Your search keyword '"Zhongjie Liu"' showing total 175 results

1. Targeting TANK-binding kinase 1 attenuates painful diabetic neuropathy via inhibiting microglia pyroptosis

Author

Qinming Liao, Yimei Yang, Yilu Li, Jun Zhang, Keke Fan, Yihao Guo, Jun Chen, Yinhao Chen, Pian Zhu, Lijin Huang, and Zhongjie Liu

Subjects

Painful diabetic neuropathy, TBK1, Pyroptosis, Microglia, Amlexanox, Medicine, Cytology, QH573-671

Abstract

Abstract Background Painful diabetic neuropathy (PDN) is closely linked to inflammation, which has been demonstrated to be associated with pyroptosis. Emerging evidence has implicated TANK-binding kinase 1 (TBK1) in various inflammatory diseases. However, it remains unknown whether activated TBK1 causes hyperalgesia via pyroptosis. Methods PDN mice model of type 1 or type 2 diabetic was induced by C57BL/6J or BKS-DB mice with Lepr gene mutation. For type 2 diabetes PDN model, TBK1-siRNA, Caspase-1 inhibitor Ac-YVAD-cmk or TBK1 inhibitor amlexanox (AMX) were delivered by intrathecal injection or intragastric administration. The pain threshold and plantar skin blood perfusion were evaluated through animal experiments. The assessments of spinal cord, dorsal root ganglion, sciatic nerve, plantar skin and serum included western blotting, immunofluorescence, ELISA, and transmission electron microscopy. Results In the PDN mouse model, we found that TBK1 was significantly activated in the spinal dorsal horn (SDH) and mainly located in microglia, and intrathecal injection of chemically modified TBK1-siRNA could improve hyperalgesia. Herein, we described the mechanism that TBK1 could activate the noncanonical nuclear factor κB (NF-κB) pathway, mediate the activation of NLRP3 inflammasome, trigger microglia pyroptosis, and ultimately induce PDN, which could be reversed following TBK1-siRNA injection. We also found that systemic administration of AMX, a TBK1 inhibitor, could effectively improve peripheral nerve injury. These results revealed the key role of TBK1 in PDN and that TBK1 inhibitor AMX could be a potential strategy for treating PDN. Conclusions Our findings revealed a novel causal role of TBK1 in pathogenesis of PDN, which raises the possibility of applying amlexanox to selectively target TBK1 as a potential therapeutic strategy for PDN.

Published

2024

2. Identification of immune-associated biomarkers of diabetes nephropathy tubulointerstitial injury based on machine learning: a bioinformatics multi-chip integrated analysis

Author

Lin Wang, Jiaming Su, Zhongjie Liu, Shaowei Ding, Yaotan Li, Baoluo Hou, Yuxin Hu, Zhaoxi Dong, Jingyi Tang, Hongfang Liu, and Weijing Liu

Subjects

Diabetes nephropathy, Tubulointerstitial injury, Bioinformatics, Machine learning, Immune infiltration, Computer applications to medicine. Medical informatics, R858-859.7, Analysis, QA299.6-433

Abstract

Abstract Background Diabetic nephropathy (DN) is a major microvascular complication of diabetes and has become the leading cause of end-stage renal disease worldwide. A considerable number of DN patients have experienced irreversible end-stage renal disease progression due to the inability to diagnose the disease early. Therefore, reliable biomarkers that are helpful for early diagnosis and treatment are identified. The migration of immune cells to the kidney is considered to be a key step in the progression of DN-related vascular injury. Therefore, finding markers in this process may be more helpful for the early diagnosis and progression prediction of DN. Methods The gene chip data were retrieved from the GEO database using the search term ' diabetic nephropathy ‘. The ' limma ' software package was used to identify differentially expressed genes (DEGs) between DN and control samples. Gene set enrichment analysis (GSEA) was performed on genes obtained from the molecular characteristic database (MSigDB. The R package ‘WGCNA’ was used to identify gene modules associated with tubulointerstitial injury in DN, and it was crossed with immune-related DEGs to identify target genes. Gene ontology (GO) enrichment analysis and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis were performed on differentially expressed genes using the ‘ClusterProfiler’ software package in R. Three methods, least absolute shrinkage and selection operator (LASSO), support vector machine recursive feature elimination (SVM-RFE) and random forest (RF), were used to select immune-related biomarkers for diagnosis. We retrieved the tubulointerstitial dataset from the Nephroseq database to construct an external validation dataset. Unsupervised clustering analysis of the expression levels of immune-related biomarkers was performed using the ‘ConsensusClusterPlus ‘R software package. The urine of patients who visited Dongzhimen Hospital of Beijing University of Chinese Medicine from September 2021 to March 2023 was collected, and Elisa was used to detect the mRNA expression level of immune-related biomarkers in urine. Pearson correlation analysis was used to detect the effect of immune-related biomarker expression on renal function in DN patients. Results Four microarray datasets from the GEO database are included in the analysis : GSE30122, GSE47185, GSE99340 and GSE104954. These datasets included 63 DN patients and 55 healthy controls. A total of 9415 genes were detected in the data set. We found 153 differentially expressed immune-related genes, of which 112 genes were up-regulated, 41 genes were down-regulated, and 119 overlapping genes were identified. GO analysis showed that they were involved in various biological processes including leukocyte-mediated immunity. KEGG analysis showed that these target genes were mainly involved in the formation of phagosomes in Staphylococcus aureus infection. Among these 119 overlapping genes, machine learning results identified AGR2, CCR2, CEBPD, CISH, CX3CR1, DEFB1 and FSTL1 as potential tubulointerstitial immune-related biomarkers. External validation suggested that the above markers showed diagnostic efficacy in distinguishing DN patients from healthy controls. Clinical studies have shown that the expression of AGR2, CX3CR1 and FSTL1 in urine samples of DN patients is negatively correlated with GFR, the expression of CX3CR1 and FSTL1 in urine samples of DN is positively correlated with serum creatinine, while the expression of DEFB1 in urine samples of DN is negatively correlated with serum creatinine. In addition, the expression of CX3CR1 in DN urine samples was positively correlated with proteinuria, while the expression of DEFB1 in DN urine samples was negatively correlated with proteinuria. Finally, according to the level of proteinuria, DN patients were divided into nephrotic proteinuria group (n = 24) and subrenal proteinuria group. There were significant differences in urinary AGR2, CCR2 and DEFB1 between the two groups by unpaired t test (P

Published

2024

3. A Multi‐Functional Nanoadjuvant Coupling Manganese with Toll‐Like 9 Agonist Stimulates Potent Innate and Adaptive Anti‐Tumor Immunity

Author

Zhongjie Liu, Shu Li, Yang Xiao, Xiaoyang Liu, Bin Zhang, Qin Zeng, Qiang Ao, and Xingdong Zhang

Subjects

manganese, nanoadjuvant, TLR9 agonist, tumor immunotherapy, vaccine, Science

Abstract

Abstract The effectiveness of Toll‐like 9 agonists (CpG) as an adjuvant for tumor immunotherapy is restricted due to their insufficient ability to activate anti‐tumor immunity. To address that, the common nutrient metal ions are explored (Mn2+, Cu2+, Ca2+, Mg2+, Zn2+, Fe3+, and Al3+), identifying Mn2+ as a key enhancer of CpG to mediate immune activation by augmenting the STING‐NF‐κB pathway. Mn2+ and CpG are then self‐assembled with epigallocatechin gallate (EGCG) into a nanoadjuvant MPN/CpG. Local delivery of MPN/CpG effectively inhibits tumor growth in a B16 melanoma‐bearing mouse model, reshaping the tumor microenvironment (TME) by repolarizing M2‐type tumor‐associated macrophages (TAMs) to an M1‐type and boosting intra‐tumoral infiltration of CD8+/CD4+ T lymphocytes and DCs. Furthermore, compared to free CpG, MPN/CpG exhibits heightened accumulation in lymph nodes, enhancing CpG uptake and DC activation, consequently inducing significant antigen‐specific cytotoxic CD8+ T cell immune response and humoral immunity. In a prophylactic tumor‐bearing mouse model, MPN/CpG vaccination with OVA antigen significantly delays B16‐OVA melanoma growth and extends mouse survival. These findings underscore the potential of MPN/CpG as a multifunctional adjuvant platform to drive powerful innate and adaptive immunity and regulate TME against tumors.

Published

2024

4. Kaempferol relieves the DSS-induced chronic colitis in C57BL/6J mice, alleviates intestinal angiogenesis, and regulates colonic microflora structure

Author

Ruyang Yu, Qilyu Zhou, Tianlong Liu, Ping Liu, Hong Li, Yifei Bian, and Zhongjie Liu

Subjects

Chronic colitis, Intestinal angiogenesis, Kaempferol, GVB, Colonic microflora, Nutrition. Foods and food supply, TX341-641

Abstract

Purpose: The progression of chronic colitis is accompanied by an increase in inflammation and intestinal angiogenesis. Kaempferol, a dietary flavonoid, has been shown to exhibit anti-inflammatory and anti-angiogenic properties. However, the anti-angiogenic effect of kaempferol in chronic colitis has not been elucidated. The present study aimed to investigate the effects of kaempferol on intestinal angiogenesis and microflora of mice with chronic colitis. Methods: The dextran sulfate sodium (DSS)-induced chronic colitis mouse model was used in this study. The effects of kaempferol and 5-aminosalicylic acid (5-ASA) were evaluated by histopathology, ELISA, western blot, and immunohistochemistry. The integrity of the gut-vascular barrier (GVB) was studied using FITC-dextran and D-Lactate. The colonic flora of mice was analyzed using 16S rDNA sequencing. Results: Kaempferol supplementation could relieve the symptoms (weight loss, colonic pathological injury, hemogram index, etc.) of chronic colitis in mice, down-regulate the secretion of inflammatory factors (IL-1β, IL-6, TNF-α, and CRP), and modulate the expression of inflammatory regulatory proteins (COX-2, TRAF6, and IL-22BP) in colonic tissues. Moreover, kaempferol decreased the secretion of colonic VEGF and NO, high intestinal microvascular density (MVD), and abnormal expression of VEGFR2 caused by DSS. Our finding also indicated that kaempferol alleviates chronic colitis by maintaining GVB, suppressing pro-inflammatory flora (Verrucomicrobiota, Campilobacterota, and Desulfobacterota), and enhancing the abundance of beneficial flora (Actinobacteria, and Odoribacter). Conclusion: Kaempferol exerted its therapeutic effect on chronic colitis by alleviating the inflammation of the colon and intestinal angiogenesis, maintaining the integrity of GVB, and regulating colonic microflora. Our study demonstrated similar pharmacological effects of kaempferol to 5-ASA (drug of clinical application for intestinal inflammatory diseases), and revealed the potential of kaempferol treatment as a preventive strategy for chronic colitis.

Published

2023

5. Genomic conservation of crop wild relatives: A case study of citrus.

Author

Nan Wang, Shuo Cao, Zhongjie Liu, Hua Xiao, Jianbing Hu, Xiaodong Xu, Peng Chen, Zhiyao Ma, Junli Ye, Lijun Chai, Wenwu Guo, Robert M Larkin, Qiang Xu, Peter L Morrell, Yongfeng Zhou, and Xiuxin Deng

Subjects

Genetics, QH426-470

Abstract

Conservation of crop wild relatives is critical for plant breeding and food security. The lack of clarity on the genetic factors that lead to endangered status or extinction create difficulties when attempting to develop concrete recommendations for conserving a citrus wild relative: the wild relatives of crops. Here, we evaluate the conservation of wild kumquat (Fortunella hindsii) using genomic, geographical, environmental, and phenotypic data, and forward simulations. Genome resequencing data from 73 accessions from the Fortunella genus were combined to investigate population structure, demography, inbreeding, introgression, and genetic load. Population structure was correlated with reproductive type (i.e., sexual and apomictic) and with a significant differentiation within the sexually reproducing population. The effective population size for one of the sexually reproducing subpopulations has recently declined to ~1,000, resulting in high levels of inbreeding. In particular, we found that 58% of the ecological niche overlapped between wild and cultivated populations and that there was extensive introgression into wild samples from cultivated populations. Interestingly, the introgression pattern and accumulation of genetic load may be influenced by the type of reproduction. In wild apomictic samples, the introgressed regions were primarily heterozygous, and genome-wide deleterious variants were hidden in the heterozygous state. In contrast, wild sexually reproducing samples carried a higher recessive deleterious burden. Furthermore, we also found that sexually reproducing samples were self-incompatible, which prevented the reduction of genetic diversity by selfing. Our population genomic analyses provide specific recommendations for distinct reproductive types and monitoring during conservation. This study highlights the genomic landscape of a wild relative of citrus and provides recommendations for the conservation of crop wild relatives.

