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2. Comparative study of differentiating human pluripotent stem cells into vascular smooth muscle cells in hydrogel-based culture methods

Author

Qing Liu, Zhen Liu, Hongyu Gu, Yuxia Ge, Xuesheng Wu, Fuxing Zuo, Qian Du, Yuguo Lei, Zhanqi Wang, and Haishuang Lin

Subjects
Human pluripotent stem cells, PNIPAAm-PEG hydrogel, Alginate hydrogel fiber, Vascular smooth muscle cells, Industrial production, Medicine (General), R5-920, Cytology, QH573-671
Abstract

Vascular smooth muscle cells (VSMCs), which provides structural integrity and regulates the diameter of vasculature, are of great potential for modeling vascular-associated diseases and tissue engineering. Here, we presented a detailed comparison of differentiating human pluripotent stem cells (hPSCs) into VSMCs (hPSCs-VSMCs) in four different culture methods, including 2-dimensional (2D) culture, 3-dimensional (3D) PNIPAAm-PEG hydrogel culture, 3-dimensional (3D) alginate hydrogel culture, and transferring 3-dimensional alginate hydrogel culture to 2-dimensional (2D) culture. Both hydrogel-based culture methods could mimic in vivo microenvironment to protect cells from shear force, and avoid cells agglomeration, resulting in the extremely high culture efficiency (e.g., high viability, high purity and high yield) compared with 2D culture. We demonstrated hPSC-VSMCs produced from hydrogel-based culture methods had better contractile phenotypes and the potential of vasculature formation. The transcriptome analysis showed the hPSC-VSMCs derived from hydrogel-based culture methods displayed more upregulated genes in vasculature development, angiogenesis and blood vessel development, extracellular matrix compared with 2D culture. Taken together, hPSC-VSMCs produced from hydrogel-based culture system could be applied in various biomedical fields, and further indicated the suitable development of alginate hydrogel for industrial production by taking all aspects into consideration.

Published
2023
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3. ZC3H15 promotes gastric cancer progression by targeting the FBXW7/c-Myc pathway

Author

Jianbing Hou, Pan Huang, Chao Lan, Shengjun Geng, Minghao Xu, Yudong Liu, Hongbo Chang, Zhongze Wang, Hongyu Gu, Yi Wang, Guang Yang, and Hongjuan Cui

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671
Abstract

Abstract Zinc finger CCCH-type containing 15 (ZC3H15), a highly conserved eukaryotic protein, which was associated with several cellular processes and was ubiquitously expressed in various human tissues. Recent studies indicated that ZC3H15 was involved in tumorigenesis and may be a potential biomarker in hepatocellular carcinoma (HCC) and acute myeloid leukemia (AML). However, the biological function and molecular mechanism of ZC3H15 in gastric cancer (GC) have not been studied. In this study, we revealed that ZC3H15 was highly expressed in GC and high ZC3H15 expression was closely linked to poor survival of patients with GC. We found that ZC3H15 promoted cell proliferation, migration, and invasion by increasing c-Myc expression. Next, we found that ZC3H15 could modulate c-Myc protein stability by suppressing the transcription of FBXW7, which was mainly responsible for c-Myc degradation. Moreover, silencing of FBXW7 in ZC3H15-knockdown GC cells could partly abrogate the effects induced by ZC3H15 downregulation. Taken together, our data unearth the important roles of ZC3H15 in GC development and suggest that ZC3H15 may be a potential target for the treatment of GC.

Published
2022
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4. ZC3H15 promotes glioblastoma progression through regulating EGFR stability

Author

Jianbing Hou, Minghao Xu, Hongyu Gu, Dakun Pei, Yudong Liu, Pan Huang, Hongbo Chang, and Hongjuan Cui

Subjects
Cytology, QH573-671
Abstract

Abstract Zinc finger CCCH-type containing 15 (ZC3H15), a highly conserved protein involved in several cellular processes, which was responsible for tumorigenesis and may be a promising marker in myeloid leukemia (AML) and hepatocellular carcinoma (HCC). However, little is known about the biological significance and molecular mechanisms of ZC3H15 in GBM. In this study, we revealed that ZC3H15 was overexpressed in GBM and high ZC3H15 expression was associated with poor survival of patients with GBM. We found that ZC3H15 promoted the proliferation, migration, invasion, and tumorigenesis of GBM cells by activating the EGFR signaling pathway. We also revealed that ZC3H15 reduced EGFR ubiquitination, which was responsible for EGFR protein stabilization. In addition, we demonstrated that ZC3H15 inhibited the transcription of CBL, which was an E3 ubiquitin ligase for EGFR proteasomal degradation. And silencing of CBL could partly abrogate the inhibitory effects on cell proliferation, migration, and invasion of GBM cells induced by ZC3H15 knockdown. Thus, our research revealed the important roles of ZC3H15 in GBM development and provided a brand-new insight for improving the treatment of GBMs.

Published
2022
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5. An analysis of the coseismic differential response characteristics of well water levels and chemical components : A case study triggered by the Qingbaijiang earthquake

Author

Hongyu GU, Donghui WANG, Shengwei LI, Wanmo ZHENG, Gang LIU, Yuanying XIANG, Dan LI, and Nengde CHEN

Subjects
monitoring wells, hydrochemical components, water level, coseismic response, permeability of aquifer, Geology, QE1-996.5
Abstract

Analysis of the coseismic differential response of adjacent monitoring wells is an important way to study the coseismic response mechanism of groundwater. On February 3, 2020, the Qingbaijiang earthquake caused the abnormal changes of groundwater levels and water quality in the monitoring wells of Longquanshan. In this paper, the coseismic differential response characteristics of two adjacent monitoring wells are analyzed by using the automatic monitoring data of various hydrochemical components and water levels. Based on the coupling response characteristics of hydrochemical components and water levels, the mechanism of differential response of hydrochemical components and water levels is discussed. In the case of the same energy density, the water level variation amplitude of well ZK1 is larger than that of well ZK6, which indicates that ZK1 is more sensitive to the earthquake response than ZK6. The earthquake mainly caused the discharge of the groundwater (Eh0) from the first aquifer (high concentration of Cl−, TDS, and pH) to ZK6. The discharge and mixing of water from different aquifers into the wells are the reason for the different response of chemical components of groundwater in these two wells. According to the trends of chemical components and water levels after the earthquake, rock mass under seismic action of undrained volume change is the main cause of groundwater water status step change, that is, plastic deformation and permanent change in permeability occurred in the second aquifer around well ZK1, and no permanent change in permeability but elastic deformation occurred in rock mass around well ZK6.

Published
2021
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6. Regulation of Glucose, Fatty Acid and Amino Acid Metabolism by Ubiquitination and SUMOylation for Cancer Progression

Author

Shunqin Zhu, Hongyu Gu, Cheng Peng, Fanwei Xia, Huan Cao, and Hongjuan Cui

Subjects
ubiquitination, SUMOylation, cancer, metabolic reprogramming, glucose metabolism, lipid metabolism, Biology (General), QH301-705.5
Abstract

Ubiquitination and SUMOylation, which are posttranslational modifications, play prominent roles in regulating both protein expression and function in cells, as well as various cellular signal transduction pathways. Metabolic reprogramming often occurs in various diseases, especially cancer, which has become a new entry point for understanding cancer mechanisms and developing treatment methods. Ubiquitination or SUMOylation of protein substrates determines the fate of modified proteins. Through accurate and timely degradation and stabilization of the substrate, ubiquitination and SUMOylation widely control various crucial pathways and different proteins involved in cancer metabolic reprogramming. An understanding of the regulatory mechanisms of ubiquitination and SUMOylation of cell proteins may help us elucidate the molecular mechanism underlying cancer development and provide an important theory for new treatments. In this review, we summarize the processes of ubiquitination and SUMOylation and discuss how ubiquitination and SUMOylation affect cancer metabolism by regulating the key enzymes in the metabolic pathway, including glucose, lipid and amino acid metabolism, to finally reshape cancer metabolism.

