Your search keyword '"Yanfeng Xue"' showing total 144 results

1. Effect of Different Slow-Release Urea on the Production Performance, Rumen Fermentation, and Blood Parameter of Angus Heifer

Author

Caiyun Fan, Hongguang Li, Shuaihong Li, Gang Zhong, Wenbin Jia, Zhao Zhuo, Yanfeng Xue, Anne F. Koontz, and Jianbo Cheng

Subjects

polymer-coated urea, gelatinized starch urea, heifers, rumen microbiota, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

This study investigated the effect of replacing part of the dietary soybean meal with either polymer-coated urea or gelatinized starch urea on the production performance, blood indexes, and ruminal fermentation of Angus heifers. A total of 210 purebred Angus cattle (BW = 314.26 kg) were divided into three groups: the no urea group (CON), the polymer-coated urea group (PCU), and the gelatinized starch urea group (GSU); 20 g/kg polymer-coated urea or 25 g/kg gelatinized starch urea was used to replace part of soybean meal in the concentrate feed, according to the principle of isometabolic energy and isonitrogenous. The result showed that the PCU group had higher ADG and ADF apparent digestibility, while it had a lower feed–weight ratio. On the 86th day, the serum albumin (ALB) content in the PCU group was significantly higher than that in the CON group. In rumen, compared with the CON group, the contents of acetic acid and total volatile fatty acid were significantly higher in the PCU group, whereas butyric acid and propionic acid were significantly higher in the PCU group and GSU group. Ruminal bacterial diversity analysis found that the abundance of Firmicutes was higher in the PCU group at the phylum level, and an inverse result was observed in Bacteroidetes. The abundance of Paraprevotella was higher in the PCU group, whereas higher abundance of Prevotella was found in the GSU group at the genus level. These results indicate that slow-release urea can replace part of soybean meal in the diet, and the amount of substitution in this trial had no diverse effect on the performance of Angus heifers.

Published

2024

2. Sex differences in paternal arsenic-induced intergenerational metabolic effects are mediated by estrogen

Author

Yanfeng Xue, Yingyun Gong, Xin Li, Fei Peng, Guolian Ding, Zhao Zhang, Junchao Shi, Ilma Saleh Savul, Yong Xu, Qi Chen, Leng Han, Shengyong Mao, and Zheng Sun

Subjects

Arsenic exposure, Environmental health, Glucose and lipid metabolism, Estrogen signaling pathway, Epigenetic inheritance, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Abstract Background Gene-environment interactions contribute to metabolic disorders such as diabetes and dyslipidemia. In addition to affecting metabolic homeostasis directly, drugs and environmental chemicals can cause persistent alterations in metabolic portfolios across generations in a sex-specific manner. Here, we use inorganic arsenic (iAs) as a prototype drug and chemical to dissect such sex differences. Methods After weaning, C57BL/6 WT male mice were treated with 250 ppb iAs in drinking water (iAsF0) or normal water (conF0) for 6 weeks and then bred with 15-week-old, non-exposed females for 3 days in cages with only normal water (without iAs), to generate iAsF1 or conF1 mice, respectively. F0 females and all F1 mice drank normal water without iAs all the time. Results We find that exposure of male mice to 250 ppb iAs leads to glucose intolerance and insulin resistance in F1 female offspring (iAsF1-F), with almost no change in blood lipid profiles. In contrast, F1 males (iAsF1-M) show lower liver and blood triglyceride levels than non-exposed control, with improved glucose tolerance and insulin sensitivity. The liver of F1 offspring shows sex-specific transcriptomic changes, with hepatocyte-autonomous alternations of metabolic fluxes in line with the sex-specific phenotypes. The iAsF1-F mice show altered levels of circulating estrogen and follicle-stimulating hormone. Ovariectomy or liver-specific knockout of estrogen receptor α/β made F1 females resemble F1 males in their metabolic responses to paternal iAs exposure. Conclusions These results demonstrate that disrupted reproductive hormone secretion in alliance with hepatic estrogen signaling accounts for the sex-specific intergenerational effects of paternal iAs exposure, which shed light on the sex disparities in long-term gene-environment interactions.

Published

2023

3. G0 arrest gene patterns to predict the prognosis and drug sensitivity of patients with lung adenocarcinoma.

Author

Yong Ma, Zhilong Li, Dongbing Li, Baozhen Zheng, and Yanfeng Xue

Subjects

Medicine, Science

Abstract

G0 arrest (G0A) is widely recognized as a crucial factor contributing to tumor relapse. The role of genes related to G0A in lung adenocarcinoma (LUAD) was unclear. This study aimed to develop a gene signature based on for LUAD patients and investigate its relationship with prognosis, tumor immune microenvironment, and therapeutic response in LUAD. We use the TCGA-LUAD database as the discovery cohort, focusing specifically on genes associated with the G0A pathway. We used various statistical methods, including Cox and lasso regression, to develop the model. We validated the model using bulk transcriptome and single-cell transcriptome datasets (GSE50081, GSE72094, GSE127465, GSE131907 and EMTAB6149). We used GSEA enrichment and the CIBERSORT algorithm to gain insight into the annotation of the signaling pathway and the characterization of the tumor microenvironment. We evaluated the response to immunotherapy, chemotherapy, and targeted therapy in these patients. The expression of six genes was validated in cell lines by quantitative real-time PCR (qRT-PCR). Our study successfully established a six-gene signature (CHCHD4, DUT, LARP1, PTTG1IP, RBM14, and WBP11) that demonstrated significant predictive power for overall survival in patients with LUAD. It demonstrated independent prognostic value in LUAD. To enhance clinical applicability, we developed a nomogram based on this gene signature, which showed high reliability in predicting patient outcomes. Furthermore, we observed a significant association between G0A-related risk and tumor microenvironment as well as drug susceptibility, highlighting the potential of the gene signature to guide personalized treatment strategies. The expression of six genes were significantly upregulated in the LUAD cell lines. This signature holds the potential to contribute to improved prognostic prediction and new personalized therapies specifically for LUAD patients.

Published

2024

4. Yaks Are Dependent on Gut Microbiota for Survival in the Environment of the Qinghai Tibet Plateau

Author

Runze Wang, Binqiang Bai, Yayu Huang, Allan Degen, Jiandui Mi, Yanfeng Xue, and Lizhuang Hao

Subjects

yak, microbial interactions, Qinghai–Tibetan plateau, Biology (General), QH301-705.5

Abstract

The yak (Poephagus grunniens) has evolved unique adaptations to survive the harsh environment of the Qinghai–Tibetan Plateau, while their gut microorganisms play a crucial role in maintaining the health of the animal. Gut microbes spread through the animal population not only by horizontal transmission but also vertically, which enhances microbial stability and inheritance between generations of the population. Homogenization of gut microbes in different animal species occurs in the same habitat, promoting interspecies coexistence. Using the yak as a model animal, this paper discusses the adaptive strategies under extreme environments, and how the gut microbes of the yak circulate throughout the Tibetan Plateau system, which not only affects other plateau animals such as plateau pikas, but can also have a profound impact on the health of people. By examining the relationships between yaks and their gut microbiota, this review offers new insights into the adaptation of yaks and their ecological niche on the Qinghai–Tibetan plateau.

Published

2024

5. Isorhamnetin inhibits inflammatory response to alleviate DHEA-induced polycystic ovary syndrome in rats

Author

Fei Yu, Yanfeng Xue, Yunyan Zhao, Long Zhang, Xiao He, and Zheng Liu

Subjects

Polycystic ovary syndrome, inflammatory response, TNF signaling pathway, apoptosis, Gynecology and obstetrics, RG1-991, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Objective To explore the role of isorhamnetin on polycystic ovary syndrome (PCOS) in rats.Methods Sprague Dawley (SD) rats were subcutaneously injected with dehydroepiandrosteron (DHEA) to establish PCOS model. Hematoxylin and eosin (H&E) staining and TdT-mediated dUTP Nick-End Labeling (TUNEL) were used to measure histological changes and apoptosis of ovary tissues. The levels of serum hormones and inflammatory factors in ovary tissues were measured by enzyme-linked immuno sorbent assay (ELISA).Results In DHEA-induced PCOS rats, the levels of serum glucose, insulin, testosterone and luteinizing hormone (LH) were enhanced, estradiol (E2), sex hormone-binding globulin (SHBG), follicle stimulating hormone (FSH) levels were decreased, inflammatory levels and apoptosis of ovary tissues were increased. Additionally, DHEA increased the body weight, ovary weight, and ovary volume, cystic follicles, and decreased corpus luteum. Moreover, the tumor necrosis factor (TNF) signaling pathway was activated in PCOS rats. The levels of TNF receptor superfamily member 1 A (TNFR1), TNF-α, and fas cell surface death feceptor (FAS) were enhanced in ovary tissues of DHEA induced PCOS rats. Isorhamnetin (ISO) treatment after DHEA modeling markedly reduced serum levels of glucose, insulin, testosterone and LH, increased E2, SHBG, FSH level, decreased inflammatory levels, and inhibited apoptosis and decreased body weight, ovary weight, and ovary volume. The levels of TNFR1, TNF-α, and FAS were markedly decreased after ISO treatment in PCOS rats. Additionally, ISO alone had no significant effect on rats.Conclusion Isorhamnetin inhibits inflammatory response to alleviate DHEA-induced PCOS in rats by inactivating the TNF signaling pathway.