Published

2023

6. Naringenin prevents NAFLD in the diet-induced C57BL/6J obesity model by regulating the intestinal barrier function and microbiota

Author

Ruyang Yu, Yinping Gu, Lanyan Zheng, Zhongjie Liu, and Yifei Bian

Subjects

NAFLD, Naringenin, HFD, Gut barrier, Intestinal microbiota, Nutrition. Foods and food supply, TX341-641

Abstract

Objectives: The intestinal immunity and the microbiota play an essential role in metabolic syndrome associated with obesity, for instance, non-alcoholic fatty liver disease (NAFLD). However, the effects of naringenin on diet-induced NAFLD and intestinal functions have not been reported. Methods: The effects of naringenin on NAFLD were assessed in C57BL/6J administrated with a high-fat diet (HFD) and high-fat diet with 0.1% naringenin (HFN). The ELISA, histopathology, and flow cytometry were conducted to assess the effects of naringenin on the liver and intestinal inflammation. The FITC-dextran, western blot, and real-time quantitative PCR were used to evaluate the effects of naringenin on intestinal permeability. The regulatory effects of naringenin on intestinal microbiota in NAFLD mice were detected by 16S rRNA sequencing. Results: Naringenin could curb weight gain in obese mice, reduce the content of triglyceride (TG) and total cholesterol (TC) in blood and liver, and even improve the steatosis of liver cells. Naringenin alleviated the rate of infiltration in dendritic cells and macrophages in colon tissues and inhibited inflammatory factors in the intestinal and liver tissues. Naringenin reduced the gut barrier permeability caused by HFD and increased the expression of tight junction proteins (TJs). Furthermore, naringenin significantly improved the cecal microbiota disorder by enhancing the growth of salutary symbiotic bacteria and restraining the colonization of pathogenic bacteria. Conclusion: Naringenin could relieve metabolic disorders caused by HFD and improve gut barrier functions, thereby inhibiting the migration of intestinal microorganisms and products via the gut-liver axis, thus preventing NAFLD.

Published

2023

7. Whole-genome re-sequencing, diversity analysis, and stress-resistance analysis of 77 grape rootstock genotypes

Author

Peipei Wang, Fanggui Zhao, Ting Zheng, Zhongjie Liu, Xinglong Ji, Zhichang Zhang, Tariq Pervaiz, Lingfei Shangguan, and Jinggui Fang

Subjects

grapevine, rootstocks, resequencing, genetic diversity, stress-resistance, Plant culture, SB1-1110

Abstract

IntroductionGrape rootstocks play critical role in the development of the grape industry over the globe for their higher adaptability to various environments, and the evaluation of their genetic diversity among grape genotypes is necessary to the conservation and utility of genotypes.MethodsTo analyze the genetic diversity of grape rootstocks for a better understanding multiple resistance traits, whole-genome re-sequencing of 77 common grape rootstock germplasms was conducted in the present study.ResultsAbout 645 billion genome sequencing data were generated from the 77 grape rootstocks at an average depth of ~15.5×, based on which the phylogenic clusters were generated and the domestication of grapevine rootstocks was explored. The results indicated that the 77 rootstocks originated from five ancestral components. Through phylogenetic, principal components, and identity-by-descent (IBD) analyses, these 77 grape rootstocks were assembled into ten groups. It is noticed that the wild resources of V. amurensis and V. davidii, originating from China and being generally considered to have stronger resistance against biotic and abiotic stresses, were sub-divided from the other populations. Further analysis indicated that a high level of linkage disequilibrium was found among the 77 rootstock genotypes, and a total of 2,805,889 single nucleotide polymorphisms (SNPs) were excavated, GWAS analysis among the grape rootstocks located 631, 13, 9, 2, 810, and 44 SNP loci that were responsible to resistances to phylloxera, root-knot nematodes, salt, drought, cold and waterlogging traits.DiscussionThis study generated a significant amount of genomic data from grape rootstocks, thus providing a theoretical basis for further research on the resistance mechanism of grape rootstocks and the breeding of resistant varieties. These findings also reveal that China originated V. amurensis and V. davidii could broaden the genetic background of grapevine rootstocks and be important germplasm used in breeding high stress-resistant grapevine rootstocks.

Published

2023

8. 'The PLCP gene family of grapevine (Vitis vinifera L.): characterization and differential expression in response to Plasmopara Viticola'

Author

Jun Kang, Peijie Gong, Mengqing Ge, Ehsan Sadeghnezhad, Zhongjie Liu, Mengwei Zhang, Lingfei Shangguan, and Jinggui Fang

Subjects

Grapevine, Papain-like cysteine proteases, Phylogenetic analysis, Gene expression, Plasmopara viticola, Botany, QK1-989

Abstract

Abstract Background Papain-like cysteine proteases (PLCPs), a large group of cysteine proteases, are structurally related to papain. The members belonging to PLCPs family contribute to plant immunity, senescence, and defense responses in plants. The PLCP gene family has been identified in Arabidopsis, rice, soybean, and cotton. However, no systematic analysis of PLCP genes has been undertaken in grapevine. Since Plasmopara viticola as a destructive pathogen could affect immunity of grapes in the field, we considered that the members belonged to PLCPs family could play a crucial role in defensive mechanisms or programmed cell death. We aimed to evaluate the role of PLCPs in 2 different varieties of grapevines and compared the changes of their expressions with the transcriptional data in response to P. viticola. Results In this study, 23 grapevine PLCP (VvPLCP) genes were identified by comprehensive bioinformatics analysis. Subsequently, the chromosomal localizations, gene structure, conserved domains, phylogenetic relationship, gene duplication, and cis-acting elements were analyzed. Numerous cis-acting elements related to plant development, hormone, and stress responses were identified in the promoter of the VvPLCP genes. Phylogenetic analysis grouped the VvPLCP genes into nine subgroups. The transcription of VvPLCP in different inoculation time points and varieties indicated that VvPLCP may have vital functions in grapevine defense against Plasmopara viticola. According to transcriptome data and qPCR analysis, we observed the increasing expression levels of VvRD21–1 at 72 h after inoculation in resistant variety, inferring that it was related to grape downy mildew resistance. Meanwhile, 3 genes including VvXBCP1, VvSAG12–1, and VvALP1 showed higher expression at 24 h after pathogen inoculation in the susceptible variety and might be related to the downy mildew phenotype. We nominated these four genes to function during hypersensitive response (HR) process, inferring that these genes could be associated with downy mildew resistance in grapes. Conclusions Our results provide the reference for functional studies of PLCP gene family, and highlight its functions in grapevine defense against P. viticola. The results help us to better understand the complexity of the PLCP gene family in plant immunity and provide valuable information for future functional characterization of specific genes in grapevine.

Published

2021

9. Identification of miRNAs-mediated seed and stone-hardening regulatory networks and their signal pathway of GA-induced seedless berries in grapevine (V. vinifera L.)

Author

Peipei Wang, Xuxian Xuan, Ziwen Su, Wenran Wang, Mostafa Abdelrahman, Songtao Jiu, Xiaowen Zhang, Zhongjie Liu, Xicheng Wang, Chen Wang, and Jinggui Fang

Subjects

Grape, Seed and stone hardening development, GA, Seedless berry, miRNA, Target genes, Botany, QK1-989

Abstract

Abstract Background Stone-hardening stage is crucial to the development of grape seed and berry quality. A significant body of evidence supports the important roles of MicroRNAs in grape-berry development, but their specific molecular functions during grape stone-hardening stage remain unclear. Results Here, a total of 161 conserved and 85 species-specific miRNAs/miRNAs* (precursor) were identified in grape berries at stone-hardening stage using Solexa sequencing. Amongst them, 30 VvmiRNAs were stone-hardening stage-specific, whereas 52 exhibited differential expression profiles during berry development, potentially participating in the modulation of berry development as verified by their expression patterns. GO and KEGG pathway analysis showed that 13 VvmiRNAs might be involved in the regulation of embryo development, another 11 in lignin and cellulose biosynthesis, and also 28 in the modulation of hormone signaling, sugar, and proline metabolism. Furthermore, the target genes for 4 novel VvmiRNAs related to berry development were validated using RNA Ligase-Mediated (RLM)-RACE and Poly(A) Polymerase-Mediated (PPM)-RACE methods, and their cleavage mainly occurred at the 9th–11th sites from the 5′ ends of miRNAs at their binding regions. In view of the regulatory roles of GA in seed embryo development and stone-hardening in grape, we investigated the expression modes of VvmiRNAs and their target genes during GA-induced grape seedless-berry development, and we validated that GA induced the expression of VvmiR31-3p and VvmiR8-5p to negatively regulate the expression levels of CAFFEOYL COENZYME A-3-O-METHYLTRANSFERASE (VvCCoAOMT), and DDB1-CUL4 ASSOCIATED FACTOR1 (VvDCAF1). The series of changes might repress grape stone hardening and embryo development, which might be a potential key molecular mechanism in GA-induced grape seedless-berry development. Finally, a schematic model of miRNA-mediated grape seed and stone-hardening development was proposed. Conclusion This work identified 30 stone-hardening stage-specific VvmiRNAs and 52 significant differential expression ones, and preliminary interpreted the potential molecular mechanism of GA-induced grape parthenocarpy. GA negatively manipulate the expression of VvCCoAOMT and VvDCAF1 by up-regulation the expression of VvmiR31-3p and VvmiR8-5p, thereby repressing seed stone and embryo development to produce grape seedless berries.

Published

2021

10. Genome-wide identification, characterization and expression analysis of HAK genes and decoding their role in responding to potassium deficiency and abiotic stress in Medicago truncatula

Author

Yanxue Zhao, Lei Wang, Pengcheng Zhao, Zhongjie Liu, Siyi Guo, Yang Li, and Hao Liu

Subjects

Genome-wide analysis, Medicago truncatula, HAKs, Expression pattern, Medicine, Biology (General), QH301-705.5

Abstract

Background The HAK family is the largest potassium (K+) transporter family, vital in K+ uptake, plant growth, and both plant biotic and abiotic stress responses. Although HAK family members have been characterized and functionally investigated in many species, these genes are still not studied in detail in Medicago truncatula, a good model system for studying legume genetics. Methods In this study, we screened the M. truncatula HAK family members (MtHAKs). Furthermore, we also conducted the identification, phylogenetic analysis, and prediction of conserved motifs of MtHAKs. Moreover, we studied the expression levels of MtHAKs under K+ deficiency, drought, and salt stresses using quantitative real-time PCR (qRT-PCR). Results We identified 20 MtHAK family members and classified them into three clusters based on phylogenetic relationships. Conserved motif analyses showed that all MtHAK proteins besides MtHAK10 contained the highly conserved K+ transport domain (GVVYGDLGTSPLY). qRT-PCR analysis showed that several MtHAK genes in roots were induced by abiotic stress. In particular, MtHAK15, MtHAK17, and MtHAK18 were strongly up-regulated in the M. truncatula roots under K+ deficiency, drought, and salt stress conditions, thereby implying that these genes are good candidates for high-affinity K+ uptake and therefore have essential roles in drought and salt tolerance. Discussions Our results not only provided the first genetic description and evolutionary relationships of the K+ transporter family in M. truncatula, but also the potential information responding to K+ deficiency and abiotic stresses, thereby laying the foundation for molecular breeding of stress-resistant legume crops in the future.

