Your search keyword '"Junqin Li"' showing total 496 results

1. Crotonylation modification and its role in diseases

Author

Yi Guo, Junqin Li, and Kaiming Zhang

Subjects

post-translational modification, crotonylation, histone, non-histone protein, disease, Biology (General), QH301-705.5

Abstract

Protein lysine crotonylation is a novel acylation modification discovered in 2011, which plays a key role in the regulation of various biological processes. Thousands of crotonylation sites have been identified in histone and non-histone proteins over the past decades. Crotonylation is conserved and is regulated by a series of enzymes including “writer”, “eraser”, and “reader”. In recent years, crotonylation has received extensive attention due to its breakthrough progress in reproduction, development and pathogenesis of diseases. Here we brief the crotonylation-related enzyme systems, biological functions, and diseases caused by abnormal crotonylation, which provide new ideas for developing disease intervention and treatment regimens.

Published

2024

2. The function of nicotinamide phosphoribosyl transferase (NAMPT) and its role in diseases

Author

Aihong Peng, Junqin Li, Jianxiao Xing, Yuanjun Yao, Xuping Niu, and Kaiming Zhang

Subjects

NAMPT, NAD metabolism, biological function, SIRTs, diseases, Biology (General), QH301-705.5

Abstract

Nicotinamide phosphoribosyl transferase (NAMPT) is a rate-limiting enzyme in the mammalian nicotinamide adenine dinucleotide (NAD) salvage pathway, and plays a vital role in the regulation of cell metabolic activity, reprogramming, aging and apoptosis. NAMPT synthesizes nicotinamide mononucleotide (NMN) through enzymatic action, which is a key protein involved in host defense mechanism and plays an important role in metabolic homeostasis and cell survival. NAMPT is involved in NAD metabolism and maintains intracellular NAD levels. Sirtuins (SIRTs) are a family of nicotinamide adenine dinucleotide (NAD)-dependent histone deacetylases (HDACs), the members are capable of sensing cellular NAD+ levels. NAMPT-NAD and SIRT constitute a powerful anti-stress defense system. In this paper, the structure, biological function and correlation with diseases of NAMPT are introduced, aiming to provide new ideas for the targeted therapy of related diseases.

Published

2024

3. Pathogenic role of PFKFB3 in endothelial inflammatory diseases

Author

Ling Zhou, Juan Li, Juanjuan Wang, Xuping Niu, Junqin Li, and Kaiming Zhang

Subjects

PFKFB3, endothelial cells, glycolysis, inflammatory, 3PO, Biology (General), QH301-705.5

Abstract

The differentiation of vascular endothelial cells and the formation of new blood vessels are inseparable from the energy supply and regulation of metabolism. The budding of blood vessels is a starting point of glycolysis pathway in angiogenesis. Phosphofructokinase-2/fructose 2,6-biophosphatase 3 (PFKFB3), a key rate-limiting enzyme in glycolysis, exhibits strong kinase activity. Inhibition of PFKFB3 can reduce the rate of glycolysis, thereby inhibiting the budding of blood vessels, resulting in inhibition of pathological angiogenesis. In this review, the role of PFKFB3 in the angiogenesis of inflammatory diseases was summarized, and the endothelial inflammatory diseases associated with PFKFB3 were reviewed.

Published

2024

4. Molecular mechanisms and drug therapy of metabolism disorders in psoriasis

Author

Yanyang Liang, Ying Wang, Aihong Peng, Junqin Li, and Kaiming Zhang

Subjects

Psoriasis, metabolism disorders, drug therapy, MTORC1 pathway, glucose metabolism, lipid metabolism, Dermatology, RL1-803

Abstract

Background: Psoriasis is a prevalent skin disease affecting approximately 1%–3% of the population and imposes significant medical, social and economic burdens. Psoriasis involves multiple organs and is often complicated with obesity, diabetes, dyslipidemia, and hypertension. Because of the benefits of lipid-lowering agents and antidiabetic medications for psoriasis, metabolic abnormalities possibly play a pathogenic role in psoriasis.Objective: This review focuses on the impacts of a variety of metabolic disorders on psoriasis and the underlying mechanisms.Results: In psoriasis, enhanced glycolysis, glutamine metabolism and altered fatty acid composition in the psoriatic lesion and plasma result in the excessive proliferation of keratinocytes and secretion of inflammatory cytokines. Altered metabolism is associated with the activation of MTORC signaling pathway and transcription factors such as HIF and S6K1. Therefore, MTORC1 can be a target for the treatment of psoriasis. Additionally, there are diabetes drugs and lipid-lowering drugs including TZDs, GLP-1 RAs, Metformin, statins and fibrates, which improve both metabolic levels and psoriasis symptoms.

Published

2024

5. The role of actin cytoskeleton CFL1 and ADF/cofilin superfamily in inflammatory response

Author

Jianxiao Xing, Ying Wang, Aihong Peng, Junqin Li, Xuping Niu, and Kaiming Zhang

Subjects

actin cytoskeleton, inflammation, CFL1, ADF/cofilin superfamily, cell migration, Biology (General), QH301-705.5

Abstract

Actin remodeling proteins are important in immune diseases and regulate cell cytoskeletal responses. These responses play a pivotal role in maintaining the delicate balance of biological events, protecting against acute or chronic inflammation in a range of diseases. Cofilin (CFL) and actin depolymerization factor (ADF) are potent actin-binding proteins that cut and depolymerize actin filaments to generate actin cytoskeleton dynamics. Although the molecular mechanism by which actin induces actin cytoskeletal reconstitution has been studied for decades, the regulation of actin in the inflammatory process has only recently become apparent. In this paper, the functions of the actin cytoskeleton and ADF/cofilin superfamily members are briefly introduced, and then focus on the role of CFL1 in inflammatory response.

Published

2024

6. Pure Spin Transport in YIG Films with Amorphous‐to‐Crystalline Transformation

Author

Rui Yu, Jiefeng Cao, Haigang Liu, Fangyuan Zhu, Xiangyu Meng, Zhipeng Long, Junqin Li, and Yong Wang

Subjects

magnetic insulators, phase transitions, spin propagation, spin pumping, Physics, QC1-999

Abstract

Abstract Magnetic insulators, especially Y3Fe5O12 (YIG), are considered promising candidates for spin‐based device applications due to their ultralow damping, high spin injection efficiency, and long‐distance spin propagation. However, these intriguing features are widely studied based on crystallization YIG films. Pure spin phenomena, like spin transport in YIG films with structural evolution, remain unclear. Herein, pure spin transportation is systematically investigated in the sandwich structure formed by YIG, the inserted layer‐nominal YIG (n‐YIG) with a varied crystalline structure and heavy metal Platinum (Pt). By applying ferromagnetic resonance (FMR)‐driven inverse spin Hall effect (ISHE) measurement, the detected ISHE voltage signal presented a strong correlation with the thickness of n‐YIG and its crystalline phase. A significant increasement in spin transportation is obtained for the crystallized n‐YIG via a high‐temperature annealing. These results demonstrate that pure spin current is transported availably in the structural evolution of YIG films. Furthermore, the element‐specific X‐ray absorption spectroscopy (XAS) and X‐ray magnetic circular dichroism (XMCD) spectra on the n‐YIG films showed a distinction for the crystallized n‐YIG which indicates that the spin propagation is correlated to its magnetic order. These findings are instructive for low‐dissipation spin‐based devices.

Published

2024

7. A bibliometric analysis review of the Pennisetum (1970–2023)

Author

Yu Zhang, Junqin Li, Xiangtao Wang, Yuting Yang, Zijun Zhou, Xiaolin Deng, Yang Gao, and Puchang Wang

Subjects

Pennisetum, bibliometrics, cultivation and breeding, ecological restoration, industrial applications, novel materials, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Pennisetum, a herbaceous plant belonging to the Poaceae family, is prevalent in tropical and subtropical regions and encompasses ~140 species. Its versatility is evidenced by its applications in forage, paper weaving, soil erosion control, and energy production. Current research on Pennisetum spans diverse fields including hay production, molecular breeding, and heavy metal absorption. However, this body of research is marked by redundancy, with a lack of clear focus. This article employs bibliometric methods to analyze the key research areas topics from 1970 to 2023. It also further discusses the future research direction of Pennisetum. Over the past five decades, research on Pennisetum has seen a significant increase, primarily concentrating on cultivation and breeding, ecological restoration, and industrial applications. These domains have become pivotal in advancing Pennisetum-related research. The paper also forecasts future innovations in Pennisetum research, focusing on molecular breeding, agricultural management, and novel material development. As a seminal contribution, this study offers a comprehensive graphical overview of Pennisetum research, establishing a foundational resource for ongoing scientific discourse.