Published
2022
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7. Diagnostic Performance of Diffusion Kurtosis Imaging for Benign and Malignant Breast Lesions: A Systematic Review and Meta-Analysis

Author

Hongyu Gu, Wenjing Cui, Song Luo, and Xiaoyi Deng

Subjects
Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5
Abstract

Purpose. Magnetic resonance imaging (MRI) has a high sensitivity for differentiating between malignant and non-malignant breast lesions but is sometimes limited due to its low specificity. Here, we performed a meta-analysis to evaluate the diagnostic performance of mean kurtosis (MK) and mean diffusivity (MD) values in magnetic resonance diffusion kurtosis imaging (DKI) for benign and malignant breast lesions. Methods. Original articles on relevant topics, published from 2010 to 2019, in PubMed, EMBASE, and WanFang databases were systematically reviewed. According to the purpose of the study and the characteristics of DKI reported, the diagnostic performances of MK and MD were evaluated, and meta-regression was conducted to explore the source of heterogeneity. Results. Fourteen studies involving 1,099 (451 benign and 648 malignant) lesions were analyzed. The pooled sensitivity, pooled specificity, positive likelihood ratio, and negative likelihood ratio for MD were 0.84 (95% confidence interval (CI), 0.81-0.87), 0.83 (95% CI, 0.79-0.86), 4.44 (95% CI, 3.54-5.57), and 0.18 (95% CI, 0.13-0.26), while those for MK were 0.89 (95% CI, 0.86-0.91), 0.86 (95% CI, 0.82-0.89), 5.72 (95% CI, 4.26-7.69), and 0.13 (95% CI, 0.09-0.19), respectively. The overall area under the curve (AUC) was 0.91 for MD and 0.95 for MK. Conclusions. Analysis of the data from 14 studies showed that MK had a higher pooled sensitivity, pooled specificity, and diagnostic performance for differentiating between breast lesions, compared with MD.

Published
2022
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8. Corrosion Mechanism and the Effect of Corrosion Time on Mechanical Behavior of 5083/6005A Welded Joints in a NaCl and NaHSO3 Mixed Solution

Author

Yuqiang Chen, Hailiang Wu, Xiangdong Wang, Xianghao Zeng, Liang Huang, Hongyu Gu, and Heng Li

Subjects
5083/6005A welding joint, mechanical properties, corrosion mechanism, corrosion model, fatigue life prediction model, Crystallography, QD901-999
Abstract

The effect of corrosion time on the mechanical behavior of 5083/6005A welded joints in a 3.5% NaCl + 0.01 mol/L NaHSO3 solution was evaluated via scanning electron microscopy (SEM), polarization curve analysis, and X-ray photoelectron spectroscopy (XPS). The prediction model of fatigue life after corrosion was established based on the experimental results and the theory of fracture mechanics, and the formula for the effect of corrosion time on lifespan was determined. The results show that with increasing corrosion time, the corrosion of the sample becomes increasingly severe, and the elongation and fatigue life of the 5083/6005A welded joints decrease significantly. The corrosion resistance of the 5083/6005A welded joints decreases with increasing corrosion time because the corrosive medium promotes the destruction of the oxide film and thereby reduces the corrosion resistance. The corrosion products of the 5083/6005A welded joints are Al(OH)3 and AlCl3.

Published
2022
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10. Small ribosomal protein subunit S7 suppresses ovarian tumorigenesis through regulation of the PI3K/AKT and MAPK pathways.

Author

Ziliang Wang, Jing Hou, Lili Lu, Zihao Qi, Jianmin Sun, Wen Gao, Jiao Meng, Yan Wang, Huizhen Sun, Hongyu Gu, Yuhu Xin, Xiaomao Guo, and Gong Yang

Subjects
Medicine, Science
Abstract

Small ribosomal protein subunit S7 (RPS7) has been reported to be associated with various malignancies, but the role of RPS7 in ovarian cancer remains unclear. In this study, we found that silencing of RPS7 by a specific shRNA promoted ovarian cancer cell proliferation, accelerated cell cycle progression, and slightly reduced cell apoptosis and response to cisplatin treatment. Knockdown of RPS7 resulted in increased expression of P85α, P110α, and AKT2. Although the basal levels of ERK1/2, MEK1/2, and P38 were inconsistently altered in ovarian cancer cells, the phosphorylated forms of MEK1/2 (Ser217/221), ERK1/2 (Thr202/Tyr204), JNK1/2 (Thr183/Tyr185), and P38 (Thr180/Tyr182) were consistently reduced after RPS7 was silenced. Both the in vitro anchorage-independent colony formation and in vivo animal tumor formation capability of cells were enhanced after RPS7 was depleted. We also showed that silencing of RPS7 enhanced ovarian cancer cell migration and invasion. In sum, our results suggest that RPS7 suppresses ovarian tumorigenesis and metastasis through PI3K/AKT and MAPK signal pathways. Thus, RPS7 may be used as a potential marker for diagnosis and treatment of ovarian cancer.

Published
2013
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16. High expression of COL8A1 predicts poor prognosis and promotes EMT in papillary thyroid cancer

Author

Weiwei Liang, Junxin Chen, Hai Li, Pengyuan Zhang, Hongyu Guan, and Yanbing Li

Subjects
col8a1, emt, invasion, migration, papillary thyroid cancer, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Background: Collagen type VIII α 1 chain (COL8A1), a collagen type VIII protein, has been suggested to exert various functions in progression of multiple cancers. However, the effect of COL8A1 in papillary thyroid cancer (PTC) has not been elucidated. Methods: The Cancer Genome Atlas (TCGA) databases were applied to investigate the COL8A1 expression and its clinical significance in PTC. The COL8A1 expression level was further validated using Gene Expression Omnibus (GEO) data and clinical paired PTC tissues. Additionally, the Kaplan–Meier curve was used to analyze the prognosis. The cell’s migrative and invasive abilities were evaluated by wound healing assay and Transwell assay. CCK8 assays were used to evaluate the proliferation of PTC cells. Western blotting was conducted to explore the potential mechanisms involved in the pro-tumor role of COL8A1. The correlation between immune cell infiltration and COL8A1 was analyzed using the Tumor Immune Estimation Resource (TIMER) database and the single-sample GSEA (ssGSEA) method. Results: We found that COL8A1 was upregulated in PTC (P < 0.05). High COL8A1 expression level was significantly associated with advanced T stage (P < 0.01), N stage (P < 0.001) and poor prognosis (P = 0.0142) in PTC. Furthermore, cell migration and invasion were significantly reduced following COL8A1 knockdown (P < 0.001). Mechanistic studies demonstrated that the epithelial-to-mesenchymal transition (EMT) related proteins (FN1, MMP9, MMP7, ZEB2 and Twist1) and phosphorylation of AKT and ERK were obviously down-regulated after COL8A1 knockdown (P < 0.01). Moreover, COL8A1 expression was correlated with immune cell infiltration. Conclusion: Our study demonstrates that COL8A1 may function as an oncogene and a potential prognostic biomarker for PTC patients.

Published
2024
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17. TGFBR3 inhibits progression of papillary thyroid cancer by inhibiting the PI3K/AKT pathway and EMT

Author

Hanrong Zhang, Junxin Chen, Xin Chen, Chuimian Zeng, Pengyuan Zhang, Jiewen Jin, Haipeng Xiao, Yanbing Li, Hongyu Guan, and Hai Li

Subjects
tgfbr3, invasion, papillary thyroid cancer, pi3k/akt pathway, emt, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Background: Transforming growth factor beta receptor III (TGFBR3) has been shown to play a tumor-suppressive role in a variety of cancers. However, its role in papillary thyroid cancer (PTC) remains unknown. Method: TGFBR3 expression levels in PTC were analyzed utilizing The Cancer Genome Atlas (TCGA) and Gene Expression Omnibus (GEO) databases. Edu, wound healing, and Transwell assays were used to evaluate cell proliferation, migration, and invasion. Transcriptome sequencing, quantitative real-time reverse transcription-polymerase chain reaction (qRT-PCR), and Western blotting were used to detect the underlying mechanism of TGFBR3 in PTC progression. Result: This study demonstrated that TGFBR3 expression was significantly down-regulated in PTC compared to normal thyroid tissues. Low expression of TGFBR3 was associated with poor prognosis of patients with PTC. Furthermore, TGFBR3 expression positively correlated with thyroid differentiation score. In investigating the biological impact of TGFBR3 overexpression in PTC cell lines, we found that the proliferation, migration, and invasion of PTC cells were significantly inhibited in response to TGFBR3 overexpression. Moreover, we also demonstrated that overexpression of TGFBR3 inhibited the PI3K/AKT pathway and epithelial-mesenchymal transformation processes. Lastly, TGFBR3 expression was found to be involved in tumor immune infiltration, highlighting its potential influence on immune dynamics within the tumor microenvironment in PTC. Conclusion: TGFBR3 plays a tumor-suppressive role in PTC progression by inhibiting the PI3K/AKT pathway and epithelial mesenchymal transformation.

