabetes led to glucose intolerance and insulin resistance in offspring. Relative to controls, offspring of prediabetic fathers exhibited altered gene expression patterns in the pancreatic islets, with down-regulation of several genes involved in glucose metabolism and insulin signaling pathways. Epigenomic profiling of offspring pancreatic islets revealed numerous changes in cytosine methylation depending on paternal prediabetes, including reproducible changes in methylation over several insulin signaling genes. Paternal prediabetes altered overall methylome patterns in sperm, with a large portion of differentially methylated genes overlapping with that of pancreatic islets in offspring. Our study uniquely revealed that prediabetes can be inherited transgenerationally through the mammalian germ line by an epigenetic mechanism.

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Brassica carinata genome characterization clarifies U’s triangle model of evolution and polyploidy in Brassica

Song

Wei

Xiao

et al. 2021

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Ethiopian mustard (Brassica carinata) in the Brassicaceae family possesses many excellent agronomic traits. Here, the high-quality genome sequence of B. carinata is reported. Characterization revealed a genome anchored to 17 chromosomes with a total length of 1.087 Gb and an N50 scaffold length of 60 Mb. Repetitive sequences account for approximately 634 Mb or 58.34% of the B. carinata genome. Notably, 51.91% of 97,149 genes are confined to the terminal 20% of chromosomes as a result of the expansion of repeats in pericentromeric regions. Brassica carinata shares one whole-genome triplication event with the five other species in U’s triangle, a classic model of evolution and polyploidy in Brassica. Brassica carinata was deduced to have formed ∼0.047 Mya, which is slightly earlier than B. napus but later than B. juncea. Our analysis indicated that the relationship between the two subgenomes (BcaB and BcaC) is greater than that between other two tetraploid subgenomes (BjuB and BnaC) and their respective diploid parents. RNA-seq datasets and comparative genomic analysis were used to identify several key genes in pathways regulating disease resistance and glucosinolate metabolism. Further analyses revealed that genome triplication and tandem duplication played important roles in the expansion of those genes in Brassica species. With the genome sequencing of B. carinata completed, the genomes of all six Brassica species in U’s triangle are now resolved. The data obtained from genome sequencing, transcriptome analysis, and comparative genomic efforts in this study provide valuable insights into the genome evolution of the six Brassica species in U’s triangle.

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A Comprehensive Analysis of Carotenoid Cleavage Dioxygenases Genes in Solanum Lycopersicum

Wei

Wan

et al. 2015

Plant Mol Biol Rep

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Carotenoid cleavage dioxygenases (CCDs) in plant species is one of the most important enzymes in the carotenoid metabolism. In this study, we performed a comprehensive analysis for the CCDs family in Solanum lycopersicum based on the whole tomato genome sequences and explored their expression pattern. At least seven CCD genes were discovered in the tomato genome sequence. Two pairs of them were arranged in tandem. The tandem duplication events could be dating to approximately 14 and 21 Mya, and the tandem duplication genes experienced a purifying selection during the course of evolution after diversification. Additionally, subcellular localization revealed that four members were predicted to be cytoplasm-localized and the three remaining members plastids-localized. Subsequently, a number of cis-regulatory elements, which were involved in light responsiveness, hormone regulation, and abiotic and biotic stresses, were identified in the promoter sequences of SlCCD genes. Phylogenetic tree revealed that the CCDs from Solanaceae crops have a closer genetic relationship. The difference in abundance and distinct expression patterns during the vegetative and reproductive development suggests different functions for these seven SlCCDs. Our findings suggest that SlCCDs family play important roles throughout the whole life course and will lay the foundation for further elaborating the regulatory mechanism of each member in tomato.

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Enriched Environment-induced Maternal Weight Loss Reprograms Metabolic Gene Expression in Mouse Offspring

Wei

Yang

Wei³

et al. 2015

Journal of Biological Chemistry

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Background: The extent and mechanisms by which maternal weight loss affects the offspring were determined. Results: Maternal weight loss affects epigenetic marks in both oocytes and two generations of offspring. Conclusion: Maternal weight loss improves the metabolic health in offspring partially through gametic epigenetic alterations. Significance: This finding reveals a molecular basis of how maternal lifestyle modification affects offspring.

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Transcriptomic and proteomic analyses provide new insights into the regulation mechanism of low-temperature-induced leafy head formation in Chinese cabbage

Zhang

Wei

Xiao

et al. 2016

Journal of Proteomics

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Yanping Wei

Paternally induced transgenerational inheritance of susceptibility to diabetes in mammals

Brassica carinata genome characterization clarifies U’s triangle model of evolution and polyploidy in Brassica

A Comprehensive Analysis of Carotenoid Cleavage Dioxygenases Genes in Solanum Lycopersicum

Enriched Environment-induced Maternal Weight Loss Reprograms Metabolic Gene Expression in Mouse Offspring

Transcriptomic and proteomic analyses provide new insights into the regulation mechanism of low-temperature-induced leafy head formation in Chinese cabbage

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