Published

2024

8. Sensory nerves directly promote osteoclastogenesis by secreting peptidyl-prolyl cis-trans isomerase D (Cyp40)

Author

Junqin Li, Bin Liu, Hao Wu, Shuaishuai Zhang, Zhuowen Liang, Shuo Guo, Huijie Jiang, Yue Song, Xing Lei, Yi Gao, Pengzhen Cheng, Donglin Li, Jimeng Wang, Yang Liu, Di Wang, Nazhi Zhan, Jing Xu, Lin Wang, Guozhi Xiao, Liu Yang, and GuoXian Pei

Subjects

Biology (General), QH301-705.5, Physiology, QP1-981

Abstract

Abstract Given afferent functions, sensory nerves have recently been found to exert efferent effects and directly alter organ physiology. Additionally, several studies have highlighted the indirect but crucial role of sensory nerves in the regulation of the physiological function of osteoclasts. Nonetheless, evidence regarding the direct sensory nerve efferent influence on osteoclasts is lacking. In the current study, we found that high levels of efferent signals were transported directly from the sensory nerves into osteoclasts. Furthermore, sensory hypersensitivity significantly increased osteoclastic bone resorption, and sensory neurons (SNs) directly promoted osteoclastogenesis in an in vitro coculture system. Moreover, we screened a novel neuropeptide, Cyp40, using an isobaric tag for relative and absolute quantitation (iTRAQ). We observed that Cyp40 is the efferent signal from sensory nerves, and it plays a critical role in osteoclastogenesis via the aryl hydrocarbon receptor (AhR)-Ras/Raf-p-Erk-NFATc1 pathway. These findings revealed a novel mechanism regarding the influence of sensory nerves on bone regulation, i.e., a direct promoting effect on osteoclastogenesis by the secretion of Cyp40. Therefore, inhibiting Cyp40 could serve as a strategy to improve bone quality in osteoporosis and promote bone repair after bone injury.

Published

2023

9. Research on drought stress in Medicago sativa L. from 1998 to 2023: a bibliometric analysis

Author

Zijun Zhou, Junqin Li, Yang Gao, Xiangtao Wang, Rui Wang, Haiyan Huang, Yu Zhang, Lili Zhao, and Puchang Wang

Subjects

alfalfa, drought tolerance, response mechanism, yield, bibliometrics, research trends, Plant culture, SB1-1110

Abstract

Alfalfa (Medicago sativa L.) is one of the most important forage crops in the world. Drought is recognized as a major challenge limiting alfalfa production and threatening food security. Although some literature reviews have been conducted in this area, bibliometric reviews based on large amounts of published data are still lacking. In this paper, a bibliometric analysis of alfalfa drought stress from 1998–2023 was conducted using the Web of Science Core Collection database in order to assess global trends in alfalfa drought stress research and to provide new directions for future research. The results showed that the annual publication output maintained an increase in most years, with China and the United States contributing significantly to the field. Most of the journals published are specialized journals in botany, environmental science, soil science and crop science, as well as related agribusiness journals. “plant growth” and “yield” were the most frequently used keywords, reflecting the important purpose of research in this field. And two main research directions were identified: research on drought response mechanism of alfalfa and exploration of drought-resistant technology. In addition, physiological, biochemical, and molecular responses of drought tolerance and high yield in alfalfa, transgenics, and microbial fertilizer research have been hot research topics in recent years and may continue in the future. The ultimate goal of this paper is to provide a foundational reference for future research on alfalfa’s drought resistance and yield optimization mechanisms, thereby enhancing the crop’s application in agricultural production.

Published

2024

10. Association between systemic immune-inflammation index and psoriasis: a population-based study

Author

Xiya Zhao, Junqin Li, and Xinhua Li

Subjects

systemic immune-inflammation index, psoriasis, PASI, NHANES, stroke, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundThe systemic immune-inflammation index (SII),as measured by lymphocyte, neutrophil and platelet counts in peripheral blood, is regarded as a favorable indicator of both inflammatory state and immune response. Psoriasis is an immune-mediated disease notable for its chronic inflammation of the entire system. Our research sought to explore the latent link between psoriasis and SII.MethodsWe performed a cross-sectional investigation utilizing data extracted from the National Health and Nutrition Examination Survey (NHANES, 2009-2014). Employing multivariate linear regression models and subgroup analysis, we sought to uncover the association between SII and psoriasis.ResultsThis study enrolled a total of 17,913 participants as part of its research cohort. Our multivariate linear regression analysis revealed a notable and positive correlation between SII and psoriasis [1.013 (1.000, 1.026)]. As SII tertiles increased, the risk of psoriasis demonstrated an upward trend. The significant dependence on this positive association were maintained in women, BMI(≥ 30 kg/m2),non-stroke and non-cancer subjects in subgroup analysis and interaction tests. Furthermore, we identified a significant association between SII and psoriasis, characterized by two consecutive inverted U-shaped patterns. Notably, the analysis revealed the most prominent inflection point at a specific value of 797.067.ConclusionsThe results indicate a significant correlation between elevated SII levels and the presence of psoriasis. However, to corroborate and strengthen these results, additional large-scale prospective studies are required.

Published

2024

11. Mutual optical intensity propagation through non-ideal two-dimensional mirrors

Author

Xiangyu Meng, Yong Wang, Xianbo Shi, Junchao Ren, Weihong Sun, Jiefeng Cao, Junqin Li, and Renzhong Tai

Subjects

synchrotron beamline, partially coherent light, mutual optical intensity, two-dimensional mirrors, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Crystallography, QD901-999

Abstract

The mutual optical intensity (MOI) model is a partially coherent radiation propagation tool that can sequentially simulate beamline optics and provide beam intensity, local degree of coherence and phase distribution at any location along a beamline. This paper extends the MOI model to non-ideal two-dimensional (2D) optical systems, such as ellipsoidal and toroidal mirrors with 2D figure errors. Simulation results show that one can tune the trade-off between calculation efficiency and accuracy by varying the number of wavefront elements. The focal spot size of an ellipsoidal mirror calculated with 100 × 100 elements gives less than 0.4% deviation from that with 250 × 250 elements, and the computation speed is nearly two orders of magnitude faster. Effects of figure errors on 2D focusing are also demonstrated for a non-ideal ellipsoidal mirror and by comparing the toroidal and ellipsoidal mirrors. Finally, the MOI model is benchmarked against the multi-electron Synchrotron Radiation Workshop (SRW) code showing the model's high accuracy.

Published

2023

12. Trends and Directions in Oats Research under Drought and Salt Stresses: A Bibliometric Analysis (1993–2023)

Author

Haiyan Huang, Xiangtao Wang, Junqin Li, Yang Gao, Yuting Yang, Rui Wang, Zijun Zhou, Puchang Wang, and Yujun Zhang

Subjects

oats, adversity stresses, bibliometric, VOSviewer, Citespace, Botany, QK1-989

Abstract

With global climate change leading to increasing intensity and frequency of droughts, as well as the growing problem of soil salinization, these factors significantly affect crop growth, yield, and resilience to adversity. Oats are a cereal widely grown in temperate regions and are rich in nutritive value; however, the scientific literature on the response of oat to drought and salt stress has not yet been analyzed in detail. This study comprehensively analyzed the response of oat to drought stress and salt stress using data from the Web of Science core database and bibliometric methods with R (version4.3.1), VOSviewer (version 1.6.19), and Citespace (version6.3.1.0) software. The number of publications shows an increasing trend in drought stress and salt stress in oat over the past 30 years. In the field of drought-stress research, China, the United States, and Canada lead in terms of literature publication, with the most academic achievements being from China Agricultural University and Canadian Agricultural Food University. The journal with the highest number of published papers is Field Crops Research. Oat research primarily focuses on growth, yield, physiological and biochemical responses, and strategies for improving drought resistance. Screening of drought-tolerant genotypes and transformation of drought-tolerant genes may be key directions for future oat drought research. In the field of salt-stress research, contributions from China, the United States, and India stand out, with the Chinese Academy of Agricultural Sciences and Inner Mongolia Agricultural University producing the most significant research results. The largest number of published articles has been found in the Physiologia Plantarum journal. Current oat salt-stress research primarily covers growth, physiological and biochemical responses, and salt-tolerance mechanisms. It is expected that future oat salt research will focus more on physiological and biochemical responses, as well as gene-editing techniques. Despite achievements under single-stress conditions, combined drought and salt-stress effects on oat remain understudied, necessitating future research on their interaction at various biological levels. The purpose of this study is to provide potential theoretical directions for oat research on drought and salt stress.

Published

2024

13. Terrestrial algae: pioneer organisms of carbonate rock solutional weathering in South China karst

Author

Ni Yan, Jiawei Zhao, Kangning Xiong, Chunliu Yang, Junqin Li, and Qian Chen

Subjects

carbonate rock, terrestrial algae, carbonic anhydrase activity, extracellular polysaccharide, solutional weathering, Microbiology, QR1-502

Abstract

The formation of soil in karst ecosystem has always been a scientific problem of great concern to human beings. Algae can grow on the exposed and non-nutrition carbonate surface, inducing and accelerating weathering of rock substrates, thus promoting soil formation. Yet the actual contribution of algae to solutional weathering intensity remains unclear. In this study, we performed weathering simulation experiment on two algae species (Klebsormidium dissectum (F.Gay) H.Ettl & G.Gärtner and Chlorella vulgaris Beijerinck), which were screened from carbonated rock surfaces from a typical karst region in South China. The results showed: (1) both algae have solutional weathering effect on carbonate rock, (2) there is no difference of solutional intensity observed, yet the solutional modes are different, suggesting different ecological adaptative strategies, (3) algae on carbonate rocks have higher carbonic anhydrase activity (CAA) and secrete more extracellular polysaccharide (EPS), accelerating rock weathering. (4) The absolute dissolution amount of carbonate rock with algae participation is 3 times of that of without algae. These results indicate the significant impact of terrestrial algae on carbonate rock solutional weathering and provides quantitative evidence that terrestrial algae are pioneer species. It also contributes to our further understanding of soil formation in karst ecosystems in South China.