Published
2024
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18. Pinning effect of lattice Pb suppressing lattice oxygen reactivity of Pb-RuO2 enables stable industrial-level electrolysis

Author

Chenhui Zhou, Lu Li, Zhaoqi Dong, Fan Lv, Hongyu Guo, Kai Wang, Menggang Li, Zhengyi Qian, Na Ye, Zheng Lin, Mingchuan Luo, and Shaojun Guo

Subjects
Science
Abstract

Abstract Ruthenium (Ru) is widely recognized as a low-cost alternative to iridium as anode electrocatalyst in proton-exchange membrane water electrolyzers (PEMWE). However, the reported Ru-based catalysts usually only operate within tens of hours in PEMWE because of their intrinsically high reactivity of lattice oxygen that leads to irrepressible Ru leaching and structural collapse. Herein, we report a design concept by employing large-sized and acid-resistant lattice lead (Pb) as a second element to induce a pinning effect for effectively narrowing the moving channels of oxygen atoms, thereby lowering the reactivity of lattice oxygen in Ru oxides. The Pb-RuO2 catalyst presents a low overpotential of 188 ± 2 mV at 10 mA cm−2 and can sustain for over 1100 h in an acid medium with a negligible degradation rate of 19 μV h−1. Particularly, the Pb-RuO2-based PEMWE can operate for more than 250 h at 500 mA cm−2 with a low degradation rate of only 17 μV h−1. Experimental and theoretical calculation results reveal that Ru-O covalency is reduced due to the unique 6s−2p−4d orbital hybridization, which increases the loss energy of lattice oxygen and suppresses the over-oxidation of Ru for improved long-term stability in PEMWE.

Published
2024
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19. Exosomal PSM-E inhibits macrophage M2 polarization to suppress prostate cancer metastasis through the RACK1 signaling axis

Author

Xingliang Qin, Rouxi Niu, Yongyao Tan, Yuxin Huang, Weishu Ren, Weiwei Zhou, Huiquan Wu, Junlong Zhang, Mingze Xu, Xiang Zhou, Hongyu Guan, Xun Zhu, Yu Chen, and Kaiyuan Cao

Subjects
Prostate cancer, Exosome, PSM-E, Macrophage polarization, Therapeutics. Pharmacology, RM1-950
Abstract

Abstract Background It is well-established that understanding the mechanism of prostate cancer (PCa)-associated metastasis is paramount for improving its prognosis. Metastasis is known to involve the communication between tumor-associated macrophages (TAMs) and tumor cells. Exosomes are crucial in mediating this intercellular communication within the tumor microenvironment. Nonetheless, the role of exosomal proteins in PCa metastasis is not yet fully understood. Here, we investigated the mechanisms of prostate cancer-derived exosomal PSM-E on regulating macrophage M2 polarization to suppress tumor invasion and metastasis. Methods PSM-E levels in exosomes were detected by transmission electron microscopy and Western blotting analysis. The diagnostic value of urine-derived exosomal PSM-E in PCa were evaluated by LC-MS/MS, correlation analysis, and ROC curves analysis. The mechanisms underlying the inhibitory effect of exosomal PSM-E on the M2 polarization of macrophages was investigated by co-IP, IHC staining, and PCa tumorigenesis model, etc. Results We revealed that exosomal PSM-E is upregulated in exosomes derived from the serum and urine of PCa patients. Clinically, an elevated exosomal PSM-E expression in urine is significantly correlated with an advanced pathological tumor stage and a high Gleason score. Our research also revealed that exosomal PSM-E inhibits prostate cancer cell proliferation, invasion, and metastasis by suppressing macrophage polarization in vitro and in vivo. Furthermore, we provided compelling evidence that exosomal PSM-E inhibits M2 polarization of macrophages by recruiting RACK1 and suppressing the FAK and ERK signaling pathways, consequently suppressing PCa invasion and metastasis. Furthermore, we found that the protease-associated domain of PSM-E and the fourth tryptophan-aspartate repeat of RACK1 are crucial for the interaction between PSM-E and RACK1. Conclusions Notably, exosomes carrying PSM-E from PCa urine could potentially serve as a biomarker for PCa, and targeting exosomal PSM-E may represent a strategy for preventing tumor progression in this patient population.

Published
2024
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23. The Genesis Mechanism and Health Risk Assessment of High Boron Water in the Zhaxikang Geothermal Area, South Tibet

Author

Liang Li, Yingchun Wang, Hongyu Gu, Lianghua Lu, Luping Li, Jumei Pang, and Feifei Chen

Subjects
Geography, Planning and Development, high boron water, evolution mechanism, water quality index, health risk assessment, Zhaxikang geothermal system, Aquatic Science, Biochemistry, Water Science and Technology
Abstract

The natural discharge of geothermal water containing harmful components affects the water quality of the surrounding environment and brings security risks to drinking water safety. The geothermal water in Tibet is characterized by high boron content, but the water pollution caused by the discharge of this high boron geothermal water is not clear. In this study, we collected geothermal water and surface water from the Zhaxikang geothermal system in southern Tibet to investigate the causes of high boron geothermal water and the water pollution of water quality by its discharge. The results indicate that the hydrochemical type of geothermal water was HCO3-Cl-Na, while that of cold spring water, mine water, river water, and lake water was SO4-HCO3-Ca-Mg. Hydrogen and oxygen isotopes show that the recharge source of cold groundwater was mainly snow-melting water and meteoric water, while in addition to that, there is magmatic water for hot springs. The boron content of geothermal water in the study area is as high as 42.36 mg/L, far exceeding the World Health Organization limit for drinking water (0.5 mg/L). The analysis of ion components and PHREEQC modeling indicated that the dissolution of silicate minerals and cation exchange controlled the composition of groundwater, and the boron in groundwater mainly came from the volatilization of magmatic components and the leaching of shallow sediments. The entropy weight water quality index was used to evaluate the water quality of the study area; about 42.9% of the groundwater samples are of good quality and can be used for drinking, mainly cold water that has not been mixed with geothermal water in the upstream. With the discharge of geothermal water into the river (with a mix ratio of ~20%), the downstream water quality gradually deteriorated. The health risk assessment of drinking water in the study area showed that the hazard index (HI) of drinking water in the mixed area was higher than 1 (with an average of 1.594 for children and 1.366 for adults), indicating that children are at a higher health risk than adults. Geothermal water with high boron content has been found all over the world, and the adverse effects of its natural drainage cannot be ignored.