Published

2022

11. An engineering‐oriented variable water flow air‐conditioning system terminal flow rate estimation method based on component flow resistance characteristics

Author

Tianyi Zhao, Yue Sun, Zhongjie Liu, and Kuishan Li

Subjects

end unit, error analysis, flow rate estimation, resistance, variable water flow air‐conditioning system, Technology, Science

Abstract

Abstract Water flow rate plays an important role in the modeling prediction, fault detection and diagnosis, and performance optimization of the variable water flow air‐conditioning (VWFAC) system. However, flowmeters employed by the system's terminals have not been widely used in engineering applications for the constraints in installation space and high installation and retrofit costs. Therefore, in this study, a terminal flow rate estimation method is proposed for the VWFAC system to reduce the dependency on flowmeters. The water flow rate estimation model is developed based on the flow resistance characteristics inside the air handling unit (AHU) and was trained and verified at the Monitoring and Control Laboratory established in the Dalian University of Technology. The results indicate that the maximum root‐mean‐square error (RMSE) during the training and validation sessions are 0.038 m3/h and 0.028 m3/h, respectively, while the corresponding mean absolute percentage error (MAPE) are below 1.4% and 6.5%, which is acceptable for engineering applications. To improve the flow rate estimation accuracy of the model, water temperature, water flow rate, and pressure difference are suggested to cover a wide varied range during the training session as much as possible. Systematic error is an important index in determining the demands for sensor's accuracy class. According to the results of water flow rate, the systematic errors of the estimates are ranged between 0.51% and 0.76%, only about 1/4 to 1/3 of the measurements systematic errors. Based on the error propagation theory, the water flow rate estimates would be reliable if the systematic error of the pressure measurements does not over twice that of the water flow rate measurements. This flow rate estimation method can be further applied to other thermal engineering systems to bring considerable economic benefits for engineering applications.

Published

2021

12. Expressional diversity of grapevine 3-Hydroxy-3-methylglutaryl-CoA reductase (VvHMGR) in different grapes genotypes

Author

Ting Zheng, Lubin Guan, Kun Yu, Muhammad Salman Haider, Maazullah Nasim, Zhongjie Liu, Teng Li, Kekun Zhang, Songtao Jiu, Haifeng Jia, and Jinggui Fang

Subjects

Grape, HMGR, Terpenoids, Color, Aroma, Botany, QK1-989

Abstract

Abstract Background 3-Hydroxy-3-methylglutaryl-CoA reductase (HMGR) is a key enzyme in the mevalonate (MVA) pathway, which regulates the metabolism of terpenoids in the cytoplasm and determines the type and content of downstream terpenoid metabolites. Results Results showed that grapevine HMGR family has three members, such as VvHMGR1, VvHMGR2, and VvHMGR3. The expression of VvHMGRs in 'Kyoho' has tissue specificity, for example, VvHMGR1 keeps a higher expression, VvHMGR2 is the lowest, and VvHMGR3 gradually decreases as the fruit development. VvHMGR3 is closely related to CsHMGR1 and GmHMGR9 and has collinearity with CsHMGR2 and GmHMGR4. By the prediction of interaction protein, it can interact with HMG-CoA synthase, MVA kinase, FPP/GGPP synthase, diphosphate mevalonate decarboxylase, and participates in the synthesis and metabolism of terpenoids. VvHMGR3 have similar trends in expression with some of the genes of carotenoid biosynthesis and MEP pathways. VvHMGR3 responds to various environmental and phytohormone stimuli, especially salt stress and ultraviolet (UV) treatment. The expression level of VvHMGRs is diverse in grapes of different colors and aroma. VvHMGRs are significantly higher in yellow varieties than that in red varieties, whereas rose-scented varieties showed significantly higher expression than that of strawberry aroma. The expression level is highest in yellow rose-scented varieties, and the lowest in red strawberry scent varieties, especially ‘Summer Black’ and ‘Fujiminori’. Conclusion This study confirms the important role of VvHMGR3 in the process of grape fruit coloring and aroma formation, and provided a new idea to explain the loss of grape aroma and poor coloring during production. There may be an additive effect between color and aroma in the HMGR expression aspect.

Published

2021

13. Identification of biomarkers and pathways in hypertensive nephropathy based on the ceRNA regulatory network

Author

Zhen Wang, Zhongjie Liu, Yingxia Yang, and Lei Kang

Subjects

Hypertensive nephropathy, Differentially expressed RNAs, ceRNA network directly associated with HTN, Functional analysis, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Abstract Background Hypertensive nephropathy (HTN) is a kind of renal injury caused by chronic hypertension, which seriously affect people’s life. The purpose of this study was to identify the potential biomarkers of HTN and understand its possible mechanisms. Methods The dataset numbered GSE28260 related to hypertensive and normotensive was downloaded from NCBI Gene Expression Omnibus. Then, the differentially expressed RNAs (DERs) were screened using R limma package, and functional analyses of DE-mRNA were performed by DAVID. Afterwards, a ceRNA network was established and KEGG pathway was analyzed based on the Gene Set Enrichment Analysis (GSEA) database. Finally, a ceRNA regulatory network directly associated with HTN was proposed. Results A total of 947 DERs were identified, including 900 DE-mRNAs, 20 DE-lncRNAs and 27 DE-miRNAs. Based on these DE-mRNAs, they were involved in biological processes such as fatty acid beta-oxidation, IRE1-mediated unfolded protein response, and transmembrane transport, and many KEGG pathways like glycine, serine and threonine metabolism, carbon metabolism. Subsequently, lncRNAs KCTD21-AS1, LINC00470 and SNHG14 were found to be hub nodes in the ceRNA regulatory network. KEGG analysis showed that insulin signaling pathway, glycine, serine and threonine metabolism, pathways in cancer, lysosome, and apoptosis was associated with hypertensive. Finally, insulin signaling pathway was screened to directly associate with HTN and was regulated by mRNAs PPP1R3C, PPKAR2B and AKT3, miRNA has-miR-107, and lncRNAs SNHG14, TUG1, ZNF252P-AS1 and MIR503HG. Conclusions Insulin signaling pathway was directly associated with HTN, and miRNA has-miR-107 and lncRNAs SNHG14, TUG1, ZNF252P-AS1 and MIR503HG were the biomarkers of HTN. These results would improve our understanding of the occurrence and development of HTN.

Published

2020

14. Genome-wide identification and characterization of gibberellin metabolic and signal transduction (GA MST) pathway mediating seed and berry development (SBD) in grape (Vitis vinifera L.)

Author

Wenran Wang, Yunhe Bai, Padmalatha Koilkonda, Le Guan, Yaxian Zhuge, Xicheng Wang, Zhongjie Liu, Haifeng Jia, Chen Wang, and Jinggui Fang

Subjects

Grape berry and seed development, GA MST pathway, Multihormone MST pathway, Botany, QK1-989

Abstract

Abstract Background Grape is highly sensitive to gibberellin (GA), which is crucial during seed and berry development (SBD) either by itself or by interacting with other hormones, such as auxin, Abscisic acid (ABA), and Cytokinin (CK). However, no systematic analysis of GA metabolic and signal transduction (MST) pathway has been undertaken in grapevine. Results In this study, total endogenous GA3 content significantly decreased during SBD, and a total of 48 known genes in GA metabolic (GAM; 31) and signal transduction (ST; 17) pathways were identified in this process. In the GAM pathway, out of 31 genes, VvGA20ox1–1, VvGA3ox4–1, and VvGA2ox1–1 may be the major factors interacting at the green-berry stage (GBS) accompanied with higher accumulation rate. GA biosynthesis was greater than GA inactivation at GBS, confirming the importance of seeds in GA synthesis. The visible correlation between endogenous GA3 content and gene expression profiles suggested that the transcriptional regulation of GA biosynthesis pathway genes was a key mechanism of GA accumulation at the stone-hardening stage (SHS). Interestingly, we observed a negative feedback regulation between VvGA3oxs-VvGAI1–4, VvGA2oxs-VvGAI1–4, and VvGID1B-VvGAI1–4 in maintaining the balance of GA3 content in berries. Moreover, 11 miRNAs may be involved in the modulation of GA MST pathway by mediating their target genes, such as VvGA3ox, VvGID1B, and VvGAMYB. Many genes in auxin, ABA, and CK MST pathways were further identified and found to have a special pattern in the berry, and the crosstalk between GA and these hormones may modulate the complex process during SBD through the interaction gene network of the multihormone pathway. Lastly, based on the expression characterization of multihormone MST pathway genes, a proposed model of the GA-mediated multihormone regulatory network during SBD was proposed. Conclusions Our results provided novel insights into GA-mediated regulatory networks during SBD in grape. The complexity of GA-mediated multihormone ST in SBD was also elucidated, thereby providing valuable information for future functional characterizations of specific genes in grape.

Published

2020

15. Transcriptomic and Metabolomic Profiling Reveals the Effect of LED Light Quality on Fruit Ripening and Anthocyanin Accumulation in Cabernet Sauvignon Grape

Author

Peian Zhang, Suwen Lu, Zhongjie Liu, Ting Zheng, Tianyu Dong, Huanchun Jin, Haifeng Jia, and Jingggui Fang

Subjects

light quality, anthocyanin biosynthesis, sugar acid metabolism, volatile substances, WGCNA, Nutrition. Foods and food supply, TX341-641

Abstract

Different light qualities have various impacts on the formation of fruit quality. The present study explored the influence of different visible light spectra (red, green, blue, and white) on the formation of quality traits and their metabolic pathways in grape berries. We found that blue light and red light had different effects on the berries. Compared with white light, blue light significantly increased the anthocyanins (malvidin-3-O-glucoside and peonidin-3-O-glucoside), volatile substances (alcohols and phenols), and soluble sugars (glucose and fructose), reduced the organic acids (citric acid and malic acid), whereas red light achieved the opposite effect. Transcriptomics and metabolomics analyses revealed that 2707, 2547, 2145, and 2583 differentially expressed genes (DEGs) and (221, 19), (254, 22), (189, 17), and (234, 80) significantly changed metabolites (SCMs) were filtered in the dark vs. blue light, green light, red light, and white light, respectively. According to Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses, most of the DEGs identified were involved in photosynthesis and biosynthesis of flavonoids and flavonols. Using weighted gene co-expression network analysis (WGCNA) of 23410 highly expressed genes, two modules significantly related to anthocyanins and soluble sugars were screened out. The anthocyanins accumulation is significantly associated with increased expression of transcription factors (VvHY5, VvMYB90, VvMYB86) and anthocyanin structural genes (VvC4H, Vv4CL, VvCHS3, VvCHI1, VvCHI2, VvDFR), while significantly negatively correlated with VvPIF4. VvISA1, VvISA2, VvAMY1, VvCWINV, VvβGLU12, and VvFK12 were all related to starch and sucrose metabolism. These findings help elucidate the characteristics of different light qualities on the formation of plant traits and can inform the use of supplemental light in the field and after harvest to improve the overall quality of fruit.

Published

2021

16. Transcriptomic Analysis Elaborates the Resistance Mechanism of Grapevine Rootstocks against Salt Stress

Author

Fanggui Zhao, Ting Zheng, Zhongjie Liu, Weihong Fu, and Jinggui Fang

Subjects

grape, rootstock, salt stress, signal transduction, Botany, QK1-989

Abstract

Grapes are subject to a wide range of climatic conditions during their life cycle, but the use of rootstocks can effectively ameliorate the effects of abiotic stress. However, the tolerance mechanism of different grape rootstock varieties varies under various stresses, and systematic research on this aspect is limited. On the basis of previous research, transcriptome sequencing was performed on three tolerant grape rootstock varieties (3309C, 520A, 1103P) and three intolerant grape rootstock varieties (5BB, 101–14, Beta). In total, 56,478,468 clean reads were obtained. One hundred and ten genes only existed in all combinations during P1 with a downregulated trend, and 178 genes existed only in P1 of tolerant grape rootstock varieties. Salt treatment firstly affected the photosynthesis of leaves, and tolerant varieties weakened or even eliminated this effect through their own mechanisms in the later stage. Tolerant varieties mobilized a large number of MFs during the P2 stage, such as hydrolase activity, carboxypeptidase activity, and dioxygenase activity. Carbon metabolism was significantly enriched in P1, while circadian rhythm and flavonoid biosynthesis were only enriched in tolerant varieties. In the intolerant varieties, photosynthesis-related pathways were always the most significantly enriched. There were large differences in the gene expression of the main signal pathways related to salt stress in different varieties. Salt stress affected the expression of genes related to plant abiotic stress, biotic stress, transcription factors, hormones, and secondary metabolism. Tolerant varieties mobilized more bHLH, WRKY, and MYB transcription factors to respond to salt stress than intolerant varieties. In the tolerant rootstocks, SOS was co-expressed. Among these, SOS1 and SOS2 were upregulated, and the SOS3 and SOS5 components were downregulated. The genes of heat shock proteins and the phenylalanine pathway were upregulated in the tolerant varieties. These findings outline a tolerance mechanism model for rootstocks for coping with osmotic stress, providing important information for improving the resistance of grapes under global climate change.

