Your search keyword '"Gan, Xing"' showing total 15 results

1. Synthesis of Ni decorated MoOx nanorod catalysts for efficient overall urea–water splitting.

Author

Li, Zhiwei, Yang, Wenwen, Xiong, Kun, Chen, Jia, Zhang, Haidong, Yang, Mingliang, Gan, Xing, and Gao, Yuan

Subjects

NANORODS, HYDROGEN evolution reactions, OXYGEN evolution reactions, CATALYSTS, FOAM, HYDROGEN production, NICKEL catalysts

Abstract

Substituting slow oxygen evolution reaction (OER) with thermodynamically favorable urea oxidation reaction (UOR) is considered as one of the feasible strategies for achieving energy-saving hydrogen production. Herein, a uniform layer of NiMoO4 nanorods was grown on nickel foam by a hydrothermal method. Then, a series of Ni-MoOx/NF-X nanorod catalysts comprising Ni/NiO and MoOx (MoO2/MoO3) were prepared through regulating annealing atmosphere and reduction temperature. The optimized Ni-MoOx/NF-3 with a large accessible specific area can act as a bifunctional catalyst for electrocatalytic anodic UOR and cathodic hydrogen evolution reaction (HER). At a current density of 100 mA cm−2, the introduction of urea can significantly reduce the overpotential of Ni-MoOx/NF-3 by 210 mV compared to OER. In addition, Ni-MoOx/NF-3 has a higher intrinsic activity than other catalysts. It only requires −0.21 and 1.38 V to reach 100 mA cm−2 in HER and UOR, respectively. Such an excellent performance can be attributed to the synergistic function between Ni and MoOx. The presence of metallic Ni and reduced MoOx in pairs is beneficial for improving the electrical conductivity and modulating the electronic structure, resulting in enhancing the electrocatalytic performance. When assembling Ni-MoOx/NF-3 into an overall urea–water splitting system, it can achieve energy-saving hydrogen production and effective removal of urea-rich wastewater. [ABSTRACT FROM AUTHOR]

Published

2024

2. Combined low levels of H4K16ac and H4K20me3 predicts poor prognosis in breast cancer.

Author

Wang, Bo, Zhou, Meng, Gan, Xing-li, Ren, Yue-xiang, Yang, Yuan-zhong, Weng, Zi-jin, Zhang, Xiao-fang, Guan, Jie-xia, Tang, Lu-ying, and Ren, Ze-fang

Subjects

BREAST cancer prognosis, PROGRESSION-free survival, OVERALL survival, PROGNOSIS, REGRESSION analysis

Abstract

Background: Results of previous studies about the prognostic roles of histone H4 lysine 16 acetylation (H4K16ac) and histone H4 lysine 20 trimethylation (H4K20me3) in breast cancer were inconsistent. Cellular experiments revealed the interplays between H4K16ac and H4K20me3, but no population study explored the interaction between them on the prognosis. Methods: H4K16ac and H4K20me3 levels in tumors were evaluated by immunohistochemistry for 958 breast cancer patients. Hazard ratios for overall survival (OS) and progression-free survival (PFS) were estimated using Cox regression models. Interaction was assessed on multiplicative scale. Concordance index (C-index) was calculated to verify the predictive performance. Results: The prognostic roles of the low level of H4K16ac or H4K20me3 were significant only in patients with the low level of another marker and their interactions were significant. Moreover, compared with joint high levels of both them, only the combined low levels of both them was associated with a poor prognosis but not the low level of single one. The C-index of the clinicopathological model combined the joint expression of H4K16ac and H4K20me3 [0.739 for OS; 0.672 for PFS] was significantly larger than that of the single clinicopathological model [0.699 for OS, P < 0.001; 0.642 for PFS, P = 0.003] or the model combined with the single H4K16ac [0.712 for OS, P < 0.001; 0.646 for PFS, P < 0.001] or H4K20me3 [0.724 for OS, P = 0.031; 0.662 for PFS, P = 0.006]. Conclusions: There was an interaction between H4K16ac and H4K20me3 on the prognosis of breast cancer and the combination of them was a superior prognostic marker compared to the single one. [ABSTRACT FROM AUTHOR]