Published
2022
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24. Biological hydrogen production and key metabolic pathways in dark fermentation of weathered coal

Author

Shuangbin ZHANG, Shufeng ZHAO, Hongyu GUO, Yongxin GUAN, Hong ZHANG, and Haojie MA

Subjects
weathered coal, biological hydrogen production, liquid products, microbial community structure, metabolism characteristics, Mining engineering. Metallurgy, TN1-997
Abstract

Weathered coal has low calorific value, single utilization mode and environmental pollution. In order to broaden the utilization way of weathered coal, realize resource utilization and environmental protection, dark fermentation of weathered coal was carried out to produce biological hydrogen. Naturally weathered coals from three mining areas of Jincheng and Taiyuan in Shanxi Province and Wuhai in Inner Mongolia were selected, and the coal seam mine water was used as the source of bacteria. The feasibility of biological hydrogen production from weathered coal and the key metabolites and pathways were revealed by means of biological hydrogen production test, GC-MS, three-dimensional fluorescence and metagenomics. The results show that weathered coal in different mining areas can be converted into bio-hydrogen, and the hydrogen production of Wuhai weathered coal is the largest (10.26 mL/g), which is much higher than that of Jincheng weathered coal (5.22 mL/g). The hydrogen production system of weathered coal is in an acidic environment, and pH and COD mass concentration have certain regular changes. In the process of hydrogen production from weathered coal, the liquid organic matter is mainly composed of acids (acetic acid, propionic acid, valeric acid and butyric acid) and alcohols (2,3-butanediol, sugar alcohol and (S)-1,2-propanediol). The soluble organic matter is mainly composed of humic acid and tryptophan protein organic matter, and with the progress of fermentation, a variety of organic matter is consumed and utilized. In the process of hydrogen production from weathered coal, microorganisms are mainly dominated by Pseudomonadota and Citrobacter, and hydrogen is mainly produced by decomposing and utilizing organic acids (acetic acid, propionic acid, butyric acid, lactic acid). In the process of hydrogen production from weathered coal, the acetic acid metabolic pathway is dominated by the glycolysis pathway. The organic matter is decomposed by bacteria to produce pyruvate and then used by hydrogen-producing bacteria. Among them, alanine kinase and aldehyde ketone dehydrogenase play an important role in the process of cell metabolism to produce hydrogen. The research results reveal the potential mechanism of hydrogen production from weathered coal and provide a theoretical reference for the effective utilization of weathered coal.

Published
2024
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26. TRAF4 Promotes the Proliferation of Glioblastoma by Stabilizing SETDB1 to Activate the AKT Pathway

Author

Hongyu Gu, Shunqin Zhu, Cheng Peng, Zekun Wei, Yang Shen, Chaoyu Yuan, He Yang, Hongjuan Cui, and Liqun Yang

Subjects
TNF Receptor-Associated Factor 4, Organic Chemistry, General Medicine, Histone-Lysine N-Methyltransferase, Catalysis, Computer Science Applications, glioblastoma, TRAF4, SETDB1, AKT, ubiquitination, Inorganic Chemistry, Cell Line, Tumor, Humans, Physical and Theoretical Chemistry, Glioblastoma, Molecular Biology, Proto-Oncogene Proteins c-akt, Spectroscopy, Cell Proliferation
Abstract

The process of ubiquitination regulates the degradation, transport, interaction, and stabilization of substrate proteins, and is crucial for cell signal transduction and function. TNF receptor-associated factor 4, TRAF4, is a member of the TRAF family and is involved in the process of ubiquitination as an E3 ubiquitin protein ligase. Here, we found that TRAF4 expression correlates with glioma subtype and grade, and that TRAF4 is significantly overexpressed in glioblastoma and predicts poor prognosis. Knockdown of TRAF4 significantly inhibited the growth, proliferation, migration, and invasion of glioblastoma cells. Mechanistically, we found that TRAF4 only interacts with the Tudor domain of the AKT pathway activator SETDB1. TRAF4 mediates the atypical ubiquitination of SETDB1 to maintain its stability and function, thereby promoting the activation of the AKT pathway. Restoring SETDB1 expression in TRAF4 knockdown glioblastoma cells partially restored cell growth and proliferation. Collectively, our findings reveal a novel mechanism by which TRAF4 mediates AKT pathway activation, suggesting that TRAF4 may serve as a biomarker and promising therapeutic target for glioblastoma.

Published
2022

27. Response of Domestic Water in Beijing to Climate Change

Author

Hao Wu, Buju Long, Zhihua Pan, Fei Lun, Yu Song, Jialin Wang, Zhenzhen Zhang, Hongyu Gu, and Jingyu Men

Subjects
Beijing, climate change, domestic water consumption, climate domestic water consumption, response, Geography, Planning and Development, Aquatic Science, Biochemistry, Water Science and Technology
Abstract

Beijing, a megacity in northern China, has been long facing the challenge of water scarcity, and the problem of domestic water scarcity has been becoming more serious in recent years due to climate change and global warming. To cope with the adverse effects of climate change, it is urgent to build a prediction model for water consumption in Beijing under the background of climate change. Here, a climate domestic water use model was established based on the historical meteorological data and domestic water use data, and the future domestic water demand in Beijing and the response of domestic water use to climate change were projected. The results showed that the climatic water consumption in Beijing will increase with climate warming by 177.23 million m3/°C, and the per capita annual water consumption will increase by 8.1 m3/°C. Combined with the CMIP6 multi-model climate change scenario data, the climate domestic water consumption in Beijing in 2035 under the four scenarios of SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 will be 169 million m3, 189 million m3, 208 million m3, and 235 million m3 respectively; by 2050, the climate domestic water consumption in Beijing will reach 338 million m3, 382 million m3, 395 million m3, and 398 million m3, respectively. Under SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 scenarios, if all the increased climate domestic water consumptions are supplemented by groundwater, compared with 2019, the groundwater depth will decrease by 0.18 m, 0.22 m, 0.27 m, and 0.32 m in 2035, respectively, and the area of funnel area will increase by 6.84 km2, 8.48 km2, 10.11 km2, 12.34 km2 respectively. Compared with 2035, the groundwater depth in 2050 will decrease by 0.37 m, 0.43 m, 0.41 m and 0.36 m, respectively, the area of funnel area will increase by 14.13 km2, 16.21 km2, 15.61 km2, and 13.68 km2, respectively. If the increased climatic water consumption in Beijing is supplemented by external water transfer, the cost of external water transfer in 2035 will increase by CNY 391 million, CNY 485 million, CNY 578 million, and CNY 706 million, respectively, compared with that in 2019 under the four scenarios. Compared with 2035, the cost of external water transfer in 2050 will increase by CNY 808 million, CNY 927 million, CNY 893 million, and CNY 783 million, respectively.

Published
2022
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28. YOLO-Ginseng: a detection method for ginseng fruit in natural agricultural environment

Author

Zhedong Xie, Zhuang Yang, Chao Li, Zhen Zhang, Jiazhuo Jiang, and Hongyu Guo

Subjects
ginseng fruit, intelligent harvesting, visual detection method, C3f-RN module, model compression, Plant culture, SB1-1110
Abstract

IntroductionThe accurate and rapid detection of ginseng fruits in natural environments is crucial for the development of intelligent harvesting equipment for ginseng fruits. Due to the complexity and density of the growth environment of ginseng fruits, some newer visual detection methods currently fail to meet the requirements for accurate and rapid detection of ginseng fruits. Therefore, this study proposes the YOLO-Ginseng detection method.MethodsFirstly, this detection method innovatively proposes a plug-and-play deep hierarchical perception feature extraction module called C3f-RN, which incorporates a sliding window mechanism. Its unique structure enables the interactive processing of cross-window feature information, expanding the deep perception field of the network while effectively preserving important weight information. This addresses the detection challenges caused by occlusion or overlapping of ginseng fruits, significantly reducing the overall missed detection rate and improving the long-distance detection performance of ginseng fruits; Secondly, in order to maintain the balance between YOLO-Ginseng detection precision and speed, this study employs a mature channel pruning algorithm to compress the model.ResultsThe experimental results demonstrate that the compressed YOLO-Ginseng achieves an average precision of 95.6%, which is a 2.4% improvement compared to YOLOv5s and only a 0.2% decrease compared to the uncompressed version. The inference time of the model reaches 7.4ms. The compressed model exhibits reductions of 76.4%, 79.3%, and 74.2% in terms of model weight size, parameter count, and computational load, respectively.DiscussionCompared to other models, YOLO-Ginseng demonstrates superior overall detection performance. During the model deployment experiments, YOLO-Ginseng successfully performs real-time detection of ginseng fruits on the Jetson Orin Nano computing device, exhibiting good detection results. The average detection speed reaches 24.9 fps. The above results verify the effectiveness and practicability of YOLO-Ginseng, which creates primary conditions for the development of intelligent ginseng fruit picking equipment.