Published

2023

6. Undernutrition-induced substance metabolism and energy production disorders affected the structure and function of the pituitary gland in a pregnant sheep model

Author

Shuai Liu, Huizhen Lu, Shengyong Mao, Zijun Zhang, Wen Zhu, Jianbo Cheng, and Yanfeng Xue

Subjects

substance transport and metabolism, energy production, cytoskeleton, immune response, pituitary, Nutrition. Foods and food supply, TX341-641

Abstract

IntroductionUndernutrition spontaneously occurs in ewes during late gestation and the pituitary is an important hinge in the neurohumoral regulatory system. However, little is known about the effect of undernutrition on pituitary metabolism.MethodsHere, 10 multiparous ewes were restricted to a 30% feeding level during late gestation to establish an undernutrition model while another 10 ewes were fed normally as controls. All the ewes were sacrificed, and pituitary samples were collected to perform transcriptome, metabolome, and quantitative real-time PCR analysis and investigate the metabolic changes.ResultsPCA and PLS-DA of total genes showed that undernutrition changed the total transcriptome profile of the pituitary gland, and 581 differentially expressed genes (DEGs) were identified between the two groups. Clusters of orthologous groups for eukaryotic complete genomes demonstrated that substance transport and metabolism, including lipids, carbohydrates, and amino acids, energy production and conversion, ribosomal structure and biogenesis, and the cytoskeleton were enriched by DEGs. Kyoto encyclopedia of genes and genomes pathway enrichment analysis displayed that the phagosome, intestinal immune network, and oxidative phosphorylation were enriched by DEGs. Further analysis found that undernutrition enhanced the lipid degradation and amino acid transport, repressing lipid synthesis and transport and amino acid degradation of the pituitary gland. Moreover, the general metabolic profiles and metabolic pathways were affected by undernutrition, repressing the 60S, 40S, 28S, and 39S subunits of the ribosomal structure for translation and myosin and actin synthesis for cytoskeleton. Undernutrition was found also to be implicated in the suppression of oxidative phosphorylation for energy production and conversion into a downregulation of genes related to T cell function and the immune response and an upregulation of genes involved in inflammatory reactions enriching phagosomes.DiscussionThis study comprehensively analyses the effect of undernutrition on the pituitary gland in a pregnant sheep model, which provides a foundation for further research into the mechanisms of undernutrition-caused hormone secretion and metabolic disorders.

Published

2023

7. Butylparaben weakens female fertility via causing oocyte meiotic arrest and fertilization failure in mice

Author

Yunhai Zhang, Lei Sun, Dandan Zhang, Yang Gao, Huijie Ma, Yanfeng Xue, and Mianqun Zhang

Subjects

Butylparaben, Female fertility, Meiotic defects, Fertilization failure, ROS, Mitochondrial dysfunction, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Butylparaben is an ubiquitous environmental endocrine disruptor, that is commonly used in cosmetics and personal care product due to its anti-microbial properties. Butylparaben has been shown to cause developmental toxicity, endocrine and metabolic disorders and immune diseases. However, little is known about the impact on female fertility, especially oocyte quality. In the present study, we reported that butylparaben influenced female fertility by showing the disturbed oocyte meiotic capacity and fertilization potential. Specifically, butylparaben results in the oocyte maturation arrest by impairing spindle/chromosome structure and microtubule stability. Besides, butylparaben results in fertilization failure by impairing the dynamics of Juno and ovastacin and the sperm binding ability. Last, single-cell transcriptome analysis showed that butylparaben-induced oocyte deterioration was caused by mitochondrial dysfunction, which led to the accumulation of ROS and occurrence of apoptosis. Collectively, our study indicates that mitochondrial dysfunction and redox perturbation is the major cause of the weakened female fertility expoesd to butylparaben.

Published

2023

8. Effects of sources and levels of dietary supplementary manganese on growing yak’s in vitro rumen fermentation

Author

Huizhen Lu, Pengpeng Liu, Shujie Liu, Xinsheng Zhao, Binqiang Bai, Jianbo Cheng, Zijun Zhang, Cai Sun, Lizhuang Hao, and Yanfeng Xue

Subjects

manganese, rumen fermentation in vitro, digestive enzyme activities, volatile fatty acids, microbial protein, Veterinary medicine, SF600-1100

Abstract

IntroductionManganese (Mn) is an essential trace element for livestock, but little is known about the optimal Mn source and level for yak.MethodsTo improve yak’s feeding standards, a 48-h in vitro study was designed to examine the effect of supplementary Mn sources including Mn sulfate (MnSO4), Mn chloride (MnCl2), and Mn methionine (Met-Mn) at five Mn levels, namely 35 mg/kg, 40 mg/kg, 50 mg/kg, 60 mg/kg, and 70 mg/kg dry matter (includes Mn in substrates), on yak’s rumen fermentation.ResultsResults showed that Met-Mn groups showed higher acetate (p < 0.05), propionate, total volatile fatty acids (p < 0.05) levels, ammonia nitrogen concentration (p < 0.05), dry matter digestibility (DMD), and amylase activities (p < 0.05) compared to MnSO4 and MnCl2 groups. DMD (p < 0.05), amylase activities, and trypsin activities (p < 0.05) all increased firstly and then decreased with the increase of Mn level and reached high values at 40–50 mg/kg Mn levels. Cellulase activities showed high values (p < 0.05) at 50–70 mg/kg Mn levels. Microbial protein contents (p < 0.05) and lipase activities of Mn-Met groups were higher than those of MnSO4 and MnCl2 groups at 40–50 mg/kg Mn levels.DiscussionTherefore, Mn-met was the best Mn source, and 40 to 50 mg/kg was the best Mn level for rumen fermentation of yaks.

Published

2023

9. Responsive changes of rumen microbiome and metabolome in dairy cows with different susceptibility to subacute ruminal acidosis

Author

Tao Zhang, Yingyu Mu, Ruiyang Zhang, Yanfeng Xue, Changzheng Guo, Wangpan Qi, Jiyou Zhang, and Shengyong Mao

Subjects

Subacute ruminal acidosis, Microbiome, Metabolome, Dairy cow, Animal culture, SF1-1100

Abstract

Subacute ruminal acidosis (SARA) represents one of the most important digestive disorders in intensive dairy farms, and dairy cows are individually different in the severity of SARA risk. The objectives of the current study were to investigate differences in the ruminal bacterial community and metabolome in dairy cattle with different susceptibility to SARA. In the present study, 12 cows were initially enrolled in the experiment. Based on average ruminal pH, 4 cows with the lowest ruminal pH were assigned to the susceptible group (SUS, pH = 5.76, n = 4) and 4 cows with the highest ruminal pH assigned to the tolerant group (TOL, pH = 6.10, n = 4). Rumen contents from susceptible (SUS, n = 4) and tolerant (TOL, n = 4) dairy cows were collected through rumen fistula to systematically reveal the rumen microbial and metabolic alterations of dairy cows with different susceptibility to SARA using multi-omics approaches (16S and 18S rRNA gene sequencing and metabolome). The results showed that despite being fed the same diet, SUS cows had lower ruminal pH and higher concentrations of total volatile fatty acids (VFA) and propionate than TOL cows (P 0.05). The principal coordinates analysis based on the analysis of molecular variance indicated a significant difference in bacterial composition between the two groups (P = 0.01). More specifically, the relative abundance of starch-degrading bacteria (Prevotella spp.) was greater (P 0.05). Metabolomics analysis revealed that the concentrations of organic acids (such as lactic acid), biogenic amines (such as histamine), and bacterial degradation products (such as hypoxanthine) were significantly higher in the SUS group compared to the TOL group (P

Published

2022

10. Effects of Diets Containing Different Levels of Copper, Manganese, and Iodine on Rumen Fermentation, Blood Parameters, and Growth Performance of Yaks

Author

Huizhen Lu, Weibin Wu, Xinsheng Zhao, Musaddiq Wada Abbas, Shujie Liu, Lizhuang Hao, and Yanfeng Xue

Subjects

yak, trace element, growth performance, rumen fermentation, blood index, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Copper, manganese, and iodine are part of a yak’s required trace elements. However, knowledge about their dietary requirements is scarce. Therefore, an experiment was conducted to evaluate rumen fermentation, blood parameters, and growth performance and screen out the optimum levels of trace elements in yaks’ diet. Here, 18 three-year-old castrated yaks were randomly divided into four groups, which fed with diets containing basal (CON: 4.40, 33.82, and 0 mg/kg) and low-level (LL: 10.00, 40.00, and 0.30 mg/kg), middle-level (ML: 15.00, 50.00, and 0.50 mg/kg), and high-level (HL: 20.00, 60.00, and 0.70 mg/kg) copper, manganese, and iodine for 30 days. With the increase in trace elements, yaks’ daily weight gain (DWG), rumen pH, ammonia nitrogen, microbial protein (MCP), and volatile fatty acids levels and serum triglycerides and urea nitrogen levels showed firstly increasing and then decreasing trends and reached the highest values in ML, and serum ceruloplasmin and total superoxide dismutase (T-SOD) activities showed continuously increasing trends. Yaks’ DWG, rumen MCP, butyrate, and valerate levels and serum triglycerides, urea nitrogen, ceruloplasmin, and T-SOD levels in ML were significantly higher than CON. Therefore, the recommended levels of copper, manganese, and iodine in growing yaks’ diet are 15.00, 50.00, and 0.50 mg/kg (ML), respectively.