Published

2024

14. Microbial network structure, not plant and microbial community diversity, regulates multifunctionality under increased precipitation in a cold steppe

Author

Xuechen Yang, Wenzheng Song, Xue Yang, Tianxue Yang, Wenqing Bao, Chengliang Wang, Junqin Li, Shangzhi Zhong, Qi Jiang, Lu-Jun Li, and Wei Sun

Subjects

biodiversity, co-occurrence ecological networks, ecosystem function, grassland ecosystem, nutrient cycling, rainfall amount, Microbiology, QR1-502

Abstract

It is known that the dynamics of multiple ecosystem functions (i. e., multifunctionality) are positively associated with microbial diversity and/or biodiversity. However, how the relationship between microbial species affects ecosystem multifunctionality remains unclear, especially in the case of changes in precipitation patterns. To explore the contribution of biodiversity and microbial co-occurrence networks to multifunctionality, we used rainfall shelters to simulate precipitation enhancement in a cold steppe in Northeast China over two consecutive growing seasons. We showed that an increased 50% precipitation profoundly reduced bacterial diversity and multidiversity, while inter-annual differences in precipitation did not shift microbial diversity, plant diversity, or multidiversity. Our analyses also revealed that increased annual precipitation significantly increased ecosystem, soil, nitrogen, and phosphorous cycle multifunctionality. Neither increased precipitation nor inter-annual differences in precipitation had a significant effect on carbon cycle multifunctionality, probably due to the relatively short period (2 years) of our experiment. The co-occurrence network of bacterial and fungal communities was the most dominant factor affecting multifunctionality, the numbers of negative interactions but not positive interactions were linked to multifunctionality. In particular, our results provided evidence that microbial network topological features are crucial for maintaining ecosystem functions in grassland ecosystems, which should be considered in related studies to accurately predict the responses of ecosystem multifunctionality to predicted changes in precipitation patterns.

Published

2024

15. Partially coherent light propagation through a kinoform lens

Author

Weihong Sun, Yong Wang, Xiangyu Meng, Junchao Ren, Jiefeng Cao, Junqin Li, and Renzhong Tai

Subjects

synchrotron radiation beamline, kinoform lens, mutual optical intensity, partially coherent light, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Crystallography, QD901-999

Abstract

Combining wave optics propagation and geometric ray tracing, the mutual optical intensity (MOI) model is extended to quantitatively simulate the propagation of partially coherent light through a kinoform lens at high speed. The MOI model can provide both a high accuracy and a high efficiency simulation. The intensity and coherence degree distributions at the focal plane are calculated using the MOI model. It is beneficial to improve the focusing capability of the kinoform lens by reducing the coherence or increasing the number of lens steps. In addition, increasing the number of steps is also beneficial to increase the photon flux and reduce the depth of focus.

Published

2023

16. X-ray propagation through a kinoform lens

Author

Weihong Sun, Yong Wang, Xiangyu Meng, Junchao Ren, Jiefeng Cao, Junqin Li, and Renzhong Tai

Subjects

kinoform lens, synchrotron radiation, geometrical optics, wave optics, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Crystallography, QD901-999

Abstract

Combining geometric ray tracing and wave optics propagation, a new simulation model named LWF is established to calculate the full coherent X-ray propagation through a kinoform lens. The LWF model is used to analyze the X-ray propagation through long and short kinoform lenses and calculate the intensity distribution at the focal plane. When the aperture is large, the focal spot for the long kinoform lens is smaller than that for the short kinoform lens. Due to the use of the geometric ray-tracing method to calculate the beam propagation inside the kinoform lens, the LWF model takes a low number of transversal wavefront segments, i.e. a short time, to achieve high accuracy. The simulation times for the one-dimensional and two-dimensional LWF models are 0.025 s and 5.3 s, respectively, with a calculation error of less than 0.5%. The high efficiency and high accuracy make the LWF model a strong tool in designing kinoform lenses.

Published

2022

17. Pathogenic role of S100 proteins in psoriasis

Author

Huifang Liang, Junqin Li, and Kaiming Zhang

Subjects

psoriasis, S100 proteins, interaction, signaling pathways, inflammation, Immunologic diseases. Allergy, RC581-607

Abstract

Psoriasis is a chronic inflammatory skin disease. The histopathological features of psoriasis include excessive proliferation of keratinocytes and infiltration of immune cells. The S100 proteins are a group of EF-hand Ca2+-binding proteins, including S100A2, -A7, -A8/A9, -A12, -A15, which expression levels are markedly upregulated in psoriatic skin. These proteins exert numerous functions such as serving as intracellular Ca2+ sensors, transduction of Ca2+ signaling, response to extracellular stimuli, energy metabolism, and regulating cell proliferation and apoptosis. Evidence shows a crucial role of S100 proteins in the development and progress of inflammatory diseases, including psoriasis. S100 proteins can possibly be used as potential therapeutic target and diagnostic biomarkers. This review focuses on the pathogenic role of S100 proteins in psoriasis.

Published

2023

18. Benefits of biological nitrification inhibition of Leymus chinensis under alkaline stress: the regulatory function of ammonium-N exceeds its nutritional function

Author

Gui Wang, Lihui Zhang, Zihan Guo, Dongfang Shi, Huiliang Zhai, Yuan Yao, Tianxue Yang, Shuquan Xin, Haiying Cui, Junqin Li, Jianying Ma, and Wei Sun

Subjects

ammonium, nitrate, nutrition, biological nitrification inhibition, adaptation to alkaline stress, Plant culture, SB1-1110

Abstract

IntroductionThe production of root exudates with biological nitrification inhibition (BNI) effects is a strategy adopted by ammonium-N (NH4+‐N) tolerant plant species that occur in N-limited environments. Most knowledge on BNI comes from plant species that occur in acidic soils.MethodsHere, combining field sampling and laboratory culture, we assessed the BNI-capacity of Leymus chinensis, a dominant grass species in alkaline grasslands in eastern Asia, and explored why L. chinensis has BNI ability.Results and discussionThe results showed that L. chinensis has strong BNI-capacity. At a concentration of 1 mg mL-1, L. chinensis’ root exudates inhibited nitrification in soils influenced by Puccinellia tenuiflora by 72.44%, while DCD only inhibited it by 68.29%. The nitrification potential of the soil of L. chinensis community was only 53% of the P. tenuiflora or 41% of the Suaeda salsa community. We also showed that the supply of NH4+‐N driven by L. chinensis’ BNI can meet its requirements . In addition, NH4+‐N can enhance plant adaptation to alkaline stress by regulating pH, and in turn, the uptake of nitrate-N (NO3‐‐N). We further demonstrated that the regulatory function of NH4+‐N is greater than its nutritional function in alkaline environment. The results offer novel insights into how L. chinensis adapts to high pH and nutrient deficiency stress by secreting BNIs, and reveal, for the first time, differences in the functional roles of NH4+‐N and NO3‐‐N in growth and adaptation under alkaline conditions in a grass species.

Published

2023

19. Effects of Maize–Crop Rotation on Soil Physicochemical Properties, Enzyme Activities, Microbial Biomass and Microbial Community Structure in Southwest China

Author

Puchang Wang, Wenhui Xie, Leilei Ding, Yingping Zhuo, Yang Gao, Junqin Li, and Lili Zhao

Subjects

rotation patterns, physicochemical properties, microbial biomass, enzyme activity, microbial communities, Biology (General), QH301-705.5

Abstract

Introducing cover crops into maize rotation systems is widely practiced to increase crop productivity and achieve sustainable agricultural development, yet the potential for crop rotational diversity to contribute to environmental benefits in soils remains uncertain. Here, we investigated the effects of different crop rotation patterns on the physicochemical properties, enzyme activities, microbial biomass and microbial communities in soils from field experiments. Crop rotation patterns included (i) pure maize monoculture (CC), (ii) maize–garlic (CG), (iii) maize–rape (CR) and (iv) maize–annual ryegrass for one year (Cir1), two years (Cir2) and three years (Cir3). Our results showed that soil physicochemical properties varied in all rotation patterns, with higher total and available phosphorus concentrations in CG and CR and lower soil organic carbon and total nitrogen concentrations in the maize–ryegrass rotations compared to CC. Specifically, soil fertility was ranked as CG > Cir2 > CR > Cir3 > CC > Cir1. CG decreased enzyme activities but enhanced microbial biomass. Cir2 decreased carbon (C) and nitrogen (N) acquiring enzyme activities and soil microbial C and N concentrations, but increased phosphorus (P) acquiring enzyme activities and microbial biomass P concentrations compared to CC. Soil bacterial and fungal diversity (Shannon index) were lower in CG and Cir2 compared to CC, while the richness (Chao1 index) was lower in CG, CR, Cir1 and Cir2. Most maize rotations notably augmented the relative abundance of soil bacteria, including Chloroflexi, Gemmatimonadetes and Rokubacteria, while not necessarily decreasing the abundance of soil fungi like Basidiomycota, Mortierellomycota and Anthophyta. Redundancy analysis indicated that nitrate-N, ammonium-N and microbial biomass N concentrations had a large impact on soil bacterial communities, whereas nitrate-N and ammonium-N, available P, soil organic C and microbial biomass C concentrations had a greater effect on soil fungal communities. In conclusion, maize rotations with garlic, rape and ryegrass distinctly modify soil properties and microbial compositions. Thus, we advocate for garlic and annual ryegrass as maize cover crops and recommend a two-year rotation for perennial ryegrass in Southwest China.

