Your search keyword '"Hang Wang"' showing total 2,881 results

1. The fall armyworm converts maize endophytes into its own probiotics to detoxify benzoxazinoids and promote caterpillar growth

Author

Jinfeng Qi, Fangjie Xiao, Xingxing Liu, Jing Li, Haocai Wang, Shu Li, Hongwei Yu, Yuxing Xu, and Hang Wang

Subjects

Spodoptera frugiperda, Maize, Benzoxazinoids, Pantoea dispersa, Pest-microbe–plant interactions, Microbial ecology, QR100-130

Abstract

Abstract Background The fall armyworm (FAW, Spodoptera frugiperda) threatens maize production worldwide, and benzoxazinoids (Bxs) are known as the main secondary metabolites produced by maize to defend against FAW. However, we do not yet know whether and in what ways certain endophytes in the digestive system of FAW can metabolize Bxs, thus enhancing the fitness of FAW when feeding on maize. Results Using Bxs as the sole carbon and nitrogen source, we isolated Pantoea dispersa from the guts of FAW. P. dispersa can colonize maize roots and leaves as indicated by GFP-labeling and further successfully established itself as an endophyte in the Malpighian tubules and the gut of FAW after FAW feeding activities. Once established, it can be vertically transmitted through FAW eggs, suggesting the potential that FAW can convert maize-derived endophytes into symbiotic bacteria for intergenerational transmission. The prevalence of P. dispersa in FAW guts and maize leaves was also confirmed over large geographic regions, indicating its evolutionary adaptation in fields. Bxs determination in the gut and frass of FAW combined with bioassays performance on maize bx2 mutants revealed that the colonization of P. dispersa can promote FAW growth by metabolizing Bxs rather than other metabolites. Additionally, genome and transcriptome analyses identified plasmid-borne genes, rather than chromosomes of this species, were crucial for Bxs metabolism. This was further validated through in vitro prokaryotic expression assays by expressing two candidate genes form the plasmid. Conclusions FAW can convert maize endophytes into its own probiotics to detoxify Bxs and thus enhance caterpillar growth. This represents a novel strategy for lepidopteran pests—transforming allies of the host into its own—thereby shedding light on the rapid spread of FAW and enhancing our understanding of ecological and evolutionary mechanisms underlying the pest-microbe–plant interactions. Video Abstract

Published

2024

2. Exogenous hydrogen sulfide increased Nicotiana tabacum L. resistance against drought by the improved photosynthesis and antioxidant system

Author

Hang Wang, Mohamed G. Moussa, Wuxing Huang, Dan Han, Bingjun Dang, Haohao Hao, Li Zhang, Zicheng Xu, and Wei Jia

Subjects

Tobacco, NaHS, Polyethylene glycol (PEG), Abscisic acid, Drought tolerance, Medicine, Science

Abstract

Abstract Drought stress is an abiotic stressor that impacts photosynthesis, plant growth, and development, leading to decreased crop yields. Sodium hydrosulfide (NaHS), an exogenous additive, has demonstrated potential regulatory effects on plant responses to polyethylene glycol-induced drought stress in tobacco seedlings. Compared to the control, drought stress induced by 15 g/L PEG-6000 significantly reduced several parameters in tobacco seedlings: shoot dry weight (22.83%), net photosynthesis (37.55%), stomatal conductance (33.56%), maximum quantum yield of PSII (Fv/Fm) (11.31%), photochemical quantum yield of PSII (ΦPSII) (25.51%), and photochemical quenching (qP) (18.17%). However, applying NaHS, an H2S donor, mitigated these effects, ultimately enhancing photosynthetic performance in tobacco seedlings. Furthermore, optimal NaHS concentration (0.4 mM) effectively increased leaf stomatal aperture, relative water content (RWC) and root activity, as well as facilitated the absorption of N, K, Mg and S. It also enhanced the accumulation of soluble sugar and proline content to maintain osmotic pressure balance under drought stress. Compared to drought alone, pretreatment with NaHS also bolstered the antioxidant defense system in leaves, leading to 22.93% decrease in hydrogen peroxide (H2O2) content, a 22.19% decrease in malondialdehyde (MDA) content and increased activities of ascorbate peroxidase (APX) by 28.13%, superoxide dismutase (SOD) by 17.07%, peroxidase (POD) by 46.99%, and catalase (CAT) by 65.27%. Consequently, NaHS protected chloroplast structure and attenuated chlorophyll degradation, thus mitigating severe oxidative damage. Moreover, NaHS elevated endogenous H2S levels, influencing abscisic acid (ABA) synthesis and the expression of receptor-related genes, collaboratively participating in the response to drought stress. Overall, our findings provide valuable insights into exogenous NaHS’s role in enhancing tobacco drought tolerance. These results lay the foundation for further research utilizing H2S-based treatments to improve crop resilience to water deficit conditions.

Published

2024

3. Exceptionally low thermal conductivity in distorted high entropy alloy

Author

Hang Wang, Shihua Ma, Weijiang Zhao, Quanfeng He, Yong Liu, Shijun Zhao, and Yong Yang

Subjects

High entropy alloys, lattice distortion, thermal conductivity, phonon scattering, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Recent investigations indicate that high entropy alloys (HEAs) may exhibit distinctive thermal characteristics compared to traditional alloys. Through a blend of experiments and atomistic simulations, this study showcases that the lattice thermal conductivity of a highly distorted single-phase B2 alloy with the composition of (CoNi)50(TiZrHf)50 is as low as less than 1 W/(m·K), akin to that of ceramics like alumina, and remains stable across temperatures from 300 to 900 K. This remarkable thermal behavior is attributed to significant lattice distortion and atomic mass variation within this alloy. These findings suggest potential applications for distorted HEAs in thermal insulation technologies tailored for challenging environments.

Published

2024

4. Intracranial pressure affects retinal venular complexity in idiopathic intracranial hypertension: a retrospective observational study

Author

Le Cao, Hang Wang, William Robert Kwapong, Zhouwei Xiong, Yitian Zhao, Guina Liu, Rui Liu, Junfeng Liu, Fayun Hu, and Bo Wu

Subjects

Idiopathic intracranial hypertension, Retinal venules, Retinal arterioles, Intracranial pressure, Papilledema, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Increased intracranial pressure (ICP) in patients with idiopathic intracranial hypertension (IIH) affects the retinal microvasculature, which can be imaged and quantified by optical coherence tomography angiography (OCTA). We aimed to identify the mediating factor between ICP and OCTA parameters association in IIH patients. Methods IIH patients with active intracranial hypertension were enrolled. OCTA imaging was performed after ICP measurement. We quantified the branching complexity of the retinal arterioles and venules from the superficial vascular complex of the OCTA image. Eyes of IIH patients were stratified into eyes with papilledema (IIH-P) and eyes without papilledema (IIH-WP). All participants underwent visual acuity (VA) examination. Results One hundred and thirty-eight eyes from 70 IIH patients and 146 eyes from 73 controls were included. Compared to the control group, IIH patients and IIH-P had reduced arteriole complexity and increased venule complexity (p

Published

2024

5. Bio-inspired soft pneumatic actuator based on a kresling-like pattern with a rigid skeleton

Author

Zhichuan Tang, Keshuai Yang, Hang Wang, Zhixuan Cui, Xiaoneng Jin, Yuxin Peng, and Pengcheng Liu

Subjects

Bio-inspired, Soft actuator, Kresling-like pattern, Salps, Rigid skeleton, Medicine (General), R5-920, Science (General), Q1-390