Published

2022

17. Modulation of the Gut Microbiota by Shen-Yan-Fang-Shuai Formula Improves Obesity Induced by High-Fat Diets

Author

Zhen Wang, Junfeng Lu, Jingwei Zhou, Weiwei Sun, Yang Qiu, Weihong Chen, Yabin Gao, Ruibing Yang, Sinan Ai, Zhongjie Liu, Yingbo Guo, Wei Jing Liu, Yaoxian Wang, and Liang Peng

Subjects

gut microbiota, obesity, prebiotic, Shen-Yan-Fang-Shuai formula, fecal microbiota transfer, Microbiology, QR1-502

Abstract

Obesity and related metabolic disorders are associated with intestinal microbiota dysbiosis, disrupted intestinal barrier and chronic inflammation. Shen-Yan-Fang-Shuai formula (SYFSF) is a traditional Chinese herbal formula composed of Astragali Radix, Radix Angelicae Sinensis, Rheum Officinale Baill, and four other herbs. In this study, we identified that SYFSF treatment prevented weight gain, low-grade inflammation and insulin resistance in high-fat diet (HFD)-fed mice. SYFSF also substantially improved gut barrier function, reduced metabolic endotoxemia, as well as systemic inflammation. Sequencing of 16S rRNA genes obtained from fecal samples demonstrated that SYFSF attenuated HFD-induced gut dysbiosis, seen an decreased Firmicutes to Bacteroidetes ratios. Microbial richness and diversity were also higher in the SYFSF-treated HFD group. Furthermore, similar therapeutic effects and changes in gut microbiota profile caused by SYFSF could be replicated by fecal microbiota transfer (FMT). Taken together, our study highlights the efficacy of SYFSF in preventing obesity and related metabolic disorders. Its therapeutic effect is associated with the modulation of gut microbiota, as a prebiotic.

Published

2020

18. Gene alterations in monocytes are pathogenic factors for immunoglobulin a nephropathy by bioinformatics analysis of microarray data

Author

Yingbo Guo, Wenfeng Gao, Danyang Wang, Weijing Liu, and Zhongjie Liu

Subjects

Immunoglobulin a nephropathy, Network centrality analysis, Functional interaction, Toll-like receptor signaling, Apoptosis, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Abstract Background Immunoglobulin A nephropathy (IgAN) is the most frequent primary glomerulopathy worldwide. The study aimed to provide potential molecular biomarkers for IgAN management. Methods The public gene expression profiling GSE58539 was utilized, which contained 17 monocytes samples (8 monocytes samples isolated from IgAN patients and 9 monocytes samples isolated from healthy blood donors). Firstly, differentially expressed genes (DEGs) between the two kinds of samples were identified by limma package. Afterwards, pathway enrichment analysis was implemented. Thereafter, protein-protein interaction (PPI) network was constructed and key nodes in PPI network were predicted using four network centrality analyses. Ultimately, gene functional interaction (FI) was constructed according to expressions in each sample, and then module network was extracted from FI network. Results A total of 678 DEGs were screened out, of these, 72 DEGs were identified as crucial nodes in PPI network that could well distinguish IgAN and healthy samples. In particular, IL6, TNF, IL1B, PRKACA and CCL20 were closely related to pathways such as hematopoietic cell lineage, apoptosis and Toll-like receptor (TLR) signaling pathway. Moreover, 12 genes in the FI network belonged to the 72 identified key nodes, such as CCL20, HDAC10, FPR2 and PRKACA, which were also key genes in 4 module networks. Conclusions Several crucial genes were identified in monocytes of IgAN patients, such as IL6, TNF, IL1B, CCL20, PRKACA, FPR2 and HDAC10. These genes might co-involve in pathways such as TLR and apoptosis signaling during IgAN progression.

Published

2018

19. Correction to: 'The PLCP gene family of grapevine (Vitis vinifera L.): characterization and differential expression in response to Plasmopara Viticola'

Author

Jun Kang, Peijie Gong, Mengqing Ge, Ehsan Sadeghnezhad, Zhongjie Liu, Mengwei Zhang, Lingfei Shangguan, and Jinggui Fang

Subjects

Botany, QK1-989

Published

2021

20. Genome-wide identification and characterization of genes involved in carotenoid metabolic in three stages of grapevine fruit development

Author

Xiangpeng Leng, Peipei Wang, Chen Wang, Xudong Zhu, Xiaopeng Li, Hongyan Li, Qian Mu, Ao Li, Zhongjie Liu, and Jinggui Fang

Subjects

Medicine, Science

Abstract

Abstract Carotenoids not only play indispensable roles in plant growth and development but also enhance nutritional value and health benefits for humans. In this study, total carotenoids progressively decreased during fruit ripening. Fifty-four genes involving in mevalonate (MVA), 2-C-methyl-D-erythritol 4-phosphate (MEP), carotenoid biosynthesis and catabolism pathway were identified. The expression levels of most of the carotenoid metabolism related genes kept changing during fruit ripening generating a metabolic flux toward carotenoid synthesis. Down regulation of VvDXS, VvDXR, VvGGPPS and VvPSY and a dramatic increase in the transcription levels of VvCCD might be responsible for the reduction of carotenoids content. The visible correlation between carotenoid content and gene expression profiles suggested that transcriptional regulation of carotenoid biosynthesis pathway genes is a key mechanism of carotenoid accumulation. In addition, the decline of carotenoids was also accompanied with the reduction of chlorophyll content. The reduction of chlorophyll content might be due to the obstruction in chlorophyll synthesis and acceleration of chlorophyll degradation. These results will be helpful for better understanding of carotenoid biosynthesis in grapevine fruit and contribute to the development of conventional and transgenic grapevine cultivars for further enrichment of carotenoid content.

Published

2017

21. Characterization and Action Mechanism Analysis of VvmiR156b/c/d-VvSPL9 Module Responding to Multiple-Hormone Signals in the Modulation of Grape Berry Color Formation

Author

Ziwen Su, Xicheng Wang, Xuxian Xuan, Zilu Sheng, Haoran Jia, Naseri Emal, Zhongjie Liu, Ting Zheng, Chen Wang, and Jinggui Fang

Subjects

VvmiR156b/c/d-VvSPL9, hormone signal, anthocyanin, grape, Chemical technology, TP1-1185

Abstract

In recent years, more and more reports have shown that the miR156-SPL module can participate in the regulation of anthocyanin synthesis in plants. However, little is known about how this module responds to hormonal signals manipulating this process in grapes. In this study, exogenous GA, ABA, MeJA, and NAA were used to treat the ‘Wink’ grape berries before color conversion, anthocyanin and other related quality physiological indexes (such as sugar, aroma) were determined, and spatio-temporal expression patterns of related genes were analyzed. The results showed that the expression levels of VvmiR156b/c/d showed a gradually rising trend with the ripening and color formation of grape berries, and the highest expression levels were detected at day 28 after treatment, while the expression level of VvSPL9 exhibited an opposite trend as a whole, which further verifies that VvmiR156b/c/d can negatively regulate VvSPL9. Besides, VvmiR156b/c/d was positively correlated with anthocyanin content and related genes levels, while the expression pattern of VvSPL9 showed a negative correlation. Analysis of promoter cis-elements and GUS staining showed that VvmiR156b/c/d contained a large number of hormone response cis-elements (ABA, GA, SA, MeJA, and NAA) and were involved in hormone regulation. Exogenous ABA and MeJA treatments significantly upregulated the expression levels of VvmiR156b/c/d and anthocyanin structural genes in the early stage of color conversion and made grape berries quickly colored. Interestingly, GA treatment downregulated the expression levels of VvmiR156b/c/d and anthocyanin structural genes in the early color-change period, but significantly upregulated in the middle color-change and ripening stages, therefore GA mainly modulated grape berry coloring in the middle- and late-ripening stages. Furthermore, NAA treatment downregulated the expression levels of VvmiR156b/c/d and anthocyanin structural genes and delayed the peak expression of genes. Meanwhile, to further recognize the potential functions of VvmiR156b/c/d, the mature tomato transient trangenetic system was utilized in this work. Results showed that transient overexpression of VvmiR156b/c/d in tomato promoted fruit coloring and overexpression of VvSPL9 inhibited fruit coloration. Finally, a regulatory network of the VvmiR156b/c/d-VvSPL9 module responsive to hormones modulating anthocyanin synthesis was developed. In conclusion, VvmiR156b/c/d-mediated VvSPL9 participated in the formation of grape color in response to multi-hormone signals.

Published

2021

22. Historical Facts of Acupuncture and Traditional Chinese Veterinary Medicine—A Letter to the Editor Re: Magalhães-Sant’Ana, M. Animals 2019, 9, 168

Author

Yusheng Hu and Zhongjie Liu

Subjects

traditional Chinese veterinary medicine, acupuncture, bloodletting, history, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

A recent viewpoint paper by Manuel Magalhães-Sant’Ana (2019) discussed the evidence regarding history, conceptions and modern research related to Traditional Chinese Veterinary Acupuncture (TCVA). Based on the observation of an illustration of nine needles, the author suggested that the needles used in acupuncture are more like lancets than needles in ancient times; to support the view that acupuncture is analogous to bloodletting. In addition; the author does not believe that TCVA has not been practiced for thousands of years. This letter documents that the prototype of the modern filiform acupuncture needle has appeared as early as the Han Dynasty and that modern needles did not evolve from lancets. In addition, there is proof based on existing ancient books that TCVA has a history of thousands of years.

Published

2020

23. Coixol Suppresses NF-κB, MAPK Pathways and NLRP3 Inflammasome Activation in Lipopolysaccharide-Induced RAW 264.7 Cells

Author

Yusheng Hu, Qilyu Zhou, Tianlong Liu, and Zhongjie Liu

Subjects

coix, polyphenol, coixol, anti-inflammatory, nf-κb pathway, mapk pathway, nlrp3 inflammasome, Organic chemistry, QD241-441

Abstract

Coixol, a plant polyphenol extracted from coix (Coix lachryma-jobi L.var.ma-yuen Stapf), has not been investigated for its anti-inflammatory effect. In this study, using a lipopolysaccharide (LPS)-induced macrophage cell model, we observed that coixol can effectively reduce the expression of interleukin (IL)-1β, IL-6, IL-18, tumor necrosis factor (TNF)-α, nitric oxide (NO), inducible nitric oxide synthases (iNOS), and cyclooxygenase (COX)-2, but had no effect on the expression of the anti-inflammatory mediator IL-10. Furthermore, we found that coixol inhibits mitogen-activated protein kinases (MAPKs), nuclear transcription factor κ B (NF-κB) pathways, and NOD-like receptor protein (NLRP) 3 inflammasome activation. In conclusion, the present study demonstrates that coixol exerts certain anti-inflammatory effects by inhibiting the expression of pro-inflammatory mediators in vitro. The mechanism of this effect was in part related to its ability to inhibit the activation of NF-κB, MAPKs pathways, and NLRP3 inflammasome.

Published

2020

24. Effect of Lipoxin A4 on Lipopolysaccharide-Induced Endothelial Hyperpermeability

Author

Huayan Pang, Pan Yi, Ping Wu, Zhuoya Liu, Zhongjie Liu, Jianming Gong, Hua Hao, Lei Cai, Duyun Ye, and Yinping Huang

Subjects

Technology, Medicine, Science

Abstract

Excessive oxidative stress, decreased antioxidant capacity, and enhanced cellular calcium levels are initial factors that cause endothelial cell (EC) hyperpermeability, which represents a crucial event in the pathogenesis of pre-eclampsia. Lipoxin A4 (LXA4) strongly attenuated lipopolysaccharide (LPS)-induced hyperpermeability through maintaining the normal expression of VE-cadherin and β-catenin. This effect was mainly mediated by a specific LXA4 receptor. LXA4 could also obviously inhibit LPS-induced elevation of the cellular calcium level and up-regulation of the transient receptor potential protein family C 1, an important calcium channel in ECs. At the same time, LXA4 strongly blocked LPS-triggered reactive oxidative species production, while it promoted the expression of the NF-E2 related factor 2 (Nrf2) protein. Our findings demonstrate that LXA4 could prevent the EC hyperpermeability induced by LPS in human umbilical vein endothelial cells (HUVECs), under which the possible mechanism is through Nrf2 as well as Ca2+-sensitive pathways.