Published

2023

20. The Role of Cation Vacancies in GeSe: Stabilizing High‐Symmetric Phase Structure and Enhancing Thermoelectric Performance

Author

Bingcai Duan, Yihua Zhang, Quanxin Yang, Yugeng Li, Jiahui Cheng, Chaohua Zhang, Junqin Li, Fusheng Liu, and Lipeng Hu

Subjects

cation vacancies, crystal symmetries, GeSe, phase transitions, thermoelectric, Environmental technology. Sanitary engineering, TD1-1066, Renewable energy sources, TJ807-830

Abstract

Enhancing crystal symmetry is perceived as the most efficacious strategy to improve the thermoelectric performance of GeSe. Although multicomponent alloying is commonly employed to increase crystal symmetry, the excessive point defects inevitably degrade the carrier mobility. Herein, a new and promising strategy is proposed to stabilize the high‐symmetric rhombohedral GeSe by intentionally introducing cation vacancies. Specially, three compositional series of GeSe(InSe)u, GeSe(InTe)v, and GeSe(InTe3/2)x are studied to highlight the pivotal role of cation vacancy in upgrading crystal symmetry. It is demonstrated that sole In substitution cannot change the crystal structure, InTe alloying obtains orthorhombic and rhombohedral composite phases, and adding InTe3/2 with cation vacancies enables exclusively rhombohedral GeSe. Regarding the electrical properties, rhombohedral GeSe has higher carrier concentration, carrier mobility, density‐of‐state effective mass, and hence superior power factor compared to orthorhombic GeSe. Meanwhile, cation vacancies hinder the heat propagation and significantly reduce the lattice thermal conductivity. Further doping the GeSe(InTe3/2)0.15 with trace Pb to eliminate the residual orthorhombic phase results in a peak zT ≈ 0.76 at 773 K in rhombohedral Ge0.97Pb0.03Se(InTe3/2)0.15. These results confirm the validity of cation vacancies in stabilizing high‐symmetric crystal structures of GeSe system and similar strategy can be extrapolated to other low‐symmetry materials.

Published

2022

21. Suppression of AMF accelerates N2O emission by altering soil bacterial community and genes abundance under varied precipitation conditions in a semiarid grassland

Author

Junqin Li, Bo Meng, Xuechen Yang, Nan Cui, Tianhang Zhao, Hua Chai, Tao Zhang, and Wei Sun

Subjects

precipitation, AMF, N2O emission, bacterial community composition, functional genes, Microbiology, QR1-502

Abstract

Nitrous oxide (N2O) is one of the most important greenhouse gases contributing to global climate warming. Recently, studies have shown that arbuscular mycorrhizal fungi (AMF) could reduce N2O emissions in terrestrial ecosystems; however, the microbial mechanisms of how AMF reduces N2O emissions under climate change are still not well understood. We tested the influence of AMF on N2O emissions by setting up a gradient of precipitation intensity (+50%, +30%, ambient (0%), −30%, −50%, and −70%) and manipulating the presence or exclusion of AMF hyphae in a semiarid grassland located in northeast China. Our results showed that N2O fluxes dramatically declined with the decrease in precipitation gradient during the peak growing season (June–August) in both 2019 and 2020. There was a significantly positive correlation between soil water content and N2O fluxes. Interestingly, N2O fluxes significantly decreased when AMF were present compared to when they were absent under all precipitation conditions. The contribution of AMF to mitigate N2O emission increased gradually with decreasing precipitation magnitudes, but no contribution in the severe drought (−70%). AMF significantly reduced the soil’s available nitrogen concentration and altered the composition of the soil bacteria community including those associated with N2O production. Hyphal length density was negatively correlated with the copy numbers of key genes for N2O production (nirK and nirS) and positively correlated with the copy numbers of key genes for N2O consumption (nosZ). Our results highlight that AMF would reduce the soil N2O emission under precipitation variability in a temperate grassland except for extreme drought.

Published

2022

22. Regulating the Configurational Entropy to Improve the Thermoelectric Properties of (GeTe)1−x(MnZnCdTe3)x Alloys

Author

Yilun Huang, Shizhen Zhi, Shengnan Zhang, Wenqing Yao, Weiqin Ao, Chaohua Zhang, Fusheng Liu, Junqin Li, and Lipeng Hu

Subjects

thermoelectric, GeTe, entropy engineering, phase transition, lattice distortion, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

In thermoelectrics, entropy engineering as an emerging paradigm-shifting strategy can simultaneously enhance the crystal symmetry, increase the solubility limit of specific elements, and reduce the lattice thermal conductivity. However, the severe lattice distortion in high-entropy materials blocks the carrier transport and hence results in an extremely low carrier mobility. Herein, the design principle for selecting alloying species is introduced as an effective strategy to compensate for the deterioration of carrier mobility in GeTe-based alloys. It demonstrates that high configurational entropy via progressive MnZnCdTe3 and Sb co-alloying can promote the rhombohedral-cubic phase transition temperature toward room temperature, which thus contributes to the enhanced density-of-states effective mass. Combined with the reduced carrier concentration via the suppressed Ge vacancies by high-entropy effect and Sb donor doping, a large Seebeck coefficient is attained. Meanwhile, the severe lattice distortions and micron-sized Zn0.6Cd0.4Te precipitations restrain the lattice thermal conductivity approaching to the theoretical minimum value. Finally, the maximum zT of Ge0.82Sb0.08Te0.90(MnZnCdTe3)0.10 reaches 1.24 at 723 K via the trade-off between the degraded carrier mobility and the improved Seebeck coefficient, as well as the depressed lattice thermal conductivity. These results provide a reference for the implementation of entropy engineering in GeTe and other thermoelectric materials.

Published

2022

23. Medium Entropy‐Enabled High Performance Cubic GeTe Thermoelectrics

Author

Shizhen Zhi, Jibiao Li, Lipeng Hu, Junqin Li, Ning Li, Haijun Wu, Fusheng Liu, Chaohua Zhang, Weiqin Ao, Heping Xie, Xinbing Zhao, Stephen John Pennycook, and Tiejun Zhu

Subjects

band engineering, entropy engineering, GeTe, phase transition, thermoelectric, Science

Abstract

Abstract The configurational entropy is an emerging descriptor in the functional materials genome. In thermoelectric materials, the configurational entropy helps tune the delicate trade‐off between carrier mobility and lattice thermal conductivity, as well as the structural phase transition, if any. Taking GeTe as an example, low‐entropy GeTe generally have high carrier mobility and distinguished zT > 2, but the rhombohedral‐cubic phase transition restricts the applications. In contrast, despite cubic structure and ultralow lattice thermal conductivity, the degraded carrier mobility leads to a low zT in high‐entropy GeTe. Herein, medium‐entropy alloying is implemented to suppress the phase transition and achieve the cubic GeTe with ultralow lattice thermal conductivity yet decent carrier mobility. In addition, co‐alloying of (Mn, Pb, Sb, Cd) facilitates multivalence bands convergence and band flattening, thereby yielding good Seebeck coefficients and compensating for decreased carrier mobility. For the first time, a state‐of‐the‐art zT of 2.1 at 873 K and average zTave of 1.3 between 300 and 873 K are attained in cubic phased Ge0.63Mn0.15Pb0.1Sb0.06Cd0.06Te. Moreover, a record‐high Vickers hardness of 270 is attained. These results not only promote GeTe materials for practical applications, but also present a breakthrough in the burgeoning field of entropy engineering.

Published

2021

24. Psoriatic Dermal-derived Mesenchymal Stem Cells Reduce Keratinocyte Junctions, and Increase Glycolysis

Author

Junqin Li, Jianxiao Xing, Funa Lu, Wenjuan Chang, Nannan Liang, Juan Li, Ying Wang, Xiaofang Li, Xincheng Zhao, Ruixia Hou, Maoqiang Man, Guohua Yin, Xinhua Li, and Kaiming Zhang

Subjects

psoriasis, dermal mesenchymal stem cells, keratinocytes, cell junctions, cell proliferation, glycolysis, Dermatology, RL1-803

Abstract

Although it is known that psoriatic dermal-derived mesenchymal stem cells (DMSCs) dysregulate keratinocyte proliferation, the biological activity profile of keratinocytes influenced by psoriatic DMSCs remain unknown. In the present study, we assessed the impact of psoriatic DMSCs on keratinocyte proliferation, differentiation, and glucose metabolism in normal human epidermal keratinocytes co-cultured with or without psoriatic DMSCs. Co-culture of normal human epidermal keratinocytes with psoriatic DMSCs downregulated expression levels of proteins associated with cell junction assembly (alpha-actinin-1, catenin beta-1, poliovirus receptor-related protein 4 and procollagen-lysine, 2-oxoglutarate 5-dioxygenase 2), while upregulating proteins associated with keratinocyte proliferation and differentiation (involucrin, isoform 2 of Histone-binding protein, isoform 3 of Telomeric repeat-binding factor 2 and keratin 13). Moreover, co-culture of normal human epidermal keratinocytes with psoriatic DMSCs stimulated keratinocyte proliferation and glycolysis, but reduced keratinocyte junctions. Taken together, these results demonstrate that psoriatic DMSCs increase keratinocyte proliferation and glycolysis, and reduce cell junctions, suggesting a pathogenic role of psoriatic DMSCs in epidermal hyperplasia, aberrant differentiation, and reduction in turnover time of keratinocytes in psoriasis.

