Your search keyword '"An, Minghui"' showing total 450 results

1. Arbuscular mycorrhiza enhances maize grain yield and nitrogen uptake during the grain filling stage with contrasting nitrogen status in two types of soils

Author

Tian, Minghui, Feng, Cheng, Zhang, Xuelin, Gilliam, Frank S., Giri, Bhoopander, Chen, Yinglong, Zhang, Hui, Zha, Feina, Liu, Tianxue, and Yang, Qinghua

Published

2023

2. Genome-wide identification and characterization of polycomb repressive complex 2 core components in upland cotton (Gossypium hirsutum L.)

Author

Cheng, Kai, Lei, Cangbao, Zhang, Siyuan, Zheng, Qiao, Wei, Chunyan, Huang, Weiyi, Xing, Minghui, Zhang, Junli, Zhang, Xiangyu, and Zhang, Xiao

Published

2023

3. Genome-wide identification and characterization of polycomb repressive complex 2 core components in upland cotton (Gossypium hirsutum L.)

Author

Kai Cheng, Cangbao Lei, Siyuan Zhang, Qiao Zheng, Chunyan Wei, Weiyi Huang, Minghui Xing, Junli Zhang, Xiangyu Zhang, and Xiao Zhang

Subjects

PRC2, Genome-wide identification, Gene expression, Upland cotton, Botany, QK1-989

Abstract

Abstract Background The evolutionarily conserved Polycomb Repressive Complex 2 (PRC2) plays a vital role in epigenetic gene repression by depositing tri-methylation on lysine residue K27 of histone H3 (H3K27me3) at the target loci, thus participating in diverse biological processes. However, few reports about PRC2 are available in plant species with large and complicated genomes, like cotton. Results Here, we performed a genome-wide identification and comprehensive analysis of cotton PRC2 core components, especially in upland cotton (Gossypium hirsutum). Firstly, a total of 8 and 16 PRC2 core components were identified in diploid and tetraploid cotton species, respectively. These components were classified into four groups, E(z), Su(z)12, ESC and p55, and the members in the same group displayed good collinearity, similar gene structure and domain organization. Next, we cloned G. hirsutum PRC2 (GhPRC2) core components, and found that most of GhPRC2 proteins were localized in the nucleus, and interacted with each other to form multi-subunit complexes. Moreover, we analyzed the expression profile of GhPRC2 genes. The transcriptome data and quantitative real-time PCR (qRT-PCR) assays indicated that GhPRC2 genes were ubiquitously but differentially expressed in various tissues, with high expression levels in reproductive organs like petals, stamens and pistils. And the expressions of several GhPRC2 genes, especially E(z) group genes, were responsive to various abiotic and biotic stresses, including drought, salinity, extreme temperature, and Verticillium dahliae (Vd) infection. Conclusion We identified PRC2 core components in upland cotton, and systematically investigated their classifications, phylogenetic and synteny relationships, gene structures, domain organizations, subcellular localizations, protein interactions, tissue-specific and stresses-responsive expression patterns. Our results will provide insights into the evolution and composition of cotton PRC2, and lay the foundation for further investigation of their biological functions and regulatory mechanisms.

Published

2023

4. Identification and validation of ferroptosis related markers in erythrocyte differentiation of umbilical cord blood-derived CD34+ cell by bioinformatic analysis.

Author

Qian Liu, Ze Lin, Minghui Yue, Jianbo Wu, Lei Li, Daqi Huang, Yipeng Fang, Xin Zhang, and Tao Hao

Subjects

NOTCH signaling pathway, BIOMARKERS, GENE expression, UMBILICAL cord, DISCOIDIN domain receptor 2

Abstract

Ferroptosis has been observed to play an important role during erythrocyte differentiation (ED). However, the biological gene markers and ferroptosis mechanisms in ED remain unknown. We downloaded the datasets of ED in human umbilical cord blood-derived CD34+ cells from the Gene Expression Omnibus database. Using median differentiation time, the sample was categorized into long and short groups. The differentially expressed ferroptosis-related genes (DE-FRGs) were screened using differential expression analysis. The enrichment analyses and a protein-protein interaction (PPI) network were conducted. To predict the ED stage, a logistic regression model was constructed using the least absolute shrinkage and selection operator (LASSO). Overall, 22 DE-FRGs were identified. Ferroptosisrelated pathways were enriched using Gene Ontology and the Kyoto Encyclopedia of Genes and Genomes. Gene Set Enrichment Analysis and Gene Set Variation Analysis revealed the primary involvement of DE-FRGs in JAK-STAT, MAPK, PI3K-AKT-mTORC1, WNT, and NOTCH signaling pathways. Ten-hub DE-FRGs were obtained using PPI analysis. Furthermore, we constructed mRNA-microRNA (miRNA) and mRNA-transcription factor networks. Immune cell infiltration levels differed significantly during ED. LASSO regression analysis established a signature using six DE-FRGs (ATF3, CDH2, CHAC1, DDR2, DPP4, and GDF15) related to the ED stage. Bioinformatic analyses identified ferroptosis-associated genes during ED, which were further validated. Overall, we identified ferroptosis-related genes to predict their correlations in ED. Exploring the underlying mechanisms of ferroptosis may help us better understand pathophysiological changes in ED and provide new evidence for clinical transformation. [ABSTRACT FROM AUTHOR]

Published

2024

5. Advances in single-cell transcriptomics in animal research.

Author

Yan, Yunan, Zhu, Senlin, Jia, Minghui, Chen, Xinyi, Qi, Wenlingli, Gu, Fengfei, Valencak, Teresa G., Liu, Jian-Xin, and Sun, Hui-Zeng

Subjects

TRANSCRIPTOMES, GENE expression, RNA sequencing, LABORATORY animals, AGRICULTURAL productivity, ANIMAL health, ANIMAL nutrition

Abstract

Understanding biological mechanisms is fundamental for improving animal production and health to meet the growing demand for high-quality protein. As an emerging biotechnology, single-cell transcriptomics has been gradually applied in diverse aspects of animal research, offering an effective method to study the gene expression of high-throughput single cells of different tissues/organs in animals. In an unprecedented manner, researchers have identified cell types/subtypes and their marker genes, inferred cellular fate trajectories, and revealed cell‒cell interactions in animals using single-cell transcriptomics. In this paper, we introduce the development of single-cell technology and review the processes, advancements, and applications of single-cell transcriptomics in animal research. We summarize recent efforts using single-cell transcriptomics to obtain a more profound understanding of animal nutrition and health, reproductive performance, genetics, and disease models in different livestock species. Moreover, the practical experience accumulated based on a large number of cases is highlighted to provide a reference for determining key factors (e.g., sample size, cell clustering, and cell type annotation) in single-cell transcriptomics analysis. We also discuss the limitations and outlook of single-cell transcriptomics in the current stage. This paper describes the comprehensive progress of single-cell transcriptomics in animal research, offering novel insights and sustainable advancements in agricultural productivity and animal health. [ABSTRACT FROM AUTHOR]

Published

2024

6. Integrated Metabolomics and Transcriptomics Reveal the Key Role of Flavonoids in the Cold Tolerance of Chrysanthemum.

Author

Wu, Di, Wu, Yingxue, Gao, Ruiqi, Zhang, Yanhong, Zheng, Ruiying, Fang, Minghui, Li, Yuhua, Zhang, Yang, Guan, Le, and Gao, Yanqiang

Subjects

CHRYSANTHEMUMS, TRANSCRIPTOMES, METABOLOMICS, FLAVONOIDS, GENE expression, LOW temperatures, CYANIDIN

Abstract

Chrysanthemum (Chrysanthemum morifolium, ground-cover Chrysanthemums), one of the important garden flowers, has a high ornamental and economic value. However, its ornamental value is significantly diminished by the low temperature experienced in northeastern China. Here, metabolomics and transcriptomics were performed on three Chrysanthemum cultivars before and after a low temperature to investigate the dynamic metabolite changes and the molecular regulatory mechanisms. The results showed that 1324 annotated metabolites were detected, among which 327 were identified as flavonoids derived from Chrysanthemum. The accumulation of metabolites and gene expression related to the flavonoid biosynthesis pathway significantly increased in the three cultivars under the low temperature, indicating flavonoid metabolism actively participates in the Chrysanthemum cold response. Specifically, the content of cyanidin and pelargonidin derivatives and the expression of anthocyanin biosynthesis genes significantly increases in XHBF, providing a reasonable explanation for the change in petal color from white to purple under the low temperature. Six candidate UDP-glycosyltransferase genes involved in the glycosylation of flavonoids were identified through correlation networks and phylogenetic analysis. CmNAC1, CmbZIP3, and other transcription factors potentially regulating flavonoid metabolism and responding to low temperatures were discovered by correlation analysis and weighted gene co-expression network analysis (WGCNA). In conclusion, this study elucidated the specific response of flavonoids to low temperatures in Chrysanthemums, providing valuable insights and metabolic data for investigating cold tolerance. [ABSTRACT FROM AUTHOR]

Published

2024

7. Dual-specificity protein phosphatase 6 (DUSP6) overexpression reduces amyloid load and improves memory deficits in male 5xFAD mice.

Author

Pan, Allen L., Audrain, Mickael, Sakakibara, Emmy, Joshi, Rajeev, Xiaodong Zhu, Qian Wang, Minghui Wang, Beckmann, Noam D., Schadt, Eric E., Gandy, Sam, Bin Zhang, Ehrlich, Michelle E., and Salton, Stephen R.

Subjects

RNA analysis, NEURON analysis, ALZHEIMER'S disease prevention, PROTEINS, MITOGEN-activated protein kinases, ALZHEIMER'S disease, RESEARCH funding, IN situ hybridization, T-test (Statistics), DATA analysis, ENZYME-linked immunosorbent assay, PHOSPHATASES, NEUROINFLAMMATION, CELLULAR signal transduction, REVERSE transcriptase polymerase chain reaction, DESCRIPTIVE statistics, GENE expression, MICE, IMMUNOHISTOCHEMISTRY, AMYLOID plaque, ANIMAL experimentation, NEUROPSYCHOLOGICAL tests, WESTERN immunoblotting, ONE-way analysis of variance, STATISTICS, HIPPOCAMPUS (Brain), MICROSCOPY, SEQUENCE analysis

Abstract

Introduction: Dual specificity protein phosphatase 6 (DUSP6) was recently identified as a key hub gene in a causal VGF gene network that regulates late-onset Alzheimer's disease (AD). Importantly, decreased DUSP6 levels are correlated with an increased clinical dementia rating (CDR) in human subjects, and DUSP6 levels are additionally decreased in the 5xFAD amyloidopathy mouse model. Methods: To investigate the role of DUSP6 in AD, we stereotactically injected AAV5-DUSP6 or AAV5-GFP (control) into the dorsal hippocampus (dHc) of both female and male 5xFAD or wild type mice, to induce overexpression of DUSP6 or GFP. Results: Barnes maze testing indicated that DUSP6 overexpression in the dHc of 5xFAD mice improved memory deficits and was associated with reduced amyloid plaque load, Aß1-40 and Aß1-42 levels, and amyloid precursor protein processing enzyme BACE1, in male but not in female mice. Microglial activation, which was increased in 5xFAD mice, was significantly reduced by dHc DUSP6 overexpression in both males and females, as was the number of "microglial clusters," which correlated with reduced amyloid plaque size. Transcriptomic profiling of female 5xFAD hippocampus revealed upregulation of inflammatory and extracellular signal-regulated kinase pathways, while dHc DUSP6 overexpression in female 5xFAD mice downregulated a subset of genes in these pathways. Gene ontology analysis of DEGs (p < 0.05) identified a greater number of synaptic pathways that were regulated by DUSP6 overexpression in male compared to female 5xFAD. Discussion: In summary, DUSP6 overexpression in dHc reduced amyloid deposition and memory deficits in male but not female 5xFAD mice, whereas reduced neuroinflammation and microglial activation were observed in both males and females, suggesting that DUSP6-induced reduction of microglial activation did not contribute to sex-dependent improvement in memory deficits. The sex-dependent regulation of synaptic pathways by DUSP6 overexpression, however, correlated with the improvement of spatial memory deficits in male but not female 5xFAD. [ABSTRACT FROM AUTHOR]

Published

2024

8. Genome-wide analysis of wheat xyloglucan endotransglucosylase/hydrolase (XTH) gene family revealed TaXTH17 involved in abiotic stress responses.