Published

2011

25. Wrist Movements Estimation Based on Limited Training Dataset

Author

Meifang, Xu, primary, Zhongjie, Liu, additional, Hong, Qiao, additional, and Juhua, Yu, additional

Published

2023

26. DeepStationing: Thoracic Lymph Node Station Parsing in CT Scans using Anatomical Context Encoding and Key Organ Auto-Search.

Author

Dazhou Guo, Xianghua Ye, Jia Ge, Xing Di, Le Lu 0001, Lingyun Huang, Guotong Xie, Jing Xiao 0006, Zhongjie Liu, Ling Peng, Senxiang Yan, and Dakai Jin

Published

2021

27. 溶融亜鉛メッキ鋼板とアルミニウム合金の異材接合における レーザ・アークハイブリッドプロセスの開発

Author

Zhongjie LIU, Tetsuo ERA, Ryoji TAMAKI, Tomoya ASAYAMA, and Masayuki FUJIWARA

Subjects

General Medicine

Published

2022

28. Systematic analysis reveals O-methyltransferase gene family members involved in flavonoid biosynthesis in grape

Author

Suwen Lu, Yaxian Zhuge, Tianyi Hao, Zhongjie Liu, Mengwei Zhang, and Jinggui Fang

Subjects

Flavonoids, Gene Expression Regulation, Plant, Physiology, Fruit, Genetics, Vitis, Methyltransferases, Plant Science, Phylogeny, Plant Proteins

Abstract

O-methyltransferases (OMTs) are an important group of enzymes involved in the methylation of various secondary metabolites, including flavonoids. However, the features and functions of OMTs have not been comprehensively studied in grape (Vitis vinifera), a rich source of methylated flavonoids. Here, 47 OMT members were identified in grape genome. They were unevenly distributed on grape chromosomes and some genes were tandem duplicated, indicating the role of duplication processes in the expansion of this gene family. Based on the phylogenetic relationship, these OMTs were clustered into CCoAOMT and COMT subclades, which were further supported by the results of conserved motif and gene structure analysis. Correlation analysis revealed that three members (VvCCoAOMT1, VvCCoAOMT4, and VvCOMT1) were potentially involved in the synthesis of most methylated flavonoids in the berry skins. Expression profiling based on RNA-seq data and qRT-PCR experiments indicated that VvCCoAOMT1 and VvCCoAOMT4 had specific and high expression in berry skins, and responded to abscisic acid and high temperature treatments; and that VvCOMT1 expression was significantly induced during berry development and UVC treatment. Cis-regulatory element analysis suggested important roles of OMTs in growth, development, and defense against stresses. We further demonstrated the transcriptional regulation of VvCCoAOMT4 by VvMYBA1, a master regulator of grape berry anthocyanin, and verified the protein localization of VvCCoAOMT4 in membrane and nucleus. These findings facilitate a better understanding of the characteristics of OMT gene family, especially of the potential members involved in the formation of O-methylated flavonoids in grape.

Published

2022

29. Development of Dissimilar Joining Technology Using Pulsed Laser and Arc Hybrid Welding

Author

Tetsuo ERA, Ryoji TAMAKI, Tomoya ASAYAMA, Masayuki FUJIWARA, and Zhongjie LIU

Subjects

General Engineering

Published

2021

30. Identification of miRNAs-mediated seed and stone-hardening regulatory networks and their signal pathway of GA-induced seedless berries in grapevine (V. vinifera L.)

Author

Ziwen Su, Xiaowen Zhang, Peipei Wang, Xicheng Wang, Chen Wang, Xuxian Xuan, Wenran Wang, Jinggui Fang, Songtao Jiu, Mostafa Abdelrahman, and Zhongjie Liu

Subjects

Crops, Agricultural, Grape, Plant Science, Berry, Biology, Cleavage (embryo), Parthenocarpy, Genes, Plant, Signal pathway, Gene Expression Regulation, Plant, microRNA, Vitis, Gene, miRNA, Seed and stone hardening development, Embryogenesis, fungi, GA, Botany, RNA, Gene Expression Regulation, Developmental, food and beverages, Gibberellins, Cell biology, MicroRNAs, Fruit, QK1-989, Seeds, Target genes, Seedless berry, Signal Transduction, Research Article

Abstract

Background Stone-hardening stage is crucial to the development of grape seed and berry quality. A significant body of evidence supports the important roles of MicroRNAs in grape-berry development, but their specific molecular functions during grape stone-hardening stage remain unclear. Results Here, a total of 161 conserved and 85 species-specific miRNAs/miRNAs* (precursor) were identified in grape berries at stone-hardening stage using Solexa sequencing. Amongst them, 30 VvmiRNAs were stone-hardening stage-specific, whereas 52 exhibited differential expression profiles during berry development, potentially participating in the modulation of berry development as verified by their expression patterns. GO and KEGG pathway analysis showed that 13 VvmiRNAs might be involved in the regulation of embryo development, another 11 in lignin and cellulose biosynthesis, and also 28 in the modulation of hormone signaling, sugar, and proline metabolism. Furthermore, the target genes for 4 novel VvmiRNAs related to berry development were validated using RNA Ligase-Mediated (RLM)-RACE and Poly(A) Polymerase-Mediated (PPM)-RACE methods, and their cleavage mainly occurred at the 9th–11th sites from the 5′ ends of miRNAs at their binding regions. In view of the regulatory roles of GA in seed embryo development and stone-hardening in grape, we investigated the expression modes of VvmiRNAs and their target genes during GA-induced grape seedless-berry development, and we validated that GA induced the expression of VvmiR31-3p and VvmiR8-5p to negatively regulate the expression levels of CAFFEOYL COENZYME A-3-O-METHYLTRANSFERASE (VvCCoAOMT), and DDB1-CUL4 ASSOCIATED FACTOR1 (VvDCAF1). The series of changes might repress grape stone hardening and embryo development, which might be a potential key molecular mechanism in GA-induced grape seedless-berry development. Finally, a schematic model of miRNA-mediated grape seed and stone-hardening development was proposed. Conclusion This work identified 30 stone-hardening stage-specific VvmiRNAs and 52 significant differential expression ones, and preliminary interpreted the potential molecular mechanism of GA-induced grape parthenocarpy. GA negatively manipulate the expression of VvCCoAOMT and VvDCAF1 by up-regulation the expression of VvmiR31-3p and VvmiR8-5p, thereby repressing seed stone and embryo development to produce grape seedless berries.

Published

2021

31. Moving Target Detection and Labeling in Video Sequence Based on Spatial-Temporal Information Fusion.

Author

Shiwei Ma, Zhongjie Liu, Banghua Yang, and Jian Wang

Published

2007

32. Identification of GH17 gene family in Vitis vinifera and expression analysis of GH17 under various adversities

Author

Xiyang Li, Jinggui Fang, Xiang Fang, Tariq Pervaiz, Muhammad Fiaz, Lingfei Shangguan, Tianhua Liu, Zhongjie Liu, and Yanhua Ren

Subjects

0106 biological sciences, 0301 basic medicine, Abiotic component, Genetics, Physiology, Abiotic stress, food and beverages, Plant physiology, Sequence alignment, Plant Science, Biology, 01 natural sciences, Article, Transcriptome, 03 medical and health sciences, 030104 developmental biology, Gene family, Glycoside hydrolase, Molecular Biology, Gene, 010606 plant biology & botany

Abstract

Glycoside hydrolase (GH, EC 3.2.1) is a group of enzymes that hydrolyzes glycosidic bonds and play a role in the hydrolysis and synthesis of sugars in living organisms. Vitis vinifera is an important fruit crop and it harbors GH17 gene family however, their function in grapes has not been systematically investigated. In this study, a total of 870 GH17 genes were identified from 14 plant species and their structural domain, sequence alignment, phylogenetic tree, collinear analysis, with the expression profiles of VviGH17 gene family was performed. The promoter analysis of VviGH17 gene showed the presence of cis-acting elements, which are responsive to plant growth and development. In addition, elements for plant hormones were found that are triggered in response to abiotic/biological stress. Transcriptomic data led to the identification of several VviGH17 genes, which are associated with bud dormancy and in response to abiotic stress. Transcript analysis was carried out for some of the selected VviGH17 genes RT-qPCR. VviGH17-16 and VviGH17-30 genes were differentially expressed during bud dormancy, fruit development and different abiotic stresses. Moreover, VviGH17-37 and VviGH17-44 were differentially expressed at fruit development, in response to abiotic stress. In addition, subcellular localization predicts that the VviGH17-16, VviGH17-30, and VviGH17-37 genes were located in the cell membrane, while VviGH17-44 gene was located in the vacuole. In conclusion, our study led to the identification of several GH17s and their probable role in development and stress. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s12298-021-01014-1.

Published

2021

33. Expressional diversity of grapevine 3-Hydroxy-3-methylglutaryl-CoA reductase (VvHMGR) in different grapes genotypes

Author

Zhongjie Liu, Songtao Jiu, Teng Li, Muhammad Salman Haider, Lubin Guan, Kekun Zhang, Jinggui Fang, Kun Yu, Haifeng Jia, Ting Zheng, and Maazullah Nasim

Subjects

Genotype, Terpenoids, Color, Grape, Plant Science, HMGR, Biology, Reductase, Genes, Plant, Anthocyanins, Evolution, Molecular, Plant Growth Regulators, Osmotic Pressure, Vitis, Gene, Aroma, chemistry.chemical_classification, ATP synthase, Kinase, Terpenes, Gene Expression Profiling, Research, Botany, Genetic Variation, food and beverages, Metabolism, biology.organism_classification, Terpenoid, Enzyme, chemistry, Biochemistry, Fruit, Multigene Family, QK1-989, biology.protein, Hydroxymethylglutaryl CoA Reductases

Abstract

Background 3-Hydroxy-3-methylglutaryl-CoA reductase (HMGR) is a key enzyme in the mevalonate (MVA) pathway, which regulates the metabolism of terpenoids in the cytoplasm and determines the type and content of downstream terpenoid metabolites. Results Results showed that grapevine HMGR family has three members, such as VvHMGR1, VvHMGR2, and VvHMGR3. The expression of VvHMGRs in 'Kyoho' has tissue specificity, for example, VvHMGR1 keeps a higher expression, VvHMGR2 is the lowest, and VvHMGR3 gradually decreases as the fruit development. VvHMGR3 is closely related to CsHMGR1 and GmHMGR9 and has collinearity with CsHMGR2 and GmHMGR4. By the prediction of interaction protein, it can interact with HMG-CoA synthase, MVA kinase, FPP/GGPP synthase, diphosphate mevalonate decarboxylase, and participates in the synthesis and metabolism of terpenoids. VvHMGR3 have similar trends in expression with some of the genes of carotenoid biosynthesis and MEP pathways. VvHMGR3 responds to various environmental and phytohormone stimuli, especially salt stress and ultraviolet (UV) treatment. The expression level of VvHMGRs is diverse in grapes of different colors and aroma. VvHMGRs are significantly higher in yellow varieties than that in red varieties, whereas rose-scented varieties showed significantly higher expression than that of strawberry aroma. The expression level is highest in yellow rose-scented varieties, and the lowest in red strawberry scent varieties, especially ‘Summer Black’ and ‘Fujiminori’. Conclusion This study confirms the important role of VvHMGR3 in the process of grape fruit coloring and aroma formation, and provided a new idea to explain the loss of grape aroma and poor coloring during production. There may be an additive effect between color and aroma in the HMGR expression aspect.