Published

2020

25. Variation at ACOT12 and CT62 locus represents susceptibility to psoriasis in Han population

Author

Jianxiao Xing, Xincheng Zhao, Xiaofang Li, Ying Wang, Junqin Li, Ruixia Hou, Xuping Niu, Guohua Yin, Xinhua Li, and Kaiming Zhang

Subjects

ACOT12, CT62, psoriasis, susceptibility loci, Genetics, QH426-470

Abstract

Abstract Background Psoriasis is a chronic inflammatory disorder of the skin, and genetic factors are reported to be involved in the disease pathogenesis. Many studies have named psoriasis candidate genes. Objective In this study, we determined the mutation frequency of 7 variable genes in 1,027 psoriatic patients and investigated its possible mechanism associated with psoriasis. Method A total of 7 variable genes from 1,027 psoriatic patients were amplified and sequenced using the Sanger method. The mutation frequency was compared to that of non‐psoriatic individuals in Asia using information from databases. Results Among the 7 investigated genes, the mutation frequency of ACOT12 (c.80A>G, 9.98% vs. 5.85%, p T,15.8% vs. 9.93%, p G), SPRED1(c.155A>G), and ACOT12 (c.80A>G) differed significantly between the groups organized by medical history, PASI, and family history. SPRED1 gene variants (17.25% vs. 7.78%, p

Published

2020

26. Prevascularization promotes endogenous cell-mediated angiogenesis by upregulating the expression of fibrinogen and connective tissue growth factor in tissue-engineered bone grafts

Author

Pengzhen Cheng, Donglin Li, Yi Gao, Tianqing Cao, Huijie Jiang, Jimeng Wang, Junqin Li, Shuaishuai Zhang, Yue Song, Bin Liu, Chunmei Wang, Liu Yang, and Guoxian Pei

Subjects

Prevascularization, Angiogenesis, Tissue-engineered bone grafts, Fibrinogen, Connective tissue growth factor, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Vascularization is one of the most important processes in tissue-engineered bone graft (TEBG)-mediated regeneration of large segmental bone defects. We previously showed that prevascularization of TEBGs promoted capillary vessel formation within the defected site and accelerated new bone formation. However, the precise mechanisms and contribution of endogenous cells were not explored. Methods We established a large defect (5 mm) model in the femur of EGFP+ transgenic rats and implanted a β-tricalcium phosphate (β-TCP) scaffold seeded with exogenous EGFP− cells; the femoral vascular bundle was inserted into the scaffold before implantation in the prevascularized TEBG group. Histopathology and scanning electron microscopy were performed and connective tissue growth factor (CTGF) and fibrin expression, exogenous cell survival, endogenous cell migration and behavior, and collagen type I and III deposition were assessed at 1 and 4 weeks post implantation. Results We found that the fibrinogen content can be increased at the early stage of vascular bundle transplantation, forming a fibrin reticulate structure and tubular connections between pores of β-TCP material, which provides a support for cell attachment and migration. Meanwhile, CTGF expression is increased, and more endogenous cells can be recruited and promote collagen synthesis and angiogenesis. By 4 weeks post implantation, the tubular connections transformed into von Willebrand factor-positive capillary-like structures with deposition of type III collagen, and accelerated angiogenesis of endogenous cells. Conclusions These findings demonstrate that prevascularization promotes the recruitment of endogenous cells and collagen deposition by upregulating fibrinogen and CTGF, directly resulting in new blood vessel formation. In addition, this molecular mechanism can be used to establish fast-acting angiogenesis materials in future clinical applications.

Published

2018

27. Data and analyses of phase relations in the Ce-Fe-Sb ternary system

Author

Daiman Zhu, Chengliang Xu, Changrong Li, Cuiping Guo, Raowen Zheng, Zhenmin Du, and Junqin Li

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

These data and analyses support the research article “Experimental study on phase relations in the Ce-Fe-Sb ternary system” Zhu et al. (2017) [1]. The data and analyses presented here include the experimental results of XRD, SEM and EPMA for the determination of the whole liquidus projection and the isothermal section at 823 K in the Ce-Fe-Sb system. All the results enable the understanding of the constituent phases and the solidification processes of the as-cast alloys as well as the phase relations and the equilibrium regions at 823 K in the Ce-Fe-Sb ternary system over the entire composition.

Published

2018

28. CD31hiEmcnhi Vessels Support New Trabecular Bone Formation at the Frontier Growth Area in the Bone Defect Repair Process

Author

Jimeng Wang, Yi Gao, Pengzhen Cheng, Donglin Li, Huijie Jiang, Chuanlei Ji, Shuaishuai Zhang, Chao Shen, Junqin Li, Yue Song, Tianqing Cao, Chunmei Wang, Liu Yang, and Guoxian Pei

Subjects

Medicine, Science

Abstract

Abstract CD31hiEmcnhi vessels were a subtype of vessels in the murine skeletal system, with high levels of platelet and endothelial cell adhesion molecule-1 (PECAM-1/CD31) and endomucin (Emcn). They were reported coupling angiogenesis and osteogenesis during bone development. We investigated the distribution of these vessels in rat tibiae and their temporal and spatial distribution during the bone defect repair process to improve our understanding of the importance of these vessels. We confirmed that CD31hiEmcnhi vessels were specially distributed around the trabecular bones near metaphysis and endosteum in rat tibiae. At 3 days post bone injury, CD31hiEmcnhi vessels proliferated and were extensively distributed across the entire repair area. At 7 and 14 days post-injury, these vessels decreased but were specially distributed around the growing trabecular bones near the frontier growth area, suggesting that these vessels support new bone formation. The distribution of CD31hiEmcnhi vessels and the transcriptions of Hif-1α and VEGFA, as well as BMP2 and Osterix decreased at 7 and 14 days post-injury under osteoporotic conditions, in combination with insufficient osteogenesis. Our research is of great significance to help understand the important role of CD31hiEmcnhi vessels in supporting new trabecular bones formation during bone defect repair process.

Published

2017

29. Arbuscular Mycorrhizal Fungi Alleviate Drought Stress in C3 (Leymus chinensis) and C4 (Hemarthria altissima) Grasses via Altering Antioxidant Enzyme Activities and Photosynthesis

Author

Junqin Li, Bo Meng, Hua Chai, Xuechen Yang, Wenzheng Song, Shuixiu Li, Ao Lu, Tao Zhang, and Wei Sun

Subjects

AMF, climate change, drought resistance, C3 and C4 species, antioxidant enzyme activities, photosynthesis, Plant culture, SB1-1110

Abstract

As one of the most important limiting factors of grassland productivity, drought is predicted to increase in intensity and frequency. Greenhouse studies suggest that arbuscular mycorrhizal fungi (AMF) can improve plant drought resistance. However, whether AMF can improve plant drought resistance in field conditions and whether the effects of AMF on drought resistance differ among plants with different photosynthetic pathways remain unclear. To evaluate the effect of indigenous AMF on plant drought resistance, an in situ rainfall exclusion experiment was conducted in a temperate meadow in northeast China. The results showed that AMF significantly reduced the negative effects of drought on plant growth. On average, AMF enhanced plant biomass, photosynthetic rate (A), stomatal conductance (gs), intrinsic water use efficiency (iWUE), and superoxide dismutase (SOD) activity of the C3 species Leymus chinensis by 58, 63, 38, 15, and 45%, respectively, and reduced levels of malondialdehyde (MDA) by 32% under light and moderate drought (rainfall exclusion of 30 and 50%, respectively). However, under extreme drought (rainfall exclusion of 70%), AMF elevated only aboveground biomass and catalase (CAT) activities. Averagely, AMF increased the aboveground biomass, A, and CAT activity of Hemarthria altissima (C4) by 37, 28, and 30%, respectively, under light and moderate droughts. The contribution of AMF to plant drought resistance was higher for the C3 species than that for the C4 species under both light and moderate drought conditions. The results highlight potential photosynthetic type differences in the magnitude of AMF-associated enhancement in plant drought resistance. Therefore, AMF may determine plant community structure under future climate change scenarios by affecting the drought resistance of different plant functional groups.