Abstract

Introduction: Biomimetic soft pneumatic actuators (SPA) with Kresling origami patterns have unique advantages over conventional rigid robots, owing to their adaptability and safety. Objectives: Inspired by cloning and moving behaviors observed from salps, we proposed an SPA based on a Kresling-like pattern with a rigid skeleton. The elongation and output force were tested, and the effectiveness of the applications with the SPA was evaluated. Methods: The proposed SPA consists of rigid skeletons and a soft skin. The rigid skeletons are constructed using layers of Kresling-like patterns, while a novel extensible inserting structure is devised to replace the folds found in conventional Kresling patterns. This innovative approach ensures that the SPA exhibits axial contraction/expansion motion without any twisting movement. To mimic the bionic characteristics of swimming and ingesting progress of salps, the proposed SPA can perform an axial contraction motion without twisting and a controllable bending motion based on multi-layered Kresling-like patterns; to mimic the cloning and releasing life phenomena of salps, the number of layers of Kresling-like patterns is changeable by adding or reducing skeleton components according to the practical needs. Results: The experimental elongation results on the SPA with multiple layers of Kresling-like patterns show that the elongation can increase to above 162% by adding layers; the experimental output force results show that the three-layer SPA can provide 6.36 N output force at an air flow rate of 10 L/min, and the output force will continue to increase as the number of layers of Kresling-like pattern increases or the air flow rate increases. Further, we demonstrate the applications of the SPA in soft grippers, scissor grippers, claw grippers and pipe crawlers. Conclusion: Our proposed SPA can avoid twisting in the radial contraction motion with high elongation and output force, and provide the practical guidance for bio-inspired soft robotic applications.

Published

2024

6. Correction: CDK4/6 inhibition blocks cancer metastasis through a USP51-ZEB1-dependent deubiquitination mechanism

Author

Zhen Zhang, Jianjun Li, Yang Ou, Guang Yang, Kaiyuan Deng, Qiong Wang, Zhaoyang Wang, Wenhao Wang, Quansheng Zhang, Hang Wang, Wei Sun, Peiqing Sun, and Shuang Yang

Subjects

Medicine, Biology (General), QH301-705.5

Published

2024

7. A Dataset of Distribution and Characterization of Underground Wastewater Treatment Plants in China

Author

Shuyan Zhou, Hui Gong, Xiang Chen, Xiankai Wang, Hang Wang, Yanyan Zhang, Danyang Zhu, Xiaoxin Cao, Sen Li, and Xiaohu Dai

Subjects

Science

Abstract

Abstract Underground wastewater treatment plants (U-WWTPs) have emerged as a novel paradigm for urban wastewater pollutants management, offering benefits such as alleviating the Not-in-my-backyard (NIMBY) effect and utilizing land resources efficiently. China stands at the forefront, witnessing swift advancements in U-WWTP technology and deployment. However, the absence of a thorough understanding of their geographical distribution and operational characteristics could lead to misaligned planning and construction, resulting in inefficient resource allocation and treatment capacities for urban wastewater treatment. This dataset provides an up-to-date overview of the spatial distribution, process selection, and discharge standards for all U-WWTPs in China (with a total number of 201) constructed since 1995. To enhance comparative analysis, the dataset has been supplemented with information on conventional aboveground wastewater treatment plants (A-WWTPs), comprising a total of 2464 records, which enriches a more comprehensive evaluation of different wastewater treatment approaches. Utilizing this dataset can provide essential data support for the strategic management of urban wastewater systems and serve as a valuable reference for the paradigmatic renovation of existing wastewater treatment plants.

Published

2024

8. Stabilization of the metastable βʹ phase by forming Cu4(Ti,Sc) crystal structure in Cu–Ti alloys

Author

Yumin Liao, Chengjun Guo, Chenyang Zhou, Weibin Xie, Bin Yang, and Hang Wang

Subjects

Cu-Ti alloy, Phase stability, Diffusion barrier, Sc element, First-principles calculation, Mining engineering. Metallurgy, TN1-997

Abstract

The βʹ-Cu4Ti phase is the major strengthening precipitate in Cu–Ti alloys. Previous research indicates that destabilization of the βʹ-Cu4Ti phase leads to dissolution of Ti atom from precipitates into the Cu matrix. In the present work, Sc was chosen to be alloying elements in Cu–Ti alloys, since stabilization of the βʹ-Cu4Ti phase could be enhanced by formation of βʹ-Cu4(Ti,Sc) phase. Experimental characterization combined with first-principles calculations were used to evaluate the effect of Sc addition. It was found that the bonding between Ti and Sc atoms in the same sublattice of βʹ-Cu4Ti phase increases the diffusion barrier of Ti atoms, and thus dissolution of the βʹ-Cu4Ti phase and further nucleation of the β-Cu4Ti phase were hindered.

Published

2024

9. Inhibition of AIM2 expression enhance treatment effect of osimertinib in treatment of glioma

Author

Hang Wang, Hongzhuang Zhang, and Qianqian Wei

Subjects

aim2, osimertinib, glioma, wnt/b-catenin, egfr/ras/mek, inflammatory response, Medicine

Published

2024

10. Macular exudate in idiopathic intracranial hypertension affects outer retina and visual acuity

Author

Bo Wu, Rui Liu, Hang Wang, William Robert Kwapong, Le Cao, Jincheng Wan, Yuying Yan, Guina Liu, and Fayun Hu

Subjects

Ophthalmology, RE1-994

Abstract

Background Optical coherence tomography (OCT) is suggested as a potential tool for retinal biomarkers in idiopathic intracranial hypertension (IIH). We explored how macular exudate (ME) affects retinal structure in IIH and investigated its relationship with their clinical features.Methods Patients diagnosed with IIH and matched controls were enrolled. ME detection was done on fundus photography; swept-source OCT was used to image and measure the retinal sublayer thicknesses, including the retinal nerve fibre layer, ganglion cell-inner plexiform layer (GCIPL), inner nuclear layer (INL) and outer retinal layer (ORL). IIH patients underwent lumbar puncture where intracranial pressure (ICP) was assessed.Results 195 eyes from 98 IIH patients (42 eyes had ME) and 224 eyes from 112 controls were included. IIH patients had thicker INL and ORL compared with controls (both p

Published

2024

11. Protamine cleavage specificity of the avian pathogen Escherichia coli OmpT reveals two substrate-binding sites related to virulence

Author

Juanhua Liu, Luyao Jiang, Hang Wang, Jiayan Wu, Qingqing Gao, Changchao Huan, and Song Gao

Subjects

avian pathogenic Escherichia coli, proteolytic activity, cleavage specificity, substrate affinity, substrate-binding site, virulence, Veterinary medicine, SF600-1100

Abstract

The pathogenic nature of bacteria can be increased by cleaving antimicrobial peptides using omptins, to avoid or counter the host’s natural immune defenses. Plasmid-encoded OmpT (pOmpT or ArlC) in avian pathogenic Escherichia coli (APEC), like the chromosome-encoded OmpT (cOmpT), belongs to the omptin family and both exhibit highly similar sequences and structures. Through sequence alignment and physiological examinations, pOmpT has been identified as a virulence factor, distinct from cOmpT in terms of substrate specificity. When pOmpT is compared with cOmpT regarding their proteolytic activities and target substrates, Asp267 and Ser276 on loop 5 of cOmpT are found to be binding sites that facilitate substrate anchoring and enhance substrate cleavage (protamine or synthetic peptide) by the catalytic center. Conversely, the characteristics of residues at positions 267 and 276 on loop 5 of pOmpT inhibit protamine cleavage, yet allow the specific cleavage of the human antimicrobial peptide RNase 7, which plays a role in host defense. This finding suggests a relationship between these two binding sites and substrate specificity. Furthermore, the substrate-binding sites (residues 267 and 276, particularly residue 267) of cOmpT and pOmpT are determined to be critical in the virulence of APEC. In summary, residues 267 and 276 of pOmpT are crucial for the pathogenicity of APEC and offer new insights into the determinants of APEC virulence and the development of antimicrobial drugs.