Published

2023

3. Regulation of 5-Aminolevunilic Acid and Its Application in Agroforestry.

Author

Wang, Liangju, Zhang, Jianting, Zhong, Yan, Zhang, Liuzi, Yang, Hao, Liu, Longbo, Zhou, Jiayi, Iqbal, Malik Mohsin, and Gan, Xing

Subjects

BIOPESTICIDES, AGROFORESTRY, PLANT regulators, SECONDARY metabolism, CROP yields, GERMINATION, PLANT health

Abstract

The review briefly introduces the natural occurrence, physicochemical properties, and biosynthesis of 5-aminolevuinic acid (ALA) and highlights a variety of applications in the planting industry and its possible mechanisms. It has been known that ALA can be used as biological pesticides, fungicides, and herbicides when the concentrations are higher than 838 mg L−1 (about 5 mmol L−1). When ALA concentrations are 100–300 mg L−1, it can be used to thin surplus flowers in the spring of orchards and promote fruit coloration before maturation. When the concentrations are lower than 100 mg L−1, especially not higher than 10 mg L−1, ALA can be used as a new plant growth regulator to promote seed germination, plant (including root and shoot) growth, enhance stress tolerance, increase crop yield, and improve product quality. In photosynthesis, ALA is involved in the regulation of the whole process. In stress tolerance, ALA induces plant preventive and protective systems through the NO/H2O2 signaling network. In secondary metabolism, ALA regulates many gene expressions encoding transcription factors or function proteins to promote anthocyanin and flavonol biosynthesis and accumulation. In general, ALA promotes plant health and robustness, reduces the use of chemical fertilizers and pesticides—which is conducive to improving the ecological environment, human production, and living conditions—and has a broad application prospect in agroforestry production. As a new plant growth regulator with multiple and powerful functions, the underlying regulatory mechanisms need more study. [ABSTRACT FROM AUTHOR]

Published

2023

4. Research on Soil Nitrogen Balance Mechanism and Optimal Water and Nitrogen Management Model for Crop Rotation of Vegetables in Facilities.

Author

Gan, Xing, Sun, Shiyu, Fan, Haiyan, Liu, Honglu, Zhang, Juan, and Ding, Zijun

Subjects

WATER management, NITROGEN in soils, NITROGEN in water, CROP rotation, NITROGEN fertilizers, WATERSHEDS

Abstract

Vegetable production is an important area of focus in China's agricultural structural adjustment plans, and it serves as one of the essential industries in the rural economy. Several studies have investigated how to optimize vegetable yield and quality through proper irrigation and fertilization to ensure efficient and sustainable development. The main objective of this paper is to examine the impact of different combinations of irrigation and nitrogen inputs on facility-grown vegetables under irrigation and fertilization conditions. Additionally, we aim to identify the optimal irrigation and fertilization regime that can enhance yield quality while also promoting environmental benefits. In this study, we focused on a white radish–tomato facility as the main research object. Using multiple regression and spatial analysis methods, we established three irrigation levels (W1: 100% ET0, W2: 85% ET0, W3: 70% ET0) and four nitrogen application levels (N0: no nitrogen, N1: high nitrogen, locally recommended nitrogen, N2: medium nitrogen, 85% N1, N3: low nitrogen, 70% ET0). We analyzed the effects of an irrigation nitrogen application on vegetable yield, nitrogen bias productivity, soil nitrogen surplus, and integrated N1 warming potential. Our experimental results showed that irrigation volume and nitrogen application had a considerable impact on the yield of facility-grown vegetables, and there was a positive correlation between irrigation water and fertilizer application and yield. By moderately reducing the irrigation volume and increasing nitrogen application, soil nitrogen surplus and nitrogen fertilizer bias productivity can be effectively improved. In addition, our study found that the integrated warming potential and the bias productivity of nitrogen fertilizer showed a quadratic relationship, which indicated that the integrated warming potential and nitrogen fertilizer bias productivity would first become larger and then decrease under the condition of increasing the irrigation volume and nitrogen application rate. By analyzing the difference between W2N2 and W1N1, we found that moderate water-saving and nitrogen reduction did not affect yield. Furthermore, it effectively improved the bias productivity of nitrogen fertilizer. Therefore, it is recommended that when the irrigation volume is between 560 and 650 mm and the nitrogen application rate is between 325 and 400 kg/hm2 and more than 90% of the maximum value of yield, nitrogen fertilizer bias productivity can be achieved at the same time while also having a lower integrated warming potential. This range of irrigation and nitrogen application intervals is close to optimal. Our study provides a guiding basis for rotational soil nitrogen balance, optimal water, and nitrogen management of facility-grown vegetables. We propose an optimal water and nitrogen management strategy that is more efficient and sustainable under the plant culture model. This strategy provides a new way of thinking and methodology for high-quality production that is water-saving and fertilizer-saving while addressing the water and soil resource problems that exist in the current development of the vegetable industry. [ABSTRACT FROM AUTHOR]