Published

2021

34. Structural variation and parallel evolution of apomixis in citrus during domestication and diversification

Author

Nan Wang, Xietian Song, Junli Ye, Siqi Zhang, Zhen Cao, Chenqiao Zhu, Jianbing Hu, Yin Zhou, Yue Huang, Shuo Cao, Zhongjie Liu, Xiaomeng Wu, Lijun Chai, Wenwu Guo, Qiang Xu, Brandon S Gaut, Anna M G Koltunow, Yongfeng Zhou, and Xiuxin Deng

Subjects

Multidisciplinary

Abstract

Apomixis, or asexual seed formation, is prevalent in Citrinae via a mechanism termed nucellar or adventitious embryony. Here, multiple embryos of a maternal genotype form directly from nucellar cells in the ovule and can outcompete the developing zygotic embryo as they utilize the sexually derived endosperm for growth. Whilst nucellar embryony enables the propagation of clonal plants of maternal genetic constitution, it is also a barrier to effective breeding through hybridization. To address the genetics and evolution of apomixis in Citrinae, a chromosome-level genome of the Hongkong kumquat (Fortunella hindsii) was assembled following a genome-wide variation map including structural variants (SVs) based on 234 Citrinae accessions. This map revealed that hybrid citrus cultivars shelter genome-wide deleterious mutations and SVs into heterozygous states free from recessive selection, which may explain the capability of nucellar embryony in most cultivars during Citrinae diversification. Analyses revealed that parallel evolution may explain the repeated origin of apomixis in different genera of Citrinae. Within Fortunella, we found that apomixis of some varieties originated via introgression. In apomictic Fortunella, the locus associated with apomixis contains the FhRWP gene, encoding an RWP-RK domain-containing protein previously shown to be required for nucellar embryogenesis in Citrus. We found the heterozygous SV in the FhRWP and CitRWP promoters from apomictic Citrus and Fortunella, due to either two or three miniature inverted transposon element (MITE) insertions. A transcription factor, FhARID, encoding an AT-rich interaction domain-containing protein binds to the MITEs in the promoter of apomictic varieties, which facilitates induction of nucellar embryogenesis. This study provides evolutionary genomic and molecular insights into apomixis in Citrinae and has potential ramifications for citrus breeding.

Published

2022

35. First Indirect Drive Experiment Using a Six-Cylinder-Port Hohlraum

Author

Xin, Li, Yunsong, Dong, Dongguo, Kang, Wei, Jiang, Hao, Shen, Longyu, Kuang, Huasen, Zhang, Jiamin, Yang, Qiang, Wang, Chuansheng, Yin, Tianxuan, Huang, Wenyong, Miao, Zhongjing, Chen, Qi, Tang, Xiaoshi, Peng, Zifeng, Song, Xing, Zhang, Jianjun, Dong, Bo, Deng, Keli, Deng, Qiangqiang, Wang, Yimeng, Yang, Xiangming, Liu, Longfei, Jing, Hang, Li, Zhongjie, Liu, Bo, Yu, Ji, Yan, Yudong, Pu, Shaoyong, Tu, Yongteng, Yuan, Dong, Yang, Feng, Wang, Wei, Zhou, Xiaoxia, Huang, Zhibing, He, Haijun, Zhang, Yiyang, Liu, Shiyang, Zou, Baohan, Zhang, Yongkun, Ding, Shaoping, Zhu, and Weiyan, Zhang

Subjects

General Physics and Astronomy

Abstract

The new hohlraum experimental platform and the quasi-3D simulation model are developed to enable the study of the indirect drive experiment using the six-cylinder-port hohlraum for the first time. It is also the first implosion experiment for the six laser-entrance-hole hohlraum to effectively use all the laser beams of the laser facility that is primarily designed for the cylindrical hohlraum. The experiments performed at the 100 kJ Laser Facility produce a peak hohlraum radiation temperature of ∼222 eV for ∼80 kJ and 2 ns square laser pulse. The inferred x-ray conversion efficiency η∼87% is similar to the cylindrical hohlraum and higher than the octahedral spherical hohlraum at the same laser facility, while the low laser backscatter is similar to the outer cone of the cylindrical hohlraum. The hohlraum radiation temperature and M-band (1.6 keV) flux can be well reproduced by the quasi-3D simulation. The variations of the yield-over-clean and the hot spot shape can also be semiquantitatively explained by the calculated major radiation asymmetry of the quasi-3D simulation. Our work demonstrates the capability for the study of the indirect drive with the six-cylinder-port hohlraum at the cylindrically configured laser facility, which is essential for numerically assessing the laser energy required by the ignition-scale six-cylinder-port hohlraum.

Published

2022

36. Adaptive and maladaptive introgression in grapevine domestication.

Author

Hua Xiao, Zhongjie Liu, Nan Wang, Qiming Long, Shuo Cao, Guizhou Huang, Wenwen Liu, Yanling Peng, Riaz, Summaira, Walker, Andrew M., Gaut, Brandon S., and Yongfeng Zhou

Subjects

*INTROGRESSION (Genetics), *VITIS vinifera, *GRAPES, *GENETIC load, *GENE flow, *SWINE breeding

Abstract

Domesticated grapevines spread to Europe around 3,000 years ago. Previous studies have revealed genomic signals of introgression from wild to cultivated grapes in Europe, but the time, mode, genomic pattern, and biological effects of these introgression events have not been investigated. Here, we studied resequencing data from 345 samples spanning the distributional range of wild (Vitis vinifera ssp. sylvestris) and cultivated (V. vinifera ssp. vinifera) grapes. Based on machine learning-based population genetic analyses, we detected evidence for a single domestication of grapevine, followed by continuous gene flow between European wild grapes (EU) and cultivated grapes over the past ~2,000 y, especially from EU to wine grapes. We also inferred that soft-selective sweeps were the dominant signals of artificial selection. Gene pathways associated with the synthesis of aromatic compounds were enriched in regions that were both selected and introgressed, suggesting EU wild grapes were an important resource for improving the flavor of cultivated grapes. Despite the potential benefits of introgression in grape improvement, the introgressed fragments introduced a higher deleterious burden, with most deleterious SNPs and structural variants hidden in a heterozygous state. Cultivated wine grapes have benefited from adaptive introgression with wild grapes, but introgression has also increased the genetic load. In general, our study of beneficial and harmful effects of introgression is critical for genomic breeding of grapevine to take advantage of wild resources. [ABSTRACT FROM AUTHOR]

Published

2023

37. Chitinase family genes in grape differentially expressed in a manner specific to fruit species in response to Botrytis cinerea

Author

Ting Zheng, Ehsan Sadeghnezhad, Jinggui Fang, Le Guan, Songtao Jiu, Xudong Zhu, Zhongjie Liu, Tianyu Dong, Kekun Zhang, and Haifeng Jia

Subjects

0301 basic medicine, food.ingredient, medicine.disease_cause, Gene Expression Regulation, Enzymologic, Biological pathway, 03 medical and health sciences, 0302 clinical medicine, food, Gene Expression Regulation, Plant, Genetics, medicine, Metallothionein, Vitis, Molecular Biology, Gene, Glycoside hydrolase family 18, Plant Diseases, Plant Proteins, Botrytis cinerea, Botrytis, biology, Chitinases, food and beverages, General Medicine, biology.organism_classification, 030104 developmental biology, Biochemistry, 030220 oncology & carcinogenesis, Chitinase, biology.protein, Oxidative stress

Abstract

Chitinases (Chi), an important resistance-related protein, act against fungal pathogens by catalyzing the fungal cell wall, whereas are involved in different biological pathways in grape. In this study, we found 42 Chi family genes in Vitis vinifera L. (VvChis) and evaluated their expression levels after Botrytis infection, stress hormones like ethylene (ETH) and methyl-jasmonate (MeJA), and abiotic stresses like salinity and temperature changes in ripened fruits. VvChis were categorized into five groups including A, B, C, D, and E belonged to glycoside hydrolase family 18 and 19 (GH18 and GH19) according to genes structure, which expression analysis showed distinct temporal and spatial expression patterns changed in different tissues and various development stages. Different responsive elements to biotic and abiotic stresses were determined in the promoter regions of VvChis, specially elicitor-responsive element that was conserved among all VvChis genes. The expression levels of VvChis in groups A, B, and E increased after Botrytis cinerea infection in leaves and berries. Meanwhile, VvChis in glycoside hydrolase family 18 (GH18) were up-regulated under MeJA and ETH treatment, although the induction of VvChis by low temperature was more significant than high temperature. The expression of VvChis was also positively correlated with the concentration of NaCl treatment. Furthermore, differential gene-overexpression of VvChi5, VvChi17, VvChi22, VvChi26, and VvChi31 in strawberry and tomato fruits demonstrated the involvement of various isoforms in resistance to Botrytis infection through antioxidant system and lignin accumulation, which led to a reduction of damage. Among different isoforms of VvChis, we confirmed the interaction of Chi17 with Metallothionein (MTL) as oxidative stress protection, which suggests VvChis can modulate oxidative stress during postharvest storage in ripened fruits.

Published

2020

38. Mechanistic study of mtROS-JNK-SOD2 signaling in bupivacaine-induced neuron oxidative stress

Author

Zhonghua Ji, Rui Xu, Zhengyuan Xia, Huali Xu, Wei Zhao, Shiyuan Xu, and Zhongjie Liu

Subjects

Male, Transcriptional Activation, Aging, Small interfering RNA, MAP Kinase Signaling System, SOD2, Mitochondrion, medicine.disease_cause, manganese superoxide dismutase, Antioxidants, Cyclic N-Oxides, chemistry.chemical_compound, Cell Line, Tumor, medicine, oxidative stress, Animals, Humans, RNA, Small Interfering, skin and connective tissue diseases, Injections, Spinal, reactive oxygen species, Anthracenes, Neurons, chemistry.chemical_classification, Reactive oxygen species, Superoxide Dismutase, Superoxide, bupivacaine, JNK Mitogen-Activated Protein Kinases, Cell Biology, Acetylcysteine, Mitochondria, Rats, Cell biology, Disease Models, Animal, Toxic injury, chemistry, Gene Knockdown Techniques, cardiovascular system, Phosphorylation, Neurotoxicity Syndromes, apoptotic injury, Oxidative stress, Research Paper

Abstract

Manganese superoxide dismutase (SOD2) is a key enzyme to scavenge free radical superoxide in the mitochondrion. SOD2 deficiency leads to oxidative injury in cells. Bupivacaine, a local anesthetic commonly used in clinic, could induce neurotoxic injury via oxidative stress. The role and the mechanism of SOD2 regulation in bupivacaine-induced oxidative stress remains unclear. Here, bupivacaine was used to treat Sprague-Dawley rats with intrathecal injection and culture human neuroblastoma cells for developing vivo injury model and vitro injury model. The results showed that bupivacaine caused the over-production of mitochondrial reactive oxygen species (mtROS), the activation of C-Jun N-terminal kinase (JNK), and the elevation of SOD2 transcription. Decrease of mtROS with N-acetyl-L-cysteine attenuated the activation of JNK and the increase of SOD2 transcription. Inhibition of JNK signaling with a small interfering RNA (siRNA) or with sp600125 down-regulated the increase of SOD2 transcription. SOD2 gene knock-down exacerbated bupivacaine-induced mtROS generation and neurotoxic injury but had no effect on JNK phosphorylation. Mito-TEMPO (a mitochondria-targeted antioxidant) could protect neuron against bupivacaine-induced toxic injury. Collectively, our results confirm that mtROS stimulates the transcription of SOD2 via activating JNK signaling in bupivacaine-induced oxidative stress. Enhancing antioxidant ability of SOD2 might be crucial in combating bupivacaine-induced neurotoxic injury.