Published

2024

12. Digital robot-assisted minimally invasive impacted tooth extraction: A case report

Author

Lin-zi Han, Hang Wang, Qun-li Guan, Yin-hui Yang, Xiao-ni Li, Yang Yu, and Yao-zhong Wang

Subjects

Robot-assisted, Digital surgery, Alveolus surgery, Clinical application, Impacted teeth, Case report, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Objective: This study investigated the clinical effects and applicability of minimally invasive impacted teeth extraction using digital robots. Methods: A marker was bonded to the non-surgical area before surgery. A Cone-Beam Computed Tomography (CBCT) scan was obtained and uploaded to the robot software to determine the drilling position of the ring drill. During the surgery, the robot arm automatically navigated to a predetermined position, and the ring drill removed part of the bone tissue and exposed and extracted the impacted teeth. Finally, the surgeon tightly sutured the wounds to the surgical area. Results: Three minimally invasive extractions of impacted teeth with robotic assistance were performed without complications. The surgical area showed good healing during the one-month follow-up examination. Conclusions: Digital robot-assisted minimally invasive extraction of impacted teeth is a highly feasible clinical procedure as it minimises trauma to the surgical area and protects the surrounding blood vessels and nerve bundles, making it a safe and valuable technique with significant potential for clinical application.

Published

2024

13. Retinal sub-layer thicknesses, presence of lacunes, and their interaction with cognitive performance in recent single subcortical infarction

Author

Jingyu Cui, William Robert Kwapong, Yuying Yan, Le Cao, Chen Ye, Hang Wang, Shuai Jiang, Bo Wu, and Ting Gao

Subjects

Medicine

Published

2024

14. Solidified microstructure and phase equilibria of the Cu–Cr–X (X=Mg, Y) ternary systems

Author

Fengting Jing, Xin Chen, Yuling Liu, Yong Du, Biao Hu, and Hang Wang

Subjects

Cu–Cr–Y, Cu–Cr–Mg, Phase equilibria, Solidified microstructure, Liquidus projection, CALPHAD, Mining engineering. Metallurgy, TN1-997

Abstract

The Cu–Cr alloys with magnesium and yttrium exhibit appealing high-strength and high-conductivity (HSHC) characteristics. Anticipated contributions to the design of HSHC copper alloys include new insights from understanding the phase equilibria, solidified microstructure, and thermodynamics of the Cu–Cr–X (X = Mg, Y) systems. Five Cu–Cr–Y alloys and three Cu–Cr–Mg alloys were melted through arc melting and powder metallurgy, respectively. An analysis was conducted on the primary phases and solidification path of the as-cast Cu–Cr–Y alloys. Five three-phase regions in the Cu–Cr–Y system and three in the Cu–Cr–Mg system at the isothermal sections of 673 K were identified using XRD and EPMA. No ternary compound was discovered among either of these systems. The agreement between the experimental data and the calculated isothermal sections and liquidus projection derived from the thermodynamic description of the binary systems is quite good. The investigation on phase equilibria in Cu–Cr–X (X = Mg, Y) systems in this study helps in developing the thermodynamic database for multi-component copper alloys.

Published

2024

15. Microstructure and mechanical properties of WC-12Co cemented carbide fabricated by laser powder bed fusion on a WC-20Co cemented carbide substrate

Author

Jianping Fu, Li Zhang, Hang Wang, Yuxia Zhao, Xiaohui Yang, Jinfang Zhang, Zhigang Chen, Yuankui Cao, Bin Liu, and Xiaofeng Li

Subjects

Cemented carbide, Laser powder bed fusion, Microstructure, Transverse rupture strength, Friction and wear property, Mining engineering. Metallurgy, TN1-997

Abstract

In this study, WC-12Co cemented carbides were prepared by laser powder bed fusion (LPBF) on a WC-20Co substrate. The effects of the scanning speed and the substrate on the microstructure, mechanical properties and wear characteristics of the WC-12Co cemented carbide were investigated. The results showed that an alternating distribution of coarse and fine WC grains is observed in the LPBF-prepared WC-12Co cemented carbides. As the laser scanning speed decreases or the laser energy density increases, the WC phase gradually decomposes, accompanied by the loss of C and the formation of ƞ phases. WC-12Co cemented carbides produced at a lower scanning speed exhibit a higher density of thermal cracks, while those produced at a higher scanning speed have a larger number of pores. As the laser scanning speed increases, the transverse rupture strength (TRS) first increases to a maximum value of 823.13 MPa and then decreases. The variation of TRS is mainly attributed to the evolution of the brittle ƞ-phase and metallurgical defects. For WC-12Co cemented carbides formed at low scanning speeds, the brittle η-phase may fracture and cut through the matrix during the friction process, leading to an increase in coefficient of friction (COF) and wear mass loss. For samples formed at high scanning speeds, the formation and detachment of the shear layer could accelerate the friction process and undermine the wear resistance of the WC-12Co cemented carbide. Therefore, the sample prepared at the scanning speed of 400 mm/s shows the best wear performance.

Published

2024

16. Cross-sectional associations between multisensory impairment and brain volumes in older adults: Baltimore Longitudinal Study of Aging

Author

Chenxin Tian, Jennifer A. Schrack, Yuri Agrawal, Yang An, Yurun Cai, Hang Wang, Alden L. Gross, Qu Tian, Eleanor M. Simonsick, Luigi Ferrucci, Susan M. Resnick, and Amal A. Wanigatunga

Subjects

Sensory, Neuroimaging, Brain aging, Olfactory impairment, Medicine, Science

Abstract

Abstract Sensory impairment and brain atrophy is common among older adults, increasing the risk of dementia. Yet, the degree to which multiple co-occurring sensory impairments (MSI across vision, proprioception, vestibular function, olfactory, and hearing) are associated with brain morphometry remain unexplored. Data were from 208 cognitively unimpaired participants (mean age 72 ± 10 years; 59% women) enrolled in the Baltimore Longitudinal Study of Aging. Multiple linear regression models were used to estimate cross-sectional associations between MSI and regional brain imaging volumes. For each additional sensory impairment, there were associated lower orbitofrontal gyrus and entorhinal cortex volumes but higher caudate and putamen volumes. Participants with MSI had lower mean volumes in the superior frontal gyrus, orbitofrontal gyrus, superior parietal lobe, and precuneus compared to participants with

Published

2024

17. Intra-articular injection of miRNA-1 agomir, a novel chemically modified miRNA agonists alleviates osteoarthritis (OA) progression by downregulating Indian hedgehog in rats

Author

Pengcui Li, Yangyang Gao, Raorao Zhou, Xianda Che, Hang Wang, Lingling Cong, Pinpin Jiang, Dan Liang, Penghua Li, Chunfang Wang, Wenjin Li, Shengbo Sang, Qianqian Duan, and Xiaochun Wei

Subjects

MicroRNA-1, Intra-articular injection, Osteoarthritis, Indian hedgehog, Medicine, Science

Abstract

Abstract Our objective in this study is to determine whether intra-articular injection of miRNA-1 can attenuate the progression of OA in rats by down regulating Ihh. Knee chondrocytes were isolated from male Sprague–Dawley rats aged 2–3 days. Second-generation chondrocytes were transfected with miR-1 mimic and empty vector with lipo3000 for 6 h and then stimulated with 10 ng/mL IL-1β for 24 h. OA-related and cartilage matrix genes were quantified using real-time quantitative polymerase chain reaction (RT-qPCR). Two-month-old male Sprague–Dawley rats were divided into three groups (n = 30?): sham operation group + 50 µL saline, anterior cruciate ligament transection (ACLT) group + 50 µL miR-1 agomir (concentration), and control group ACLT + 50 µL miR-1 agomir. Treatment was started one week after the operation. All animals were euthanized eight weeks after the operation. X-rays and micro-CT were used to detect imaging changes in the knee joints. FMT was used to monitor joint inflammation in vivo. Safranin O staining was used to detect morphological changes in articular cartilage. Immunohistochemistry was used to detect Col2, Col10, metalloproteinase-13 (MMP-13). RT-qPCR was used to detect gene changes includingmiR-1, Col2, Col10, MMP-13, Ihh, Smo, Gli1, Gli2, and Gli3. Overexpression of miR-1 in IL-1β-stimulated chondrocytes reduced the levels of Ihh, MMP-13, and Col10 but increased the levels of Col2 and aggrecan. Intra-articular injection of miR-1 agomir reduced osteophyte formation, inflammation, and prevented cartilage damage. RT-qPCR results indicated that the miR-1 agomir increased articular cartilage anabolism and inhibited cartilage catabonism. miR-1 can attenuate the progression of OA by downregulating Ihh.