Published

2023

5. AGR2 and FOXA1 as prognostic markers in ER-positive breast cancer.

Author

Zhou, Meng, Gan, Xing-li, Ren, Yue-xiang, Chen, Qian-xin, Yang, Yuan-zhong, Weng, Zi-jin, Zhang, Xiao-fang, Guan, Jie-xia, Tang, Lu-ying, and Ren, Ze-fang

Subjects

HORMONE receptor positive breast cancer, PROGNOSIS, BREAST cancer, BREAST cancer prognosis, CANCER patients, REFERENCE values

Abstract

Background: The prognostic role of either forkhead box A1 (FOXA1) or anterior gradient 2 (AGR2) in breast cancer has been found separately. Considering that there were interplays between them depending on ER status, we aimed to assess the statistical interaction between AGR2 and FOXA1 on breast cancer prognosis and examine the prognostic role of the combination of them by ER status. Methods: AGR2 and FOXA1 expression in tumor tissues were evaluated with tissue microarrays by immunohistochemistry in 915 breast cancer patients with follow up data. The expression levels of these two markers were treated as binary variables, and many different cutoff values were tried for each marker. Survival and Cox proportional hazard analyses were used to evaluate the relationship between AGR2, FOXA1 and prognosis, and the statistical interaction between them on the prognosis was assessed on multiplicative scale. Results: Statistical interaction between AGR2 and FOXA1 on the PFS was significant with all the cutoff points in ER-positive breast cancer patients but not ER-negative ones. Among ER-positive patients, the poor prognostic role of the high level of FOXA1 was significant only in patients with the low level of AGR2, and vice versa. When AGR2 and FOXA1 were considered together, patients with low levels of both markers had significantly longer PFS compared with all other groups. Conclusions: There was a statistical interaction between AGR2 and FOXA1 on the prognosis of ER-positive breast cancer. The combination of AGR2 and FOXA1 was a more useful marker for the prognosis of ER-positive breast cancer patients. [ABSTRACT FROM AUTHOR]

Published

2023

6. Multimetallic post-synthetic modifications of copper selenide nanoparticles.

Author

Sen, Riti, Gordon, Tyler Masato, Millheim, Shelby Liz, Smith, Jacob Harrison, Gan, Xing Yee, and Millstone, Jill Erin

Published

2023

7. Large eddy simulation of cloud cavitation and wake vortex cavitation around a trailing-truncated hydrofoil.

Author

Yin, Ting-yun, Pavesi, Giorgio, Pei, Ji, Yuan, Shou-qi, and Gan, Xing-cheng

Published

2022

8. Aqueous transfer of colloidal metal oxide nanocrystals via base-driven ligand exchange.

Author

Lakhanpal, Vikram S., Zydlewski, Benjamin Z., Gan, Xing Yee, Celio, Hugo, Jhong, Huei-Ru "Molly", Ofosu, Charles K., and Milliron, Delia J.