Published

2023

11. Graphs with Strong Proper Connection Numbers and Large Cliques

Author

Yingbin Ma, Xiaoxue Zhang, and Yanfeng Xue

Subjects

edge-coloring, proper connection number, strong proper connection number, rainbow connection number, clique number, Mathematics, QA1-939

Abstract

In this paper, we mainly investigate graphs with a small (strong) proper connection number and a large clique number. First, we discuss the (strong) proper connection number of a graph G of order n and ω(G)=n−i for 1⩽i⩽3. Next, we investigate the rainbow connection number of a graph G of order n, diam(G)≥3 and ω(G)=n−i for 2⩽i⩽3.

Published

2023

12. Disruption of ruminal homeostasis by malnutrition involved in systemic ruminal microbiota-host interactions in a pregnant sheep model

Author

Yanfeng Xue, Limei Lin, Fan Hu, Weiyun Zhu, and Shengyong Mao

Subjects

Ruminal homeostasis, Ruminal microbiota and epithelium, Energy metabolism, Signal transduction, Severe feed restriction, Microbial ecology, QR100-130

Abstract

Abstract Background Undernutrition is a prevalent and spontaneous condition in animal production which always affects microbiota-host interaction in gastrointestinal tract. However, how undernutrition affects crosstalk homeostasis is largely unknown. Here, we discover how undernutrition affects microbial profiles and subsequently how microbial metabolism affects the signal transduction and tissue renewal in ruminal epithelium, clarifying the detrimental effect of undernutrition on ruminal homeostasis in a pregnant sheep model. Results Sixteen pregnant ewes (115 days of gestation) were randomly and equally assigned to the control (CON) and severe feed restriction (SFR) groups. Ewes on SFR treatment were restricted to a 30% level of ad libitum feed intake while the controls were fed normally. After 15 days, all ewes were slaughtered to collect ruminal digesta for 16S rRNA gene and metagenomic sequencing and ruminal epithelium for transcriptome sequencing. Results showed that SFR diminished the levels of ruminal volatile fatty acids and microbial proteins and repressed the length, width, and surface area of ruminal papillae. The 16S rRNA gene analysis indicated that SFR altered the relative abundance of ruminal bacterial community, showing decreased bacteria about saccharide degradation (Saccharofermentans and Ruminococcus) and propionate genesis (Succiniclasticum) but increased butyrate producers (Pseudobutyrivibrio and Papillibacter). Metagenome analysis displayed that genes related to amino acid metabolism, acetate genesis, and succinate-pathway propionate production were downregulated upon SFR, while genes involved in butyrate and methane genesis and acrylate-pathway propionate production were upregulated. Transcriptome and real-time PCR analysis of ruminal epithelium showed that downregulated collagen synthesis upon SFR lowered extracellular matrix-receptor interaction, inactivated JAK3-STAT2 signaling pathway, and inhibited DNA replication and cell cycle. Conclusions Generally, undernutrition altered rumen bacterial community and function profile to decrease ruminal energy retention, promoted epithelial glucose and fatty acid catabolism to elevate energy supply, and inhibited the proliferation of ruminal epithelial cells. These findings provide the first insight into the systemic microbiota-host interactions that are involved in disrupting the ruminal homeostasis under a malnutrition pattern. Video Abstract

Published

2020

13. Effect of Source and Level of Dietary Supplementary Copper on In Vitro Rumen Fermentation in Growing Yaks

Author

Xinsheng Zhao, Lizhuang Hao, Yanfeng Xue, Allan Degen, and Shujie Liu

Subjects

yak, copper source, copper level, in vitro gas production technique, rumen fermentation, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

Copper (Cu) is essential for the health of livestock, however, the optimal source and level of dietary Cu for yaks are uncertain. To fill this important gap, we designed an in vitro study to examine the effects of three Cu sources, namely Cu methionine (Met-Cu), Cu chloride (CuCl2) and tribasic Cu chloride (TBCC), at five levels, namely 5, 10, 15, 20 and 25 mg/kg DM (includes Cu in substrate), on rumen fermentation in yaks. In vitro dry matter degradability (IVDMD) and amylase activity were greater (p < 0.05) with added Met-Cu than the other two Cu sources, and ammonia nitrogen (NH3-N), microbial protein (MCP) and propionate contents were greater with Met-Cu and CuCl2 than with TBCC. Total gas production and lipase activity were greater with Met-Cu and TBCC than CuCl2 (p < 0.05), which meant that the metabolizable energy yield was greater in the two former Cu sources than the latter, but CH4 production did not differ (p = 0.92) among Cu sources. IVDMD and lipase activity were greatest (p < 0.05) at 15 mg Cu/kg DM in the substrate and MCP, isobutyrate, butyrate and isovalerate contents, and amylase and trypsin activities were greatest or second greatest at 10 and 15 mg Cu/kg DM. It was concluded that Met-Cu was the best source of Cu and 10 to 15 mg Cu/kg DM was the optimal level for yaks, at least under in vitro conditions.

Published

2022

14. Mixed Fermentation of Lactiplantibacillus plantarum and Bacillus licheniformis Changed the Chemical Composition, Bacterial Community, and Rumen Degradation Rate of Tea Residue

Author

Xiaoyun Huang, Yinying Xu, Xinyan Wu, Yuhang Ding, Caiyun Fan, Yanfeng Xue, Zhao Zhuo, and Jianbo Cheng

Subjects

tea residue, Lactiplantibacillus plantarum, Bacillus licheniformis, fermentation, bacterial community, rumen degradation, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

Tea residue, as a byproduct in tea processing, is highly nutritious and can be used as a good raw material for ruminant feed. This study aimed to investigate the effects of Lactiplantibacillus plantarum (L. plantarum) and Bacillus licheniformis (B. licheniformis) mixed fermentation of tea residue mixture (tea residue:wheat bran, 7:3) on chemical composition, bacterial community, and rumen degradation rate. Changes in chemical composition and bacterial community were evaluated after 0 (F0), 1 (F1), 3 (F3), and 5 (F5) days of fermentation. The rumen degradation rate was studied by the in situ nylon bag method. Compared with group F0, acid soluble protein in other groups increased while pH and neutral detergent fiber decreased (p < 0.05). The group F5 was the best. The diversity of bacterial communities in group F0 was significantly lower than those in the other groups (p < 0.05). The relative abundance of phylum Firmicutes and the genus Lactobacillus increased with increasing fermentation time. The rumen degradation rates of dry matter, crude protein, neutral detergent fiber, and acid detergent fiber were increased after fermentation. In conclusion, mixed fermentation of tea residue by L. plantarum and B. licheniformis can ameliorate chemical composition, reduce bacterial community diversity, and improve the rumen degradation rate.

Published

2022

15. Inter‐ and Transgenerational Effects of Paternal Exposure to Inorganic Arsenic

Author

Yingyun Gong, Yanfeng Xue, Xin Li, Zhao Zhang, Wenjun Zhou, Paola Marcolongo, Angiolo Benedetti, Shengyong Mao, Leng Han, Guolian Ding, and Zheng Sun

Subjects

arsenic, diabetes, environmental health, epigenetic inheritance, metabolism, obesity, Science

Abstract

Abstract The rise of metabolic disorders in modern times is mainly attributed to the environment. However, heritable effects of environmental chemicals on mammalian offsprings' metabolic health are unclear. Inorganic arsenic (iAs) is the top chemical on the Agency for Toxic Substances and Disease Registry priority list of hazardous substances. Here, we assess cross‐generational effects of iAs in an exclusive male‐lineage transmission paradigm. The exposure of male mice to 250 ppb iAs causes glucose intolerance and hepatic insulin resistance in F1 females, but not males, without affecting body weight. Hepatic expression of glucose metabolic genes, glucose output, and insulin signaling are disrupted in F1 females. Inhibition of the glucose 6‐phosphatase complex masks the intergenerational effect of iAs, demonstrating a causative role of hepatic glucose production. F2 offspring from grandpaternal iAs exposure show temporary growth retardation at an early age, which diminishes in adults. However, reduced adiposity persists into middle age and is associated with altered gut microbiome and increased brown adipose thermogenesis. In contrast, F3 offspring of the male‐lineage iAs exposure show increased adiposity, especially on a high‐calorie diet. These findings have unveiled sex‐ and generation‐specific heritable effects of iAs on metabolic physiology, which has broad implications in understanding gene‐environment interactions.