Published

2019

30. Dorsal Root Ganglion Maintains Stemness of Bone Marrow Mesenchymal Stem Cells by Enhancing Autophagy through the AMPK/mTOR Pathway in a Coculture System

Author

Shuaishuai Zhang, Junqin Li, Huijie Jiang, Yi Gao, Pengzhen Cheng, Tianqing Cao, Donglin Li, Jimeng Wang, Yue Song, Bin Liu, Hao Wu, Chunmei Wang, Liu Yang, and Guoxian Pei

Subjects

Internal medicine, RC31-1245

Abstract

Our previous studies found that sensory nerve tracts implanted in tissue-engineered bone (TEB) could result in better osteogenesis. To explore the mechanism of the sensory nerve promoting osteogenesis in TEB in vitro, a transwell coculture experiment was designed between dorsal root ganglion (DRG) cells and bone marrow mesenchymal stem cells (BMSCs). BMSC proliferation was determined by CCK8 assay, and osteo-, chondro-, and adipogenic differentiation were assessed by alizarin red, alcian blue, and oil red staining. We found that the proliferation and multipotent differentiation of BMSCs were all enhanced in the coculture group compared to the BMSCs group. Crystal violet staining showed that the clone-forming ability of BMSCs in the coculture group was also enhanced and mRNA levels of Sox2, Nanog, and Oct4 were significantly upregulated in the coculture group. Moreover, the autophagy level of BMSCs, regulating their stemness, was promoted in the coculture group, mediated by the AMPK/mTOR pathway. In addition, AMPK inhibitor compound C could significantly downregulate the protein expression of LC3 and the mRNA level of stemness genes in the coculture group. Finally, we found that the NK1 receptor antagonist, aprepitant, could partly block this effect, which indicated that substance P played an important role in the effect. Together, we conclude that DRG could maintain the stemness of BMSCs by enhancing autophagy through the AMPK/mTOR pathway in a transwell coculture system, which may help explain the better osteogenesis after implantation of the sensory nerve into TEB.

Published

2018

31. Monte Carlo simulation on a new artificial spin ice lattice consisting of hexagons and three-moment vertices

Author

Liju Yu, Yong Wang, Junqin Li, Fangyuan Zhu, Xiangyu Meng, Jiefeng Cao, Chao Jing, Yanqing Wu, and Renzhong Tai

Subjects

Physics, QC1-999

Abstract

A new artificial spin ice lattice called vortex lattice is proposed based on the Kagome lattice. Monte Carlo simulations were performed to investigate the magnetization reversal process of the new artificial spin ice lattice at external magnetic field and different lattice parameters. The results demonstrate some interesting phenomena which are different from Kagome lattice. There are four typical sub-structures emerged in the vortex lattice, which are clockwise and counter-clockwise hexagons, and frustrated +3q and -3q vertices. The occurrence frequency of the four sub-structures change dramatically at different lattice parameter. The new lattice can be partially frustrated at different lattice parameter.

Published

2017

32. Screening key factor from sensory nerves regulating on macrophage in promoting bone defect healing and its mechanism

Author

Junqin Li

Subjects

Diseases of the musculoskeletal system, RC925-935

Published

2016

33. High Pressure Drives Microstructure Modification and zT Enhancement in Bismuth Telluride-Based Alloys

Author

Tu Lyu, Quanxin Yang, Zhenming Li, Chaohua Zhang, Fusheng Liu, Junqin Li, Lipeng Hu, and Guiying Xu

Subjects

General Materials Science

Published

2023

34. Inhibiting the bipolar effect via band gap engineering to improve the thermoelectric performance in n-type Bi2-Sb Te3 for solid-state refrigeration

Author

Dongliang Su, Jiahui Cheng, Shan Li, Shengnan Zhang, Tu Lyu, Chaohua Zhang, Junqin Li, Fusheng Liu, and Lipeng Hu

Subjects

Polymers and Plastics, Mechanics of Materials, Mechanical Engineering, Materials Chemistry, Metals and Alloys, Ceramics and Composites

Published

2023

35. GSH-depleting and H2O2-self-supplying hybrid nanozymes for intensive catalytic antibacterial therapy by photothermal-augmented co-catalysis

Author

Junqin Li, Wenhua Yi, Yuze Luo, Ke Yang, Lidan He, Caiyun Xu, Le Deng, and Dinggeng He

Subjects

Biomaterials, Biomedical Engineering, General Medicine, Molecular Biology, Biochemistry, Biotechnology

Published

2023

36. A highly stretchable, adhesive and absorbent hybrid hydrogel dressing for photothermal/chemodynamic antibacterial therapy

Author

Wenhua Yi, Luo Hai, Yuze Luo, Junqin Li, Ke Yang, Lidan He, Shidong Yang, Le Deng, and Dinggeng He

Subjects

Materials Chemistry, General Chemistry, Catalysis

Abstract

A PEDOT:PSS-based multifunctional hydrogel dressing with a high photothermal effect and catalytic activity for enhancing antibacterial therapy and promoting wound healing has been developed.

Published

2023

37. Entropy engineering enhances the thermoelectric performance and microhardness of (GeTe)1−x(AgSb0.5Bi0.5Te2)x

Author

Jinxuan Zhong, Gege Liang, Jiahui Cheng, Weiqin Ao, Chaohua Zhang, Junqin Li, Fusheng Liu, Shengnan Zhang, and Lipeng Hu

Subjects

General Materials Science

Published

2022

38. The mRNA Expression Profile of Psoriatic Lesion Distinct from Non-Lesion

Author

Xinhua Li, Jianxiao Xing, Fangdi Wang, Juan Li, Junqin Li, Ruixia Hou, and Kaiming Zhang

Subjects

Clinical, Cosmetic and Investigational Dermatology, Dermatology

Abstract

Xinhua Li,1 Jianxiao Xing,1 Fangdi Wang,1 Juan Li,1 Junqin Li,1 Ruixia Hou,1 Kaiming Zhang2 1Shanxi Key Laboratory of Stem Cell for Immunological Dermatosis, Taiyuan Central Hospital of Shanxi Medical University, Taiyuan, Shanxi Province, 030009, People’s Republic of China; 2Shanxi Key Laboratory of Stem Cell for Immunological Dermatosis, Taiyuan Central Hospital, Taiyuan, Shanxi Province, 030009, People’s Republic of ChinaCorrespondence: Kaiming Zhang, Taiyuan Central Hospital, No, 5 Dong San Dao Xiang, Jiefang Road, Taiyuan, Shanxi Province, People’s Republic of China, Tel +86-351-5656080, Email zhangkaiming@sina.comPurpose: Psoriasis is a chronic recurring autoimmune skin disease with a complex etiology and chronic progression; however, its molecular mechanisms remain unclear.Patients and Methods: We performed transcriptomic analysis to profile the mRNA expression of psoriatic lesions (PL) and non-lesion (NL) tissues from psoriasis patients along with normal skin from healthy donors. RT-qPCR was used to validate the mRNA expression profiles.Results: A total of 237 differentially expressed genes were screened and identified by RNA sequencing. GO and KEGG analysis indicated that these DEGs were enriched in the PPAR signaling pathway and intermediate filament cytoskeleton. For PPAR signaling pathway, the expression of five genes, including ADIPOQ, AQP7, PLIN1, FABP4 and LPL, were all significantly decreased in psoriatic lesions compared to normal skin by RT-qPCR. There is a clear difference between psoriatic lesions and non-lesion in the expression of ADIPOQ, AQP7 and LPL. For intermediate filament cytoskeleton, including KRT27, KRT25, KRT71, KRT86 and KRT85 were significantly decreased in the psoriasis lesions, showing agreement with the RNA-seq data.Conclusion: This study revealed a significant difference between the mRNA expression profiles of PL, NL tissue and normal skin.Keywords: psoriasis, RNA-sequencing, PPAR signaling pathway, keratin

Published

2022

39. Rapid In Situ Deposition of Iron-Chelated Polydopamine Coating on the Polyacrylamide Hydrogel Dressings for Combined Photothermal and Chemodynamic Therapy of Skin Wound Infection

Author

Yaoyao Li, Ke Yang, Zefeng Wang, Jiayu Xiao, Zifeng Tang, Huan Li, Wenhua Yi, Zhaoli Li, Yuze Luo, Junqin Li, Xueyao Zhou, Le Deng, and Dinggeng He

Subjects

Biomaterials, Biochemistry (medical), Biomedical Engineering, General Chemistry

Abstract

Pathogenic bacterial infections of skin wounds have caused a significant threat to clinical treatment and human life safety. Here, we develop a bactericidal hydrogel dressing consisting of a polyacrylamide (PAM) hydrogel framework with in situ surface-deposition of iron-dopped polydopamine (FePDA). The prepared hydrogel dressing (FePDA-PAM) has a compact surface, good tensile strength, and excellent elastic recovery ability. The introduction of Fe

Published

2022

40. Sensory nerves directly promote osteoclastogenesis by secreting Peptidyl-prolyl cis-trans isomerase D (Cyp40)

Author

Guo-xian Pei, Liu Yang, Bin Liu, Hao Wu, shuaishuai zhang, zhuowen liang, shuo guo, huijie jiang, yue song, pengzhen cheng, donglin li, jimeng wang, yang liu, Di Wang, Guozhi Xiao, xing lei, yi gao, Nazhi Zhan, Jing Xu, Lin Wang, and Junqin Li

Abstract

Given the afferent functions, sensory nerves recently have been found exerting efferent influences and directly alter organ physiology. Moreover, studies have demonstrated the crucial role of sensory nerves in the physiological function of osteoclasts. However, the direct evidence of whether sensory nerve efferent influences osteoclast, remains lacking. Here, we found abundant efferent signals transported from sensory nerves into osteoclasts; sensory hypersensitivity significantly increased osteoclastic bone resorption; and sensory neurons (SN) directly promote osteoclastogenesis in vitro co-culture system. Then our screening identified a novel neuropeptide Cyp40, is the efferent signal from the sensory nerve and plays a critical role in the osteoclastogenesis, via aryl hydrocarbon receptor (AhR)-Ras/Raf-pErk-NFATc1 pathway. These findings revealed a novel mechanism of sensory nerves on bone regulation: the direct promotion of osteoclastogenesis by secreting Cyp40. Inhibiting the Cyp40 could therefore be a strategy to improve bone quality in osteoporosis and promote bone repair after bone injury.