Published

2024

18. Dual heterogeneous Cu–Al2O3/Cu laminated composite with high strength and ductility prepared by accumulative roll bonding

Author

Renpeng Chen, Weijie Qian, Haiyan Liu, Weibin Xie, Huiming Chen, Hang Wang, and Bin Yang

Subjects

Al2O3/Cu composite, Accumulated roll bonding, Coarse/fine crystalline dual heterogeneous microstructure, Heterogeneous deformation-induced reinforcement, Mining engineering. Metallurgy, TN1-997

Abstract

Cu–Al2O3/Cu laminated dual heterogeneous microstructure composites with alternating coarse/fine grain distributions were prepared using a combination of accumulative roll bonding and annealing processes. The average layer thickness of the Al2O3/Cu layers is 2.1 μm and that of the Cu layer is 4.2 μm, and meanwhile, the average grain size of the Al2O3/Cu layers and Cu layers are 0.25 μm, 2.3 μm respectively. The strength of Al2O3/Cu layer is higher than that of the Cu layer because of the additional dispersion strengthening and the stronger grain boundary strengthening. Owing to significant differences in the structural and mechanical properties of the layers in this material, geometrically necessary dislocations accumulated at the interface during the tensile process; this resulted in significant heterogeneous deformation-induced strengthening, which yielded a laminated composite with a tensile strength of 413 MPa, tensile ductility of 27%, and excellent overall performance. This work provides a new design strategy for the preparation of high-strength high-ductility materials.

Published

2024

19. Effects of La content on microstructure and tribological properties of laser clad Ni60/WC/La2O3 composite coatings on Cr12MoV

Author

Xiaojin Miao, Meiping Wu, Hang Wang, Yongwu Zhao, Chen Cui, Rui He, and Dadong Jie

Subjects

Laser cladding, Ni60/WC/La2O3 coating, Microstructure, Tribological properties, Mining engineering. Metallurgy, TN1-997

Abstract

The Ni60/WC/La2O3 composite coatings with 0∼2 wt% La2O3 content were prepared on Cr12MoV substrates by laser cladding. The microstructure and tribological properties of the coatings were studied in detail. The results revealed that WC particles were partially dissolved to form new carbides with lower hardness. The dissolution mechanisms were consisted of dissolution-diffusion, diffusion-nucleation, and penetration-dissolution-nucleation. The wear mechanism of C0∼C3 coatings with La2O3 contents of no more than 1.5% was dominated by oxidative wear, while that of C4 coating with a La2O3 content of 2% was dominated by abrasive wear. The best performance of the coatings was obtained at a La2O3 content of 1.5 wt%. The hardness reached 1024.3 HV0.2, which was 3.64 times higher than that of the substrate. And the wear loss was 2.5 mg, which was 88.8% lower than that of the substrate.

Published

2024

20. Tumor diagnosis using carbon-based quantum dots: Detection based on the hallmarks of cancer

Author

Hang Wang, Siwei Yang, Liangfeng Chen, Yongqiang Li, Peng He, Gang Wang, Hui Dong, Peixiang Ma, and Guqiao Ding

Subjects

Tumor diagnosis, Carbon-based quantum dots, Hallmarks of cancer, Cell physiology, Structure design, Materials of engineering and construction. Mechanics of materials, TA401-492, Biology (General), QH301-705.5

Abstract

Carbon-based quantum dots (CQDs) have been shown to have promising application value in tumor diagnosis. Their use, however, is severely hindered by the complicated nature of the nanostructures in the CQDs. Furthermore, it seems impossible to formulate the mechanisms involved using the inadequate theoretical frameworks that are currently available for CQDs. In this review, we re-consider the structure-property relationships of CQDs and summarize the current state of development of CQDs-based tumor diagnosis based on biological theories that are fully developed. The advantages and deficiencies of recent research on CQDs-based tumor diagnosis are thus explained in terms of the manifestation of nine essential changes in cell physiology. This review makes significant progress in addressing related problems encountered with other nanomaterials.

Published

2024

21. Start-up of a full-scale two-stage partial nitritation/anammox (PN/A) process treating reject water from high solid anaerobic sludge digestion (HSAD)

Author

Shuyan Zhou, Hui Gong, Enhui Xu, Xiang Chen, Xiankai Wang, Hang Wang, Danyang Zhu, Yanyan Zhang, Jing Yang, Guowei Gu, and Xiaohu Dai

Subjects

High solid anaerobic digestion, Two-stage, Partial nitritation/anammox, Full-scale, Start-up, Environmental technology. Sanitary engineering, TD1-1066

Abstract

High solid anaerobic digestion (HSAD) achieves the benefits of high volumetric loading rates and lower reject water production, which, however, results in much more concentrated reject water with a remarkable increase in organics and nitrogen compared with that from conventional AD with low solid content. The high concentrations of ammonium (2000–3500 mg/L) and COD (3000–4000 mg/L) were reported to exert inhibition on anammox bacteria (AnAOB), posing challenges to the application of the partial nitritation/anammox (PN/A). To date, no cases of PN/A process start-up for sludge HSAD reject water were reported. This study demonstrated the start-up process of a 480 m3/d PN/A project without anammox sludge inoculation and treating HSAD reject water from a centralized dewatered sludge treatment plant. The project did not construct new infrastructures but utilized previously constructed tanks to upgrade the process from existing short-cut nitrification-denitrification to a two-stage PN/A process. Although no external anammox sludge inoculation was performed to save seeding sludge cost, the start-up was successfully achieved in about 9 months (273 days) based on a three-step method of “AnAOB enrichment - sludge acclimation - capacity doubling”. During start-up, the relative abundance of AnAOB (Candidatus_Kuenenia) increased from near zero to 12.0%. After start-up, the total inorganic nitrogen (TIN) removal load reached 0.74 kgN/(m3•d), with a total nitrogen removal efficiency of over 90%. Compared to the traditional nitrification-denitrification process, the PN/A process remarkably reduces the addition of organic chemicals and aeration energy consumption, saving approximately 4.2 million yuan (RMB) in operational costs annually. In summary, this research provides a full-scale reference for the start-up of the PN/A process treating sludge HSAD reject water.