Published

2021

16. Comprehensive Understanding of the Bacterial Populations and Metabolites Profile of Fermented Feed by 16S rRNA Gene Sequencing and Liquid Chromatography–Mass Spectrometry

Author

Wei Jin, Zheng Zhang, Kun Zhu, Yanfeng Xue, Fei Xie, and Shengyong Mao

Subjects

fermented feed, bacterial population, small molecular metabolites, lactobacillus salivarius, bacillus subtilis, saccharomyces cerevisiae, Microbiology, QR1-502

Abstract

The comprehensive bacterial populations and metabolites profile in fermented feed is unclear, which may have significant effects on the stability of fermented feed quality and animal gut health. In this study, 16S rRNA gene sequencing and liquid chromatography−mass spectrometry were used to explore the bacterial populations and metabolites profile in the fermented feed incubated with probiotics (MF) or without probiotics (SF). The probiotics were a combination of Lactobacillus salivarius, Bacillus subtilis, and Saccharomyces cerevisiae. The pH and lactic acid levels were higher in MF than in SF (P < 0.05), while the total volatile fatty acid content was lower (P < 0.05). Interestingly, after fermentation, the most abundant bacterial genus in MF was Enterococcus, rather than the added probiotics Lactobacillus or Bacillus. Weissella and a few potential pathogens (Enterobacter, Escherichia-Shigella, and Pantoea) were dominant in SF (P < 0.05). Metabolomics analysis identified 32 different metabolites in the two types of fermented feed. These metabolites enriched in MF, such as maleic acid, phenylacetic acid, ethyl linoleate, dihomo-gamma-linolenic acid, and L-theanine had potential antimicrobial activities. Conclusively, the addition of probiotics enriched a few potentially beneficial microbes and small molecular compounds with antimicrobial activities, and inhibited the potential pathogens in fermented feed.

Published

2019

17. Dynamic Changes of Plasma Metabolome in Response to Severe Feed Restriction in Pregnant Ewes

Author

Changzheng Guo, Yanfeng Xue, Hossam-eldin Seddik, Yuyang Yin, Fan Hu, and Shengyong Mao

Subjects

dynamic changes, HPLC-MS, severe feed restriction, pregnant ewes, ketone bodies, Microbiology, QR1-502

Abstract

Maternal metabolic disorders in ewes induced by energy deficiency have a detrimental effect on the maternal health and lambs. However, the dynamic processes of metabolic disorders are unknown. Therefore, this study attempted to explore the dynamic changes of maternal metabolism based on metabolomics approach during energy deficiency in pregnant ewes. Twenty pregnant Hu sheep were fed a basic diet or a 70% restricted basic diet. The HPLC-MS platform was applied to identify blood metabolites. Principal component analysis of blood samples based on their metabolic profile showed that blood samples of feed restriction group differed after the treatment. In particular, when comparing both groups, there were 120, 129, and 114 differential metabolites at day 5, day 10, and day 114 between the two groups, respectively. Enrichment analysis results showed that four metabolic pathways (glycerophospholipid metabolism, linoleic acid metabolism, arginine and proline metabolism, and aminoacyl-tRNA biosynthesis) at day 5, four metabolic pathways (aminoacyl-tRNA biosynthesis, aminoacyl-tRNA biosynthesis, glycerophospholipid metabolism, and citrate cycle) at day 10, and nine metabolic pathways (aminoacyl-tRNA biosynthesis, synthesis and degradation of ketone bodies, glycerophospholipid metabolism, butanoate metabolism, linoleic acid metabolism, citrate cycle, alanine, aspartate and glutamate metabolism, valine, leucine and isoleucine biosynthesis, and arginine and proline metabolism) at day 15 were significantly enriched between the two groups. These findings revealed temporal changes of metabolic disorders in pregnant ewes caused by severe feed restriction, which may provide insights into mitigation measures.

Published

2019

18. Hepatic Metabolic Profile Reveals the Adaptive Mechanisms of Ewes to Severe Undernutrition during Late Gestation

Author

Yanfeng Xue, Changzheng Guo, Fan Hu, Junhua Liu, and Shengyong Mao

Subjects

undernutrition, adaptive mechanisms, lipid metabolism, fatty acid, amino acid, Microbiology, QR1-502

Abstract

The mechanisms underlying the adaption of liver metabolism to the undernutrition in ewes during late gestation remain unclear. This research aimed to explore the adaptive mechanisms of liver metabolism by hepatic metabolome analysis in pregnant ewes to the negative energy balance induced by severe feed restriction. Twenty ewes carrying multiple fetuses and gestating for 115 days were fed normally or restricted to a 30% feed level (10 ewes in each group) for 15 days. All ewes were sacrificed and hepatic samples were collected and analyzed by liquid chromatography-mass spectrometry. Both the principal components analysis and partial least squares of discriminant analysis of hepatic metabolites showed the clear separation between ewes in the control and severely feed-restricted groups. The metabolic profile demonstrated that the proportions of differential metabolites between the two groups in fatty acids and lipids, organic acids, and amino acids and derivatives were 61.11%, 16.67%, and 11.11%, respectively. Enriched pathways of differential metabolites were mainly involved in fatty acids and amino acids metabolism and biosynthesis. Correlation networks of differential metabolites revealed that general metabolic pattern was changed apparently and mainly based on fatty acids and lipids in the livers of feed-restricted ewes. The accumulation and oxidation of long-chain fatty acids were intensified in the livers of feed-restricted ewes, while those of medium-chain fatty acids were the opposite. In general, severe feed restriction significantly affected the levels of hepatic metabolites and altered the overall metabolic pattern. Furthermore, fatty acids oxidation as well as the utilization of amino acids and organic acids were intensified to adapt to the negative energy balance during late gestation.

Published

2018

19. A Data-centric graph neural network for node classification of heterophilic networks.

Author

Yanfeng Xue, Zhen Jin 0001, and Wenlian Gao

Published

2024

20. Ca(2+) efflux is involved in cinnamaldehyde-induced growth inhibition of Phytophthora capsici.

Author

Liangbin Hu, Dede Wang, Li Liu, Jian Chen, Yanfeng Xue, and Zhiqi Shi

Subjects

Medicine, Science

Abstract

As a destructive fungus-like plant pathogen, the oomycete Phytophthoracapsici is unable to synthesize its own ergosterol as the potential target of fungicide cinnamaldehyde (CA). In this study, CA exerted efficient inhibitory effects on both mycelial growth (EC50=0.75 mM) and zoospore germination (MIC=0.4 mM) of P. capsici. CA-induced immediate Ca(2+) efflux from zoospores could be confirmed by the rapid decrease in intracellular Ca(2+) content determined by using Fluo-3 AM and the increase in extracellular Ca(2+) concentration determined by using ICP-AES (inductively coupled plasma atomic emission spectrometry). Blocking Ca(2+) influx with ruthenium red and verapamil led to a higher level of CA-induced Ca(2+) efflux, suggesting the simultaneous occurrence of Ca(2+) influx along with the Ca(2+) efflux under CA exposure. Further results showed that EGTA-induced decrease in intracellular Ca(2+) gave rise to the impaired vitality of P. capsici while the addition of exogenous Ca(2+) could suppress the growth inhibitory effect of CA. These results suggested that Ca(2+) efflux played an important role in CA-induced growth inhibition of P. capsici. The application of 3-phenyl-1-propanal, a CA analog without α,β- unsaturated bond, resulted in a marked Ca(2+) influx in zoospores but did not show any growth inhibitory effects. In addition, exogenous cysteine, an antagonist against the Michael addition (the nucleophilic addition of a carbanion or another nucleophile) between CA and its targets, could attenuate CA-induced growth inhibition of P. capsici by suppressing Ca(2+) efflux. Our results suggest that CA inhibits the growth of P. capsici by stimulating a transient Ca(2+) efflux via Michael addition, which provides important new insights into the antimicrobial action of CA.

Published

2013

21. Cinnamaldehyde Ameliorates Cadmium-Inhibited Root Elongation in Tobacco Seedlings via Decreasing Endogenous Hydrogen Sulfide Production

Author

Xie-Feng Ye, Yanfeng Xue, Tianxiao Ling, Yong Wang, Xiao-Na Yu, Changxin Cheng, Guosheng Feng, Liangbin Hu, Zhiqi Shi, and Jian Chen

Subjects

cinnamaldehyde, hydrogen sulfide, reactive oxygen species, cell death, cadmium, tobacco, Organic chemistry, QD241-441

Abstract

Cinnamaldehyde (CA) is natural plant-derived compound that has been highly appreciated for its medicinal properties. However, little information is known about the regulation of plant intrinsic physiology by CA. To address these gaps, physiological, histochemical, and biochemical approaches were applied to investigate CA-facilitated cadmium (Cd) tolerance in the roots of tobacco (Nicotiana tabacum) seedlings. Treatment with CdCl2 at 20 μM for 72 h resulted in the significant decrease in root elongation by 40.39% as compared to control. CA alleviated Cd-inhibited root elongation in dose- and time-dependent manners. The addition of CA at 20 μM induced significant increase in root elongation by 42.58% as compared to Cd treatment alone. CA abolished Cd-induced ROS (reactive oxygen species) accumulation, lipid peroxidation, loss of membrane integrity, cell death, and free Cd2+ accumulation in roots. CA blocked the Cd-induced increase in the endogenous H2S level through the down-regulation of d-cysteine desulfhydrase (DCD) expression. H2S scavenger hypotaurine (HT) or potent H2S-biosynthetic inhibitor dl-propargylglicine (PAG) were able mimic the action of CA on the blockade of Cd-induced H2S accumulation, cell death, and growth inhibition. Enhancement of the endogenous H2S level with NaHS (H2S donor) abrogated all the beneficial capabilities of CA, HT, and PAG. Collectively, these results suggest that CA has great potential to confer plant tolerance against Cd stress, which is closely associated with its capability to inhibit Cd-induced H2S production. This study not only provides evidences for the regulation of plant physiology by CA but also sheds new light on the cross-talk between CA and H2S in physiological modulations.