Author

Bi, Huihui, Liu, Zeliang, Liu, Shanshan, Qiao, Wenchen, Zhang, Kunpu, Zhao, Minghui, and Wang, Daowen

Subjects

GENE families, ABIOTIC stress, DROUGHT tolerance, CHROMOSOME duplication, GENE expression, PLANT growth

Abstract

Background: Environmental stresses, including high salinity and drought, severely diminish wheat yield and quality globally. The xyloglucan endotransglucosylase/hydrolase (XTH) family represents a class of cell wall-modifying enzymes and plays important roles in plants growth, development and stress adaptation. However, systematic analyses of XTH family genes and their functions under salt and drought stresses have not been undertaken in wheat. Results: In this study, we identified a total of 135 XTH genes in wheat, which were clustered into three evolutionary groups. These TaXTHs were unevenly distributed on 21 chromosomes of wheat with a majority of TaXTHs located on homelogous groups 2, 3 and 7. Gene duplication analysis revealed that segmental and tandem duplication were the main reasons for the expansion of XTH family in wheat. Interaction network predictions indicated that TaXTHs could interact with multiple proteins, including three kinases, one methyltransferase and one gibberellin-regulated protein. The promoters of the TaXTH genes harbored various cis-acting elements related to stress and hormone responses. RNA-seq data analyses showed that some TaXTH genes were induced by salt and drought stresses. Furthermore, we verified that TaXTH17 was induced by abiotic stresses and phytohormone treatments, and demonstrated that TaXTH17 was localized in the secretory pathway and cell wall. Functional analyses conducted in heterologous expression systems and in wheat established that TaXTH17 plays a negative role in plant resistance to salt and drought. Conclusions: We identified 135 XTH genes in wheat and conducted comprehensive analyses of their phylogenetic relationships, gene structures, conserved motifs, gene duplication events, chromosome locations, interaction networks, cis-acting elements and gene expression patterns. Furthermore, we provided solid evidence supporting the notion that TaXTH17 plays a negative role in plant resistance to salt and drought stresses. Collectively, our results provide valuable insights into understanding wheat XTHs, particularly their involvement in plant stress responses, and establish a foundation for further functional and mechanistic studies of TaXTHs. [ABSTRACT FROM AUTHOR]

Published

2024

9. N6-Methyladenosine (m6A) Sequencing Reveals Heterodera glycines-Induced Dynamic Methylation Promoting Soybean Defense.

Author

Ruifeng Qin, Minghui Huang, Ye Jiang, Dan Jiang, Doudou Chang, Yifan Xie, Yuewen Dou, Wu, Lili, Liuli Wei, Mingze Wang, Zhongyan Tian, Chunjie Li, and Congli Wang

Subjects

*SOYBEAN cyst nematode, *GENE expression, *ADENOSINES, *ALTERNATIVE RNA splicing, *HETERODERA, *METHYLATION

Abstract

Unraveling the intricacies of soybean cyst nematode (Heterodera glycines) race 4 resistance and susceptibility in soybean breeding lines--11-452 (highly resistant) and Dongshengl (DS I, highly susceptible)--was the focal point of this study. Employing cutting-edge N6-methyladenosine (m6A) and RNA sequencing techniques, wc delved into the impact of m6A modification on gene expression and plant defense responses. Through the evaluation of nematode development in both resistant and susceptible roots, a pivotal time point (3 days postinoculation) for m6A methylation sequencing was identified. Our sequencing data exhibited robust statistics, successful soybean genome mapping, and prevalent m6A peak distributions, primarily in the 3' untranslated region and stop codon regions. Analysis of differential methylation peaks and differentially expressed genes revealed distinctive patterns between resistant and susceptible genotypes. In the highly resistant line (11-452), key resistance and defense-associated genes displayed increased expression coupled with inhibited methylation, encompassing crucial players such as R genes, receptor kinases, and transcription factors. Conversely, the highly susceptible DS1 line exhibited heightened expression correlated with decreased methylation in genes linked to susceptibility pathways, including Mildew Locus O-like proteins and regulatory elements affecting defense mechanisms. Genome-wide assessments. Gene Ontology and Kyoto Encyclopedia of Genes and Genomes analyses, and differential methylation peak/differentially expressed gene overlap emphasized the intricate interplay of m6A modifications, alternative splicing, microRNA, and gene regulation in plant defense. Protein--protein interaction networks illuminated defense-pivotal genes, delineating divergent mechanisms in resistant and susceptible responses. This study sheds light on the dynamic correlation between methylation, splicing, and gene expression, providing profound insights into plant responses to nematode infection. [ABSTRACT FROM AUTHOR]

Published

2024

10. Genomic Identification of Callose Synthase (CalS) Gene Family in Sorghum (Sorghum bicolor) and Comparative In Silico Expression Analysis under Aphid (Melanaphis sacchari) Infestation.

Author

Zou, Kunliang, Liu, Yang, Wang, Tonghan, Guan, Minghui, Li, Xiaofei, Li, Jieqin, Yu, Haibing, Wu, Degong, and Du, Junli

Subjects

GLUCAN synthase, GENE expression, GENE families, PLANT growth, APHIDS, SORGHUM

Abstract

Callose is widely present in higher plants and plays a significant role in plant growth, development, and response to various stresses. Although numerous studies have highlighted the importance of the callose synthase (CalS) genes, their role in the resistance of sorghum (Sorghum bicolor) to aphids (Melanaphis sacchari) remains limitedly understood. This study identified 11 sorghum callose synthase genes (SbCalS), unevenly distributed across four chromosomes of sorghum. All SbCalS proteins contain glucan synthase and Fks1 domains, with segmental duplication playing a major role in gene diversification. Cis-element prediction revealed the presence of numerous stress-responsive elements, indicating that this gene family is primarily involved in stress resistance. Using published RNA-seq data, we discovered the differential expression of the SbCalS5 gene between resistant and susceptible sorghum varieties. Real-time quantitative PCR (qPCR) analysis confirmed the relative expression levels of all SbCalS members under aphid stress. To further verify the role of callose in sorghum, we measured the callose content in both resistant and susceptible sorghum varieties. The results indicated that callose plays a critical role in aphid resistance in sorghum, particularly the SbCalS5 gene. This study provides a reference for further investigation into the role of callose synthase genes in sorghum aphid resistance. [ABSTRACT FROM AUTHOR]

Published

2024

11. Identification and Evaluation of qRT-PCR Reference Genes in Melanaphis sacchari.

Author

Zou, Kunliang, Wang, Tonghan, Guan, Minghui, Liu, Yang, Li, Jieqin, Liu, Yanlong, Du, Junli, and Wu, Degong

Subjects

RNA interference, SMALL interfering RNA, FUNCTIONAL genomics, GENE expression, PLANT-water relationships

Abstract

Simple Summary: The sorghum aphid, a significant pest affecting sorghum cultivation in several continents, feeds primarily on sorghum leaves and stems by sucking sap. This feeding behavior results in the depletion of nutrients, sugars, and water in the plants, leading to inhibited growth, chlorosis, wilting, and ultimately death. The main objective of this study was to assess the stability of potential reference genes in the sorghum aphid (Melanaphis sacchari). Nine candidate reference genes underwent a rigorous selection process, and their reliability was evaluated using qRT-PCR Ct values. Various experiments were conducted to determine the best reference genes for the sorghum aphid through systematic stability analyses. The research offers a dependable collection of reference genes that can improve studies on gene expression and functional genomics related to the sorghum aphid. Appropriate reference genes must be selected for accurate qRT-PCR data to conduct a thorough gene expression analysis in the sorghum aphid (Melanaphis sacchari, Hemiptera, Aphididae). This approach will establish a foundation for gene expression analysis and determines the efficacy of RNA interference in the sorghum aphid. Nine potential reference genes, including Actin, 18S, GAPDH, RPL7, EF-1α, EF-1β, 28S, HSP70, and TATA, were assessed under various experimental conditions to gauge their suitability based on qRT-PCR Ct values. The stability of these candidate reference genes in diverse experimental setups was analyzed employing several techniques, including the ΔCt comparative method, geNorm, Normfinder, BestKeeper, and RefFinder. The findings revealed that the quantity of ideal reference genes ascertained by the geNorm method for diverse experimental conditions remained consistent. For the developmental stages of the sorghum aphid, RPL7 and 18S proved to be the most dependable reference genes, whereas GAPDH and EF-1β were recommended as the most stable reference genes for different tissues. In experiments involving wing dimorphism, EF-1α and GAPDH were identified as the optimal reference gene pair. Under varying temperatures, EF-1α and EF-1β were found to be the most dependable gene pair. For studies focusing on insecticide susceptibility, 18S and TATA emerged as the most stable candidate reference genes. Across all experimental conditions, EF-1α and EF-1β was the optimal combination of reference genes in the sorghum aphid. This research has pinpointed stable reference genes that can be utilized across various treatments, thereby enhancing gene expression studies and functional genomics research on the sorghum aphid. [ABSTRACT FROM AUTHOR]

Published

2024

12. Methylation level of potato gene OMT30376 regulates tuber anthocyanin transformations

Author

Huiling Zhang, Yanan Zhao, Xijuan Zhao, Zhonghua Zhang, Ju Liu, Minghui Shi, and Botao Song

Subjects

OMT30376 gene, methylation level, gene expression, anthocyanin transformation, potato, Plant culture, SB1-1110

Abstract

After anthocyanin synthesis, a variety of anthocyanin compounds are produced through further methylation, glycosylation, and acylation. However, the effect of the potato methylase gene on anthocyanin biosynthesis has not been reported. Red and purple mutation types appear in tubers of the potato cultivar ‘Purple Viking’ with chimeric skin phenotypes. In this study, transcriptome and anthocyanin metabolome analyses were performed on skin of Purple Viking tubers and associated mutants. According to the metabolome analysis, the transformation of delphinidin into malvidin-3-O-glucoside and petunidin 3-O-glucoside and that of cyanidin into rosinidin O-hexoside and peonidin-3-O-glucoside were hindered in red tubers. Expression of methyltransferase gene OMT30376 was significantly lower in red tubers than in purple ones, whereas the methylation level of OMT30376 was significantly higher in red tubers. In addition, red skin appeared in tubers from purple tuber plants treated with S-adenosylmethionine (SAM), indicating the difference between purple and red was caused by the methylation degree of the gene OMT30376. Thus, the results of the study suggest that the OMT30376 gene is involved in the transformation of anthocyanins in potato tubers. The results also provide an important reference to reveal the regulatory mechanisms of anthocyanin biosynthesis and transformation.