Published

2020

39. Transcriptome Analysis and Characterized Differentially Regulated Genes Between Treated and Untreated SaOS-2 Cells with Baicalein

Author

Nawras Hamdan, Zhongjie Liu, Yingsai Fan, Kai Fan, Huan-Huan Li, Shi-Qi Dong, Rashad Alkasir, and Qin Li

Subjects

Pharmacology, Transcriptome, chemistry.chemical_compound, chemistry, Biology, Molecular biology, Saos-2 cells, Gene, Baicalein

Published

2020

40. Dual crosslinked polyamidoxime/alginate sponge for robust and efficient uranium adsorption from aqueous solution

Author

Yaru Yue, Dong Wang, Shuaifeng Chen, Juanxiu Xiao, Zhongjie Liu, Caina Han, Lijie Luo, Dong Cai, and Xin Xu

Subjects

Aqueous solution, biology, Chemistry, Ionic bonding, chemistry.chemical_element, General Chemistry, Uranium, biology.organism_classification, Catalysis, Sponge, Adsorption, Chemical engineering, Covalent bond, Materials Chemistry, Seawater, Solubility

Abstract

With proper modification, polyamidoxime (PAO) shows extraordinary solubility in aqueous alkaline solution. A hybrid sponge was prepared by freeze-drying an aqueous solution of PAO/alginate. After simple in situ ionic and covalent crosslinking, the sponge showed highly efficient uranium capture performance with a saturated adsorption capacity of 718.38 ± 12.38 mg g−1, as well as excellent chemical and mechanical stability in running seawater for weeks.

Published

2020

41. Poly (ADP-ribose) polymerase 1-mediated defective mitophagy contributes to painful diabetic neuropathy in the db/db model

Author

Pengfei Yuan, Fuhu Song, Pian Zhu, Keke Fan, Qinming Liao, Lijin Huang, and Zhongjie Liu

Subjects

Adenosine Diphosphate, Cellular and Molecular Neuroscience, Mice, Diabetic Neuropathies, Ganglia, Spinal, Ribose, Diabetes Mellitus, Mitophagy, Animals, Biochemistry

Abstract

Studies have shown that poly (ADP-ribose) polymerase 1 (PARP1) is involved in the pathological process of diabetes. Mitophagy is widely acknowledged to be a key regulatory process in maintaining reactive oxygen species homeostasis via lysosome degradation of damaged mitochondria. However, the regulatory role of PARP1 in mitophagy-related mitochondrial oxidative injury and progression of painful diabetic neuropathy (PDN) is unclear. In this study, we studied the in vitro and in vivo mechanisms of PARP1-mediated mitophagy blockade in a leptin gene-mutation (db/db) mouse model of PDN. Db/db mice models of PDN were established by assessing the sciatic nerve conduction velocity (SNCV), mechanical withdrawal threshold (MWT), and thermal withdrawal latency (TWL). The results showed that PARP1 activity and mitochondrial injury of dorsal root ganglion (DRG) neurons were increased, and mitophagy was impaired in PDN mice. PARP1 was found to mediate the impairment of mitophagy in DRG neurons isolated from PDN mice. PARP1 inhibitors (PJ34 or AG14361) attenuated diabetes-induced peripheral nerve hyperalgesia, restored DRG neuron mitophagy function and decreased mitochondrial oxidative injury. Mitophagy impairment induced by lysosome deacidificant (DC661) aggravated diabetes-induced DRG neuron mitochondrial oxidative stress and injury. Taken together, our data revealed that PARP1-induced defective mitophagy of DRG neurons is a key mechanism in diabetes-induced peripheral neuropathic injury. Inhibition of PARP1 and restoration of mitophagy function are potential therapeutic targets for PDN.

Published

2022

42. Characterization of VvmiR166s-Targets Modules and their Interaction Mechanism in Modulation of GA-Induced Grape Seedless Berry Process

Author

Xuxian Xuan, Yunhe Bai, Mostafa Abdelrahman, Xiaowen Zhang, Wei Tang, Zhenqiang Xie, Tianyu Dong, Zhongjie Liu, Chuan Zhang, Jinggui Fang, and Chen Wang

Abstract

GA (Gibberellin) is one key hormone of inducing grape seedless berries. VvmiR166s were revealed to be the important regulator of responding to GA in grapes, but their roles remain unclear yet. Here, the precise sequences of VvmiR166s and their potential targets VvREV, VvHB15 and VvHOX32, were determined in grape cv. ‘Rosario Bianco’. The cleavage interactions and variations of VvmiR166s:(VvHB15, VvHOX32, VvREV) were validated by RLM-RACE and PPM-RACE. Promoters cis-elements analysis supported that VvMIR166s and targets containing similar GA-related cis-elements, might play roles in responding to GA.Subsequently, spatio-temporal expression modes analysis of VvMIR166s and their targets in grape berries suggest that, almost all VvMIR166s possessed the lowest expression level at 46DAF (stone hardening stage) in seeds and peels under GA treatment except for VvMIR166h. Interestingly, their target gene VvHB15 exhibited the opposite expression, indicating that GA promoted the negative regulatory roles of VvmiR166s on VvHB15. Subsequently, over-expressions of VvMIR166b/h in Tobaccos, decreased the expression of its target VvHB15 and obviously strengthened some key genes in lignin synthesis pathway, while over-expression of VvHB15 showed the reverse regulatory modes, confirming that VvmiR166b/h might be amongst main factors of regulating lignin synthesis by mediating the expression of VvHB15. The results was deduced a key signal pathway of “GA-VvmiR166b/h-VvHB15- lignin synthesis genes”. Our findings revealed a novel insight into the roles of VvmiR166s response to GA in modulating the lignin synthesis of grape seed-stone development, which is essential for the molecular breeding of seedless grape berry.

Published

2022

43. Esculetin inhibits the pyroptosis of microvascular endothelial cells through NF-κB /NLRP3 signaling pathway

Author

Wei Ren, Qilyu Zhou, Ruyang Yu, Zhongjie Liu, and Yusheng Hu

Subjects

Lipopolysaccharides, Biophysics, NF-kappa B, Endothelial Cells, Biochemistry, Rats, Adenosine Triphosphate, Microvessels, NLR Family, Pyrin Domain-Containing 3 Protein, Pyroptosis, Animals, Umbelliferones, Molecular Biology, Signal Transduction

Abstract

The effect of Esculetin on pyroptosis and its possible mechanism in endothelium were explored. 10 μg/mL LPS and 0.5 mM ATP were used to stimulate the rat intestinal microvascular endothelial cells. Then add different concentrations of Esculetin (20μM, 40 μM) to the culture medium containing LPS and ATP culturing for 24 h. The expression of p-NF-κB p65, NF-κB p65, I-κB, p-I-κB, NLRP3, ASC, caspase-1, and gasdermin-D were detected by Western blot, and the release level of IL-18 and IL-1β were measured by ELISA. The NLRP3 inhibitor MCC950 was used at the concentration of 10 μM for 4 h to disentangle the potential mechanism of the influence of Esculetin on pyroptosis. In our experiments, the expression of gasdermin-d and important proteins of NF-κB and NLRP3 signaling pathways were inhibited by Esculetin. Besides, Esculetin also attenuated the morphological changes like swelling rupture and pores on the membrane caused by pyroptosis thereby protecting cells from being damaged by pyroptosis. Combining with the effect of Esculetin on proteins above and its protective effect on cell morphology, we believe that Esculetin has an anti-pyroptosis effect. The inhibiting pyroptosis effects mentioned above are similar to MCC950, which means the anti-pyroptosis effects of Esculetin are associated with the NLRP3 signaling pathway. In conclusion, Esculetin inhibits the pyroptosis of microvascular endothelial cells through the NF-κB/NLFP3 signaling pathway and is expected to be conducive in treating pyroptosis-related diseases.

Published

2021

44. Metabolomic and transcriptomic analyses reveal the effects of grafting on anthocyanin synthesis in grapevine

Author

Wenwen Liu, Zhang Fuchun, Zhou Xiaoming, Yongfeng Zhou, Xiaoxia Sun, Zhong Haixia, Nan Wang, Zhongjie Liu, Pan Mingqi, Wu Xinyu, and Hua Xiao

Subjects

chemistry.chemical_compound, Peonidin, Horticulture, chemistry, Petunidin, Anthocyanin, Cyanidin, Berry, Biology, Delphinidin, Rootstock, Malvidin

Abstract

The grafting has been commonly used in viticulture, which joints the scion from a cultivar with the stem of a rootstock. Grafting has crucial impacts on various phenotypes of the cultivar including berry metabolome and berry coloring, however, the genetics and regulation mechanisms are largely unexplored. In this study, we analyzed the phenotypic, metabolomic and transcriptomic profiles at three stages (45, 75 and105 days after flowering) of the Crimson Seedless (Vitis vinifera, CS) cultivar grafted to four rootstocks (three heterografting: CS/101-14MG, CS/SO4, CS/110R and one self-grafting CS/CS) with an own-rooted grafting-free Crimson Seedless (CS) as a control. All the heterografting plants had a significant influence on berry reddening as early as ~45 days after flowering. The grafting of rootstocks promoted anthocyanin synthesis and accumulation in grape berries. The metabolomic features showed that Cyanidin 3-O-glucoside, Delphinidin 3-O-glucosid, Malvidin 3-O-glucoside, Peonidin 3-O-glucoside and Petunidin 3-O-glucoside were the pigments responsible for the purplish-red color peels. Transcriptomic analyses revealed that the anthocyanins biosynthetic related genes from the upstream (phenylalanine ammonia-lyase) to the downstream (anthocyanidin 3-O-glucosyltransferase and anthocyanidin synthase) were upregulated with the accumulations of anthocyanins in CS/101-14MG, CS/SO4 and CS/110R. At the same time, all these genes were also highly expressed and more anthocyanin was accumulated in CS/CS samples compared to CS samples, suggesting that self-grafting rootstocks might also have promoted berry reddening in grapevine. Our results provide global transcriptomic and metabolomic features in berry coloring regulation under different grafting conditions for improving the berry quality in grapevine production.

Published

2021

45. Metabolomic and transcriptomic analyses reveal the effects of self- and hetero-grafting on anthocyanin biosynthesis in grapevine

Author

Haixia Zhong, Zhongjie Liu, Fuchun Zhang, Xiaoming Zhou, Xiaoxia Sun, Yongyao Li, Wenwen Liu, Hua Xiao, Nan Wang, Hong Lu, Mingqi Pan, Xinyu Wu, and Yongfeng Zhou

Subjects

Genetics, Plant Science, Horticulture, Biochemistry, Biotechnology

Abstract

Grafting, which joins a scion from a cultivar with the stem of a rootstock from a grapevine wild relative, is commonly used in viticulture. Grafting has crucial effects on various phenotypes of the cultivar, including its phenology, biotic and abiotic resistance, berry metabolome, and coloration, but the underlying genetics and regulatory mechanisms are largely unexplored. In this study, we investigated the phenotypic, metabolomic, and transcriptomic profiles at three developmental stages (45, 75, and 105 days after flowering) of the Crimson Seedless cultivar (Vitis vinifera) grafted onto four rootstocks (three heterografts, CS/101-14, CS/SO4, and CS/110R and one self-graft, CS/CS) with own-rooted graft-free Crimson Seedless (CS) as the control. All the heterografts had a significant effect on berry reddening as early as ~45 days after flowering. The grafting of rootstocks promoted anthocyanin biosynthesis and accumulation in grape berries. The metabolomic features showed that cyanidin 3-O-glucoside, delphinidin 3-O-glucoside, malvidin 3-O-glucoside, peonidin 3-O-glucoside, and petunidin 3-O-glucoside were the pigments responsible for the purplish-red peel color. Transcriptomic analyses revealed that anthocyanin biosynthesis-related genes, from upstream (phenylalanine ammonia-lyase) to downstream (anthocyanidin 3-O-glucosyltransferase and anthocyanidin synthase), were upregulated with the accumulation of anthocyanins in the heterografted plants. At the same time, all these genes were also highly expressed and more anthocyanin was accumulated in self-grafted CS/CS samples compared with own-rooted graft-free CS samples, suggesting that self-grafting may also have promoted berry reddening in grapevine. Our results reveal global transcriptomic and metabolomic features in berry color regulation under different grafting conditions that may be useful for improving berry quality in viticulture.