Published

2016

22. Thymol Mitigates Cadmium Stress by Regulating Glutathione Levels and Reactive Oxygen Species Homeostasis in Tobacco Seedlings

Author

Xiefeng Ye, Tianxiao Ling, Yanfeng Xue, Cunfa Xu, Wei Zhou, Liangbin Hu, Jian Chen, and Zhiqi Shi

Subjects

thymol, reactive oxygen species, cell death, glutathione, cadmium, tobacco, Organic chemistry, QD241-441

Abstract

Thymol is a famous plant-derived compound that has been widely used in pharmacy due to its antioxidant and antimicrobial properties. However, the modulation of intrinsic plant physiology by thymol remains unclear. It is a significant challenge to confer plant tolerance to Cd (cadmium) stress. In the present study physiological, histochemical, and biochemical methods were applied to investigate thymol-induced Cd tolerance in tobacco (Nicotiana tabacum) seedlings. Thymol was able to alleviate Cd-induced growth inhibition of tobacco seedlings in both dose- and time-dependent manners. Both histochemical detection and in-tube assays suggested that thymol treatment blocked Cd-induced over-generation of reactive oxygen species (ROS), lipid peroxidation, and loss of membrane integrity in both leaves and roots. Thymol decreased Cd-induced cell death that was indicated in vivo by propidium iodide (PI) and trypan blue, respectively. Thymol stimulated glutathione (GSH) biosynthesis by upregulating the expression of γ-glutamylcysteine synthetase 1 (GSH1) in Cd-treated seedlings, which may contribute to the alleviation of Cd-induced oxidative injury. In situ fluorescent detection of intracellular Cd2+ revealed that thymol significantly decreased free Cd2+ in roots, which could be explained by the thymol-stimulated GSH biosynthesis and upregulation of the expression of phyochelatin synthase 1 (PCS1). Taken together, these results suggested that thymol has great potential to trigger plant resistant responses to combat heavy metal toxicity, which may help our understanding of the mechanism for thymol-modulated cell metabolic pathways in response to environmental stimuli.

Published

2016

23. Research on Improved YOLOv7 Based Vehicle Speed and Traffic Flow Detection System.

Author

An Ping, Yanfeng Xue, Bohao Yao, Shihao Xiao, Xiang Zhang, and Liming Li

Published

2023

24. A novel message passing neural network based on neighborhood expansion.

Author

Yanfeng Xue, Zhen Jin 0001, and Timothy Apasiba Abeo

Published

2023

25. Proper (Strong) Rainbow Connection and Proper (Strong) Rainbow Vertex Connection of Some Special Graphs.

Author

Yingbin Ma, Yanfeng Xue, and Xiaoxue Zhang

Published

2023

26. A multi-level thresholding image segmentation method using hybrid Arithmetic Optimization and Harris Hawks Optimizer algorithms.

Author

Li Qiao, Kai Liu, Yanfeng Xue, Weidong Tang, and Taybeh Salehnia

Published

2024

27. Enhancing thermoelectric properties of p-type (Bi,Sb)2Te3 via porous structures

Author

Hao Zhao, Baoyin Xu, Zhanhui Ding, Yanfeng Xue, Jing Yang, Wei Zhao, Yongfeng Li, Bin Yao, Hongdong Li, and Yucheng Lan

Subjects

Process Chemistry and Technology, Materials Chemistry, Ceramics and Composites, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Published

2023

28. A novel message passing neural network based on neighborhood expansion

Author

Yanfeng Xue, Zhen Jin, and Abeo Timothy Apasiba

Subjects

Artificial Intelligence, Computer Vision and Pattern Recognition, Software

Abstract

Most message passing neural networks (MPNNs) are widely used for assortative network representation learning under the assumption of homophily between connected nodes. However, this fundamental assumption is inconsistent with the heterophily of disassortative networks (DNs) in many real-world applications. Therefore, we propose a novel MPNN called NEDA based on neighborhood expansion for disassortative network representation learning (DNRL). Specifically, our NEDA first performs neighborhood expansion to seek more informative nodes for aggregation and then performs data augmentation to speed up the optimization process of a set of parameter matrices at the maximum available training data with minimal computational cost. To evaluate the performance of NEDA comprehensively, we perform several experiments on benchmark disassortative network datasets with variable sizes, where the results demonstrate the effectiveness of our NEDA model. The code is publicly available at https://github.com/xueyanfeng/NEDA.

Published

2022

29. Zeolite Preparation Coupled with Alkali Recovery from Catalytic Gasification Ash by One-Step Hydrothermal Treatment

Author

Yangang Mei, Qian Zhang, Songping Gao, Yanfeng Xue, and Zhiqing Wang

Subjects

Fuel Technology, General Chemical Engineering, Energy Engineering and Power Technology

Published

2023

30. Undernutrition Disrupts Cecal Microbiota and Epithelium Interactions, Epithelial Metabolism, and Immune Responses in a Pregnant Sheep Model

Author

Weibin Wu, Huizhen Lu, Jianbo Cheng, Zhaoyu Geng, Shengyong Mao, and Yanfeng Xue

Subjects

Microbiology (medical), Infectious Diseases, General Immunology and Microbiology, Ecology, Physiology, Genetics, Cell Biology

Abstract

Undernutrition is commonly encountered in ruminant production, especially during pregnancy and lactation in females. Undernutrition not only induces metabolic diseases and threatens pregnant mothers’ health, but also inhibits fetal growth and development, leading to weakness or even death of fetuses.

Published

2023

31. Livin promotes Th2-type immune response in airway allergic diseases

Author

Yue Wang, Zhiyu Xiang, Miaomiao An, Huijing Jia, Chunyan Bu, Yanfeng Xue, Yao Wei, Ruiying Li, Xueping Qi, Fengli Cheng, Changqing Zhao, Jinmei Xue, and Pingchang Yang

Subjects

Disease Models, Animal, Mice, Th2 Cells, Immunology, Hypersensitivity, Immunity, Respiratory Hypersensitivity, Animals, Cytokines, GATA3 Transcription Factor, Interleukin-4, RNA, Messenger, Inhibitor of Apoptosis Proteins

Abstract

Objectives To investigate the effects of livin on the Th2 immune response in airway allergic diseases (AAD) and explore the interaction among livin, GATA3, IL-4 in peripheral blood CD4+ T cells of AAD patients. Methods WT mice and livin KO mice were developed for model of AAD. Th2 cell levels in the lung tissues and spleen were assessed by flow cytometry. Also, it was assessed in the culture after exposing to livin inhibitor (Lp-15); the protein and mRNA levels of livin, GATA3 and IL-4 in peripheral blood CD4+ T cells isolated from patients with or without AAD were measured by real-time quantitative polymerase chain reaction (RT-qPCR) and Western blotting, respectively. Finally, Co-immunoprecipitation (Co-IP) was employed to identify the interaction between livin and GATA3. Results Compared with WT mouse, Th2 cell frequency in lung tissues and spleen was significantly decreased in livin KO mouse; after adding Lp-15, the differentiation from Naive CD4+T cells in spleen to Th2 cells was blocked; the protein and mRNA levels of livin, GATA3 and IL-4 in AAD group were higher than that in control group. The levels of livin were positively correlated with IL-4, and GATA3 was also positively correlated with IL-4 and livin. GATA3 was detected in the protein complex co-precipitated with livin antibody, and livin was also detected in the protein complex co-precipitated by GATA3 antibody. Conclusion Livin increases the expression of IL-4 and facilitates naive CD4+ T cells to differentiate into Th2 cells, which triggers airway allergy.