Published

2022

13. The effects of negative pressure on the gene expression of motility related proteins in boar spermatozoa during liquid storage at 170c

Author

Li, Yanbing, Li, Jingchun, Zhang, Qun, Wang, Qian, Guo, Minghui, Li, Qi, and Wei, Guosheng

Published

2021

14. Identification of abnormally methylated–differentially expressed genes and pathways in osteoarthritis: a comprehensive bioinformatic study

Author

Zheng, Linli, Chen, Weishen, Xian, Guoyan, Pan, Baiqi, Ye, Yongyu, Gu, Minghui, Ma, Yinyue, Zhang, Ziji, and Sheng, Puyi

Published

2021

15. Comparative Transcriptome Analysis of Heart Tissue in Response to Hypoxia in Silver Sillago (Sillago sihama)

Author

Saetan, Wanida, Ye, Minghui, Lin, Xinghua, Lin, Xiaozhan, Zhang, Yulei, Huang, Yang, Du, Tao, Li, Guangli, and Tian, Changxu

Published

2021

16. Transcriptomic profiling revealed the role of 24-epibrassinolide in alleviating salt stress damage in tall fescue (Festuca arundinacea)

Author

Yao Chen, Yuanhang Xiang, Zhengrong Hu, Yang Gao, Youxin Zhang, Minghui Chen, A. B. M. Khaldun, Xuebing Yan, and Jibiao Fan

Subjects

24-epibrassinolide, salt stress, tall fescue, physiological responses, transcriptomic analysis, gene expression, Plant culture, SB1-1110

Abstract

Soil salinization is a major problem all over the world. The accumulation of salt in soil reduces the root water uptake and directly affects plant growth and metabolic activities. Brassinosteroid is a plant hormone that plays an important role in regulation of plant growth and physiological process, including promotion of cell expansion and elongation, signal transduction and stress response. Exogenous 24-epibrassinolide (EBL) has been proved to alleviate various environmental stress in plants. However, the role that EBL plays in salt stress response is still unknown in tall fescue (Festuca arundinacea). In this study, the physiology and molecular mechanisms regulated by exogenous EBL of salt stress response in tall fescue was investigated. Tall fescue plants were divided into four groups, including control (CK), NaCl solution (SALT), 24-epibrassinolide (EBL), NaCl solution + 24-epibrassinolide (SE). During the growth period of tall fescue, we found that electrolyte leakage (EL) and malondialdehyde (MDA) were decreased, chlorophyll (Chl) content and antioxidant enzyme activity were increased in leaves of tall fescue in SE group compared with SALT group, indicating that EBL improved the salt tolerance in grasses. Transcriptomic profiling analysis showed that after 12 h of treatments, 10,265, 13,830 and 10,537 differential genes were expressed in EBL, SALT, and SE groups compared with control, respectively. These differentially expressed genes (DEGs) mainly focused on binding, catalytic activity, cellular process, metabolic process, cellular anatomical entity. Moreover, most of the differential genes were expressed in the plant hormone signal transduction pathway. These results helped us to better understand the mechanism of exogenous 24-epibrassinolide to improve the salt tolerance of tall fescue.

Published

2022

17. Integrated multi-omics profiling of nonfunctioning pituitary adenomas

Author

Wei, Zhenqing, Zhou, Cuiqi, Li, Minghui, Huang, Ruocheng, Deng, Hongjuan, Shen, Stephen, and Wang, Renzhi

Published

2021

18. Genome-Wide Identification and Comparative Analysis of WOX Genes in Four Euphorbiaceae Species and Their Expression Patterns in Jatropha curcas

Author

Zhanjun Wang, Qianwen Cai, Haimeng Xia, Bingqing Han, Minhui Li, Yue Wang, Minhui Zhu, Chunyan Jiao, Dandan Wang, Junjie Zhu, Wenya Yuan, Di Zhu, Congcong Xu, Hongyan Wang, Minghui Zhou, Xie Zhang, Jisen Shi, and Jinhui Chen

Subjects

WOX genes, Euphorbiaceae, Jatropha curcas, bioinformatics analysis, gene expression, Genetics, QH426-470

Abstract

The WUSCHEL-related homeobox (WOX) proteins are widely distributed in plants and play important regulatory roles in growth and development processes such as embryonic development and organ development. Here, series of bioinformatics methods were utilized to unravel the structural basis and genetic hierarchy of WOX genes, followed by regulation of the WOX genes in four Euphorbiaceae species. A genome-wide survey identified 59 WOX genes in Hevea brasiliensis (H. brasiliensis: 20 genes), Jatropha curcas (J. curcas: 10 genes), Manihot esculenta (M. esculenta: 18 genes), and Ricinus communis (R. communis: 11 genes). The phylogenetic analysis revealed that these WOX members could be clustered into three close proximal clades, such as namely ancient, intermediate and modern/WUS clades. In addition, gene structures and conserved motif analyses further validated that the WOX genes were conserved within each phylogenetic clade. These results suggested the relationships among WOX members in the four Euphorbiaceae species. We found that WOX genes in H. brasiliensis and M. esculenta exhibit close genetic relationship with J. curcas and R. communis. Additionally, the presence of various cis-acting regulatory elements in the promoter of J. curcas WOX genes (JcWOXs) reflected distinct functions. These speculations were further validated with the differential expression profiles of various JcWOXs in seeds, reflecting the importance of two JcWOX genes (JcWOX6 and JcWOX13) during plant growth and development. Our quantitative real-time PCR (qRT-PCR) analysis demonstrated that the JcWOX11 gene plays an indispensable role in regulating plant callus. Taken together, the present study reports the comprehensive characteristics and relationships of WOX genes in four Euphorbiaceae species, providing new insights into their characterization.

Published

2022

19. OsAlR3 regulates aluminum tolerance through promoting the secretion of organic acids and the expression of antioxidant genes in rice.

Author

Su, Chang, Wang, Jingbo, Feng, Jing, Jiang, Sixu, Man, Fuyuan, Jiang, Linlin, and Zhao, Minghui

Subjects

PHYSIOLOGY, GENE expression, CITRIC acid, ORGANIC acids, SECRETION, ALUMINUM, ROOT development, PLANT roots, ROOT growth

Abstract

In acidic soils, aluminum (Al) toxicity inhibits the growth and development of plant roots and affects nutrient and water absorption, leading to reduced yield and quality. Therefore, it is crucial to investigate and identify candidate genes for Al tolerance and elucidate their physiological and molecular mechanisms under Al stress. In this study, we identified a new gene OsAlR3 regulating Al tolerance, and analyzed its mechanism from physiological, transcriptional and metabolic levels. Compared with the WT, malondialdehyde (MDA) and hydrogen peroxide (H2O2) content were significantly increased, superoxide dismutase (SOD) activity and citric acid (CA) content were significantly decreased in the osalr3 mutant lines when exposed to Al stress. Under Al stress, the osalr3 exhibited decreased expression of antioxidant-related genes and lower organic acid content compared with WT. Integrated transcriptome and metabolome analysis showed the phenylpropanoid biosynthetic pathway plays an important role in OsAlR3-mediated Al tolerance. Exogenous CA and oxalic acid (OA) could increase total root length and enhance the antioxidant capacity in the mutant lines under Al stress. Conclusively, we found a new gene OsAlR3 that positively regulates Al tolerance by promoting the chelation of Al ions through the secretion of organic acids, and increasing the expression of antioxidant genes. [ABSTRACT FROM AUTHOR]

Published

2024

20. Potential Molecular Mechanism of Illicium simonsii Maxim Petroleum Ether Fraction in the Treatment of Hepatocellular Carcinoma.

Author

Zou, Sihua, Wu, Yanchun, Wen, Meiqi, Liu, Jiao, Chen, Minghui, Yuan, Jingquan, and Zhou, Bei

Subjects

GENETIC regulation, HEPATOCELLULAR carcinoma, ETHERS, PETROLEUM, GENE expression

Abstract

Traditional Chinese medicine (TCM) has been considered, for many years, an important source of medicine to treat different diseases. As a type of TCM, Illicium simonsii Maxim (ISM) is used as an anti-inflammatory, anti-bacterial, and anti-virus. Besides, ISM is also used in the treatment of cancer. In order to evaluate the anti-hepatocellular carcinoma (HCC) activity, petroleum ether extract was prepared from part of the fruit of ISM. First, the compounds of the petroleum ether fraction of Illicium simonsii Maxim (PEIM) were identified using LC-MS/MS analysis. Next, the cell viability and morphological changes were evaluated by MTT assay and Hoechst staining. In addition, the effect of PEIM on the levels of inflammatory factors (TNF-α, IL-1β, and IL-6) was determined using the ELISA kit. Furthermore, apoptosis was evaluated by flow cytometry, and gene expression and the regulation of signaling pathways were investigated, respectively, by real-time fluorescence quantitative PCR (RT-qPCR) and western blot. Results showed that a total of 64 compounds were identified in the PEIM. Additionally, the PEIM had anti-HCC activity against HepG2 cells, in which the half maximal inhibitory concentration (IC50) was 55.03 μg·mL−1. As well, the PEIM was able to modulate the expression of TNF-α, IL-1β, and IL-6, while we also found that it induced HepG2 cell apoptosis through the activation of P53 mRNA and caspase-3 mRNA. Finally, the PEIM possibly downregulated the expression of TLR4, MyD88, p-NF-κBp65, TNF-α, IL-1β, INOS, IL-6, JAK2, STAT3, CyclinD1, CDK4, MDM2, and Bcl-2, and upregulated the expression of P53, P21, Bax, Cytochrome-C, Caspase-9, and Caspase-3 in HepG2 cells. These findings may confirm that the PEIM has possible anti-HCC effects. However, additional studies are required to fully understand the mechanisms of action of the PEIM and the signaling pathways involved in its effects. Moreover, the anti-HCC activity of the PEIM should be studied in vivo, and signaling pathways involved in its effects should be explored to develop the anti-HCC drug. [ABSTRACT FROM AUTHOR]

Published

2024

21. Lactiplantibacillus plantarum ST-III and Lacticaseibacillus rhamnosus KF7 Enhance the Intestinal Epithelial Barrier in a Dual-Environment In Vitro Co-Culture Model.