Published

2024

22. Efficacy of neuroendoscopic and small-bone-window craniotomy microsurgery for hypertensive cerebral hemorrhage: a meta-analysis of Chinese RCT studies

Author

Tianpeng Zhi, Hang Wang, Xiangyang Wei, Zhengjun Wei, and Hong-tao Sun

Subjects

supratentorial hypertensive intracerebral hemorrhage, neuroendoscopic surgery, small-bone-window craniotomy, efficacy, meta-analysis, Neurology. Diseases of the nervous system, RC346-429

Abstract

ObjectiveTo compare the clinical efficacy of neuroendoscopy and small-bone-window craniotomy microsurgery in the treatment of supratentorial hypertensive intracerebral hemorrhage.MethodsA search was conducted for Chinese randomized controlled trials on neuroendoscopy and small-bone-window craniotomy microsurgery treatment of hypertensive intracerebral hemorrhage published before February 1, 2024, in PubMed, Embase, Web of Science, Cochrane Library, China National Knowledge Infrastructure, Wanfang Data, and China Science and Technology Journal Database. Meta-analysis was performed using Review Manager 5.4 software.ResultsWe included 9 randomized controlled trials, with 391 cases in the neuroendoscopy group and 403 cases in the craniotomy group. The meta-analysis results showed that compared to the small-bone-window craniotomy group, the neuroendoscopy group had a higher rate of hematoma clearance (95% CI [6.65, 18.52], p

Published

2024

23. Toward a Medication Information Literacy Indicator System for Older Adults: A Delphi Study

Author

Xiaoyu Zhou, Jia Yi, Li Bai, Mengyao Jiang, Wei Peng, Jing Liao, Hang Wang, and Xiaorong Hou

Subjects

Delphi, indicator system, medication information literacy, older adults, Medicine (General), R5-920, Public aspects of medicine, RA1-1270

Abstract

Abstract Background The safety of medication use among older adults is a growing concern, given the aging population. Despite widespread attention, the exploration of medication literacy in older adults, particularly from the perspective of information literacy, is in its nascent stages. Methods This study utilized the existing literature to define medication information literacy (MIL) as a theoretical framework. A two‐round Delphi survey was conducted to identify the essential components of a MIL indicator system for older adults. The analytic hierarchy process (AHP) was then used to assign weights to each indicator. Results The study observed relatively high response rates in both rounds of the questionnaire, which, along with expert authority coefficients (Cr) of 0.86 and 0.89, underscores the credibility and expertise of the panellists. Additionally, Kendall's coefficient of concordance (Kendall's W) ranging from 0.157 to 0.33 (p

Published

2024

24. Comprehensive review of Transformer‐based models in neuroscience, neurology, and psychiatry

Author

Shan Cong, Hang Wang, Yang Zhou, Zheng Wang, Xiaohui Yao, and Chunsheng Yang

Subjects

deep learning, neurology, neuroscience, psychiatry, Transformer, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract This comprehensive review aims to clarify the growing impact of Transformer‐based models in the fields of neuroscience, neurology, and psychiatry. Originally developed as a solution for analyzing sequential data, the Transformer architecture has evolved to effectively capture complex spatiotemporal relationships and long‐range dependencies that are common in biomedical data. Its adaptability and effectiveness in deciphering intricate patterns within medical studies have established it as a key tool in advancing our understanding of neural functions and disorders, representing a significant departure from traditional computational methods. The review begins by introducing the structure and principles of Transformer architectures. It then explores their applicability, ranging from disease diagnosis and prognosis to the evaluation of cognitive processes and neural decoding. The specific design modifications tailored for these applications and their subsequent impact on performance are also discussed. We conclude by providing a comprehensive assessment of recent advancements, prevailing challenges, and future directions, highlighting the shift in neuroscientific research and clinical practice towards an artificial intelligence‐centric paradigm, particularly given the prominence of Transformer architecture in the most successful large pre‐trained models. This review serves as an informative reference for researchers, clinicians, and professionals who are interested in understanding and harnessing the transformative potential of Transformer‐based models in neuroscience, neurology, and psychiatry.

Published

2024

25. Thrombocytopenia and hyperprogression after radiotherapy and camrelizumab treatment in an esophageal cancer patient with increased JAK2 gene copies: a case report

Author

Hang Wang, Yun Li, Min Qiu, and Jianmin Wang

Subjects

esophageal cancer, radiotherapy, immune checkpoint inhibitor, thrombocytopenia, JAK2/STAT3 pathway, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Radiotherapy (RT) and immune checkpoint inhibitor (ICI) are important treatments for esophageal cancer. Some studies have confirmed the safety and effectiveness of using RT in combination with ICI, while serious side effects have been exhibited by some patients. We report a patient with metastatic esophageal cancer who received RT combined with ICI. The patient experienced severe thrombocytopenia, and treatment with thrombopoietin and corticosteroids were ineffective. Finally, the patient developed abscopal hyperprogression outside the radiation field. Interestingly, next-generation sequencing revealed increased JAK2 gene copies in the surgical slices. The JAK2/STAT3 pathway is involved in the regulation of megakaryocyte development. Recurrent thrombocytopenia may activate the JAK2/STAT3 pathway, leading to megakaryocyte differentiation and platelet biogenesis. However, persistent activation of the JAK2/STAT3 pathway has been associated with immune ICI resistance and tumor progression. This case indicates that thrombocytopenia and increased JAK2 gene copies may be risk factors for poor prognosis after ICI and RT treatment.

Published

2024

26. Metabolomic machine learning predictor for diagnosis and prognosis of gastric cancer

Author

Yangzi Chen, Bohong Wang, Yizi Zhao, Xinxin Shao, Mingshuo Wang, Fuhai Ma, Laishou Yang, Meng Nie, Peng Jin, Ke Yao, Haibin Song, Shenghan Lou, Hang Wang, Tianshu Yang, Yantao Tian, Peng Han, and Zeping Hu

Subjects

Science

Abstract

Abstract Gastric cancer (GC) represents a significant burden of cancer-related mortality worldwide, underscoring an urgent need for the development of early detection strategies and precise postoperative interventions. However, the identification of non-invasive biomarkers for early diagnosis and patient risk stratification remains underexplored. Here, we conduct a targeted metabolomics analysis of 702 plasma samples from multi-center participants to elucidate the GC metabolic reprogramming. Our machine learning analysis reveals a 10-metabolite GC diagnostic model, which is validated in an external test set with a sensitivity of 0.905, outperforming conventional methods leveraging cancer protein markers (sensitivity

Published

2024

27. Overcoming strength-toughness trade-off in a eutectic high entropy alloy by optimizing chemical and microstructural heterogeneities

Author

Zhaoqi Chen, Wenqing Zhu, Hang Wang, Quanfeng He, Qihong Fang, Xiaodi Liu, Jia Li, and Yong Yang

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Abstract The well-known strength-toughness trade-off has long been an obstacle in the pursuit of advanced structural alloys. Here, we develop a eutectic high entropy alloy that effectively overcomes this limitation. Our alloy is composed of face-centered cubic and body-centered cubic crystalline phases, and demonstrates attractive mechanical properties by harnessing microstructural hybridization and a strain-induced phase transition between phases. Unlike conventional eutectic alloys, the compositionally complexity of our alloy allows control of its microstructural and chemical heterogeneities across multiple length scales, ranging from atomic- and nano-scales to meso-scales. Optimizing these microstructural and chemical heterogeneities within our alloy enables high strength and ductility because of enhanced fracture resistance, outperforming alternative high and medium entropy alloys with similar compositions and microstructures.

Published

2024

28. Correlation study on firing temperature and color of plain pottery excavated from the Tang Dynasty tomb of Liu Jing in Shaanxi, China

Author

Biao Zhang, Hang Wang, Xuanliang He, Jianfeng Zhu, Hongjie Luo, Daiyun Liu, Fen Wang, Xichen Zhao, Guiqiang Fei, and Pei Shi

Subjects

Plain pottery, Firing temperature, Color saturation, Iron-containing minerals, Replica, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract Plain pottery excavated from the Tang Dynasty tomb of Liu Jing was taken as the research object. The color, chemical composition, microstructure, and phase were tested to investigate the influencing factors of color for plain pottery fragments. The results indicated that the contents of Fe2O3 and TiO2 in all fragments varied little, and the influence of humic acids in clay as well as the firing atmosphere on the appearance color of plain pottery was excluded. Therefore, the main factor affecting color saturation (C*) was identified as the firing temperature (T). More importantly, the correlation between C* and firing temperature was established by replicas fired at different temperatures. Before the appearance of the glass phase, iron-containing minerals played a major role in coloring, and after that, iron ions in the glass phase and iron crystallization rose the important function of coloring. Consequently, with the increase of firing temperature, C* value increased firstly and then decreased. The inflection point of the fitted C* − T curve corresponded to the glass phase formation temperature. By comparing the estimated firing temperatures obtained by the fitted C* − T correlation curve with the known firing temperature of replicas, it was demonstrated that the color measurement is an ideal method for deducing the firing temperatures of ancient plain pottery.