Published

2022

32. Synthesis of methyl glycolate via low‐temperature hydrogenation of dimethyl oxalate over an efficient and stable Ru/activated carbon catalyst

Author

Hongyan Zheng, Yanfeng Xue, Yulan Niu, Xiaoqing Gao, Yueqing Wang, Guoqiang Ding, and Yulei Zhu

Subjects

Inorganic Chemistry, Fuel Technology, Renewable Energy, Sustainability and the Environment, General Chemical Engineering, Organic Chemistry, Pollution, Waste Management and Disposal, Biotechnology

Published

2022

33. Myocardial Rev-erb–Mediated Diurnal Metabolic Rhythm and Obesity Paradox

Author

Shiyang Song, Chih-Liang Tien, Hao Cui, Paul Basil, Ningxia Zhu, Yingyun Gong, Wenbo Li, Hui Li, Qiying Fan, Jong Min Choi, Weijia Luo, Yanfeng Xue, Rui Cao, Wenjun Zhou, Andrea R. Ortiz, Brittany Stork, Vatsala Mundra, Nagireddy Putluri, Brian York, Maoping Chu, Jiang Chang, Sung Yun Jung, Liang Xie, Jiangping Song, Lilei Zhang, and Zheng Sun

Subjects

Mice, Knockout, Mice, Heart Diseases, Circadian Clocks, Myocardium, Physiology (medical), Animals, Humans, Obesity, Cardiology and Cardiovascular Medicine, Circadian Rhythm

Abstract

Background: The nuclear receptor Rev-erbα/β, a key component of the circadian clock, emerges as a drug target for heart diseases, but the function of cardiac Rev-erb has not been studied in vivo. Circadian disruption is implicated in heart diseases, but it is unknown whether cardiac molecular clock dysfunction is associated with the progression of any naturally occurring human heart diseases. Obesity paradox refers to the seemingly protective role of obesity for heart failure, but the mechanism is unclear. Methods: We generated mouse lines with cardiac-specific Rev-erbα/β knockout (KO), characterized cardiac phenotype, conducted multi-omics (RNA-sequencing, chromatin immunoprecipitation sequencing, proteomics, and metabolomics) analyses, and performed dietary and pharmacological rescue experiments to assess the time-of-the-day effects. We compared the temporal pattern of cardiac clock gene expression with the cardiac dilation severity in failing human hearts. Results: KO mice display progressive dilated cardiomyopathy and lethal heart failure. Inducible ablation of Rev-erbα/β in adult hearts causes similar phenotypes. Impaired fatty acid oxidation in the KO myocardium, in particular, in the light cycle, precedes contractile dysfunctions with a reciprocal overreliance on carbohydrate utilization, in particular, in the dark cycle. Increasing dietary lipid or sugar supply in the dark cycle does not affect cardiac dysfunctions in KO mice. However, obesity coupled with systemic insulin resistance paradoxically ameliorates cardiac dysfunctions in KO mice, associated with rescued expression of lipid oxidation genes only in the light cycle in phase with increased fatty acid availability from adipose lipolysis. Inhibition of glycolysis in the light cycle and lipid oxidation in the dark cycle, but not vice versa, ameliorate cardiac dysfunctions in KO mice. Altered temporal patterns of cardiac Rev-erb gene expression correlate with the cardiac dilation severity in human hearts with dilated cardiomyopathy. Conclusions: The study delineates temporal coordination between clock-mediated anticipation and nutrient-induced response in myocardial metabolism at multi-omics levels. The obesity paradox is attributable to increased cardiac lipid supply from adipose lipolysis in the fasting cycle due to systemic insulin resistance and adiposity. Cardiac molecular chronotypes may be involved in human dilated cardiomyopathy. Myocardial bioenergetics downstream of Rev-erb may be a chronotherapy target in treating heart failure and dilated cardiomyopathy.

Published

2022

34. Overoxidized polypyrrole/overoxidized poly(3,4-ethylenedioxythiophene)/graphene quantum dots-chitosan as enhanced electrochemical sensing platform for luteolin determination in peanut shells

Author

Rongqian Meng, Yanfeng Xue, Lijun Guo, Hong Yang, Yongbo Song, Qiaoling Li, and Yulan Niu

Subjects

Materials Chemistry, General Chemistry, Catalysis

Abstract

The GQDs-CS, oPPy and oPEDOT can serve as sensitizing elements to improve the sensing performance of a luteolin electrochemical sensor.

Published

2022

35. Real-time Simulation of Power System for Power Electronic Equipment based on Intelligent Optimization Algorithm

Author

Haitao Yu and Yanfeng Xue

Published

2023

36. A Novel Anoikis-revelant Gene Signature for Prognosis Prediction and Tumor Immune Microenvironment in Lung Adenocarncinoma

Author

Yong Ma, Zhilong Li, Yanfeng Xue, Baozhen Zheng, Nan Hu, Dongbing Li, and Dongliang Wang

Abstract

Background: Anoikis is an apoptotic cell death, which is resulting from the loss of interaction between cells and the extracellular matrix, and has served a prominent role in metastasis. The aim of the present study was to identify an anoikis-revelant genes (ARGs) signature for Lung Adenocarncinoma (LUAD) patients’ prognosis and explore the underlying molecular mechanisms. Methods: In the training cohort, LUAD patients from The Cancer Genome Atlas (TCGA) were used, and Gene Expression Omnibus (GEO) cohort GSE72094 was used for validation. A total of 508 anoikis-revelant genes downloaded from the GeneCards. Univariate Cox analysis was applied for preliminary screening of anoikis-revelant genes with potential prognostic capacity in the training cohort. These genes were then applied into an overall survival-based LASSO regression model, building a gene signature. The discovered gene signature was then evaluated via Kaplan–Meier (KM), Cox, and ROC analyses in both cohorts. To better explore the functional annotation of the gene signature and the character of tumor microenvironment, the GSEA enrichment and CIBERSORT algorithm were performed. Results: A thirteen-gene signature was built in the TCGA-LUAD cohort and further validated in GSE72094 cohort, revealing its independent prognosis value in LUAD. Next, the signature's predictive ability for LUAD prognosis was confirmed through ROC analysis. Moreover, analyses of gene enrichment and immune infiltrating detailed exhibited cell adhesion and VEGF pathways related with the thirteen-gene signature, also showing that M0 macrophages, mast cells, dendritic cells and CD4+ memory T cells involved in the prognosis of the thirteen-gene signature. Conclusions: An inventive anoikis-revelant thirteen-gene signature (ABHD4, CDCP1, CDK1, CENPF, EIF2AK3, FADD, FYN, HGF, OGT, PIK3CG, PPP2CA, RAC1, and XRCC5) was generated through this study. It could accurately predict LUAD prognosis and was related to M0 macrophages, mast cells, dendritic cells, and CD4+ memory T cells.

Published

2022

37. Research on PLC Technology of Electrical Engineering Automation Control Based on Artificial Intelligence

Author

Haitao Yu and Yanfeng Xue

Published

2022

38. Bionic Design of Quadruped Mechanical Horse

Author

Qingshan Wu, Yanfeng Xue, Hongqiang Wan, Junhao Qiu, Zhijun Wang, and Na Kang

Published

2022

39. A secure and privacy‐preserved delegate‐based blockchain and federated learning for 6G networks

Author

Jihua Liu, Hongsong Dong, and Yanfeng Xue

Subjects

Computer Networks and Communications, Electrical and Electronic Engineering

Published

2022

40. Catalytic conversion of cellulose and starch to furfural over zeolites

Author

Yulan Niu, Xu-bin Liang, Yulei Zhu, Lu-qingshan Xiao, Wen-shi Zhao, Yanfeng Xue, Zi-long Zhao, Hong-yan Zheng, and Hong Yang

Subjects

chemistry.chemical_compound, Adsorption, Chemistry, Starch, Organic chemistry, Lewis acids and bases, Cellulose, Zeolite, Furfural, Brønsted–Lowry acid–base theory, Catalysis

Abstract

Conversion of cellulose and starch to furfural was investigated over four zeolites. The zeolites were characterized by X-ray diffraction, 27Al MAS NMR, IR spectra of pyridine adsorption and NH3 temperature-programmed desorption. The roles of acidity and pore structure of zeolites in conversion of cellulose and starch were discussed in detail. The results showed that Hβ zeolite with appropriate Bronsted acid sites, Lewis acid sites and pore structure was effective to produce furfural from cellulose and starch. HY zeolite could not catalyze cellulose reaction with high conversion because of its weak acidity. However, HY zeolite was effective to produce 5-hydroxymethylfurfural (HMF) from starch. H-mordenite and HZSM-5 zeolites with fewer Lewis acid sites could not cause the isomerization reaction from glucose to fructose. So, the further conversion of fructose to furfural or HMF was inhibited. The formation of HMF only depended on the acid properties of zeolites. The formation of furfural was not only determined by the acidity of zeolites, but also by their appropriate pore structure.