Published
2024
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29. Histone Deacetylase Inhibitor Trichostatin A Suppresses Cell Proliferation and Induces Apoptosis by Regulating the PI3K/AKT Signalling Pathway in Gastric Cancer Cells

Author

Shunqin Zhu, Xinli An, Zekun Wei, Hongyu Gu, Yan Liu, Hao Tian, Botian Ran, and Hongjuan Cui

Subjects
Cancer Research, medicine.drug_class, Antineoplastic Agents, Apoptosis, Hydroxamic Acids, Phosphatidylinositol 3-Kinases, Structure-Activity Relationship, 03 medical and health sciences, 0302 clinical medicine, Stomach Neoplasms, Tumor Cells, Cultured, medicine, Humans, PI3K/AKT/mTOR pathway, Cell Proliferation, 030304 developmental biology, Pharmacology, 0303 health sciences, Dose-Response Relationship, Drug, Molecular Structure, Chemistry, Cell growth, Histone deacetylase inhibitor, Cancer, Cell cycle, medicine.disease, Histone Deacetylase Inhibitors, Trichostatin A, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, Molecular Medicine, Histone deacetylase, Drug Screening Assays, Antitumor, Proto-Oncogene Proteins c-akt, Signal Transduction, medicine.drug
Abstract

Background: Gastric cancer, a common malignant tumour worldwide, has a relatively poor prognosis and is a serious threat to human health. Histone Deacetylase Inhibitors (HDACi) are anticancer agents that are known to affect the cell growth of different cancer types. Trichostatin A (TSA) selectively inhibits the class I and II mammalian Histone Deacetylase (HDAC) family enzymes and regulates many cell processes. Still, the underlying mechanisms of HDACs are not fully understood in gastric cancer. Objective: This study aims to investigate the antitumor effect and the mechanism of growth modulation of gastric cancer cells by TSA. Methods: The cell proliferation of gastric cancer cells was measured by MTT and BrdU immunofluorescence assays. Soft agar assay was used to detect the colony formation ability of gastric cancer cells. Flow cytometry was used to examine cell cycle and apoptosis. Western blot was employed to detect protein expression of target factors. Results: TSA inhibits the proliferation of MKN-45 and SGC-7901 cells and leads to significant repression of colony number and size. Flow cytometry assays show TSA induces cell cycle arrest at G1 phase and apoptosis, and TSA effects the expression of related factors in the mitochondrial apoptotic signalling and cell cycle-related regulatory pathways. Furthermore, TSA increased histone H3K27 acetylation and downregulated the expression of PI3K and p-AKT. Conclusion: Downregulating PI3K/AKT pathway activation is involved in TSA-mediated proliferation inhibition of gastric cancer.

Published
2020
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30. Hydrogeochemical Characteristics and Impact of Arsenic Released from a Gold Deposit in Tibet

Author

Zhi Zhang, Huayong Ni, Yingchun Wang, Dan Li, Hongyu Gu, and Yujie Liu

Subjects
inorganic chemicals, Arsenopyrite, geography, geography.geographical_feature_category, integumentary system, chemistry.chemical_element, 010501 environmental sciences, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, 01 natural sciences, chemistry.chemical_compound, chemistry, visual_art, Desorption, Environmental chemistry, Soil water, Spring (hydrology), visual_art.visual_art_medium, Carbonate, Ecotoxicology, Dissolution, Arsenic, 0105 earth and related environmental sciences, Water Science and Technology
Abstract

High arsenic concentrations are common in the water and soils in Tibet. In this study, arsenic concentrations were found to be below detection limits in natural river water, although the high background concentrations of HCO3− and the pH all favor arsenic release. Lake water had the highest arsenic concentrations due to intense evaporation. The impact of mining on arsenic release was assessed using a mixing model composed of three end-members: KS02 (a post-mining sample), R07 (a river water sample), and S12 (spring water that contains arsenic). The results indicated that mining operations are likely responsible for a small proportion (2.0%) of direct release of arsenic from deep thermal water, and that most arsenic was released by desorption from Fe oxyhydroxides. The mixing model also revealed that so far, mining operations have accelerated carbonate dissolution, but have not led to arsenopyrite oxidation. Therefore, HCO3− concentrations increased during mining, which along with the pH (> 7.0), led to desorption of arsenic from Fe oxyhydroxide.

Published
2020
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31. Using mixing model to interpret the water sources and ratios in an under-sea mine

Author

Huayong Ni, Fengshan Ma, Hongyu Gu, Gang Liu, Hui Xin, and Jiayuan Cao

Subjects
021110 strategic, defence & security studies, Atmospheric Science, Hydrogeology, 010504 meteorology & atmospheric sciences, Scale (ratio), δ18O, 0211 other engineering and technologies, Soil science, 02 engineering and technology, 01 natural sciences, Tectonics, Principal component analysis, Earth and Planetary Sciences (miscellaneous), Environmental science, Seawater, Mixing (physics), Groundwater, 0105 earth and related environmental sciences, Water Science and Technology
Abstract

Identification of water sources is a key issue of water inrush. This study applied a mixing model based on hydrochemical data to identify water sources and proportions. This study highlighted (1) the importance of model scale and reaction evaluation before using the mixing model, (2) a newly proposed criterion based on eigenvalue analysis to identify the number of end-members, and (3) linear mixing model based on PCA (principal component analysis). 2.5 km2 area was an appropriate scale to mixing model because tectonics and lithology were simple. Ion activity, ion exchange, and cycle time of water were evaluated, indicating that groundwater components were dominated by the mixing process. Tracers, such as K, Na, Ca, Mg, Cl, SO4, δ18O, δD, EC, TH, and TDS, were used as tracers in the mixing model. Five end-members (representing seawater, Quaternary water, freshwater, Ca-rich water, and Mg-rich water) were identified based on eigenvalue analysis and hydrochemical evolution analysis. A linear mixing algorithm was programmed using Matlab to compute the ratio of each end-member. The results showed that seawater was the dominated water sources (70% at most) threatening the mining operations, especially at the deep levels. Quaternary water mainly recharged the middle level and made up 50% at − 420 m level. Freshwater recharged the shallow level and made up to 40% at − 150 m level. Ca-rich water and Mg-rich water decreased with time. Finally, cross test and extension test of this method showed a high precision in reconstructing ion concentrations, low sensitivity to noise data, and highly extendible to future data.

Published
2020
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32. C5aR1 is a master regulator in Colorectal Tumorigenesis via Immune modulation

Author

Xinyue Lv, Qingkai Wang, Wei Zhang, Long Zhang, Xuhui Zhou, Jianfeng Chen, Qun-Ying Lei, Xin Zhang, Weixing Dai, Qi Wang, Ling Li, Enjie Xu, Peipei Ding, Luying Li, Chaoqun Yang, Yuzhen Zhou, Danlei Zhou, Na Wang, Weiguo Hu, and Hongyu Gu

Subjects
0301 basic medicine, Male, Chemokine, Colorectal cancer, Complement, Azoxymethane, Medicine (miscellaneous), CD8-Positive T-Lymphocytes, medicine.disease_cause, Peptides, Cyclic, 03 medical and health sciences, chemistry.chemical_compound, Gene Knockout Techniques, Mice, 0302 clinical medicine, Immune system, medicine, Animals, colorectal tumorigenesis, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), Receptor, Anaphylatoxin C5a, Bone Marrow Transplantation, Complement component 5, immune modulation, biology, business.industry, Dextran Sulfate, Complement C3, medicine.disease, Colitis, Complement system, Gene Expression Regulation, Neoplastic, Disease Models, Animal, 030104 developmental biology, C5aR1, chemistry, 030220 oncology & carcinogenesis, biology.protein, Cancer research, Carcinogenesis, business, Colorectal Neoplasms, CD8, Research Paper
Abstract