Published

2024

29. Ultra-Efficient and Cost-Effective Platinum Nanomembrane Electrocatalyst for Sustainable Hydrogen Production

Author

Xiang Gao, Shicheng Dai, Yun Teng, Qing Wang, Zhibo Zhang, Ziyin Yang, Minhyuk Park, Hang Wang, Zhe Jia, Yunjiang Wang, and Yong Yang

Subjects

Platinum, Hydrogen evolution reaction, Lattice distortion, Heterogeneous strain, Technology

Abstract

Highlights A percolating network of distorted 2D Pt nanomembranes was synthesized by polymer surface buckling-enabled exfoliation for hydrogen evolution reaction. The 2D Pt nanomembrane enabled important technological applications for its high efficiency, low costs, and good stability, making it potential alternative to commercial Pt/C. Our 2D Pt nanomembranes offer insights into a new mechanism for efficient catalyst design strategy: lattice distortion-induced heterogeneous strain.

Published

2024

30. Metabolic heterogeneity in clear cell renal cell carcinoma revealed by single-cell RNA sequencing and spatial transcriptomics

Author

Guanwen Yang, Jiangting Cheng, Jiayi Xu, Chenyang Shen, Xuwei Lu, Chang He, Jiaqi Huang, Minke He, Jie Cheng, and Hang Wang

Subjects

Clear cell renal cell carcinoma, Metabolic reprogramming, Single-cell RNA sequencing, Spatial transcriptome, Deep learning, Tumor microenvironment, Medicine

Abstract

Abstract Background Clear cell renal cell carcinoma is a prototypical tumor characterized by metabolic reprogramming, which extends beyond tumor cells to encompass diverse cell types within the tumor microenvironment. Nonetheless, current research on metabolic reprogramming in renal cell carcinoma mostly focuses on either tumor cells alone or conducts analyses of all cells within the tumor microenvironment as a mixture, thereby failing to precisely identify metabolic changes in different cell types within the tumor microenvironment. Methods Gathering 9 major single-cell RNA sequencing databases of clear cell renal cell carcinoma, encompassing 195 samples. Spatial transcriptomics data were selected to conduct metabolic activity analysis with spatial localization. Developing scMet program to convert RNA-seq data into scRNA-seq data for downstream analysis. Results Diverse cellular entities within the tumor microenvironment exhibit distinct infiltration preferences across varying histological grades and tissue origins. Higher-grade tumors manifest pronounced immunosuppressive traits. The identification of tumor cells in the RNA splicing state reveals an association between the enrichment of this particular cellular population and an unfavorable prognostic outcome. The energy metabolism of CD8+ T cells is pivotal not only for their cytotoxic effector functions but also as a marker of impending cellular exhaustion. Sphingolipid metabolism evinces a correlation with diverse macrophage-specific traits, particularly M2 polarization. The tumor epicenter is characterized by heightened metabolic activity, prominently marked by elevated tricarboxylic acid cycle and glycolysis while the pericapsular milieu showcases a conspicuous enrichment of attributes associated with vasculogenesis, inflammatory responses, and epithelial–mesenchymal transition. The scMet facilitates the transformation of RNA sequencing datasets sourced from TCGA into scRNA sequencing data, maintaining a substantial degree of correlation. Conclusions The tumor microenvironment of clear cell renal cell carcinoma demonstrates significant metabolic heterogeneity across various cell types and spatial dimensions. scMet exhibits a notable capability to transform RNA sequencing data into scRNA sequencing data with a high degree of correlation.

Published

2024

31. A 4-DOF Exosuit Using a Hybrid EEG-Based Control Approach for Upper-Limb Rehabilitation

Author

Zhichuan Tang, Zhixuan Cui, Hang Wang, Pengcheng Liu, Xuan Xu, and Keshuai Yang

Subjects

Exosuit, Bowden cable, motor imagery, SSVEP, rehabilitation, Computer applications to medicine. Medical informatics, R858-859.7, Medical technology, R855-855.5

Abstract

Rehabilitation devices, such as traditional rigid exoskeletons or exosuits, have been widely used to rehabilitate upper limb function post-stroke. In this paper, we have developed an exosuit with four degrees of freedom to enable users to involve more joints in the rehabilitation process. Additionally, a hybrid electroencephalogram-based (EEG-based) control approach has been developed to promote active user engagement and provide more control commands.The hybrid EEG-based control approach includes steady-state visual evoked potential (SSVEP) paradigm and motor imagery (MI) paradigm. Firstly, the rehabilitation movement was selected by SSVEP paradigm, and the multivariate variational mode decomposition (MVMD) and canonical correlation analysis (CCA) method was used for SSVEP EEG recognition; then, the motion intention was obtained by MI paradigm, and the convolutional neural network (CNN) and long short-term memory network (LSTM) were used to build a CNN-LSTM model for MI EEG recognition; finally, the recognition results were translated into control commands of Bowden cables to achieve multi-degree-of-freedom rehabilitation.Experimental results show that the average classification accuracy of the CNN-LSTM model reaches to 90.07% ± 2.23%, and the overall accuracy of the hybrid EEG-based control approach reaches to 85.26% ± 1.95%. The twelve subjects involved in the usability assessment demonstrated an average system usability scale (SUS) score of 81.25 ± 5.82. Additionally, four participants who underwent a 35-day rehabilitation training demonstrated an average 10.33% increase in range of motion (ROM) across 4 joints, along with a 11.35% increase in the average electromyography (EMG) amplitude of the primary muscle involved.The exosuit demonstrates good accuracy in control, exhibits favorable usability, and shows certain efficacy in multi-joint rehabilitation. Our study has taken into account the neuroplastic principles, aiming to achieve active user engagement while introducing additional degrees of freedom, offering novel ideas and methods for potential brain-computer interface (BCI)-based rehabilitation strategies and hardware development.Clinical impact: Our study presents an exosuit with four degrees of freedom for stroke rehabilitation, enabling multi-joint movement and improved motor recovery. The hybrid EEG-based control approach enhances active user engagement, offering a promising strategy for more effective and user-driven rehabilitation, potentially improving clinical outcomes.Clinical and Translational Impact Statement: By developing an exosuit and a hybrid EEG-based control approach, this study enhances stroke rehabilitation through better user engagement and multi-joint capabilities. These innovations consider neuroplasticity principles, integrating rehabilitation theory with rehabilitation device.

Published

2024

32. Effect of particle size on adsorption and desorption of carbon monoxide by coal

Author

Jian HU, Maoxia LIU, Hang WANG, Ximan GUO, and Duo ZHANG

Subjects

particle size, co, adsorption and desorption, adsorption rate, desorption hysteresis, pore structure, Mining engineering. Metallurgy, TN1-997

Abstract

CO gas is often used as an effective indicator gas for the prediction and early warning of coal spontaneous combustion, but the causes for the rapid decrease or even disappearance of CO after the closing of spontaneous combustion in goaf are not clear, which affects the accurate determination of the coal spontaneous combustion degree. In order to study the adsorption/desorption characteristics of CO gas in coal, the pore structure of coal samples was determined by pressured-mercury testing and liquid N2 adsorption experiment. The effects of coal samples with different particle sizes on CO gas adsorption/desorption characteristics were investigated at 303.15-333.15 K and 0.15-0.50 MPa by using a self-developed gas adsorption/desorption device, and the adsorption rate and desorption hysteresis effect of CO gas were analyzed in depth. The results showed that the pore volume of non-cohesive coal sample from Lingxin Mine was mainly large pores and transition pores, accounting for 33.02% and 38.26%, respectively. The pore specific surface area was mainly micropores and transition pores, accounting for 97.73%. With the diminishment of particle size, the proportion of micropore volume increased, and the proportion of transition pore and mesopore decreased. The adsorption amount of CO gas on coal samples with varing particle sizes increased with the rising of pressure. When the pressure was constant, the adsorption amount of CO gas decreased with the rising of temperature. Under the identical temperature and pressure conditions, the smaller the sample particle size was, the larger the CO gas adsorption amount was; at the same temperature, the saturated adsorption capacity of coal for CO was positively correlated with particle size. In the process of CO desorption, the saturated adsorption capacity increased with decreasing particle size. The CO adsorption rate of coal samples could be divided into three stages: rapid rising period (0-750 s), slow rising period (750-2 250 s), and saturated equilibrium period (2 250-3 600 s). The CO gas desorption hysteresis with varing sample particle sizes decreased with the rising of temperature. At the identical temperature, the smaller the sample particle size was, the smaller the desorption hysteresis of CO gas was, and the easier it was to reach the equilibrium state of adsorption/desorption.