Published

2023

41. Whole-genome sequencing of Paracoccus species isolated from the healthy human eye and description of Paracoccus shanxieyensis sp. nov

Author

Kui Dong, Ji Pu, Jing Yang, Guohong Zhou, Yuqian Gao, Zhiming Kang, Wenjing Lei, Xuan Ji, Guowen Min, Hong Li, Junqin Li, Bin Sun, and Jianguo Xu

Subjects

General Medicine, Microbiology, Ecology, Evolution, Behavior and Systematics

Abstract

Currently, the genus Paracoccus comprises 76 recognized species. Members of Paracoccus are mostly isolated from environmental, animal, and plant sources. This report describes and proposes a novel species of Paracoccus isolated from clinical specimens of the human ocular surface. We isolated two aerobic, Gram-stain-negative, non-spore-forming, coccoid or short rod-shaped, and non-motile strains (designated DK398T and DK608) from conjunctival sac swabs of two healthy volunteers. The results showed that the strains grew best under the conditions of 28°C, pH 7.0, and 1.0 % (w/v) NaCl. Sequence analysis based on the 16S rRNA gene showed that strains DK398T and DK608 were members of Paracoccus , most similar to Paracoccus laeviglucosivorans 43PT (98.54 and 98.62 %), Paracoccus litorisediminis GHD-05T (98.34 and 98.41 %), and Paracoccus limmosus NB88T (98.21 and 98.29 %). Phenotypic analysis showed that DK398T and DK608 were positive for catalase and oxidase, negative for producing N-acetyl-β-glucosaminic acid, arginine dihydrolase, and β-glucuronidase but positive for leucine arylamidase. The predominant isoprenoid quinone was Q-10, and the major polar lipids included phosphatidylethanolamine, diphosphatidylglycerol, phosphatidylglycerol, phosphatidylcholine, and an unidentified glycolipid. The major fatty acids (>10%) were summed feature 8 (C18 : 1 ω7c and/or C18 : 1 ω6c) and C16 : 0. The meso-diaminopimelic acid was found in the cell wall peptidoglycan of DK398T. The major cell wall sugars were ribose and galactose. Based on the results of phylogenetic analyses, low ( %) average nucleotide identity, digital DNA–DNA hybridization (T represents a novel species of the genus Paracoccus , for which the name Paracoccus shanxieyensis sp. nov. is proposed. The type strain is DK398T (=CGMCC 1.17227T=JCM 33719T).

Published

2023

42. Autophagy Inhibits Inflammation via Down-Regulation of p38 MAPK/mTOR Signaling Cascade in Endothelial Cells

Author

Ling Zhou, Juanjuan Wang, Hui Hou, Jiao Li, Juan Li, Jiannan Liang, Junqin Li, Xuping Niu, Ruixia Hou, and Kaiming Zhang

Subjects

Clinical, Cosmetic and Investigational Dermatology, Dermatology

Abstract

Ling Zhou,1 Juanjuan Wang,1 Hui Hou,1 Jiao Li,1 Juan Li,1 Jiannan Liang,1 Junqin Li,1 Xuping Niu,1 Ruixia Hou,1 Kaiming Zhang2 1Shanxi Key Laboratory of Stem Cells for Immunological Dermatosis, Institute of Dermatology, Taiyuan Central Hospital of Shanxi Medical University, Taiyuan, People’s Republic of China; 2Shanxi Key Laboratory of Stem Cells for Immunological Dermatosis, Institute of Dermatology, Taiyuan Central Hospital, Taiyuan, People’s Republic of ChinaCorrespondence: Kaiming Zhang, Taiyuan Central Hospital, Taiyuan, People’s Republic of China, Tel/Fax +86-351-5656080, Email zhangkaiming@sina.com; tycchospital@sina.comObjective: Autophagy, an intracellular process of self-digestion, has been shown to modulate inflammatory responses. In the present study, we determined the effects of autophagy on inflammatory response induced by M5 cytokines.Methods: Human umbilical vein endothelial cells (HUVECs) were treated with M5 cytokines to induce inflammation. Expression levels of mRNA for inflammatory cytokines and BIRC2 were compared in HUVECs with vs without induction of autophagy with rapamycin (RAPA) by PCR, while cell apoptosis was assessed by flow cytometry and caspase-3 activity assay kit. Expression levels of LC3, p62, p-p38 MAPK (Thr180/Tyr182), p-mTOR (Ser2445) and p-ULK1 (Ser555) proteins were measured by Western blotting. The nitric oxide (NO) content, NO synthase (NOS) activity and cell angiogenesis were also evaluated.Results: Induction of autophagy with RAPA decreased expression levels of IL6, IL8 and CCL20, in addition to reduction in inflammation-induced apoptosis in HUVECs. Moreover, RAPA increased LC3II, while decreasing p62 expression. Likewise, expression levels of p-p38 MAPK and p-mTOR proteins were markedly decreased by the treatment with RAPA. Finally, RAPA treatment increased the NO content and the NOS activity, and inhibited angiogenesis.Conclusion: Induced autophagy can improve the function of endothelial cells in psoriasis, suggesting approaches to induce autophagy can be used to ameliorate psoriasis.Keywords: autophagy, inflammatory, HUVECs, p38 MAPK/mTOR

Published

2023

43. Psoriatic Serum Induce an Abnormal Inflammatory Phenotype and a Decreased Immunosuppressive Function of Mesenchymal Stem Cells

Author

Fangdi, Wang, Ruixia, Hou, Junqin, Li, Xincheng, Zhao, Qiang, Wang, Kaiming, Zhang, and Xinhua, Li

Subjects

Cell Biology, Developmental Biology

Abstract

Mesenchymal stem cells (MSCs) have immunomodulatory function and participate in the pathogenesis of many immunoregulation-related diseases, including psoriasis. Previously, we found that MSCs from psoriatic lesions overexpress the proinflammatory microRNA, miR-155 and exhibit a decreased immunosuppressive capacity. But the origin of these aberrant characteristics is still not clear. To investigate whether inflammatory cytokines in serum and peripheral blood mononuclear cells (PBMCs) from psoriatic patients can regulate the expression patterns of immunoregulation-related cytokines and the immunoregulation function of MSCs.Normal dermal mesenchymal stem cells (nDMSCs) were treated with serum or PBMCs derived from patients with psoriasis or healthy donors. Expression of miR-155 and immunoregulation-related genes in each MSCs were measured using real-time PCR or western-blot. Meanwhile, the immunosuppressive capacity of DMSCs was evaluated by its inhibitory ability on proliferation of activated PBMCs. Compared to control serum, psoriatic serum significantly increased the expression levels of miR-155 (27.19±2.40 vs. 3.51±1.19, p0.001), while decreased TABPsoriatic serum up-regulate the expression of miR-155, down-regulate the expression of immunoregulation- related genes (PGE

Published

2022

44. Improvement of the thermoelectric properties of GeTe- and SnTe-based semiconductors aided by the engineering based on phase diagram

Author

Junqin Li, Fusheng Liu, Weiqin Ao, Lipeng Hu, and Chaohua Zhang

Subjects

Materials Chemistry, Metals and Alloys, Physical and Theoretical Chemistry, Condensed Matter Physics

Abstract

Group IV–VI semiconductors, such as PbTe, GeTe and SnTe, are promising thermoelectric materials at intermediate temperatures, which have potential application in electrical generation from waste heat. A phase diagram plays an important role for designing a high-performance material. In this mini review, we present the enhancement of the thermoelectric properties of GeTe- and SnTe-based semiconductors based on their phase diagrams. The figure of merit ZT for the p-type GeTe–Ag8GeTe6 composites was enhanced by reducing the thermal conductivity significantly using the eutectic microstructures formed by the Ag8GeTe6 second phase and the GeTe matrix based on the GeTe–Ag8GeTe6 pseudo-binary system. The partial substitution of Te by Se in p-type GeTe extends the solid solubility of Pb in GeTe0.5Se0.5 up to 30 mol.%, which further improves the thermoelectric properties of alloys in the GeTe–PbTe–Se system by modifying the carrier concentration, leading to increasing the Seebeck coefficient and reducing thermal conductivity over a wide composition range. The Sn1−y Mn y Te alloy with 10 at.% excess Mn keeps its composition change along the SnTe–MnTe tie line and receives higher solid solubility of MnTe in SnTe. It shows much higher thermoelectric performance since the excess Mn compensates the Mn lost during the preparation as compared to the Sn1−x Mn x Te alloy without excess Mn.