Published

2021

46. 'The PLCP gene family of grapevine (Vitis vinifera L.): characterization and differential expression in response to Plasmopara Viticola'

Author

Jinggui Fang, Mengwei Zhang, Mengqing Ge, Jun Kang, Zhongjie Liu, Ehsan Sadeghnezhad, Peijie Gong, and Lingfei Shangguan

Subjects

Hypersensitive response, Genetics, Phylogenetic analysis, Research, Botany, food and beverages, Plant Science, Biology, biology.organism_classification, Transcriptome, Plasmopara viticola, QK1-989, Arabidopsis, Papain-like cysteine proteases, Gene expression, Gene family, Downy mildew, Grapevine, Gene

Abstract

Background Papain-like cysteine proteases (PLCPs), a large group of cysteine proteases, are structurally related to papain. The members belonging to PLCPs family contribute to plant immunity, senescence, and defense responses in plants. The PLCP gene family has been identified in Arabidopsis, rice, soybean, and cotton. However, no systematic analysis of PLCP genes has been undertaken in grapevine. Since Plasmopara viticola as a destructive pathogen could affect immunity of grapes in the field, we considered that the members belonged to PLCPs family could play a crucial role in defensive mechanisms or programmed cell death. We aimed to evaluate the role of PLCPs in 2 different varieties of grapevines and compared the changes of their expressions with the transcriptional data in response to P. viticola. Results In this study, 23 grapevine PLCP (VvPLCP) genes were identified by comprehensive bioinformatics analysis. Subsequently, the chromosomal localizations, gene structure, conserved domains, phylogenetic relationship, gene duplication, and cis-acting elements were analyzed. Numerous cis-acting elements related to plant development, hormone, and stress responses were identified in the promoter of the VvPLCP genes. Phylogenetic analysis grouped the VvPLCP genes into nine subgroups. The transcription of VvPLCP in different inoculation time points and varieties indicated that VvPLCP may have vital functions in grapevine defense against Plasmopara viticola. According to transcriptome data and qPCR analysis, we observed the increasing expression levels of VvRD21–1 at 72 h after inoculation in resistant variety, inferring that it was related to grape downy mildew resistance. Meanwhile, 3 genes including VvXBCP1, VvSAG12–1, and VvALP1 showed higher expression at 24 h after pathogen inoculation in the susceptible variety and might be related to the downy mildew phenotype. We nominated these four genes to function during hypersensitive response (HR) process, inferring that these genes could be associated with downy mildew resistance in grapes. Conclusions Our results provide the reference for functional studies of PLCP gene family, and highlight its functions in grapevine defense against P. viticola. The results help us to better understand the complexity of the PLCP gene family in plant immunity and provide valuable information for future functional characterization of specific genes in grapevine.

Published

2021

47. Kaempferol prevents angiogenesis of rat intestinal microvascular endothelial cells induced by LPS and TNF-α via inhibiting VEGF/Akt/p38 signaling pathways and maintaining gut-vascular barrier integrity

Author

Ruyang Yu, Jia Zhong, Qilyu Zhou, Wei Ren, Zhongjie Liu, and Yifei Bian

Subjects

Lipopolysaccharides, Vascular Endothelial Growth Factor A, Tight Junction Proteins, Plant Extracts, Tumor Necrosis Factor-alpha, Vascular Endothelial Growth Factors, Anti-Inflammatory Agents, Endothelial Cells, General Medicine, Hypoxia-Inducible Factor 1, alpha Subunit, Toxicology, p38 Mitogen-Activated Protein Kinases, Rats, Animals, Kaempferols, Proto-Oncogene Proteins c-akt, Signal Transduction

Abstract

Kaempferol is a major flavonoid found in natural plant extracts; it shows great potential in anti-inflammatory and anti-cancer medicine. However, the underlying mechanism of the protective action of kaempferol on the gut-vascular barrier (GVB) and the active sites preventing intestinal micro-angiogenesis has not been reported. The purpose of our study is to investigate the protective effect of kaempferol on the barrier damage induced by lipopolysaccharide (LPS) and tumor necrosis factor-alpha (TNF-α), and its mechanism of protective action on intestinal micro-angiogenesis. Our data showed that the combination of LPS and TNF-α activates the inflammatory response of the rat intestinal microvascular endothelial cells (RIMVECs), leading to overexpression of vascular endothelial growth factors (VEGFs). Also, the permeability of GVB and transepithelial electrical resistance (TEER) constructed by Transwell and the tubular structure of RIMVEC were significantly affected. Kaempferol (25, 50, and 100 μM) decreased the inflammatory factor secretion and GVB permeability, down-regulated the expression of VEGFs, p-Akt, and hypoxia-inducible factor-1alpha (HIF-1α). It also alleviated the abnormal expression of tight junction proteins (TJs). Moreover, kaempferol may prevents intestinal angiogenesis in the presence of Akt inhibitor (MK-2206 2HCl) by regulating tube formation and downstream signaling of the VEGF/Akt pathways. In addition, the wound healing test showed that kaempferol had a similar effect in the presence of p38 inhibitor (SB203580), which intuitively restrained the migration of RIMVECs and reduced the p38 MAPK signaling. Our results demonstrated that kaempferol exhibits significant anti-inflammatory effects in LPS and TNF-α induced inflammatory environments. Kaempferol prevents intestinal angiogenesis by impeding the tube formation and migration of RIMVECs. It also suppresses the expression of angiogenesis-related signals, thereby protecting the GVB.

Published

2022

48. Quercetin Protects RIMVECs From Inflammatory Damage, Pyroptosis and Cell Migration by Inhibiting the TLR4/NF-κB/NLRP3 Pathway

Author

Zhongjie Liu, Yeye Li, and Huixin Zhang

Subjects

chemistry.chemical_compound, Chemistry, Tlr4 nf κb, Pyroptosis, Cell migration, Quercetin, Cell biology

Abstract

Background: Intestinal mucosal microvascular endothelial cells (MEC) have multiple functions and play an important role in intestinal bowel diseases (IBD). Quercetin is a flavonoid found in many plants and fruits. It was reported that quercetin can treat several gastrointestinal cancers, but its effect on bacterial enteritis and pyroptosis-related diseases has been rarely studied. This article aims to explore the effect and mechanism of quercetin on inflammatory injury and pyroptosis of RIMVECs.Methods: The inflammatory damage and pyroptosis in RIMVECs were induced by LPS and ATP. Real-time quantitative polymerase chain reaction (RT-qPCR), western blot analysis, enzyme-linked immunosorbent assay (ELISA) and immunofluorescence methods were used to detect TLR4/NF-κB/NLRP3 pathways, inflammatory factors (IL-1β and IL-18) and pyroptosis-related proteins (Caspase-1 and GSDMD). The expression and distribution of ZO-1 were detected by western blot analysis and immunofluorescence method. The late apoptosis and necrosis of cells were measured by cell flow cytometry. Results: The results showed that different concentrations (5, 10, 20μM) of quercetin not only significantly reduced the protein and mRNA levels of TLR4, NLRP3, Caspase-1 and GSDMD, but also down-regulated the protein expression, mRNA and secretion of IL-1β and IL-18. Quercetin also inhibited the phosphorylation of NF-κB p65 and the degradation of IκB. At the same time, quercetin increased the cell migration rate and the expression level of ZO-1, and reduced the number of late apoptotic cells (PConclusions: Our data indicated that Quercetin reduced the inflammatory response and pyroptosis induced by LPS/ATP through the TLR4/NF-κB/NLRP3 pathway, and protected the migration and tight junctions of RIMVECs.

Published

2021

49. TB@PLGA Nanoparticles for Photodynamic/Photothermal Combined Cancer Therapy with Single Near-Infrared Irradiation

Author

Taya Tang, Lei Zhang, Yue Yang, Tianlong Liu, Bo Liu, Huihui Bao, Haiyan Wu, Zhaoping Liu, Zhongjie Liu, and Jijing Tian

Subjects

inorganic chemicals, Materials science, Biocompatibility, toluidine blue, medicine.medical_treatment, Biophysics, Pharmaceutical Science, Nanoparticle, Bioengineering, Photodynamic therapy, Photochemistry, Biomaterials, Glycols, chemistry.chemical_compound, In vivo, International Journal of Nanomedicine, Cell Line, Tumor, Neoplasms, Drug Discovery, medicine, Humans, Tolonium Chloride, Irradiation, Original Research, antitumor, Singlet oxygen, Organic Chemistry, Photothermal effect, technology, industry, and agriculture, General Medicine, Phototherapy, Photothermal therapy, Photochemotherapy, chemistry, 660 nm, Nanoparticles, single irradiation, therapeutics

Abstract

Yue Yang,1,* Taya Tang,1,* Bo Liu,1 Jijing Tian,1 Haiyan Wu,1 Zhongjie Liu,1 Zhaoping Liu,2 Lei Zhang,2 Huihui Bao,2 Tianlong Liu1 1Laboratory of Veterinary Pathology and Nanopathology, College of Veterinary Medicine, China Agricultural University, Beijing, People’s Republic of China; 2China National Center for Food Safety Risk Assessment, Beijing, People’s Republic of China*These authors contributed equally to this workCorrespondence: Tianlong LiuLaboratory of Veterinary Pathology and Nanopathology, College of Veterinary Medicine, China Agricultural University, No. 2 West Road Yuanmingyuan, Beijing, 100193, People’s Republic of ChinaTel/Fax +86 010 62732843Email liutianlong@cau.edu.cnHuihui BaoChina National Center for Food Safety Risk Assessment, No. 37, Guangqu Road, Chaoyang District, Beijing, 100022, People’s Republic of ChinaTel +86 010 52165564Fax +86 010 52165561Email baohuihui@cfsa.net.cnBackground: Phototherapy has significant potential as an effective treatment for cancer. However, the application of a multifunctional nanoplatform for photodynamic therapy (PDT) and photothermal therapy (PTT) at a single excitation wavelength remains a challenge.Materials and Methods: The double emulsion solvent evaporation method was used to prepare toluidine blue@poly lactic-co-glycolic acid (TB@PLGA) nanoparticles (NPs). The biocompatibility of TB@PLGA NPs was evaluated, and a 660 nm luminescence was used as the light source. The photothermal effect, photothermal stability, and singlet oxygen yield of NPs in an aqueous solution verified the feasibility of NPs as a PTT/PDT synergistic therapy drug.Results: TB@PLGA NPs were successfully prepared and characterized. In vitro experiments demonstrated that TB@PLGA NPs can cause massive necrosis of tumor cells and induce apoptosis through a photodynamic mechanism under 660 nm laser irradiation. The TB@PLGA NPs also achieved optimal tumor inhibition effect in vivo.Conclusion: The TB@PLGA NPs prepared in this study were applied as a dual-mode phototherapeutic agent under single laser irradiation. Both in vitro and in vivo experiments demonstrated the good potential of PTT/PDT for tumor inhibitors.Keywords: toluidine blue, single irradiation, antitumor, 660 nm, phototherapy

Published

2021

50. Toxicity, biodistribution and oxidative damage caused by zirconia nanoparticles after intravenous injection

Author

Tianlong Liu, Zhaoping Liu, Zhiwen Wang, Yue Yang, Xianwei Meng, Huihui Bao, Zhenning Sun, Qianqian Chai, Changhui Fu, and Zhongjie Liu

Subjects

medicine.medical_specialty, Biodistribution, Biophysics, Pharmaceutical Science, Bioengineering, Spleen, 02 engineering and technology, Pharmacology, 010402 general chemistry, 01 natural sciences, Biomaterials, In vivo, Internal medicine, White blood cell, Drug Discovery, medicine, Hematology, Chemistry, Organic Chemistry, Assay, General Medicine, 021001 nanoscience & nanotechnology, 0104 chemical sciences, medicine.anatomical_structure, Toxicity, Red pulp, 0210 nano-technology

Abstract

Background: As a promising nanomaterial for biomedical applications, zirconia nanoparticles (ZrO2) have aroused concern recently, but the toxicity of ZrO2 in vivo has received little attention. Purpose: The aim of this study is to demonstrate the systematic single dose toxicity, biodistribution and oxidative damage of ZrO2 in vivo after intravenous injection in mice. Materials and methods: Ten ICR mice were used at the high dose of ZrO2 including 600, 500, 400 and 300mg/kg. Maximum tolerated dose (MTD) of 150 nm ZrO2 was determined as 500mg/kg. Hematology analysis and blood biochemical assay were determined for the evaluation of oxidative damage caused by ZrO2. Biodistribution of ZrO2 was investigated by ICP-OES and TEM. Results: Mice treated with higher dose (500mg/kg) showed significant spread in white blood cell counts (p

Published

2019