Published

2024

33. The Influence of Breathing Exercises on Regional Ventilation in Healthy and Patients with Chronic Obstructive Pulmonary Disease

Author

Lin Yang, Ke Zhao, Zhijun Gao, Feng Fu, Hang Wang, Chunchen Wang, Jing Dai, Yang Liu, Yilong Qin, Meng Dai, Xinsheng Cao, and Zhanqi Zhao

Subjects

respiratory exercises, chronic obstructive pulmonary disease, electrical impedance tomography, regional ventilation, Diseases of the respiratory system, RC705-779

Abstract

We hypothesized that the respiratory exercises have uniform effects on ventilation in healthy subjects but the effects varied in patients with chronic obstructive pulmonary disease (COPD). In this study, a total of 30 healthy volunteers and 9 patients with COPD were included. Data were recorded continuously during (1) diaphragmatic breathing; (2) pursed lip breathing with full inhalation; (3) pursed lip combining diaphragmatic breathing. The sequence of the three breathing exercises was randomized using machine generated random permutation. Spatial and temporal ventilation distributions were evaluated with electrical impedance tomography. Results showed that, tidal volume was significantly larger during various breathing exercises compared to quiet tidal breathing, in both healthy and COPD (p

Published

2023

34. Fixed-Time Backstepping Sliding-Mode Control for Interleaved Boost Converter in DC Microgrids

Author

Hang Wang, Yanfei Dong, Guofeng He, and Wenbin Song

Subjects

constant power load, interleaved boost converter, fixed-time disturbance observer, fixed-time backstepping sliding mode, Technology

Abstract

Interleaved boost converters (IBCs) are commonly used as interface converters for DC microgrids (MGs) due to their high efficiency and low output ripple. However, the MGs system can easily become unstable due to the negative impedance characteristics of constant power load (CPL) and rapid power fluctuations. This paper proposes a fixed-time backstepping sliding-mode controller (FTBSMC) aimed at stabilizing the MGs system and achieving fixed-time tracking of the DC bus voltage. Firstly, the fixed-time disturbance observer (FxTDO) estimates the load disturbance at a fixed time, which improves the fast disturbance resistance of the system. Then, based on the dis-turbance estimation, the FTBSMC is designed, which combines the fast dynamic response of the sliding-mode control with the global stability of the backstepping control, avoiding the singularity problem of the conventional sliding-mode control. In addition, a first-order nonlinear filter is employed to avoid the direct differentiation of conventional backstepping control and at the same time to ensure global fixed-time stability. The fixed-time convergence of the proposed FTBSMC is rigorously demonstrated by using Lyapunov stability analysis. Finally, the FTBSMC proposed is verified by simulation and experiment in terms of faster dynamic response and stronger robustness.

Published

2024

35. Research on the Recognition Method of Tobacco Flue-Curing State Based on Bulk Curing Barn Environment

Author

Juntao Xiong, Youcong Hou, Hang Wang, Kun Tang, Kangning Liao, Yuanhua Yao, Lan Liu, and Ye Zhang

Subjects

tobacco flue-curing, image recognition, lightweight network, short-term dense concatenate, Agriculture

Abstract

Curing modulation is one of the important processes in tobacco production, so it is crucial to recognize tobacco flue-curing states effectively and accurately. This study created a dataset of the complete tobacco flue-curing process in a bulk curing barn environment and proposed a lightweight recognition model based on a feature skip connections module. Firstly, the image data was enhanced using a color correction matrix, which was used to recover the true color of the tobacco leaf in order to reduce the misidentification of adjacent states. Secondly, the convolutional neural network model proposed in this paper introduced Spatially Separable convolution to enhance the extraction of tobacco leaf texture features. Then, the standard convolution in Short-Term Dense Concatenate (STDC) was replaced with Depthwise Separable Convolutional blocks with different expansion rates to reduce the number of model parameters and FLOPs (Floating Point Operations Per Second). Finally, the Tobacco Flue-Curing State Recognition Network (TFSNet) was constructed by combining the SimAm attention mechanism. The experimental results showed that the model accuracy was improved by 1.63 percentage points after the color correction process. The recognition accuracy of TFSNet for the seven states of tobacco flue-curing was as high as 98.71%. The number of params and the FLOPs of the TFSNet model were 203,058 and 172.39 M, which were 98.18% and 90.55% lower than that of the ResNet18 model, respectively. The size of the model was 0.78 mb, and the time consumed per frame was only 21 ms. Compared with the mainstream model, TFSNet significantly improved the detection speed while maintaining high accuracy, and it provided effective technical support for the intelligentization of the tobacco flue-curing process.

Published

2024

36. Genome-Wide Identification of the Remorin Gene Family in Poplar and Their Responses to Abiotic Stresses

Author

Zihui Li, Hang Wang, Chuanqi Li, Huimin Liu, and Jie Luo

Subjects

bioinformation, gene expression, Populus trichocarpa, Remorin gene family, Science

Abstract

The Remorin (REM) gene family is a plant-specific, oligomeric, filamentous family protein located on the cell membrane, which is important for plant growth and stress responses. In this study, a total of 22 PtREMs were identified in the genome of Populus trichocarpa. Subcellular localization analysis showed that they were predictively distributed in the cell membrane and nucleus. Only five PtREMs members contain both Remorin_C- and Remorin_N-conserved domains, and most of them only contain the Remorin_C domain. A total of 20 gene duplication pairs were found, all of which belonged to fragment duplication. Molecular evolutionary analysis showed the PtREMs have undergone purified selection. Lots of cis-acting elements assigned into categories of plant growth and development, stress response, hormone response and light response were detected in the promoters of PtREMs. PtREMs showed distinct gene expression patterns in response to diverse stress conditions where the mRNA levels of PtREM4.1, PtREM4.2 and PtREM6.11 were induced in most cases. A co-expression network centered by PtREMs was constructed to uncover the possible functions of PtREMs in protein modification, microtube-based movement and hormone signaling. The obtained results shed new light on understanding the roles of PtREMs in coping with environmental stresses in poplar species.

Published

2024

37. Supplementation with Fish Oil and Selenium Protects Lipolytic and Thermogenic Depletion of Adipose in Cachectic Mice Treated with an EGFR Inhibitor

Author

Hang Wang, Yi-Lin Chan, Yi-Han Chiu, Tsung-Han Wu, Simon Hsia, and Chang-Jer Wu

Subjects

white adipose tissue browning, cachexia, fish oil, selenium yeast, target therapy, Cytology, QH573-671

Abstract

Lung cancer and cachexia are the leading causes of cancer-related deaths worldwide. Cachexia is manifested by weight loss and white adipose tissue (WAT) atrophy. Limited nutritional supplements are conducive to lung cancer patients, whereas the underlying mechanisms are poorly understood. In this study, we used a murine cancer cachexia model to investigate the effects of a nutritional formula (NuF) rich in fish oil and selenium yeast as an adjuvant to enhance the drug efficacy of an EGFR inhibitor (Tarceva). In contrast to the healthy control, tumor-bearing mice exhibited severe cachexia symptoms, including tissue wasting, hypoalbuminemia, and a lower food efficiency ratio. Experimentally, Tarceva reduced pEGFR and HIF-1α expression. NuF decreased the expression of pEGFR and HIF-2α, suggesting that Tarceva and NuF act differently in prohibiting tumor growth and subsequent metastasis. NuF blocked LLC tumor-induced PTHrP and expression of thermogenic factor UCP1 and lipolytic enzymes (ATGL and HSL) in WAT. NuF attenuated tumor progression, inhibited PTHrP-induced adipose tissue browning, and maintained adipose tissue integrity by modulating heat shock protein (HSP) 72. Added together, Tarceva in synergy with NuF favorably improves cancer cachexia as well as drug efficacy.