Numerous factors have been claimed to play important roles in colorectal cancer (CRC) tumorigenesis, including myeloid-derived suppressor cells (MDSCs) and other immune cells, cytokines, and chemokines; however, the precise mechanisms of colorectal tumorigenesis remain elusive, and there is a lack of effective preventive treatments. Here, we investigated the role of complement system, a key regulator of immune surveillance and homeostasis, in colorectal tumorigenesis. Methods: The prototypical CRC model was induced by combined administration of azoxymethane (AOM)/ dextran sulfate sodium (DSS) in Wild-type (WT), C3-, C5-, C5ar1-, and C5ar2-deficient mice. Using flow cytometry, immunohistochemical staining and multiplex bead assay, we profiled the immune cells, cytokines and chemokines. Bone marrow transplantation was employed to determine the contribution of immune cells in colorectal tumorigenesis. Further, we used C5aR1 antagonist PMX205 to investigate the protective role in colorectal tumorigenesis. Results: Complement was extensively activated in inflamed tissues of AOM/DSS-induced murine CRC model, leading to multifaceted consequences. The deficiency of complement C5 or especially C5ar1, but not C3 almost completely prevented CRC tumorigenesis. C5a/C5aR1 signaling recruited MDSCs into the inflamed colorectum to impair CD8+ T cells, and modulated the production of critical cytokines and chemokines, thus initiating CRC. Moreover, the C5aR1 antagonist PMX205 strongly impeded colorectal tumorigenesis. Bone marrow transplantation further revealed that C5aR1 expression by immune cells was critical for colorectal tumorigenesis. Conclusion: Our study identifies C5a/C5aR1 signaling as a vital immunomodulatory program in CRC tumorigenesis and suggests a feasible preventive strategy.

Published
2020

35. Rapid On-site identification of geographical origin and storage age of tangerine peel by Near-infrared spectroscopy

Author

Shaowei Pan, Xin Zhang, Wanbang Xu, Jianwei Yin, Hongyu Gu, and Xiangyang Yu

Subjects
Principal Component Analysis, Spectroscopy, Near-Infrared, Geography, Calibration, Discriminant Analysis, Instrumentation, Spectroscopy, Atomic and Molecular Physics, and Optics, Analytical Chemistry
Abstract

The feasibility of identifying geographical origin and storage age of tangerine peel was explored by using a handheld near-infrared (NIR) spectrometer combined with machine learning. A handheld NIR spectrometer (900-1700 nm) was used to scan the outer surface of tangerine peel and collect the corresponding NIR diffuse reflectance spectra. Principal component analysis (PCA) combined with Mahalanobis distance were used to detect outliers. The accuracies of all models in the anomaly set were much lower than that in calibration set and test set, indicating that the outliers were effectively identified. After removing the outliers, in order to initially explore the clustering characteristics of tangerine peels, PCA was performed on tangerine peels from different origins and the same origin with different storage ages. The results showed that the tangerine peels from the same origin or the same storage age had the potential to cluster, indicating that the spectral data of the same origin or the same storage age had a certain similarity, which laid the foundation for subsequent modeling and identification. However, there were quite a few samples with different origins or different storage ages overlapped and could not be distinguished from each other. In order to achieve qualitative identification of origin and storage age, Savitzky-Golay convolution smoothing with first derivative (SGFD) and standard normal variate (SNV) were used to preprocess the raw spectra. Random forest (RF), K-nearest neighbor (KNN) and linear discriminant analysis (LDA) were used to establish the discriminant model. The results showed that SGFD-LDA could accurately distinguish the origin and storage age of tangerine peel at the same time. The origin identification accuracy was 96.99%. The storage age identification accuracy was 100% for Guangdong tangerine peel and 97.15% for Sichuan tangerine peel. This indicated that the near-infrared spectroscopy (NIRS) combine with machine learning can simultaneously and rapidly identify the origin and storage age of tangerine peel on site.

Published
2021

37. The multiple mediating effects of self-efficacy and resilience on the relationship between social support and procrastination among vocational college students: a cross-sectional study

Author

Yanting Zhang, Hongyu Guo, Mei Ren, Haili Ma, Yingying Chen, and Cancan Chen

Subjects
Procrastination, Social support, Self-efficacy, Resilience, Vocational college students, Public aspects of medicine, RA1-1270
Abstract

Abstract Background Previous research has revealed a negative association between social support and procrastination. However, few studies have investigated the mechanism underlying this relationship among vocational college students. Objective Based on the social cognitive theory, this study was intended to investigate the multiple mediating effects of self-efficacy and resilience on the relationship between social support and procrastination among vocational college students. Methods This study employed a cross-sectional design involving a sample of 1,379 students from a vocational college in China. Data were collected using the General Procrastination Scale, the Multidimensional Scale of Perceived Social Support, the General Self-Efficacy Scale, and the Resilience Scale-14. The PROCESS macro for SPSS was used to examine the multiple mediation model. Results Our findings indicate significant negative correlations between social support, self-efficacy, resilience, and procrastination. The multiple mediation analysis showed that social support did not have a significant direct impact on procrastination. Instead, the relationship between social support and procrastination was fully mediated by self-efficacy (indirect effect: -0.017; 95% CI: -0.032, -0.004) and resilience (indirect effect: -0.047; 95% CI: -0.072, -0.025), and sequentially mediated by both factors (indirect effect: -0.013; 95% CI: -0.020, -0.007). Conclusions The results emphasise the importance of enhancing self-efficacy and resilience in initiatives aimed at preventing and intervening in case of procrastination among vocational college students. Additionally, strengthening social support may also be crucial to preventing or reducing procrastination among this population.

Published
2024
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38. Variation characteristics of substrate and flora metabolism associated with co-fermentation of coal and corn straw

Author

Qiang XU, Hongyu GUO, Minglu ZHANG, Xiujia BAI, and Yue ZHAO

Subjects
coal, biomethane, combined fermentation, microbial community structure, metabolic characteristics, Mining engineering. Metallurgy, TN1-997
Abstract

Adding corn straw to the anaerobic fermentation system of coal can significantly increase the gas production of coal-to-biomethane. However, the changes in substrate and microbial metabolism accompanying this combined fermentation are rarely studied. The Scanning Electron Microscope (SEM) test was utilized to analyze the microbial adhesion characteristics of coal and corn straw, while the X-ray Photoelectron Spectroscopy (XPS) test examined the changes in surface elements of coal. The results indicated that the optimal ratios of lean coal, weakly caking coal, and coking coal to corn straw were 2∶1, 2∶1, and 3∶1, respectively, and the corresponding methane yields were 17.28 mL/g, 12.51 mL/g, and 14.88 mL/g. The promotional effect of co-fermentation of different rank coal and straw was observed in the order of lean coal > coking coal > weakly caking coal. Microbial identification revealed that Sphaerochaeta and Proteiniphilum were the dominant bacterial genera in the mixed fermentation system, comprising 35.95% and 24.36% of the population, respectively. Additionally, Methanosarcina, Methanobacterium, and Methanoculleus emerged as the dominant archaea, constituting 49.71%, 31.83%, and 9.87%, respectively. In comparison with coking coal and weakly caking coal, the bacterial and archaeal genera, along with their associated gene functions responsible for carbohydrate metabolism in the combined fermentation broth of lean coal, coking coal, and weakly caking coal, were found to be dominant. This observation aligns with the principles governing methane production. Notably, in mixed substrate fermentation, as coal rank increased, bacterial presence on the coal surface gradually declined, while a substantial bacterial population consistently adhered to the surface of corn straw, indicating the latter's sustained advantage in degradation. After co-fermentation, the relative content of C element on the surface of coking coal and weakly caking coal decreased more significantly than that of lean coal, while the total relative content of oxygen-containing organic carbon ( C—O, C=O and O—C=O ) increased significantly, indicating that co-fermentation can promote the growth and metabolism of bacteria, so that more organic carbon can be converted into biological methane. The research results identified the effect of co-fermentation of different rank coal and corn straw at the micro level, which has reference significance for revealing the internal mechanism of co-fermentation of coal and corn straw.