Author

Zhang, Yilin, Anderson, Rachel C., You, Chunping, Purba, Ajitpal, Yan, Minghui, Maclean, Paul, Liu, Zhenmin, and Ulluwishewa, Dulantha

Subjects

INTESTINAL barrier function, INTESTINAL mucosa, INTESTINES, TIGHT junctions, GENE expression, SMALL intestine, EPITHELIUM

Abstract

Intestinal barrier hyperpermeability, which is characterised by impaired tight junction proteins, is associated with a variety of gastrointestinal and systemic diseases. Therefore, maintaining intestinal barrier integrity is considered one of the effective strategies to reduce the risk of such disorders. This study aims to investigate the potential benefits of two probiotic strains (Lactiplantibacillus plantarum ST-III and Lacticaseibacillus rhamnosus KF7) on intestinal barrier function by using a physiologically relevant in vitro model of the intestinal epithelium. Our results demonstrate that both strains increased transepithelial electrical resistance, a measure of intestinal barrier integrity. Immunolocalisation studies indicated that this improvement in barrier function was not due to changes in the co-localisation of the tight junction (TJ) proteins ZO-1 and occludin. However, we observed several modifications in TJ-related genes in response to the probiotics, including the upregulation of transmembrane and cytosolic TJ proteins, as well as TJ signalling proteins. Gene expression modulation was strain- and time-dependent, with a greater number of differentially expressed genes and higher fold-change being observed in the L. plantarum ST-III group and at the latter timepoint. Further studies to investigate how the observed gene expression changes can lead to enhanced barrier function will aid in the development of probiotic foods to help improve intestinal barrier function. [ABSTRACT FROM AUTHOR]

Published

2024

22. MdWRKY71 promotes the susceptibility of apple to Glomerella leaf spot by controlling salicylic acid degradation.

Author

Pei, Tingting, Niu, Dongshan, Ma, Yongxin, Zhan, Minghui, Deng, Jie, Li, Pengmin, Ma, Fengwang, and Liu, Changhai

Subjects

SALICYLIC acid, LEAF spots, RNA interference, GENE expression, DOWNY mildew diseases, APPLES, APPLE orchards, ORCHARDS

Abstract

Glomerella leaf spot (GLS), a fungal disease caused by Colletotrichum fructicola, severely affects apple (Malus domestica) quality and yield. In this study, we found that the transcription factor MdWRKY71 was significantly induced by C. fructicola infection in the GLS‐susceptible apple cultivar Royal Gala. The overexpression of MdWRKY71 in apple leaves resulted in increased susceptibility to C. fructicola, whereas RNA interference of MdWRKY71 in leaves showed the opposite phenotypes. These findings suggest that MdWRKY71 functions as a susceptibility factor for the apple—C. fructicola interaction. Furthermore, MdWRKY71 directly bound to the promoter of the salicylic acid (SA) degradation gene Downy Mildew Resistant 6 (DMR6)‐Like Oxygenase 1 (DLO1) and promoted its expression, resulting in a reduced SA level. The sensitivity of 35S:MdWRKY71 leaves to C. fructicola can be effectively alleviated by knocking down MdDLO1 expression, confirming the critical role of MdWRKY71‐mediated SA degradation via regulating MdDLO1 expression in GLS susceptibility. In summary, we identified a GLS susceptibility factor, MdWRKY71, that targets the apple SA degradation pathway to promote fungal infection. [ABSTRACT FROM AUTHOR]

Published

2024

23. ZNF460-mediated circRPPH1 promotes TNBC progression through ITGA5-induced FAK/PI3K/AKT activation in a ceRNA manner.

Author

Zhang, Chuanpeng, Yu, Ziyi, Yang, Susu, Liu, Yitao, Song, Jiangni, Mao, Juan, Li, Minghui, and Zhao, Yi

Subjects

COMPETITIVE endogenous RNA, TRIPLE-negative breast cancer, FOCAL adhesion kinase, GENE expression, FLUORESCENCE in situ hybridization

Abstract

Background: Circular RNAs are highly stable regulatory RNAs that have been increasingly associated with tumorigenesis and progression. However, the role of many circRNAs in triple-negative breast cancer (TNBC) and the related mechanisms have not been elucidated. Methods: In this study, we screened circRNAs with significant expression differences in the RNA sequencing datasets of TNBC and normal breast tissues and then detected the expression level of circRPPH1 by qRT‒PCR. The biological role of circRPPH1 in TNBC was then verified by in vivo and in vitro experiments. Mechanistically, we verified the regulatory effects between circRPPH1 and ZNF460 and between circRPPH1 and miR-326 by chromatin immunoprecipitation (ChIP), fluorescence in situ hybridization assay, dual luciferase reporter gene assay and RNA pull-down assay. In addition, to determine the expression of associated proteins, we performed immunohistochemistry, immunofluorescence, and western blotting. Results: The upregulation of circRPPH1 in TNBC was positively linked with a poor prognosis. Additionally, both in vivo and in vitro, circRPPH1 promoted the biologically malignant behavior of TNBC cells. Additionally, circRPPH1 may function as a molecular sponge for miR-326 to control integrin subunit alpha 5 (ITGA5) expression and activate the focal adhesion kinase (FAK)/PI3K/AKT pathway. Conclusion: Our research showed that ZNF460 could promote circRPPH1 expression and that the circRPPH1/miR-326/ITGA5 axis could activate the FAK/PI3K/AKT pathway to promote the progression of TNBC. Therefore, circRPPH1 can be used as a therapeutic or diagnostic target for TNBC. [ABSTRACT FROM AUTHOR]

Published

2024

24. miR-30c affects the pathogenesis of ulcerative colitis by regulating target gene VIP.

Author

Dong, Xiang, Zhan, Yuling, Yang, Minghui, Li, Suwan, Zheng, Hailun, and Gao, Yu

Subjects

ULCERATIVE colitis, VASOACTIVE intestinal peptide, PATHOGENESIS, GENE expression, DEXTRAN sulfate

Abstract

MicroRNAs play a crucial role in regulating the epithelial barrier and immune response, which are implicated in the pathogenesis of ulcerative colitis (UC). This study aimed to investigate the role and molecular mechanism of miR-30c in the pathogenesis of UC using a dextran sulfate sodium salt (DSS)-induced colitis model, which is similar to ulcerative colitis. Wild-type (WT) and miR-30c knockout (KO) mice were assigned to either control or DSS-treated groups to evaluate the influence of aberrant miR-30c expression on UC pathogenesis. The disease activity index, inflammatory factors, and the extent of pathological and histological damage in colon tissues were analyzed. The effect of miR-30c on vasoactive intestinal peptide (VIP) gene expression was validated through luciferase reporter assay, qRT-PCR, Western blotting, and immunohistochemistry. The results showed that miR-30c KO mice with DSS-induced colitis model showed more severe phenotypes: significantly higher disease activity indices, significant body weight loss, reduced length of the colon of mice, increased number of aberrant crypt structures, reduced mucus secretion, and significant differences in inflammatory factors. These findings suggested that the absence of miR-30c might promote DSS-induced colitis, and the targe-regulatory effect of miR-30c on VIP might play an important role in the development of colitis. [ABSTRACT FROM AUTHOR]

Published

2024

25. In Vitro Profiling of Toxicity Effects of Different Environmental Factors on Skin Cells.

Author

Fu, Minghui, Yang, Yingxin, Zhang, Xiaolan, Lei, Bingli, Chen, Tian, and Chen, Yuanqi

Subjects

EDIBLE fats & oils, CYTOTOXINS, REACTIVE oxygen species, CIGARETTE smoke, SKIN aging, GENE expression, CELL culture

Abstract

The skin is constantly exposed to a variety of environmental threats. Therefore, the influence of environmental factors on skin damage has always been a matter of concern. This study aimed to investigate the cytotoxic effects of different environmental factors, including cooking oil fumes (COFs), haze (PM2.5), and cigarette smoke (CS), on epidermal HaCaT cells and dermal fibroblast (FB) cells. Cell viability, intracellular reactive oxygen species (ROS) generation, inflammatory cytokine levels, and collagen mRNA expression were used as toxicity endpoints. Additionally, the effects of ozone (O3) on cell viability and release of inflammatory cytokines in 3D epidermal cells were also examined. The results showed that the organic extracts of CS, COFs, and PM2.5 significantly inhibited the viability of HaCaT and FB cells at higher exposure concentrations. These extracts also increased intracellular ROS levels in FB cells. Furthermore, they significantly promoted the release of inflammatory cytokines, such as IL-1α and TNF-α, in HaCaT cells and down-regulated the mRNA expression of collagen I, III, IV, and VII in FB cells. Comparatively, SC organic extracts exhibited stronger cytotoxicity to skin cells compared to PM2.5 and COFs. Additionally, O3 at all test concentrations significantly inhibited the viability of 3D epidermal cells in a concentration-dependent manner and markedly increased the levels of TNF-α and IL-1α in 3D epidermal cells. These findings emphasize the potential cytotoxicity of COFs, PM2.5, CS, and O3 to skin cells, which may lead to skin damage; therefore, we should pay attention to these environmental factors and take appropriate measures to protect the skin from their harmful effects. [ABSTRACT FROM AUTHOR]

Published

2024

26. Characterization of hypoxia-responsive states in ovarian cancer to identify hot tumors and aid adjuvant therapy.

Author

Cao, Minghui, Xiao, Liwei, Chen, Shuo, and Huang, Jiaming

Subjects

GENE expression, OVARIAN cancer, IMMUNE checkpoint proteins, TUMORS, IMMUNE response, CELL proliferation

Abstract

Backgrounds: The hypoxia-responsive state of cancer is a complex pathophysiological process involving numerous genes playing different roles. Due to the rapid proliferation of cancer cells and chaotic angiogenesis, the clinical features of hypoxia-responsive states are not yet clear in patients with ovarian cancer. Methods: Based on the RNA expression levels of 14 hypoxic markers, our study screened out hypoxia-related genes and construct a hypoxic score pattern to quantify the hypoxia-responsive states of a single tumor. Combining clinical prognosis, tumor mutation burden, microsatellite instability, the expression level of the immune checkpoint, IC50, and other indicators to evaluate the impact of different hypoxia-responsive states on clinical prognosis and therapeutic sensitivity. Results: Our study identified a subgroup with an active hypoxia-responsive state and they have a worse clinical prognosis but exhibit higher immunogenicity and higher sensitivity to immunotherapy. Conclusions: This work revealed that hypoxia-responsive states played an important role in formation of tumor immunogenicity. Evaluating the hypoxia-responsive state will contribute to guiding more effective immunotherapy strategies. [ABSTRACT FROM AUTHOR]

Published

2024

27. PtoMYB031, the R2R3 MYB transcription factor involved in secondary cell wall biosynthesis in poplar.

Author

Feng Tang, Bo Jiao, Meng Zhang, Minghui He, Ruiying Su, Keming Luo, and Ting Lan

Subjects

BIOSYNTHESIS, TRANSCRIPTION factors, RNA interference, GENE expression, SMALL interfering RNA

Abstract

Introduction: The biosynthesis of the secondary cell wall (SCW) is orchestrated by an intricate hierarchical transcriptional regulatory network. This network is initiated by first-layer master switches, SCW-NAC transcription factors, which in turn activate the second-layer master switches MYBs. These switches play a crucial role in regulating xylem specification and differentiation during SCW formation. However, the roles of most MYBs in woody plants are yet to be fully understood. Methods: In this study, we identified and isolated the R2R3-MYB transcription factor, PtoMYB031, from Populus tomentosa. We explored its expression, mainly in xylem tissues, and its role as a transcriptional repressor in the nucleus. We used overexpression and RNA interference techniques in poplar, along with Yeast two-hybrid (Y2H) and bimolecular fluorescence complementation (BiFC) assays, to analyze the regulatory effects of PtoMYB031. Results: Overexpression of PtoMYB031 in poplar significantly reduced lignin, cellulose, and hemicellulose content, and inhibited vascular development in stems, resulting in decreased SCW thickness in xylem tissues. Gene expression analysis showed that structural genes involved in SCW biosynthesis were downregulated in PtoMYB031-OE lines. Conversely, RNA interference of PtoMYB031 increased these compounds. Additionally, PtoMYB031 was found to recruit the repressor PtoZAT11, forming a transcriptional inhibition complex. Discussion: Our findings provide new insights into how PtoMYB031, through its interaction with PtoZAT11, forms a complex that can suppress the expression of key regulatory genes, PtoWND1A and PtoWND2B, in SCW biosynthesis. This study enhances our understanding of the transcriptional regulation involved in SCW formation in poplar, highlighting the significant role of PtoMYB031. [ABSTRACT FROM AUTHOR]

Published

2024

28. Characterization and analysis of multi-organ full-length transcriptomes in Sphaeropteris brunoniana and Alsophila latebrosa highlight secondary metabolism and chloroplast RNA editing pattern of tree ferns.