Subjects

NANOCRYSTALS, POTASSIUM hydroxide, CHEMICAL properties, NANOSTRUCTURED materials

Abstract

A general method is developed for removal of native nonpolar oleate ligands from colloidal metal oxide nanocrystals of varying morphologies and compositions. Ligand stripping occurs by phase transfer into potassium hydroxide solution, yielding stable aqueous dispersions with little nanocrystal aggregation and without significant changes to the nanomaterials' physical or chemical properties. This method enables facile fabrication of conductive films of ligand-free nanocrystals. [ABSTRACT FROM AUTHOR]

Published

2022

9. Power transmission and transformation project 3D visualization system design research.

Author

Gan, Xing, Wu, Xiaozhong, Xu, Zhiqiang, and Xiao, Hui

Published

2023

10. Genome sequence and annotation of <italic>Sporolactobacillus pectinivorans</italic> GD201205 T, a lactic acid-producing bacterium.

Author

Lan, Quanxue, Gan, Xing, Tang, Hanlan, Luo, Lixin, Chen, Jing, Yang, Guowu, and Huang, Jianfei

Abstract

The novel species Sporolactobacillus pectinivorans GD201205T can produce lactic acid and aromatic compounds such as isoamyl acetate and phenethyl acetate. To characterize this strain, we sequenced the whole genome of S. pectinivorans GD201205T and determined that it contains a 3,926,837-bp chromosome with a GC content of 44.27%, 4320 genes, 64 tRNAs, 14 rRNAs, and four sRNAs. The identification of the gene sequence of S. pectinivorans GD201205T provides a basis for understanding its molecular genetics and features, which in turn will facilitate its potential application as a starter culture in the food processing industry. [ABSTRACT FROM AUTHOR]

Published

2018

11. Impacts of broth chemistry on silver ion release, surface chemistry composition, and bacterial cytotoxicity of silver nanoparticles.

Author

Johnston, Kathryn A., Stabryla, Lisa M., Smith, Ashley M., Gan, Xing Yee, Gilbertson, Leanne M., and Millstone, Jill E.

Published

2018

12. Diversity and dynamics stability of bacterial community in traditional solid-state fermentation of Qishan vinegar.

Author

Gan, Xing, Tang, Hanlan, Ye, Dongdong, Li, Pan, Luo, Lixin, and Lin, Weifeng

Abstract

Qishan vinegar is a typical Chinese fermented cereal product that is prepared using traditional solid-state fermentation (SSF) techniques. The final qualities of the vinegar produced are closely related to the multiple bacteria present during SSF. In the present study, the dynamics of microbial communities and their abundance in Daqu and vinegar Pei were investigated by the combination of high throughput sequencing and quantitative PCR. Results showed that the Enterobacteriales members accounted for 94.7%, 94.6%, and 92.2% of total bacterial sequences in Daqu Q3, Q5, and Q10, respectively. Conversely, Lactobacillales and Rhodospirillales dominated during the acetic acid fermentation (AAF) stage, corresponding to the quantitative PCR results. Lactobacillus, Acetobacter, Weissella, Leuconostoc and Bacillus were the dominant and characteristic bacterial genera of Qishan vinegar during AAF process. Redundancy analysis suggested that Lactobacillales and Rhodospirillales had a positive correlation with humidity and acidity, respectively. These results confirmed that the bacterial community structure could be affected by physiochemical factors, which determined the unique bacterial composition at different fermentation stages and showed batch-to-batch consistency and stability. Therefore, the conformity of bacterial community succession with physiochemical parameters guaranteed the final quality of Qishan vinegar products. This study provided a scientific perspective for the uniformity and stability of Qishan vinegar, and might aid in controlling the manufacturing process. [ABSTRACT FROM AUTHOR]