Published

2022

45. Observation of table-like magnetocaloric effect and large refrigerant capacity in Nd6Fe13Pd1–Cu compounds

Author

Yusong Du, Chaohua Zhang, Junqin Li, Jiang Wang, Guanghui Rao, Youming Lu, and Gang Cheng

Subjects

Materials science, Ericsson cycle, Thermodynamics, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Magnetic hysteresis, 01 natural sciences, 0104 chemical sciences, law.invention, Refrigerant, Tetragonal crystal system, Ferromagnetism, Geochemistry and Petrology, law, Phase (matter), Magnetic refrigeration, Antiferromagnetism, 0210 nano-technology

Abstract

The table-like magnetocaloric effect is significant for the magnetic refrigeration applications above 20 K based on the Ericsson cycle. Herein, we prepared a series of Nd6Fe13Pd1–xCux (x=0.05, 0.1, 0.15) compounds by the arc-melting method. These compounds show the single crystalline phase in the tetragonal Nd6Fe13Si-type structure with the space group I4/mcm. A magnetic phase transition from ferromagnetism to antiferromagnetism and a metamagnetic transition from the antiferromagnetic state to the ferromagnetic state were observed in each of the compounds. The compounds exhibit table-like magnetocaloric effects with large refrigerant capacities. A constant ΔSM in a temperature span of 40 K in the Nd6Fe13Pd0.85Cu0.15 compound was observed. For a field change of 0–5 T, the peak values of –ΔSM for the Nd6Fe13Pd0.95Cu0.05, Nd6Fe13Pd0.90Cu0.10, and Nd6Fe13Pd0.85Cu0.15 compounds were estimated to be 4.8, 4.6 and 4.4 J/(kg·K) with corresponding refrigerant capacity values of 323, 331 and 316 J/kg, respectively. The obtained table-like magnetocaloric effects with large refrigerant capacities as well as fairly small thermal and magnetic hysteresis deem these series of compounds good candidates for single-phase magnetic refrigeration based on the Ericsson cycle.

Published

2022

46. Soil N enrichment mediates carbon allocation through respiration in a dominant grass during drought

Author

Bo Meng, Junqin Li, Yuan Yao, Jesse B. Nippert, David G. Williams, Hua Chai, Scott L. Collins, and Wei Sun

Subjects

Ecology, Evolution, Behavior and Systematics

Published

2022

47. Ultra-thin silica shell-guarded nanoflares for high-fidelity live cell miRNA-21 imaging by fully avoiding the interference of biothiols

Author

Yuze Luo, Zefeng Wang, Junqin Li, Wenhua Yi, Ke Yang, Chunlei Ou, Le Deng, and Dinggeng He

Subjects

Diagnostic Imaging, MicroRNAs, Electrochemistry, Metal Nanoparticles, Environmental Chemistry, Gold, Silicon Dioxide, Biochemistry, Spectroscopy, Analytical Chemistry

Abstract

Ultra-thin silica-guarded nanoflares (Au@SiO2 NFs) are constructed for high-fidelity live cell microRNA imaging by avoiding the interference of intracellular biothiols.

Published

2022

48. In situ Design of High-Performance Dual Phase GeSe Thermoelectrics by Tailoring Chemical Bonds

Author

Lipeng Hu, Bingcai Duan, Tu Lyu, Nan Lin, Chaohua Zhang, Fusheng Liu, Junqin Li, Matthias Wuttig, and Yuan Yu

Subjects

Biomaterials, Electrochemistry, ddc:530, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Abstract

Composite engineering favors high thermoelectric performance by tuning the carrier and phonon transport. Herein, orthorhombic and rhombohedral dual-phase GeSe are designed in situ by tailoring chemical bonds. Atom probe tomography verifies the coexistence of a covalently bonded orthorhombic phase and a metavalently bonded rhombohedral phase in GeSe-InTe alloys. The production of the rhombohedral phase simultaneously increases the carrier concentration, the carrier mobility, the band degeneracy, and the density-of-states effective mass due to the reduced formation energy of cation vacancies and the improved crystal symmetry. These attributes are beneficial to a high-power factor. In addition, the thermal conductivity can be significantly reduced due to the intrinsically strong lattice anharmonicity of the metavalently bonded phase, the interfacial acoustic phonon mismatch across different bonding mechanisms, and the phonon scattering at vacancy-solute clusters. Moreover, the metavalently bonded phase embraces higher solubility of dopants that enables the further optimization of properties by Cd-Ag doping, resulting in a zT of 0.95 at 773 K as well as enhanced strength and ductility in dual-phase Ge0.94Cd0.03Ag0.03Se(InTe)0.15. This work indicates that in situ design of dual-phase composites by tailoring chemical bonds is an effective method for enhancing the thermoelectric and mechanical properties of GeSe and other p-bonded chalcogenides.

Published

2023

49. ITGA9 Inhibits Proliferation and Migration of Dermal Microvascular Endothelial Cells in Psoriasis

Author

Hui Hou, Jiao Li, Juanjuan Wang, Ling Zhou, Junqin Li, Jiannan Liang, Guohua Yin, Xinhua Li, Yueai Cheng, and Kaiming Zhang

Subjects

Clinical, Cosmetic and Investigational Dermatology, Dermatology

Abstract

Hui Hou, Jiao Li, Juanjuan Wang, Ling Zhou, Junqin Li, Jiannan Liang, Guohua Yin, Xinhua Li, Yueai Cheng, Kaiming Zhang Shanxi Key Laboratory of Stem Cell for Immunological Dermatosis, Institute of Dermatology, Taiyuan Central Hospital of Shanxi Medical University, Taiyuan, People’s Republic of ChinaCorrespondence: Kaiming Zhang, Shanxi Key Laboratory of Stem Cell for Immunological Dermatosis, Institute of Dermatology, Taiyuan Central Hospital of Shanxi Medical University, No. 5 Dong San Dao Xiang, Jiefang Road, Taiyuan, Shanxi Province, People’s Republic of China, Tel +86-351-5656080, Email zhangkaiming@sina.comBackground: Cell proliferation, migration, and angiogenesis are aberrant in psoriatic human dermal microvascular endothelial cells (HDMECs), resulting in abnormal endothelial function and microvascular dilation in psoriasis.Objective: To explore the role of Integrin subunit alpha 9 (ITGA9) in proliferation and migration of dermal microvascular endothelial cells.Methods: HDMECs were isolated from the skin of 6 psoriatic patients and 6 healthy controls. Expression levels of ITGA9 mRNA and protein were assessed with qRT-PCR and Western blot, respectively, while miqRT-PCR was used to determine expression levels of miR-146a-3p. Cell proliferation and migration were assessed in human microvascular endothelial cell line (HMEC-1), following overexpression of either ITGA9 or miR-146a-3p, or co-transfection with miR-146a-3p-mimic and pLVX - ITGA9. Cell viability was detected by Cell Counting Kit-8 assay and 5-ethynyl-2′-deoxyuridine (EdU) cell proliferation assay. Cell apoptosis was assessed, using annexin V-FITC/PI apoptosis detection kit, while cell migration was detected by wound healing and transwell assay.Results: Expression levels of ITGA9 were significantly decreased in psoriatic HDMECs compared to normal controls. Moreover, expression levels of miR-146a-3p were higher in psoriatic HDMECs than in normal controls. Overexpression of miR-146a-3p lowered expression levels of ITGA9, accompanied by increased proliferation and migration of HMEC-1 in vitro. In contrast, overexpression of ITGA9 inhibited proliferation and migration of HMEC-1, while increasing expression levels of cdc42, ki67, focal adhesion kinase (FAK), c-Src tyrosine kinase (Src), RAC1 and RhoA.Conclusion: ITGA9 can repress the proliferation and migration of HMEC-1, suggesting utility of ITGA9 as a potential therapeutic intervention for psoriasis.Keywords: ITGA9, miR-146a-3p, human dermal microvascular endothelial cells, psoriasis, proliferation, migration

Published

2022

50. Response to Article 'Autophagy Inhibits Inflammation via Down-Regulation of p38 MAPK/mTOR Signaling Cascade in Endothelial Cells' [Response to Letter]

Author

Ling Zhou, Juanjuan Wang, Hui Hou, Jiao Li, Juan Li, Jiannan Liang, Junqin Li, Xuping Niu, Ruixia Hou, and Kaiming Zhang

Subjects

Clinical, Cosmetic and Investigational Dermatology, Dermatology

Abstract

Ling Zhou,1 Juanjuan Wang,1 Hui Hou,1 Jiao Li,1 Juan Li,1 Jiannan Liang,1 Junqin Li,1 Xuping Niu,1 Ruixia Hou,1 Kaiming Zhang2 1Shanxi Key Laboratory of Stem Cells for Immunological Dermatosis, Institute of Dermatology, Taiyuan Central Hospital of Shanxi Medical University, Taiyuan, People’s Republic of China; 2Shanxi Key Laboratory of Stem Cells for Immunological Dermatosis, Institute of Dermatology, Taiyuan Central Hospital, Taiyuan, People’s Republic of ChinaCorrespondence: Kaiming Zhang, Email zhangkaiming@sina.com

Published

2023