Author

Peng, Yang, Wang, Zhen, Li, Minghui, Wang, Ting, and Su, Yingjuan

Subjects

RNA editing, CHLOROPLASTS, GENE expression, SECONDARY metabolism, RNA metabolism, TRANSCRIPTOMES

Abstract

Background: Sphaeropteris brunoniana and Alsophila latebrosa are both old relict and rare tree ferns, which have experienced the constant changes of climate and environment. However, little is known about their high-quality genetic information and related research on environmental adaptation mechanisms of them. In this study, combined with PacBio and Illumina platforms, transcriptomic analysis was conducted on the roots, rachis, and pinna of S. brunoniana and A. latebrosa to identify genes and pathways involved in environmental adaptation. Additionally, based on the transcriptomic data of tree ferns, chloroplast genes were mined to analyze their gene expression levels and RNA editing events. Results: In the study, we obtained 11,625, 14,391 and 10,099 unigenes of S. brunoniana root, rachis, and pinna, respectively. Similarly, a total of 13,028, 11,431 and 12,144 unigenes were obtained of A. latebrosa root, rachis, and pinna, respectively. According to the enrichment results of differentially expressed genes, a large number of differentially expressed genes were enriched in photosynthesis and secondary metabolic pathways of S. brunoniana and A. latebrosa. Based on gene annotation results and phenylpropanoid synthesis pathways, two lignin synthesis pathways (H-lignin and G-lignin) were characterized of S. brunoniana. Among secondary metabolic pathways of A. latebrosa, three types of WRKY transcription factors were identified. Additionally, based on transcriptome data obtained in this study, reported transcriptome data, and laboratory available transcriptome data, positive selection sites were identified from 18 chloroplast protein-coding genes of four tree ferns. Among them, RNA editing was found in positive selection sites of four tree ferns. RNA editing affected the protein secondary structure of the rbcL gene. Furthermore, the expression level of chloroplast genes indicated high expression of genes related to the chloroplast photosynthetic system in all four species. Conclusions: Overall, this work provides a comprehensive transcriptome resource of S. brunoniana and A. latebrosa, laying the foundation for future tree fern research. [ABSTRACT FROM AUTHOR]

Published

2024

29. Met stimulates ARID1A degradation and activation of the PI3K-SREBP1 signaling to promote milk fat synthesis in bovine mammary epithelial cells.

Author

Qi, Hao, Lin, Gang, Guo, Siqi, Guo, Xudong, Yu, Congying, Zhang, Minghui, and Gao, Xuejun

Subjects

MILKFAT, EPITHELIAL cells, GENETIC regulation, FREE fatty acids, GENE expression, LIPIDS

Abstract

Methionine (Met) can promote milk fat synthesis in bovine mammary epithelial cells (BMECs), but the potential molecular mechanism is largely unknown. In this report, we aim to explore the role and molecular mechanism of AT-rich interaction domain 1A (ARID1A) in milk fat synthesis stimulated by Met. ARID1A knockdown and activation indicated that ARID1A negatively regulated the synthesis of triglycerides, cholesterol and free fatty acids and the formation of lipid droplets in BMECs. ARID1A also negatively regulated the phosphorylation of PI3K and AKT proteins, as well as the expression and maturation of SREBP1. Met stimulated the phosphorylation of PI3K and AKT proteins, as well as the expression and maturation of SREBP1, while ARID1A gene activation blocked the stimulatory effects of Met. We further found that ARID1A was located in the nucleus of BMECs, and Met reduced the nuclear localization and expression of ARID1A. ARID1A gene activation blocked the stimulation of PI3K and SREBP1 mRNA expression by Met. In summary, our data suggests that ARID1A negatively regulates milk fat synthesis stimulated by Met in BMECs through inhibiting the PI3K-SREBP1 signaling pathway, which may provide some new perspectives for improving milk fat synthesis. [ABSTRACT FROM AUTHOR]

Published

2023

30. Tomatidine attenuates lipopolysaccharide-induced nerve cell injury via transcription factor EB.

Author

ZHANG Weigang, WANG Lei, MAO Jiayue, ZHANG Jie, CHEN Yuqing, DONG Minghui, LI Shu, and WANG Lin

Subjects

NEURONS, TRANSCRIPTION factors, CO-cultures, NERVOUS system injuries, TUMOR necrosis factors, GENE expression

Abstract

To explore the effect of tomatidine (TA) on lipopolysaccharide (LPS)-induced nerve cell injury and the underlying mechanism. METHODS: The neuroinflammation model was induced by treating SH-SY5Y cells with LPS. These cells were divided into control (CON), LPS, and LPS+TA groups. The LPS group was treated with 5 μg/mL LPS for 24 h to establish an inflammatory model. The LPS+TA group was first treated with 5 μmol/L tomatidine for 24 h and then co-cultured with 5 μg/mL LPS for 24 h. Cell viability was detected using the CCK-8 assay. RT-qPCR was used to detect the mRNA expression of inflammatory factors tumor necrosis factor-α (TNF-a) and interleukin-1β (IL-βp). The protein expression of transcription factor EB (TFEB), p-TFEB, P62, and microtubule-associated protein 1 light chain 3 (LC3) expression was detected through Western blot. TFEB localization and cleaved caspase-3 expression were detected through immunofluorescence. The cell apoptosis rate was detected through flow cytometry. RESULTS: (1) Compared with the CON group, the LPS group exhibited significant increases in IL-1β and TNF-α mRNA levels (P< 0.05, the cell apoptosis rate, and the p-TFEB level (P<0.01). By contrast, P62, LC3-II/LC3-I, and TFEB protein ex-pression levels decreased significantly (P<0.05), and TFEB was mainly localized in the cytoplasm. (2) Compared with the LPS group, tomatidine treatment significantly decreased the p-TFEB protein expression level (P<0.01), increased the TFEB protein expression level (P<0.01), and promoted the TFEB protein to migrate into the nucleus. After treatment of tomatidine, the LC3-II/LC3-I protein expression level significantly increased (P<0.05),and the cell apoptosis rate significantly decreased (P<0.01). In addition, the TNF-α mRNA level significantly decreased after tomatidine treatment (P< 0.01). CONCLUSION: Tomatidine improves autophagy dysfunction, inflammatory reaction, and cell apoptosis induced by LPS via activating the transcription factor EB. [ABSTRACT FROM AUTHOR]

Published

2023

31. First Characterization and Regulatory Function of piRNAs in the Apis mellifera Larval Response to Ascosphaera apis Invasion.

Author

Sun, Minghui, Fan, Xiaoxue, Long, Qi, Zang, He, Zhang, Yiqiong, Liu, Xiaoyu, Feng, Peilin, Song, Yuxuan, Li, Kunze, Wu, Ying, Jiang, Haibin, Chen, Dafu, and Guo, Rui

Subjects

*JAK-STAT pathway, *LARVAE, *GENE expression, *WNT signal transduction, *INOSITOL phosphates, *PHOSPHATE metabolism, *HONEYBEES, *BEES

Abstract

piRNAs are a class of small non-coding RNAs that play essential roles in modulating gene expression and abundant biological processes. To decode the piRNA-regulated larval response of western honeybees (Apis mellifera) to Ascosphaera apis infection, the expression pattern of piRNAs in Apis mellifera ligustica larval guts after A. apis inoculation was analyzed based on previously obtained high-quality small RNA-seq datasets, followed by structural characterization, target prediction, regulatory network investigation, and functional dissection. Here, 504, 657, and 587 piRNAs were respectively identified in the 4-, 5-, and 6-day-old larval guts after inoculation with A. apis, with 411 ones shared. These piRNAs shared a similar length distribution and first base bias with mammal piRNAs. Additionally, 96, 103, and 143 DEpiRNAs were detected in the 4-, 5-, and 6-day-old comparison groups. Targets of the DEpiRNAs were engaged in diverse pathways such as the phosphatidylinositol signaling system, inositol phosphate metabolism, and Wnt signaling pathway. These targets were involved in three energy metabolism-related pathways, eight development-associated signaling pathways, and seven immune-relevant pathways such as the Jak-STAT signaling pathway. The expression trends of five randomly selected DEpiRNAs were verified using a combination of RT-PCR and RT-qPCR. The effective overexpression and knockdown of piR-ame-945760 in A. apis-infected larval guts were achieved by feeding a specific mimic and inhibitor. Furthermore, piR-ame-945760 negatively regulated the expression of two target immune mRNAs, SOCS5 and ARF1, in the larval gut during the A. apis infection. These findings indicated that the overall expression level of piRNAs was increased and the expression pattern of piRNAs in larval guts was altered due to the A. apis infection, DEpiRNAs were putative regulators in the A. apis-response of A. m. ligustica worker larvae. Our data provide not only a platform for the functional investigation of piRNAs in honeybees, especially in bee larvae, but also a foundation for illuminating the piRNA-involved mechanisms underlying the host response to the A. apis infection. [ABSTRACT FROM AUTHOR]

Published

2023

32. A pancancer analysis of the oncogenic role of ZNRF2 in human tumours.

Author

Shi, Fujie, Wu, Yunfei, Wang, Kai, Wang, Jiafan, Liu, Minghui, and Sun, Xinlei

Subjects

NON-small-cell lung carcinoma, TUMORS, GENE expression, ZINC-finger proteins, HEPATOCELLULAR carcinoma

Abstract

Finding effective treatments for cancer requires a thorough understanding of how it develops and progresses. Recent research has revealed the crucial role that Zinc and ring finger 2 (ZNRF2) play in the progression of non‐small cell lung cancer (NSCLC) by controlling cell growth and death. However, a comprehensive analysis of ZNRF2's role in cancer as a whole has yet to be conducted. Our study sought to investigate the impact of ZNRF2 on diverse human tumours, as well as the molecular pathways involved, using databases such as TCGA (The Cancer Genome Atlas), GEO (Gene Expression Omnibus) and the Human Protein Atlas (HPA), as well as several bioinformatic tools. Our findings indicate that ZNRF2 is generally expressed at higher levels in tumours than in normal tissues, and in some cancers, its levels correlate positively with disease stage, potentially predicting a poor prognosis for patients. We also discovered genetic changes in ZNRF2 among cancer patients, as well as its relationship with cancer‐related fibroblasts, endothelial cells and immune cell infiltration. Additionally, we explored potential molecular mechanisms of ZNRF2 in tumours, finding that it increases in hepatocellular carcinoma (HCC) tissues and that inhibiting its expression through ZNRF2 siRNA can limit HepG2 cell proliferation. Overall, our study provides a comprehensive overview of ZNRF2's oncogenic roles across various cancers. [ABSTRACT FROM AUTHOR]

Published

2023

33. Identification and Validation of Genes Related to RNA Methylation Modification in Diabetic Retinopathy.

Author

Wang, Xue, Li, Xiaomei, Zong, Yuan, Yu, Jian, Chen, Yan, Zhao, Minghui, Wu, Danping, Liao, Yujie, Jiang, Chunhui, and Zhu, Haohao

Subjects

RNA modification & restriction, GENE ontology, RNA methylation, DIABETIC retinopathy, GENE expression, RECEIVER operating characteristic curves