Published

2017

13. Genomic analysis of type strain Paenibacillus aceti L14, a highly efficient producer of pyrazines.

Author

Li, Pan, Gan, Xing, Luo, Lixin, and Du, Bing

Abstract

Paenibacillus aceti L14 (CGMCC 1.15420 = JCM 31170) is a novel species isolated from the solid-state acetic acid fermentation culture of traditional Chinese vinegar. The strain is able to biosynthesize the pyrazines, including 2,3-diisobutylpyrazine, 2-isobutyl-3-methylpyrazine and 1-(5-isobutyl-2-pyrazinyl)-1-propanone. Genome sequencing of L14 was performed to gain insights into the genetic elements involved in the biosynthesis of pyrazines. The genome of L14 contains 5,611,962 bp with a GC content of 47.92 mol%, 5147 protein coding genes, 92 tRNAs, 20 rRNAs and four sRNAs. The strain L14 also contains complete biosynthetic pathways of valine, leucine and isoleucine, and contains genes for encoding threonine dehydratase and ketol-acid reductoisomerase. This genome sequence provides a basis for elucidating the possible mechanism for the biosynthesis of pyrazines. [ABSTRACT FROM AUTHOR]

Published

2017

14. Serum cytokine profiles of children with human enterovirus 71-associated hand, foot, and mouth disease.

Author

Han, Jun, Wang, Ying, Gan, Xing, Song, Juan, Sun, Peng, and Dong, Xiao‐Ping

Abstract

Cytokine profiles may impact the pathogenicity and severity of hand, foot, and mouth disease caused by human enterovirus (HEV) 71. In 91 severe or mild HEV 71-associated hand, foot, and mouth disease children, serum was collected between days 2 and 10 or day >10. Serum cytokines including Type 1 T helper (Th1) cytokines: interleukin (IL)-2, interferon-gamma (IFN-γ), IL-12, and IL-18, Type 1 T helper (Th2) cytokines: IL-4, IL-10, IL-13, proinflammatory cytokines: IL-1α, IL-1β, IL-6, IL-8, IL-17, and tumor necrosis factor alpha (TNF-α), were assessed during the early stage and recovery. In the patients with mild illness, the peaks of IL-8 and IL-10 were observed on day 6 and that of IL-18 was on day 4. In the patients with severe illness, all cytokines spiked on day 3 and peaked on day 11. All cytokines except IL-6, IL-8, IL-18, and TNF-α were significantly correlated with immunoglobulin M levels by the end of the disease course. Cytokine profile variations between the patients with mild and severe illness may indicate prognosis and strain virulence, useful in clinical treatment of patients. J. Med. Virol. 86:1377-1385, 2014. © 2014 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2014

15. GaInP/GaAs tandem solar cells with highly Te- and Mg-doped GaAs tunnel junctions grown by MBE.

Author

Zheng Xin-He, Liu San-Jie, Xia Yu, Gan Xing-Yuan, Wang Hai-Xiao, Wang Nai-Ming, and Yang Hui

Subjects

SOLAR cells, GALLIUM compounds, SOLAR batteries, PHOTOVOLTAIC cells, COMPOUND parabolic concentrators

Abstract

We report a GaInP/GaAs tandem solar cell with a novel GaAs tunnel junction (TJ) with using tellurium (Te) and magnesium (Mg) as n- and p-type dopants via dual-filament low temperature effusion cells grown by molecular beam epitaxy (MBE) at low temperature. The test Te/Mg-doped GaAs TJ shows a peak current density of 21 A/cm2. The tandem solar cell by the Te/Mg TJ shows a short-circuit current density of 12 mA/cm2, but a low open-circuit voltage range of 1.4 V∼1.71 V under AM1.5 illumination. The secondary ion mass spectroscopy (SIMS) analysis reveals that the Te doping is unexpectedly high and its doping profile extends to the Mg doping region, thus possibly resulting in a less abrupt junction with no tunneling carriers effectively. Furthermore, the tunneling interface shifts from the intended GaAs n++/p++ junction to the AlGaInP/GaAs junction with a higher bandgap AlGaInP tunneling layers, thereby reducing the tunneling peak. The Te concentration of ∼ 2.5 × 1020 in GaAs could cause a lattice strain of 10−3 in magnitude and thus a surface roughening, which also negatively influences the subsequent growth of the top subcell and the GaAs contacting layers. The doping features of Te and Mg are discussed to understand the photovoltaic response of the studied tandem cell. [ABSTRACT FROM AUTHOR]

Published

2015