Published
2024
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39. FLNA overexpression promotes papillary thyroid cancer aggression via the FAK/AKT signaling pathway

Author

Weiwei Liang, Yilin Zhang, Yan Guo, Pengyuan Zhang, Jiewen Jin, Hongyu Guan, and Yanbing Li

Subjects
flna, invasion, migration, papillary thyroid cancer, fak/akt pathway, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Background: Filamin A (FLNA) is a member of the filamin family and has been found to be critical for the progression of several cancers. However, its biological function in papillary thyroid cancer (PTC) remains largely unexplored. Methods: Data from The Cancer Genome Atlas (TCGA) databases were utilized to analyze the FLNA expression level and its influence on the clinical implications of patients with PTC. Gene Expression Omnibus (GEO) and qRT-PCR was used to verify the expression levels of FLNA in PTC. Kaplan–Meier survival analysis was conducted to evaluate the prognostic value of FLNA in PTC. Transwell assays and wound healing were performed to examine the biological function of FLNA knockdown in PTC cells. Gene set enrichment analysis (GSEA) and Western blotting were conducted to investigate the potential mechanisms underlying the role of FLNA in PTC progression. In addition, the relationship between FLNA expression and the tumor immune microenvironment (TME) in PTC was explored. Results: FLNA was significantly upregulated in PTC tissues. High expression levels of FLNA was correlated with advanced TNM stage, T stage, and N stage, as well as poor disease-free interval (DFI) and progression-free interval (PFI) time in PTC patients. Moreover, we found that FLNA knockdown inhibited the migration and invasion of PTC cells. Mechanistically, FLNA knockdown inhibited epithelial–mesenchymal transition (EMT) in PTC and affected the activation of the FAK/AKT signaling pathway. In addition, FLNA expression was associated with TME in PTC. Conclusion: FLNA may be regarded as a new therapeutic target for PTC patients.

Published
2024
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40. Enhancing vaccination uptake through community engagement: evidence from China

Author

Hongyu Guan, Lidong Zhang, Xiangzhe Chen, Yunyun Zhang, Yuxiu Ding, and Wenting Liu

Subjects
Medicine, Science
Abstract

Abstract With growing recognition of the importance of community engagement in addressing public health challenges, its role in promoting healthy behaviors and preventing infectious diseases has gained attention. However, vaccination coverage remains a significant concern in many developing countries. While previous studies have linked community engagement to positive health outcomes, there is a gap in understanding its influence on individual vaccination choices, particularly in the context of developing countries. Utilizing data from the 2021 Chinese General Social Survey (CGSS), this study examines the impact of community engagement on COVID-19 and flu vaccination uptake among 7281 individuals. Community engagement, measured by community vaccination notifications, serves as the key independent variable. The study employs Ordinary Least Squares (OLS) regression and Propensity Score Matching (PSM) methods to analyze the relationship between community engagement and vaccination behavior. The analysis reveals a positive association between community engagement and vaccination rates. Specifically, individuals receiving notifications were more likely to get the COVID-19 vaccine compared to non-recipients (vaccination rates: 100% vs. 53.3%), and flu vaccination rates were also significantly higher among those notified (2.7% vs. 1.9%). Mechanism analysis suggests that individuals receiving community notifications are more aware of the benefits of vaccination, leading to higher vaccination rates among this group. This study underscores the effectiveness of community engagement strategies in promoting positive vaccination behavior among individuals in China. By enhancing awareness and trust in immunization, community engagement initiatives play a crucial role in shaping health behaviors and improving vaccination uptake. These findings emphasize the importance of integrating community engagement approaches into public health interventions to address vaccination challenges.

Published
2024
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42. Molecular methylation detection based on terahertz metamaterial technology

Author

Chenjun Shi, Yan Peng, Xu Wu, and Hongyu Gu

Subjects
Detection limit, chemistry.chemical_classification, Materials science, business.industry, Terahertz radiation, Biomolecule, Metamaterial, 02 engineering and technology, 021001 nanoscience & nanotechnology, Chip, 01 natural sciences, Biochemistry, Analytical Chemistry, 010309 optics, Resonator, chemistry, 0103 physical sciences, Electrochemistry, Environmental Chemistry, Optoelectronics, Sensitivity (control systems), 0210 nano-technology, business, Absorption (electromagnetic radiation), Spectroscopy
Abstract

Terahertz wave has a good ability to identify biomolecules due to its fingerprint spectrum characteristics. However, the minimum detectable limit of terahertz technology by the conventional tablet pressing method is on the order of milligrams, which cannot meet the application requirements of low concentration detection in the biomedical field-near or below micrograms. Here, we proposed a method to enhance the detection sensitivity by designing a metamaterial chip with the absorption-induced transparency (AIT) effect, which can enhance the interaction between terahertz waves and biomolecules and lower the detectable limit. Taking 7-methylguanine (7-MG) as an example, based on its terahertz characteristic absorption peak, we designed a split-ring resonator (SRR) metamaterial chip, which has the advantages of high sensitivity, unlabeled detection, fast response and simple measurement. Its quantitative detection limit can reach 6.30 μg, which is about 500 times smaller than that of the traditional tablet pressing method (2.95 mg). In addition, for methylated and unmethylated substances, the chip exhibits different frequency shifts, which also realizes the qualitative identification effectively. These results provide a reference for the rapid and accurate diagnosis of diseases associated with molecular methylation in clinical medicine.

Published
2020
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44. ZC3H15 promotes gastric cancer progression by targeting the FBXW7/c-Myc pathway

Author

Jianbing Hou, Pan Huang, Chao Lan, Shengjun Geng, Minghao Xu, Yudong Liu, Hongbo Chang, Zhongze Wang, Hongyu Gu, Yi Wang, Guang Yang, and Hongjuan Cui

Subjects
Tumour biomarkers, Cancer Research, Cellular and Molecular Neuroscience, QH573-671, Immunology, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Cell Biology, Cytology, Gastric cancer, RC254-282, Article
Abstract

Zinc finger CCCH-type containing 15 (ZC3H15), a highly conserved eukaryotic protein, which was associated with several cellular processes and was ubiquitously expressed in various human tissues. Recent studies indicated that ZC3H15 was involved in tumorigenesis and may be a potential biomarker in hepatocellular carcinoma (HCC) and acute myeloid leukemia (AML). However, the biological function and molecular mechanism of ZC3H15 in gastric cancer (GC) have not been studied. In this study, we revealed that ZC3H15 was highly expressed in GC and high ZC3H15 expression was closely linked to poor survival of patients with GC. We found that ZC3H15 promoted cell proliferation, migration, and invasion by increasing c-Myc expression. Next, we found that ZC3H15 could modulate c-Myc protein stability by suppressing the transcription of FBXW7, which was mainly responsible for c-Myc degradation. Moreover, silencing of FBXW7 in ZC3H15-knockdown GC cells could partly abrogate the effects induced by ZC3H15 downregulation. Taken together, our data unearth the important roles of ZC3H15 in GC development and suggest that ZC3H15 may be a potential target for the treatment of GC.

Published
2021

45. ZC3H15 promotes glioblastoma progression through regulating EGFR stability

Author

Jianbing Hou, Minghao Xu, Hongyu Gu, Dakun Pei, Yudong Liu, Pan Huang, Hongbo Chang, and Hongjuan Cui

Subjects
Cancer Research, Carcinoma, Hepatocellular, QH573-671, Brain Neoplasms, Carcinogenesis, Immunology, Liver Neoplasms, RNA-Binding Proteins, Cell Biology, Oncogenes, Article, ErbB Receptors, Gene Expression Regulation, Neoplastic, CNS cancer, Cellular and Molecular Neuroscience, Prognostic markers, Cell Transformation, Neoplastic, Cell Movement, Cell Line, Tumor, Humans, Cytology, Glioblastoma, Cell Proliferation
Abstract

Zinc finger CCCH-type containing 15 (ZC3H15), a highly conserved protein involved in several cellular processes, which was responsible for tumorigenesis and may be a promising marker in myeloid leukemia (AML) and hepatocellular carcinoma (HCC). However, little is known about the biological significance and molecular mechanisms of ZC3H15 in GBM. In this study, we revealed that ZC3H15 was overexpressed in GBM and high ZC3H15 expression was associated with poor survival of patients with GBM. We found that ZC3H15 promoted the proliferation, migration, invasion, and tumorigenesis of GBM cells by activating the EGFR signaling pathway. We also revealed that ZC3H15 reduced EGFR ubiquitination, which was responsible for EGFR protein stabilization. In addition, we demonstrated that ZC3H15 inhibited the transcription of CBL, which was an E3 ubiquitin ligase for EGFR proteasomal degradation. And silencing of CBL could partly abrogate the inhibitory effects on cell proliferation, migration, and invasion of GBM cells induced by ZC3H15 knockdown. Thus, our research revealed the important roles of ZC3H15 in GBM development and provided a brand-new insight for improving the treatment of GBMs.