Abstract

To identify and validate the differentially expressed genes related to RNA methylation modification in diabetic retinopathy. The data sets GSE12610 and GSE111465 related to diabetic retinopathy in the Gene Expression Omnibus were selected. The R software package was used to identify differentially expressed genes related to RNA methylation modification in diabetic retinopathy. Protein-protein interaction network was constructed to explore the interactions between proteins and predict proteins. Then, Gene Ontology annotation analysis and Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis were used to analyze the potential enrichment pathways and clarify the biological functions of these genes. In addition, the correlation between them and immune cells was visualized, and receiver operating characteristic curves were drawn to evaluate the diagnostic performance of each one of them for diabetic retinopathy. To verify the differentially expressed genes, the mRNA expression of rat retinal vascular endothelial cells cultured in low and high glucose medium separately were detected by RT-qPCR. The expression of Lrpprc, Nsun4, Nsun6 and Trdmt1 were significantly up-regulated in diabetic retinopathy samples, while the expression of Cbll1, Hnrnpc, Mettl3 and Wtap were significantly down-regulated. Differentially expressed genes were mainly enriched in the RNA-methylation-medication pathways and biological function. The results of immune infiltration analysis proved that eosinophils aggregated more in diabetic group, while T cells follicular helper aggregated more in normal samples. These genes of Cbll1 (AUC = 0.986), Hnrnpc (AUC = 0.819), Lrpprc (AUC = 0.806), Mettl3 (AUC = 0.917), Nsun4 (AUC = 0.819), Nsun6 (AUC = 0.819), Trdmt1 (AUC = 0.972) and Wtap (AUC = 0.972) were respectively used as the diagnostic basis of diabetic retinopathy. According to the RT-qPCR results, the expression of Mettl3 was significantly down-regulated (p < 0.0005) in cells cultured in high glucose, while Trdmt1 (p < 0.05), Nsun4 (p < 0.05) and Nsun6 (p < 0.05) were significantly up-regulated. Differentially expressed genes such as Mettl3, Nsun4, Nsun6, and Trdmt1 should be conducted to explore, and the role of RNA methylation in the process of diabetic retinopathy would be revealed in-depth. [ABSTRACT FROM AUTHOR]

Published

2023

34. Downregulation of a transcription factor associated with resistance to Bt toxin Vip3Aa in the invasive fall armyworm.

Author

Minghui Jin, Yinxue Shan, Yan Peng, Wenhui Wang, Huihui Zhang, Kaiyu Liu, Heckel, David G., Kongming Wu, Tabashnik, Bruce E., and Yutao Xiao

Subjects

*FALL armyworm, *TRANSCRIPTION factors, *GENE expression, *RNA interference, *GENOME-wide association studies, *NATURAL products

Abstract

Transgenic crops producing insecticidal proteins from Bacillus thuringiensis (Bt) have revolutionized control of some major pests. However, more than 25 cases of field-evolved practical resistance have reduced the efficacy of transgenic crops producing crystalline (Cry) Bt proteins, spurring adoption of alternatives including crops producing the Bt vegetative insecticidal protein Vip3Aa. Although practical resistance to Vip3Aa has not been reported yet, better understanding of the genetic basis of resistance to Vip3Aa is urgently needed to proactively monitor, delay, and counter pest resistance. This is especially important for fall armyworm (Spodoptera frugiperda), which has evolved practical resistance to Cry proteins and is one of the world's most damaging pests. Here, we report the identification of an association between downregulation of the transcription factor gene SfMyb and resistance to Vip3Aa in S. frugiperda. Results from a genome-wide association study, fine-scale mapping, and RNA-Seq identified this gene as a compelling candidate for contributing to the 206-fold resistance to Vip3Aa in a laboratory-selected strain. Experimental reduction of SfMyb expression in a susceptible strain using RNA interference (RNAi) or CRISPR/Cas9 gene editing decreased susceptibility to Vip3Aa, confirming that reduced expression of this gene can cause resistance to Vip3Aa. Relative to the wild-type promoter for SfMyb, the promoter in the resistant strain has deletions and lower activity. Data from yeast one-hybrid assays, genomics, RNA-Seq, RNAi, and proteomics identified genes that are strong candidates for mediating the effects of SfMyb on Vip3Aa resistance. The results reported here may facilitate progress in understanding and managing pest resistance to Vip3Aa. [ABSTRACT FROM AUTHOR]

Published

2023

35. 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

36. 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

37. The lncRNA MIR99AHG directs alternative splicing of SMARCA1 by PTBP1 to enable invadopodia formation in colorectal cancer cells.

Author

Li, Danxiu, Wang, Xin, Miao, Hui, Liu, Hao, Pang, Maogui, Guo, Hao, Ge, Minghui, Glass, Sarah E., Emmrich, Stephan, Ji, Songtao, Zhou, Yun, Ye, Xiaoni, Mao, Huajie, Wang, Jing, Liu, Qi, Kim, Taewan, Klusmann, Jan-Henning, Li, Cunxi, Liu, Zhenxiong, and Jin, Haifeng

Subjects

RNA splicing, ALTERNATIVE RNA splicing, NON-coding RNA, GENE expression, COLORECTAL cancer, LINCRNA, CANCER cells

Abstract

Alternative splicing regulates gene expression and functional diversity and is often dysregulated in human cancers. Here, we discovered that the long noncoding RNA (lncRNA) MIR99AHG regulated alternative splicing to alter the activity of a chromatin remodeler and promote metastatic behaviors in colorectal cancer (CRC). MIR99AHG was abundant in invasive CRC cells and metastatic tumors from patients and promoted motility and invasion in cultured CRC cells. MIR99AHG bound to and stabilized the RNA splicing factor PTBP1, and this complex increased cassette exon inclusion in the mRNA encoding the chromatin remodeling gene SMARCA1. Specifically, MIR99AHG altered the nature of PTBP1 binding to the splice sites on intron 12 of SMARCA1 pre-mRNA, thereby triggering a splicing switch from skipping to including exon 13 to produce the long isoform, SMARCA1-L. SMARCA1, but not SMARCA1-L, suppressed invadopodia formation, cell migration, and invasion. Analysis of CRC samples revealed that the abundance of MIR99AHG transcript positively correlated with that of SMARCA1-L mRNA and PTBP1 protein and with poor prognosis in patients with CRC. Furthermore, TGF-β1 secretion from cancer-associated fibroblasts increased MIR99AHG expression in CRC cells. Our findings identify an lncRNA that is induced by cues from the tumor microenvironment and that interacts with PTBP1 to regulate alternative splicing, potentially providing a therapeutic target and predictive biomarker for metastatic CRC. Editor's summary: Alternative splicing, a process through which different transcripts are produced from the same gene, is implicated in various cancers. Li et al. found that alternative splicing caused the formation of metastasis-associated structures called invadopodia in colorectal cancer (CRC) cells. Signaling from the tumor stroma induced the expression of the long-noncoding RNA MIR99AHG in CRC cells. MIR99AHG interacted with a splicing factor and altered the way it bound to and spliced a target pre-mRNA, resulting in more of the longer transcript and less of the shorter, tumor-suppressive transcript. This switch enabled invadopodia formation, cell migration, and invasion in CRC cells. —Leslie K. Ferrarelli [ABSTRACT FROM AUTHOR]

Published

2023

38. RNA Interference-Mediated Knockdown of Tryptophan 2,3-Dioxygenase and Kynurenine-3-Monooxygenase in Monochamus Alternatus: Implications for Insect Control.

Author

Zhang, Minghui, Weng, Xiaoqian, Li, Qing, Sheng, Liangjing, Guo, Yajie, Xiong, Liya, Zhang, Feiping, and Wu, Songqing

Subjects

INSECT pest control, GENE expression, RNA interference, TRYPTOPHAN, EYE color, DIOXYGENASES, CONIFER wilt

Abstract

Monochamus alternatus Hope (Coleoptera: Cerambycidae), an invasive beetle that has caused billions of dollars in economic losses, is a serious pest of Pinus massoniana in many Asian countries. Clarifying the eye pigment gene and its knockdown phenotype of M. alternatus can provide functional gene identification and a marker for screening of gene editing, as well as help develop new control ideas. In this study, we first screened the transcriptome and found one homologous gene of tryptophan 2,3-dioxygenase (TDO) and one of kynurenine-3-monooxygenase (KMO). By measuring the expression levels of TDO and KMO in different developmental periods, it was indicated that TDO and KMO were expressed in various stages of M. alternatus. The gene expression of MaKMO was higher than MaTDO, showing high expression after pupation and decreasing at the beginning of eclosion. MaTDO and MaKMO were knocked down using RNA interference technology in different periods of expression, and the temporal expression changes were obtained using RT-qPCR technology. The results showed that the expressions of MaTDO and MaKMO were significantly inhibited by the injection of dsRNA; the expressions of MaTDO at 48 h, 96 h and after pupation were 21.9%, 32.3% and 59.2%, respectively, meanwhile, those of KMO were 23.4%, 25.0% and 69.7%, respectively. There was a significant change in eye color, and the beetles were able to pupate normally without their activity being affected. Therefore, both MaTDO and MaKMO can be used as tag genes for M. alternatus. A dominant marker system based on eye color can be developed for the genetic manipulation and control of M. alternatus. [ABSTRACT FROM AUTHOR]

Published

2023

39. Age-dependent genomic characteristics and their impact on immunotherapy in lung adenocarcinoma.

Author

Li, Peng, Che, Shuyu, Qi, Yingxue, Luo, Ningning, Lin, Qiuju, Zhu, Xiaofeng, Xuan, Yunpeng, Li, Mengmeng, Li, Jinlong, Ge, Minghui, Sun, Tingting, Qi, Chuang, and Wang, Yongjie

Subjects

GENE expression, IMMUNE checkpoint inhibitors, OLDER patients, IMMUNOTHERAPY, ADENOCARCINOMA

Abstract

Background: The incidence of lung cancer tends to be younger, and adenocarcinoma is the main histological type. Even patients with the same tumor type may have significant differences in clinical features, tumor microenvironment and genomic background at different ages. Immune checkpoint inhibitors (ICIs) have been shown to improve clinical outcomes in patients with lung adenocarcinoma (LUAD). However, differences in ICI efficacy between older and younger patients are unknown. Our study aimed to explore the relationship between age and immunotherapy in LUAD. Methods: In our study, 1313 resected LUAD patients in our hospital were divided into young (age ≤ 50) and old groups (age > 50), and the clinical characteristic differences between them were analyzed. Of these, next-generation sequencing (NGS) was performed on the 311 cases. In addition, immune-related signatures of 508 LUAD patients were analyzed by TCGA RNA expression data. Then, we validated genomic and clinical information of 270 LUAD samples in the MSKCC cohort. Results: ERBB2 and EGFR gene mutations were significantly different between the two groups, and the gene mutation number in the old group was significantly higher than that in the young group. In addition, immune-related signatures of LUAD patients were analyzed by TCGA RNA expression data, which indicated that the patients in the old group might have a better immune microenvironment. Then, we validated the MSKCC cohort and found that the TMB of the old group was significantly higher than that of the young group, and the OS of immunotherapy was longer in the old group. Conclusion: Our study was the first to analyze the differences in the genomic landscape and immune-related biomarkers between the young and old groups of LUAD patients and found that the old group had a better efficacy of immunotherapy, providing a reference for the study design and treatment of patients with LUAD. [ABSTRACT FROM AUTHOR]