Published

2021

41. Immunotherapy with toripalimab for lung adenocarcinoma in a real-world patient with an Eastern Cooperative Oncology Group performance status (ECOG PS) score of 4: a case report

Author

Yanfeng Xue, Kang Zheng, and Jinmei Xue

Subjects

Advanced and Specialized Nursing, Oncology, medicine.medical_specialty, Chemotherapy, Palliative care, business.industry, medicine.medical_treatment, medicine.disease, Clinical trial, Pharmacoeconomics, Anesthesiology and Pain Medicine, Parenteral nutrition, Internal medicine, medicine, Adenocarcinoma, Lung cancer, business, Adverse effect

Abstract

Multidisciplinary treatment, mainly chemotherapy combined with immunotherapy, is preferred in patients with advanced lung cancer who are negative for driver genes and have an Eastern Cooperative Oncology Group performance status (ECOG PS) score of 0-1; in contrast, patients with an ECOG PS score of 3-4 should be managed with supportive treatment and palliative care rather than chemotherapy or other antitumor treatments. In the real-world settings, however, in the Chinese population, a large proportion of patients and their families are willing to take risks to receive benefit from oncological treatments. We encountered a patient who had definite advanced lung adenocarcinoma with multiple metastases and fusion in abdominal lymph nodes. Intestinal obstruction and obstructive jaundice were also observed. Despite the application of gastrointestinal decompression, continuous parenteral nutrition support, common bile duct stenting, and pancreatic duct stenting, no effective antitumor therapy (except in the case of immunotherapy) was attempted due to the high tumor burden and poor ECOG PS score in this patient. After effective communication with the family members, toripalimab was attempted in this patient with great success (the patient did not receive chemotherapy and only received immunotherapy). In the spring of 2019, imported programmed death receptor-1 (PD-1) antibodies (pabolizumab and navulizumab) listed in the Chinese market were expensive, and the people could not afford the cost. However, treprizumab was just on the market, with low price and high pharmacoeconomics. Therefore, the drug was selected for treatment.) The patient achieved almost complete remission, with a progression-free survival (PFS) of about 2.5 years. The expression of programmed death-ligand 1 (PD-L1) was high in this patient. Toripalimab monotherapy may be applied in patients with high PD-L1 expression although any potential adverse effects should be closely monitored. To our knowledge, no other data from clinical trials and real-world cases have thus far been reported concerning the application of immunotherapy in ECOG PS 4 patients with advanced lung cancer. The innovation of this article is that although the patient has advanced cancer and ECOG PS 4 is an end-stage patient, immunotherapy is still given and achieved great success.

Published

2021

42. Selective dealumination of ZSM-5 by steaming and its effect on ethanol to propene

Author

Xiaojing Cui, Jian-ke Tang, Yulan Niu, Qing-guo Ma, Hong-yan Zheng, Lifeng Ding, and Yanfeng Xue

Subjects

chemistry.chemical_classification, Ethylene, Inorganic chemistry, Steaming, food and beverages, Butene, humanities, Catalysis, Propene, chemistry.chemical_compound, Acid strength, chemistry, ZSM-5, Zeolite

Abstract

The effects of steaming at varying times and temperatures on ZSM-5 pore structures, framework Al distribution, acid properties and ethanol to propene (ETP) catalytic performance were systematically studied in this study. The results show that the crystallinity and specific surface areas of steam treated ZSM-5 samples decrease with the increase treatment time and temperature. 27Al MAS NMR and Co(II) exchange-ICP results show that the isolated framework Al species (Alsingle) can be preferentially removed from the zeolite framework, while the paired Al sites (Alpairs) remain relatively stable after steam treatment. The characterization of Py-IR reveals that the concentration of B acid sites and the acid strength are all declined with the steaming time or temperature increase. The catalytic results of ETP at 450°C show that the sample after steaming gives improved selectivities to propene and butene at the expense of ethene conversion and alkanes selectivity relative to the unmodified zeolite. Besides, a good positive correlation between ethylene conversion and Alsingle concentration is found, whereas the propene formation is influenced by the combination effect of Alsingle and Alpairs sites.

Published

2021

43. Process and theoretical research on electroplating Cu–Sn alloys of low Sn

Author

Hongmei Dong, Yanfeng Xue, Jinxia Yuan, Hongdao Li, Qiang Li, Chongyan Chen, Yulan Niu, Baoyi Li, and Lifeng Ding

Subjects

Materials science, General Chemical Engineering, Inorganic chemistry, chemistry.chemical_element, Electrochemistry, Sodium stannate, Copper, chemistry.chemical_compound, chemistry, Phase (matter), Materials Chemistry, Fourier transform infrared spectroscopy, Electroplating, Tin, Citric acid

Abstract

Imitation gold electroplating of a citric acid system was studied using citric acid as the main complexing agent, copper sulphate and sodium stannate as the main salts and NaOH as the buffering agent in the electroplating solution. The effects of different electroplating solutions on the microtopography, composition, phase structure and colour of the electroplated layer were evaluated by SEM, EDS, XRD and photo analysis. Different electroplating solutions were analysed and compared by electrochemical analysis, UV–Vis, FTIR and NMR spectroscopy to analyse the mechanism of the electrochemical reaction. The results showed that at pH 9.5, copper and tin ions exist in the form of Cu2Cit2H-24− and Sn(OH)62−, respectively, in the solution. The cathode had only a single deposition peak at − 1.3 V vs. Hg|HgO. Therefore, the above two complex ions can be reduced and codeposited at the same voltage to form Cu, [Cu, Sn], Cu6Sn5, Cu10Sn3 and Cu4O3 phases. A gold-coloured, dense, low-Sn binary Cu–Sn alloy coating containing 13.72% Sn was finally obtained. These results provide a theoretical basis for the electrodeposition of Cu–Sn alloys.

Published

2021

44. HDAC3 controls male fertility through enzyme-independent transcriptional regulation at the meiotic exit of spermatogenesis

Author

Yuanyuan Wang, Shuya Zhang, Chaoyang Huang, Jinwen Zhang, Joseph A. Baur, Yingwen Zhang, Xuejiang Guo, Mingyan Lin, Yanfeng Wang, Huiqi Yin, Hua Feng, Ke Zheng, P. Jeremy Wang, Yichun Guan, Zhenlong Kang, Yihan Zhang, Lan Ye, Mengrou Liu, Zheng Sun, Qiushi Xu, Changpeng Xin, Wenxiu He, Bangjin Zheng, Yanfeng Xue, Jie Xie, Yingyun Gong, and Kaiqiang Fu

Subjects

Male, Transcriptional Activation, AcademicSubjects/SCI00010, Biology, Genome Integrity, Repair and Replication, Histone Deacetylases, Histones, 03 medical and health sciences, Mice, 0302 clinical medicine, Testis, Genetics, Transcriptional regulation, Animals, Spermatogenesis, SOX Transcription Factors, 030304 developmental biology, Epigenomics, Regulation of gene expression, Mice, Knockout, 0303 health sciences, Acetylation, HDAC3, Cellular Reprogramming, Spermatids, Cell biology, Mice, Inbred C57BL, Meiosis, Histone, Fertility, Cistrome, Gene Expression Regulation, biology.protein, Histone deacetylase, 030217 neurology & neurosurgery

Abstract

The transition from meiotic spermatocytes to postmeiotic haploid germ cells constitutes an essential step in spermatogenesis. The epigenomic regulatory mechanisms underlying this transition remain unclear. Here, we find a prominent transcriptomic switch from the late spermatocytes to the early round spermatids during the meiotic-to-postmeiotic transition, which is associated with robust histone acetylation changes across the genome. Among histone deacetylases (HDACs) and acetyltransferases, we find that HDAC3 is selectively expressed in the late meiotic and early haploid stages. Three independent mouse lines with the testis-specific knockout of HDAC3 show infertility and defects in meiotic exit with an arrest at the late stage of meiosis or early stage of round spermatids. Stage-specific RNA-seq and histone acetylation ChIP-seq analyses reveal that HDAC3 represses meiotic/spermatogonial genes and activates postmeiotic haploid gene programs during meiotic exit, with associated histone acetylation alterations. Unexpectedly, abolishing HDAC3 catalytic activity by missense mutations in the nuclear receptor corepressor (NCOR or SMRT) does not cause infertility, despite causing histone hyperacetylation as HDAC3 knockout, demonstrating that HDAC3 enzyme activity is not required for spermatogenesis. Motif analysis of the HDAC3 cistrome in the testes identified SOX30, which has a similar spatiotemporal expression pattern as HDAC3 during spermatogenesis. Depletion of SOX30 in the testes abolishes the genomic recruitment of the HDAC3 to the binding sites. Collectively, these results establish the SOX30/HDAC3 signaling as a key regulator of the transcriptional program in a deacetylase-independent manner during the meiotic-to-postmeiotic transition in spermatogenesis.