Published
2021

46. Hydrochemical characteristics and genesis analysis of geothermal fluid in the Zhaxikang geothermal field in Cuona County, southern Tibet

Author

Yinhui Zuo, Dan Li, Yingchun Wang, Rongcai Song, Hongyu Gu, Lianghua Lu, and Min Lyu

Subjects
Global and Planetary Change, geography, Plateau, geography.geographical_feature_category, Rift, 0208 environmental biotechnology, Geochemistry, Soil Science, Geology, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Pollution, Isotopes of oxygen, 020801 environmental engineering, Dilution, Magmatic water, Meteoric water, Environmental Chemistry, Quartz, Geothermal gradient, 0105 earth and related environmental sciences, Earth-Surface Processes, Water Science and Technology
Abstract

High-temperature geothermal systems are widely used to produce electricity and reduce atmospheric carbon emissions. The Zhaxikang geothermal field, located in the southeast of the Tibetan Plateau, is a typical high-temperature geothermal field related to the orogenic rift system. The hydrochemical type of the hot springs is predominantly HCO3–Cl–Na. In this study, the primary hydrochemical processes, including mixing and degassing, were identified and qualified based on hydrogeochemical and isotopic data. The results indicate that the deep geothermal fluid consists of meteoric water (80%) mixed with magmatic water (20%). Mixing with magmatic water and weak water–rock interactions might be responsible for the inapparent oxygen isotope shift. Comprehensive analyses of the Na–K and quartz geothermometers, the Na–K–Ca ternary diagram, as well as the enthalpy–silica and enthalpy–chloride mixing model yield reliable temperature estimates ranging from 180 to 210 °C. The equilibrium temperature of the multi-minerals converges at a narrow range from 185 to 205 °C, which was determined using geothermometrical modeling after correcting for the dilution and degassing processes. Different degrees of CO2 degassing (0.1–0.7 mol/L) were identified during the upward migration of the geothermal fluid through geothermometrical modeling. The SiO2 concentration (292 mg/L) and chloride concentration (490 mg/L) of the deep geothermal fluid under the Zhaxikang geothermal field were estimated through a comprehensive analysis of the enthalpy–silica and enthalpy–chloride diagrams, respectively.

Published
2021
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47. Clinical Impact of Obesity on Postoperative Outcomes of Patients With Thyroid Cancer Undergoing Thyroidectomy: A 5‐Year Retrospective Analysis From the US National Inpatient Sample

Author

Yue Chen, Jiewen Jin, Pengyuan Zhang, Runyi Ye, Chuimian Zeng, Yilin Zhang, Junxin Chen, Hai Li, Haipeng Xiao, Yanbing Li, and Hongyu Guan

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

ABSTRACT Background The clinical impact of obesity on postoperative outcomes of patients undergoing thyroidectomy remains controversial. Methods Patients aged ≥ 18 years who were diagnosed with thyroid malignancy and underwent thyroidectomy between 2016 and 2020 were included, and divided into two groups: patients with body mass index (BMI)

Published
2024
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48. Source and pattern identification of ground deformation based on the framework of Blind Source Separation--Nonnegative Matrix Factorization: a case study in a long-term GPS monitoring mine

Author

fengshan Ma, hongyu Gu, Liangjun Lin, weichang Chen, yongbo Tie, and donghui wang

Subjects
Pattern identification, business.industry, Computer science, Global Positioning System, Deformation (meteorology), business, Blind signal separation, Algorithm, Term (time), Non-negative matrix factorization
Abstract

Ground deformation caused by mining affects the safety of underground mining and buildings. High-resolution characterization of ground deformation respond to latent sources is a first step toward improved hazard forecasting. We rely on long-term GPS displacement data and an improved NMF algorithm of BSS to identify the sources driving ground deformation. The NMF identifies three sources (S1, S2, and S3) with distinct spatial and temporal surface deformation patterns and quantitatively reveals the contribution of each source to ground deformation. S1 captures horizontal Y-displacement related to horizontal tectonic stress \({{\sigma }}_{1}\). S2 dominates vertical Z-displacement with a widespread isotropous deformation driven by self-weight body force. S3 controls horizontal X-displacement related to horizontal tectonic stress \({{\sigma }}_{2}\). Besides, we find that independent contributions of these three sources can be resolved from the GPS data. The results show that the sharp change of source contribution and even transformation of dominate source are highly related to the severe deformation belt. This phenomenon is time independent, and helps us to select sites and find the potential risk area at its early stage.

Published
2021
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49. River extraction of color remote sensing image based on HSV and shape detection

Author

jinyang yu, hongyu gu, Jie Li, and kuixiang feng

Subjects
Remote sensing (archaeology), Color image, Computer science, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, RGB color model, Segmentation, Image segmentation, HSL and HSV, Grayscale, ComputingMethodologies_COMPUTERGRAPHICS, Hue, Remote sensing
Abstract

Remote sensing image river extraction can provide effective data information for flood disaster prevention and control, water resource pollution etc. River extraction of remote sensing image can be regarded as an image segmentation problem. Due to the large amount of information contained in RGB (Red, Green and Blue) color images, the existing remote sensing image river extraction algorithms extract rivers based on grayscale images. However, human eyes have a high recognition for color images, and at the same time, rich information is conducive to more accurate image extraction. In this paper, HSV (Hue, Saturation and value) color image segmentation is used in remote sensing image river segmentation, the RGB color image is converted to HSV color image, H image component and S image component are multiplied, and set the threshold image is multiplied with the original image to obtain the river extraction image. At last, combined with river shape detection extracts the river area and water area from the remote sensing image to obtain a complete river area image.

Published
2021
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50. Analysis of the difference between weathered coal and lignite in the conversion of biomethane

Author

Shuangbin ZHANG, Shufeng ZHAO, Hongyu GUO, and Kuo JIAN

Subjects
biomethane, weathered coal, lignite, physical and chemical characteristics, microflora changes, Mining engineering. Metallurgy, TN1-997
Abstract

In order to find out the internal reasons for the difference in biological methane production between weathered coal and lignite, weathered coal and lignite were selected respectively, and the enriched and domesticated bacterial liquid was used as the source of bacteria. The internal mechanism of the difference in biological gas production between weathered coal and lignite was analyzed by biological gas production simulation, infrared spectroscopy, X-ray photoelectron spectroscopy, scanning electron microscopy and 16 S rRNA test. The results showed that the biogas production potential of lignite (7.63 mL/g) was higher than that of weathered coal (3.24 mL/g). Compared with weathered coal, in the process of gas production, various groups of lignite fall off obviously, aromatic substances are more converted into other substances with small molecular weight, and phenolic carbon or ether carbon (C—O) oxidation is more obvious, which is conducive to the formation of more small molecular organic acids. Compared with weathered coal, lignite has more serious surface erosion and more pore cracks in the process of biological gas production. The diversity of bacteria and archaea in lignite is lower than that in weathered coal, but the main functional flora accounts for a large proportion. The proportion of Macellibacteroides and Lysinibacillus in bacteria reaches 68.05%, and the proportion of Methanosarcina and Methanobacterium in archaea reaches 89.99%, which is much larger than that of weathered coal. It plays a positive role in the degradation and utilization of organic matter in coal and can provide raw materials for subsequent methanogens. Therefore, lignite is more conducive to the utilization of microbial products to produce methane. Methane metabolism type of weathered coal is methyl nutrition hydrogen nutrition type different from lignite. Microorganisms in lignite can make better use of acetic acid as a carbon source, glucose and glycogen can be effectively degraded into pyruvate, strong oxidation (reduction), and produce ATP for biochemical reactions. The research results provide a theoretical reference for the mechanism of gas production difference between weathered coal and lignite, and provide practical significance for the future biomethanation utilization of weathered coal and lignite.

Published
2024
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