Published

2023

40. Transcriptomic analysis of human endometrial stromal cells during early embryo invasion

Author

Shan Liu, Shuo Han, Minghui Liu, and Yuan Li

Subjects

Endometrial stromal cells, animal structures, Stromal cell, Embryo, General Medicine, embryo invasion, Biology, Genes, p53, Oxidative Phosphorylation, Cell biology, Transcriptome, Endometrium, embryonic structures, Gene expression, Humans, Female, sense organs, Embryo Implantation, Stromal Cells, Tumor Suppressor Protein p53, E1A-Associated p300 Protein, Research Article, Medical Genetics & Genomics

Abstract

Purpose During early embryo invasion (48 h after embryo attachment), what functional changes accompany dynamic gene expression alterations in human endometrial stromal cells? Method In the present study, primary human endometrial stromal cells (phESCs) were cultured. After in vitro decidualization, primary human endometrial stromal cells (phESCs) were cultured with blastocysts for 48 h. During this process, blastocysts attached and invaded the phESCs (embryo-invaded primary human endometrial stromal cells, ehESCs). We performed comprehensive transcriptomic profiling of phESCs (two replicates) and ehESCs (five replicates) and analyzed the differentially expressed gene (DEGs) sets for gene ontology (GO) terms and Kyoto encyclopaedia of genes and genomes (KEGG) pathway enrichment. To analyse potential connectivity patterns between the transcripts in these DEG sets, a protein-protein interaction (PPI) network was constructed using the STRING database. Results A total of 592 DEGs were identified between phESCs and ehESCs after embryo invasion. Primary human endometrial stromal cells underwent significant transcriptomic changes that occur in a stepwise fashion. Oxidative phosphorylation, mitochondrial organization, and P53 signalling pathways were significantly altered in phESCs after embryo invasion. EP300 may play a key role in regulating transcription via chromatin remodelling to facilitate the adaptive gene expression changes that occur during embryo invasion. Conclusions Our data identify dynamic transcriptome changes that occur in endometrial stromal cells within 48 h after embryo invasion. The pathways that we found to be enriched in phESCs after embryo invasion (oxidative phosphorylation, mitochondrial organization, and P53 signalling) may represent novel mechanisms underlying embryo implantation, and may illuminate the reasons that some women experience reproductive failure.Key messagesHuman endometrial stromal cells have undergone changes in gene expression regulation and signalling pathways during the embryo invasion.Mitochondrial-oxidative phosphorylation changes in human stromal cells manifested as down-regulation of gene expression in the electron transport chain.TP53 signalling pathway and transcriptional regulator EP300 assist stromal cells to get adaptive changes during embryo invasion phase.

Published

2021

41. Genome-Wide Analysis of the Lateral Organ Boundaries Domain (LBD) Gene Family in Solanum tuberosum

Author

Hengzhi Liu, Minxuan Cao, Xiaoli Chen, Minghui Ye, Peng Zhao, Yunyou Nan, Wan Li, Chao Zhang, Lingshuang Kong, Nana Kong, Chenghui Yang, Yue Chen, Dongdong Wang, and Qin Chen

Subjects

lateral organ boundaries domain, potato, gene expression, drought stress, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Lateral organ boundaries domain (LBD) proteins belong to a particular class of transcription factors of lateral organ boundary (LOB) specific domains that play essential roles in plant growth and development. However, a potato phylogenetic analysis of the LBD family has not been fully studied by scholars and researchers. In this research, bioinformatics methods and the growth of potatoes were used to identify 43 StLBD proteins. We separated them into seven subfamilies: Ia, Ib, Ic, Id, Ie, IIa and IIb. The number of amino acids encoded by the potato LBD family ranged from 94 to 327. The theoretical isoelectric point distribution ranged from 4.16 to 9.12 Kda, and they were distributed among 10 chromosomes. The results of qRT-PCR showed that the expression levels of StLBD2-6 and StLBD3-5 were up-regulated under drought stress in the stem. The expression levels of StLBD1-5 and StLBD2-6 were down-regulated in leaves. We hypothesized that StLBD1-5 was down-regulated under drought stress, and that StLBD2-6 and StLBD3-5 up-regulation might help to maintain the normal metabolism of potato and enhance the potatoes’ resistance to drought.

Published

2019

42. Author Correction: Brain Cell Type Specific Gene Expression and Co-expression Network Architectures

Author

Alexey Kozlenkov, Alexandra B Keenan, Patrizia Casaccia, Mads E. Hauberg, Bin Zhang, John F. Fullard, Andrew M. McKenzie, Stella Dracheva, Minghui Wang, Yasmin L. Hurd, and Panos Roussos

Subjects

Genetic Markers, Male, Science, Datasets as Topic, Brain Cell, Mice, Gene expression, Animals, Humans, Gene Regulatory Networks, Author Correction, Neurons, Network architecture, Multidisciplinary, Gene Expression Profiling, Type specific, Endothelial Cells, Temporal Lobe, Cell biology, Mice, Inbred C57BL, Expression (architecture), Medicine, Female, Single-Cell Analysis, Databases, Nucleic Acid, Transcriptome, Neuroglia, Geology

Abstract

Elucidating brain cell type specific gene expression patterns is critical towards a better understanding of how cell-cell communications may influence brain functions and dysfunctions. We set out to compare and contrast five human and murine cell type-specific transcriptome-wide RNA expression data sets that were generated within the past several years. We defined three measures of brain cell type-relative expression including specificity, enrichment, and absolute expression and identified corresponding consensus brain cell "signatures," which were well conserved across data sets. We validated that the relative expression of top cell type markers are associated with proxies for cell type proportions in bulk RNA expression data from postmortem human brain samples. We further validated novel marker genes using an orthogonal ATAC-seq dataset. We performed multiscale coexpression network analysis of the single cell data sets and identified robust cell-specific gene modules. To facilitate the use of the cell type-specific genes for cell type proportion estimation and deconvolution from bulk brain gene expression data, we developed an R package, BRETIGEA. In summary, we identified a set of novel brain cell consensus signatures and robust networks from the integration of multiple datasets and therefore transcend limitations related to technical issues characteristic of each individual study.

Published

2021

43. Comparative Transcriptome Analysis of Heart Tissue in Response to Hypoxia in Silver Sillago (Sillago sihama)

Author

Xinghua Lin, Yulei Zhang, Yang Huang, Xiaozhan Lin, Wanida Saetan, Guangli Li, Changxu Tian, Minghui Ye, and Tao Du

Subjects

biology, Ocean Engineering, Sillago sihama, Oxidative phosphorylation, Hypoxia (medical), Oceanography, biology.organism_classification, Molecular biology, Fold change, law.invention, Transcriptome, law, Gene expression, medicine, medicine.symptom, Gene, Polymerase chain reaction

Abstract

Sillago sihama, commonly known as silver sillago, is considered as an economically important fish species in China. It is sensitive to hypoxia stress in the larval stage, and the mechanism has not been understood thoroughly. In this study, we investigated the transcriptome change in heart tissues under hypoxia stress. The fish were divided into four groups, including 1 h of hypoxia (hypoxia1h, dissolved oxygen (DO) = 1.5 ± 0.1 mg L−1), 4h of hypoxia (hypoxia4h, DO = 1.5 ± 0.1 mg L−1), 4h of reoxygen (reoxygen4h, DO = 8.0 ± 0.2 mg L−1) after 4h of hypoxia (DO = 1.5 mg L−1) and normoxia or control (DO = 8.0 ± 0.2 mg L−1) groups. The results showed that a total of 3068 genes were identified as differentially expressed genes (DEGs) based on the criteria ∣log2 (Fold change)∣> 1.0 and adjusted P-value

Published

2021

44. Activating hotspot L205R mutation in PRKACA and adrenal Cushing's syndrome

Author

Cao, Yanan, He, Minghui, Gao, Zhibo, Peng, Ying, Li, Yanli, Li, Lin, Zhou, Weiwei, Li, Xiangchun, Zhong, Xu, Lei, Yiming, Su, Tingwei, Wang, Hang, Jiang, Yiran, Yang, Lin, Wei, Wei, Yang, Xu, Jiang, Xiuli, Liu, Li, He, Juan, Ye, Junna, Wei, Qing, Li, Yingrui, Wang, Weiqing, Wang, Jun, and Ning, Guang

Published

2014

45. Integrated analysis of lncRNA, miRNA and mRNA profiles reveals potential lncRNA functions during early HIV infection

Author

Hailong Li, Haibo Ding, Lianwei Ma, Xiaoxu Han, Bin Zhao, Hong Shang, Junjie Xu, Hui Zhang, Minghui An, and Yue Zhang

Subjects

0301 basic medicine, mRNA, BTLA, lcsh:Medicine, HIV Infections, Computational biology, Biology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, lncRNA, microRNA, Gene expression, Humans, Gene Regulatory Networks, RNA, Messenger, KEGG, miRNA, Messenger RNA, Competing endogenous RNA, ZAP70, Research, lcsh:R, RNA, General Medicine, ceRNA, MicroRNAs, 030104 developmental biology, 030220 oncology & carcinogenesis, HIV-1, RNA, Long Noncoding, Cis-regulatory

Abstract

Background Long noncoding RNAs (lncRNAs) can regulate gene expression in a cis-regulatory fashion or as “microRNA sponges”. However, the expression and functions of lncRNAs during early human immunodeficiency virus (HIV) infection (EHI) remain unclear. Methods 3 HAART-naive EHI patients and 3 healthy controls (HCs) were recruited in this study to perform RNA sequencing and microRNA (miRNA) sequencing. The expression profiles of lncRNAs, mRNAs and miRNAs were obtained, and the potential roles of lncRNAs were analysed based on discovering lncRNA cis-regulatory target mRNAs and constructing lncRNA–miRNA–mRNA competing endogenous RNA (ceRNA) networks. Then, Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analyses were performed on 175 lncRNA-associated differentially expressed (DE) mRNAs to investigate the potential functions of DE lncRNAs in ceRNA networks. Results A total of 242 lncRNAs, 1240 mRNAs and 21 mature known miRNAs were determined as differentially expressed genes in HAART-naive EHI patients compared to HCs. Among DE lncRNAs, 44 lncRNAs were predicted to overlap with 41 target mRNAs, and 107 lncRNAs might regulate their nearby DE mRNAs. Two DE lncRNAs might regulate their cis-regulatory target mRNAs BTLA and ZAP70, respectively, which were associated with immune activation. In addition, the ceRNA networks comprised 160 DE lncRNAs, 21 DE miRNAs and 175 DE mRNAs. Seventeen DE lncRNAs were predicted to regulate HIF1A and TCF7L2, which are involved in the process of HIV-1 replication. Twenty DE lncRNAs might share miRNA response elements (MREs) with FOS, FOSB and JUN, which are associated with both immune activation and HIV-1 replication. Conclusions This study revealed that lncRNAs might play a critical role in HIV-1 replication and immune activation during EHI. These novel findings are helpful for understanding of the pathogenesis of HIV infection and provide new insights into antiviral therapy.

Published

2021

46. A tricarboxylic acid cycle-based machine learning model to select effective drug targets for the treatment of esophageal squamous cell carcinoma.