Published

2021

45. Tailoring porosity and acidity of Sn-modified ZSM-5 for co-aromatization of methanol with 2-methylfuran

Author

Yanfeng Xue, Xiaojing Cui, Jianfeng Shan, Songping Gao, Shusheng Wang, Hongyan Zheng, Jianke Tang, Yulan Niu, Kai Wang, and Xun Wang

Subjects

Fuel Technology, General Chemical Engineering, Organic Chemistry, Energy Engineering and Power Technology

Published

2023

46. Effects of four carboxyl-containing additives on imitation gold electroplating Cu-Zn-Sn alloys in an HEDP system

Author

Chongyan Chen, Yanfeng Xue, Jinxia Yuan, Ruonan Wang, Yulan Niu, Qiang Li, Lifeng Ding, Hongdao Li, and Qi Wang

Subjects

Materials science, Gold plating, Fluorescence spectrometry, 02 engineering and technology, engineering.material, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Electrochemistry, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Coating, Sodium citrate, engineering, General Materials Science, Electrical and Electronic Engineering, 0210 nano-technology, Electroplating, Sodium carbonate, Sodium gluconate, Nuclear chemistry

Abstract

The requirements for using noncyanide imitation gold plating as decorative electroplating are increasing; thus, continuously improving the quality of the coating of the imitation gold plating and optimizing the coating process have become the current priority. In this experiment, hydroxyethylidene diphosphonic acid (HEDP) was used as the main complexing agent; CuSO4·5H2O, ZnSO4·7H2O, and NaSnO3·3H2O were the main salts; and NaOH and sodium carbonate were used as the buffers to prepare the electroplating solution. Using sodium citrate (SC), sodium potassium tartrate (SS), sodium gluconate (SG), and glycerol (Gl) as four additives, the effects of the number of carboxyl groups on the properties of a Cu-Zn-Sn alloy coating were compared. The electrochemical analysis showed that Cu-Zn-Sn alloy codeposition occurred at -0.50 Vvs.Hg|HgO. The scanning electron microscopy (SEM) results showed that the grain size of the coatings obtained with carboxyl-containing additives was more uniform than that obtained with the electroplating solution without additives. The X-ray fluorescence spectrometry (XRF) analysis revealed that the composition of the Cu-Zn-Sn alloy coating obtained by using SC as an additive in the electroplating solution was 89.75 wt% Cu, 9.61 wt% Zn, and 0.64 wt% Sn, and the color of the coating was golden yellow. The X-ray diffraction (XRD) pattern showed that the coating was a mixture of Cu, Cu5Zn8, CuSn, Cu6Sn5, and CuZn phases. The analysis of the electroplating solution by UV, IR, and NMR spectroscopy methods indicates that the additives improve the coating by affecting the complexation reaction of metal ions. These results can provide technical guidance for developing Cu-Zn-Sn ternary alloy electrodeposition technology with the new cyanide-free HEDP alkaline electroplating system.

Published

2021

47. Preserving the Active Cu–ZnO Interface for Selective Hydrogenation of CO2 to Dimethyl Ether and Methanol

Author

Tiansheng Deng, Yanfeng Xue, Xiaojing Cui, Ying Shi, He Zhang, Huanhuan Yang, Yulan Niu, Weibin Fan, and Wenjun Yan

Subjects

Materials science, Renewable Energy, Sustainability and the Environment, General Chemical Engineering, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, X-ray absorption fine structure, Catalysis, chemistry.chemical_compound, chemistry, Chemical engineering, X-ray photoelectron spectroscopy, Environmental Chemistry, Hydrothermal synthesis, Dimethyl ether, Methanol, 0210 nano-technology, Selectivity, High-resolution transmission electron microscopy

Abstract

It is of importance but highly challenging for copper (Cu)-based catalysts to maintain the structure of active Cu sites under working conditions. Herein, the commercial Cu/ZnO/Al₂O₃ catalyst was confined in the mesoporous SiO₂–Al₂O₃ shell via hydrothermal synthesis (CZAS@SA) for selective hydrogenation of CO₂ to dimethyl ether (DME) and methanol. CZAS@SA catalysts exhibited higher intrinsic activity for the formation of DME and methanol and much lower intrinsic activity for CO formation than Cu/ZnO/Al₂O₃. Thus, the total selectivity of DME and methanol was enhanced from 9.1 to 63.3 mol %. In situ X-ray photoelectron spectroscopy/X-ray absorption fine structure/high-resolution transmission electron microscopy (XPS/XAFS/HRTEM) results and catalytic measurements indicated that the metallic Cu(Cu⁰)–ZnO interface was the active site for methanol formation. Commercial Cu/ZnO/Al₂O₃ underwent a separation of Cu⁰ and ZnO phases during the reaction, and this phase separation caused agglomeration of Cu⁰ and shrinking of the active Cu⁰–ZnO interface, which aggregated CO formation. The active Cu⁰–ZnO interface in CZAS@SA was preserved due to the confinement effect of the shell, which improved methanol selectivity.

Published

2021

48. The electrodeposition of low-Sn imitation gold Cu–Sn alloy from EDTA-tartrate double complexing agents

Author

Yulan Niu, Hongmei Dong, Jun Cheng, Qi Wang, Yanfeng Xue, Jinxia Yuan, Lifeng Ding, and Qiang Li

Subjects

Materials science, Scanning electron microscope, General Chemical Engineering, Alloy, 02 engineering and technology, Electrolyte, engineering.material, Tartrate, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, Coating, chemistry, Materials Chemistry, engineering, Cyclic voltammetry, 0210 nano-technology, Electroplating, Nuclear chemistry

Abstract

The electrodeposition of a Cu–Sn binary alloy on stainless steel from a cyanide-free alkaline electrolyte containing EDTA·2Na and C4H4O6KNa was investigated to explore the possibility of a cyanide-free double complexing system that maintains the decorative quality and coating performance. The Cu–Sn co-deposition occurred at −0.95 Vvs.Hg|HgO, and the height of cathode peak A from the BR bath was −0.0280 A. EDTA·2Na could simultaneously complex with Cu ions and Sn ions, while C4H4O6KNa could only complex with Cu ions, which was shown through the analysis of the cyclic voltammetry (CV) curves together with the nuclear magnetic resonance (NMR) results. The molar concentration ratio and sum of the two main salts or the two complexing agents, and the pH of the electroplating solutions were shown to influence the surface micromorphology, composition and phase structure of the Cu–Sn coatings. The scanning electron microscopy (SEM) analysis showed that the Cu–Sn coating obtained from the bath with EDTA-tartrate double complexing agents exhibited smaller grain sizes than that obtained from the bath with the single EDTA or tartrate complexing agent, and the smallest grain size of 0.2 μm was obtained from the BR bath. In addition to being smaller than the others, this coating contained uniform particle sizes. The energy-dispersive X-ray spectroscopy (EDS) analysis indicated that the composition of the Cu–Sn coating obtained from the BR bath was 92.8 wt% Cu and 7.2 wt% Sn, and this coating was golden in colour. X-ray diffraction (XRD) showed that the Cu–Sn coatings were crystalline and were composed of a mixture of Cu, Cu6Sn5, [Cu, Sn] and Cu10Sn3 phases, indicating the formation of Cu–Sn binary alloy. These results may provide theoretical guidance for the electrodeposition technology of other alloy coatings.

Published

2020

49. The influence of air pollution on respiratory microbiome: A link to respiratory disease

Author

Xiangyang Kong, Yanfeng Xue, Jiang Chu, and Yunwei Li

Subjects

0301 basic medicine, medicine.medical_specialty, Respiratory System, Respiratory Tract Diseases, Air pollution, Toxicology, medicine.disease_cause, 03 medical and health sciences, 0302 clinical medicine, Air Pollution, medicine, Humans, Microbiome, Immune homeostasis, Respiratory system, Intensive care medicine, Air Pollutants, Inhalation Exposure, business.industry, Microbiota, Respiratory disease, General Medicine, medicine.disease, 030104 developmental biology, Airway disease, Particulate Matter, business, Dysbiosis, 030217 neurology & neurosurgery

Abstract

Air pollution is known to trigger and exacerbate many respiratory diseases. The interaction between respiratory microbiome and host plays a significant role in maintaining airway immune homeostasis and health. Emerging evidence has revealed the associations of disturbances in the airway microbiome with air pollution and respiratory disease. However, respiratory microbiome has been an undervalued player in progressions of respiratory disease caused by air pollution. In this review, we summarize the current research advances with respect to the effects of air pollution on respiratory microbiome, then discuss the underlying mechanisms of air pollution induction of dysbiosis in respiratory microbiota and its links to respiratory diseases. This work may be helpful to deepening understanding the relationships between exposure, microbiome and airway disease and discovering new preventive and therapeutic strategies for air pollution-mediated respiratory disease.

Published

2020

50. Undernutrition shifted colonic fermentation and digest-associated bacterial communities in pregnant ewes

Author

Yanfeng Xue, Fan Hu, Shengyong Mao, Shijun Mei, Hongbo Zeng, Fei Xie, and Changzheng Guo

Subjects

chemistry.chemical_classification, 0303 health sciences, Isovalerate, biology, 030306 microbiology, Ruminococcus, General Medicine, Butyrate, biology.organism_classification, Valerate, Applied Microbiology and Biotechnology, 03 medical and health sciences, chemistry.chemical_compound, Animal science, chemistry, Propionate, Fermentation, Peptococcaceae, Bacteria, 030304 developmental biology, Biotechnology

Abstract

The objective of this study was to evaluate the effect of undernutrition on colonic microbiota and fermentation in pregnant ewes. Sixteen ewes bearing multiple fetuses for 115 days in the control (CON) and severe feed restriction (SFR) groups were fed 100% and 30% level of ad libitum feed intake, respectively. After 15-day treatment, all ewes were sacrificed to collect colonic digesta samples to extract DNA for 16S rRNA sequencing and to detect fermentation parameters. Our data showed that SFR increased (P

Published

2020