Author

Yicheng Liang, Binghua Tan, Minjun Du, Bing Wang, Yushun Gao, and Minghui Wang

Subjects

MACHINE learning, SQUAMOUS cell carcinoma, GENE expression, TRICARBOXYLIC acids, DRUG target

Abstract

Background: The tricarboxylic acid cycle (TCA cycle) is an important metabolic pathway and closely related to tumor development. However, its role in the development of esophageal squamous cell carcinoma (ESCC) has not been fully investigated. Methods: The RNA expression profiles of ESCC samples were retrieved from the TCGA database, and the GSE53624 dataset was additionally downloaded from the GEO database as the validation cohort. Furthermore, the single cell sequencing dataset GSE160269 was downloaded. TCA cycle-related genes were obtained from the MSigDB database. A risk score model for ESCC based on the key genes of the TCA cycle was built, and its predictive performance was evaluated. The association of the model with immune infiltration and chemoresistance were analyzed using the TIMER database, the R package "oncoPredict" score, TIDE score and so on. Finally, the role of the key gene CTTN was validated through gene knockdown and functional assays. Results: A total of 38 clusters of 8 cell types were identified using the single-cell sequencing data. The cells were divided into two groups according to the TCA cycle score, and 617 genes were identified that were most likely to influence the TCA cycle. By intersecting 976 key genes of the TCA cycle with the results of WGCNA, 57 genes significantly associated with the TCA cycle were further identified, of which 8 were screened through Cox regression and Lasso regression to construct the risk score model. The risk score was a good predictor of prognosis across subgroups of age, N, M classification and TNM stage. Furthermore, BI-2536, camptothecin and NU7441 were identified as possible drug candidates in the high-risk group. The high-risk score was associated with decreased immune infiltration in ESCC, and the low-risk group had better immunogenicity. In addition, we also evaluated the relationship between risk scores and immunotherapy response rates. Functional assays showed that CTTN may affect the proliferation and invasion of ESCC cells through the EMT pathway. Conclusion: We constructed a predictive model for ESCC based on TCA cycleassociated genes, which achieved good prognostic stratification. The model are likely associated with the regulation of tumor immunity in ESCC. [ABSTRACT FROM AUTHOR]

Published

2023

47. Sex specific molecular networks and key drivers of Alzheimer's disease.

Author

Guo, Lei, Cao, Jiqing, Hou, Jianwei, Li, Yonghe, Huang, Min, Zhu, Li, Zhang, Larry, Lee, Yeji, Duarte, Mariana Lemos, Zhou, Xianxiao, Wang, Minghui, Liu, Chia-Chen, Martens, Yuka, Chao, Michael, Goate, Alison, Bu, Guojun, Haroutunian, Vahram, Cai, Dongming, and Zhang, Bin

Subjects

ALZHEIMER'S disease, POSTMORTEM changes, GENE regulatory networks, GENE expression, SYSTEMS biology, BRAIN mapping

Abstract

Background: Alzheimer's disease (AD) is a progressive and age-associated neurodegenerative disorder that affects women disproportionally. However, the underlying mechanisms are poorly characterized. Moreover, while the interplay between sex and ApoE genotype in AD has been investigated, multi-omics studies to understand this interaction are limited. Therefore, we applied systems biology approaches to investigate sex-specific molecular networks of AD. Methods: We integrated large-scale human postmortem brain transcriptomic data of AD from two cohorts (MSBB and ROSMAP) via multiscale network analysis and identified key drivers with sexually dimorphic expression patterns and/or different responses to APOE genotypes between sexes. The expression patterns and functional relevance of the top sex-specific network driver of AD were further investigated using postmortem human brain samples and gene perturbation experiments in AD mouse models. Results: Gene expression changes in AD versus control were identified for each sex. Gene co-expression networks were constructed for each sex to identify AD-associated co-expressed gene modules shared by males and females or specific to each sex. Key network regulators were further identified as potential drivers of sex differences in AD development. LRP10 was identified as a top driver of the sex differences in AD pathogenesis and manifestation. Changes of LRP10 expression at the mRNA and protein levels were further validated in human AD brain samples. Gene perturbation experiments in EFAD mouse models demonstrated that LRP10 differentially affected cognitive function and AD pathology in sex- and APOE genotype-specific manners. A comprehensive mapping of brain cells in LRP10 over-expressed (OE) female E4FAD mice suggested neurons and microglia as the most affected cell populations. The female-specific targets of LRP10 identified from the single cell RNA-sequencing (scRNA-seq) data of the LRP10 OE E4FAD mouse brains were significantly enriched in the LRP10-centered subnetworks in female AD subjects, validating LRP10 as a key network regulator of AD in females. Eight LRP10 binding partners were identified by the yeast two-hybrid system screening, and LRP10 over-expression reduced the association of LRP10 with one binding partner CD34. Conclusions: These findings provide insights into key mechanisms mediating sex differences in AD pathogenesis and will facilitate the development of sex- and APOE genotype-specific therapies for AD. [ABSTRACT FROM AUTHOR]

Published

2023

48. Screening of Candidate Housekeeping Genes in Uterus Caruncle by RNA-Sequence and qPCR Analyses in Different Stages of Goat (Capra hircus).

Author

Zhou, Yumei, Li, Xingchun, Zhang, Xinyue, Li, Minghui, Luo, Nanjian, and Zhao, Yongju

Subjects

GOATS, UTERUS, GENE expression profiling, GENE expression, GENITALIA, HOUSEKEEPING

Abstract

Simple Summary: The uterus is an important organ in the reproductive system of most female mammals. The normal growth and development of ruminant uterus caruncles are crucial to maintain gestation and fetal health in goats. The aim of this study was to screen a set of candidate housekeeping genes (HKGs) in Carpra hircus uterus caruncles. Four programs and one comprehensive index were applied to assess the stability of 22 selected HKGs expression during non-pregnant and pregnancy stages. The most and least stable HKGs were used to normalize the target genes expression of SPP1, VEGFA, and PAG8. Traditional reference genes were not suitable for target gene normalization, while PPIB and EIF3K, POP4, PPIA, and SDHA showed the least variation and were recommended as the best HKGs during the nonpregnant stage and the whole stages of goat uterus caruncle tissue, respectively. This study found the suitable HKGs in uterus caruncle tissues at different stages of non-pregnancy and pregnancy. The uterus is a critical pregnancy organ for mammals. The normal growth and development of ruminant uterus caruncles are crucial to maintain gestation and fetal health in goats. Quantitative real-time polymerase chain reaction (qRT-PCR) is a reliable tool to study gene expression profiling for exploring the intrinsic mechanism underlying the conversion process of uterus caruncle tissue. However, the candidate housekeeping genes (HKGs) are required for normalizing the expression of function genes. In our study, 22 HKGs were selected from analyzing transcriptome data at non-pregnancy and pregnancy processes and previous reports about HKGs in goat tissues. We assessed them for expression suitability in 24 samples from uterus tissues at 15 non-pregnant days (Stage 1), early (Stage 2), and medium-later pregnant days (Stage 3). The expression stability of these genes was evaluated by using geNorm, Normfinder, Bestkeeper, and Delta Ct algorithms and, comprehensively, by ReFinder. In addition, the most and least stable HKGs were used to normalize the target genes expression of SPP1, VEGFA, and PAG8. It was found that traditional reference genes, such as ACTB and GAPDH, were not suitable for target gene normalization. In contrast, PPIB selected from RNA sequencing data and EIF3K selected from previous references showed the least variation and were recommended as the best HKGs during the nonpregnant stage and the whole stages of goat uterus caruncle tissue, respectively. It is the first time the HKGs genes in uterus during the non-pregnant day and throughout the total pregnancy have been explored. These findings found suitable HKGs in uterus caruncle tissues at various stages of non-pregnancy and pregnancy; these can be useful for gene expression studies to reveal the molecular mechanisms of uterus development in goats. [ABSTRACT FROM AUTHOR]

Published

2023

49. Molecular differences in brain regional vulnerability to aging between males and females.

Author

Xianxiao Zhou, Jiqing Cao, Li Zhu, Farrell, Kurt, Minghui Wang, Lei Guo, Jialiang Yang, McKenzie, Andrew, Crary, John F., Dongming Cai, Zhidong Tu, and Bin Zhang

Subjects

BRAIN, STATISTICS, SEQUENCE analysis, ALZHEIMER'S disease, MEN, WOMEN, FISHER exact test, SEX distribution, GENE expression, MOLECULAR biology, PEARSON correlation (Statistics), T-test (Statistics), AGING, GENOTYPES, RESEARCH funding, DATA analysis, STATISTICAL sampling, NEURODEGENERATION, LONGITUDINAL method

Abstract

Background: Aging-related cognitive decline is associated with brain structural changes and synaptic loss. However, the molecular mechanisms of cognitive decline during normal aging remain elusive. Results: Using the GTEx transcriptomic data from 13 brain regions, we identified aging-associated molecular alterations and cell-type compositions in males and females. We further constructed gene co-expression networks and identified aging-associated modules and key regulators shared by both sexes or specific to males or females. A few brain regions such as the hippocampus and the hypothalamus show specific vulnerability in males, while the cerebellar hemisphere and the anterior cingulate cortex regions manifest greater vulnerability in females than in males. Immune response genes are positively correlated with age, whereas those involved in neurogenesis are negatively correlated with age. Aging-associated genes identified in the hippocampus and the frontal cortex are significantly enriched for gene signatures implicated in Alzheimer's disease (AD) pathogenesis. In the hippocampus, a malespecific co-expression module is driven by key synaptic signaling regulators including VSNL1, INA, CHN1 and KCNH1; while in the cortex, a female-specific module is associated with neuron projection morphogenesis, which is driven by key regulators including SRPK2, REPS2 and FXYD1. In the cerebellar hemisphere, a myelination-associated module shared by males and females is driven by key regulators such as MOG, ENPP2, MYRF, ANLN, MAG and PLP1, which have been implicated in the development of AD and other neurodegenerative diseases. Conclusions: This integrative network biology study systematically identifies molecular signatures and networks underlying brain regional vulnerability to aging in males and females. The findings pave the way for understanding the molecular mechanisms of gender differences in developing neurodegenerative diseases such as AD. [ABSTRACT FROM AUTHOR]

Published

2023

50. ARID3A plays a key regulatory role in palmitic acid‐stimulated milk fat synthesis in mouse mammary epithelial cells.

Author

Guo, Xudong, Qi, Hao, Lin, Gang, Yu, Jiaxiao, Zhang, Minghui, and Gao, Xuejun

Subjects

PALMITIC acid, EPITHELIAL cells, GENETIC regulation, MILKFAT, GENE expression, FREE fatty acids, MAMMARY glands

Abstract

Palmitic acid (PA) can stimulate milk fat synthesis in mammary gland, but the specific mechanism is still unclear. In our research, we aim to explore the role and corresponding mechanism of AT‐rich interaction domain 3A (ARID3A) in milk fat synthesis stimulated by PA. We found that ARID3A protein level in mouse mammary gland tissues during lactation was much higher than that during puberty and involution. ARID3A knockdown and gene activation showed that ARID3A stimulated the synthesis of triglycerides and cholesterol in HC11 cells, secretion of free fatty acids from cells and lipid droplet formation in cells. ARID3A also promoted the expression and maturation of SREBP1 in HC11 cells. PA stimulated ARID3A protein expression and SREBP1 expression and maturation in a dose‐dependent manner, and the PI3K specific inhibitor LY294002 blocked the stimulation of PA on ARID3A expression. ARID3A knockdown blocked the stimulation of PA on SREBP1 protein expression and maturation. We further showed that ARID3A was localized in the nucleus and PA stimulated this localization, and ARID3A knockdown blocked the stimulation of PA on the mRNA expression of SREBP1. To sum up, our data reveal that ARID3A is a key mediator for PA to promote SREBP1 mRNA expression and stimulate milk fat synthesis in mammary epithelial cells. [ABSTRACT FROM AUTHOR]

Published

2023