Published

2024

38. Retinal Ischemic Perivascular Lesion Reflects Cerebral Small Vessel Disease Burden in Single Subcortical Infarction

Author

William R. Kwapong, Yuying Yan, Le Cao, Hang Wang, Chen Ye, Shuai Jiang, Wendan Tao, and Bo Wu

Subjects

cerebral small vessel disease, optical coherence tomography, retina, retinal ischemic perivascular lesions, single subcortical infarction, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background Retinal ischemic perivascular lesions (RIPLs) are an indicator of ischemia in the middle retina. We aimed to determine the relationship between RIPLs and single subcortical infarction (SSI). We also investigated the differences in cerebral small vessel disease imaging burden between groups with and without RIPLs in SSI. Methods and Results In this case–control study, we enrolled 82 patients with SSI and 72 nonstroke controls. All participants underwent magnetic resonance imaging and swept‐source optical coherence tomography/optical coherence tomography angiography. Small vessel disease markers such as lacunes, cerebral microbleeds, white matter hyperintensity, and perivascular spaces were rated on brain imaging. RIPLs were assessed via swept‐source optical coherence tomography. Optical coherence tomography angiography was used to measure the superficial vascular complex and deep vascular complex of the retina. After adjusting for risk factors, the presence of RIPLs was significantly associated with SSI (odds ratio [OR], 1.506 [95% CI, 1.365–1.662], P

Published

2024

39. Biogas slurry change the transport and distribution of soil water under drip irrigation

Author

Haitao Wang, Xuefeng Qiu, Xiaoyang Liang, Hang Wang, and Jiandong Wang

Subjects

Water and nitrogen, Transport and distribution, Infiltration, Wetting front, Morphological characteristics, Agriculture (General), S1-972, Agricultural industries, HD9000-9495

Abstract

Biogas slurry (BS), waste water of energy production, holds potential as both an irrigation water resource and a liquid fertilizer source. Typically combined with water and mineral fertilizer at specific ratios, BS is applied in fields with drip irrigation systems to enhance crop growth. However, the soil water infiltration process with BS drip irrigation remains poorly understood, mainly owing to the BS's differing characteristics from conventional water sources. This study investigated the morphological characteristics, transport and distribution of water in three ratios of BS-water using a soil column experiment, with the post-irrigation surface soil pores and elements analyzed using electron microscopy and energy spectrum scanning techniques. The findings reveal that BS drip irrigation significantly alters the water morphological characteristics, transport process and distribution compared to conventional water sources. The morphology of the wetting-front changed from nearly ''hemispherical'' to a ''half-pear'' shape with time in BS drip irrigation. The soil-wetting front's vertical distance was notably smaller, approximately 50% of the vertical depth seen with traditional water source drip irrigation, even after redistribution of soil moisture, it was still difficult to reach the depth of the main root zone of most crops. Moreover, The carbon content on the soil surface was increased, ranging between 19.05–47.62% in the BS irrigation scenario, which led to soil pore blockage and a decrease in porosity ranging between 11.99–40.5%. The dynamic viscosity of BS is approximately 50% higher than that of CF.Theses indicate that the combined effect of soil porosity and dynamic viscosity affects the BS infiltration.In conclusion, this paper proposes a BS drip irrigation model with integrated agronomic measures to mitigate the potential adverse effects of BS drip irrigation caused by changes in soil water transportation and distribution.

Published

2024

40. Macrophages in guided bone regeneration: potential roles and future directions

Author

Min Gou, Hang Wang, Huiqi Xie, and Hongjie Song

Subjects

macrophage, guided bone regeneration, osteoimmunomodulation, innate immunity, macrophage polarization, Immunologic diseases. Allergy, RC581-607

Abstract

Guided bone regeneration (GBR) is one of the most widely used and thoroughly documented alveolar bone augmentation surgeries. However, implanting GBR membranes inevitably triggers an immune response, which can lead to inflammation and failure of bone augmentation. It has been shown that GBR membranes may significantly improve in vivo outcomes as potent immunomodulators, rather than solely serving as traditional barriers. Macrophages play crucial roles in immune responses and participate in the entire process of bone injury repair. The significant diversity and high plasticity of macrophages complicate our understanding of the immunomodulatory mechanisms underlying GBR. This review provides a comprehensive summary of recent findings on the potential role of macrophages in GBR for bone defects in situ. Specifically, macrophages can promote osteogenesis or fibrous tissue formation in bone defects and degradation or fibrous encapsulation of membranes. Moreover, GBR membranes can influence the recruitment and polarization of macrophages. Therefore, immunomodulating GBR membranes are primarily developed by improving macrophage recruitment and aggregation as well as regulating macrophage polarization. However, certain challenges remain to be addressed in the future. For example, developing more rational and sophisticated sequential delivery systems for macrophage activation reagents; addressing the interference of bone graft materials and dental implants; and understanding the correlations among membrane degradation, macrophage responses, and bone regeneration.

Published

2024

41. Electrical impedance tomography as a bedside assessment tool for COPD treatment during hospitalization

Author

Lin Yang, Zhijun Gao, Xinsheng Cao, Shuying Sun, Chunchen Wang, Hang Wang, Jing Dai, Yang Liu, Yilong Qin, Meng Dai, Wei Guo, Binghua Zhang, Ke Zhao, and Zhanqi Zhao

Subjects

acute exacerbation of chronic obstructive pulmonary disease, treatment efficacy, bedside assessment, lung function, regional ventilation distribution, Physiology, QP1-981

Abstract

For patients with chronic obstructive pulmonary disease (COPD), the assessment of the treatment efficacy during hospitalization is of importance to the optimization of clinical treatments. Conventional spirometry might not be sensitive enough to capture the regional lung function development. The study aimed to evaluate the feasibility of using electrical impedance tomography (EIT) as an objective bedside evaluation tool for the treatment of acute exacerbation of COPD (AECOPD). Consecutive patients who required hospitalization due to AECOPD were included prospectively. EIT measurements were conducted at the time of admission and before the discharge simultaneously when a forced vital capacity maneuver was conducted. EIT-based heterogeneity measures of regional lung function were calculated based on the impedance changes over time. Surveys for attending doctors and patients were designed to evaluate the ease of use, feasibility, and overall satisfaction level to understand the acceptability of EIT measurements. Patient-reported outcome assessments were conducted. User’s acceptance of EIT technology was investigated with a five-dimension survey. A total of 32 patients were included, and 8 patients were excluded due to the FVC maneuver not meeting the ATS criteria. Spirometry-based lung function was improved during hospitalization but not significantly different (FEV1 %pred.: 35.8% ± 6.7% vs. 45.3% ± 8.8% at admission vs. discharge; p = 0.11. FVC %pred.: 67.8% ± 0.4% vs. 82.6% ± 5.0%; p = 0.15. FEV1/FVC: 0.41 ± 0.09 vs. 0.42 ± 0.07, p = 0.71). The symptoms of COPD were significantly improved, but the correlations between the improvement of symptoms and spirometry FEV1 and FEV1/FVC were low (R = 0.1 and −0.01, respectively). The differences in blood gasses and blood tests were insignificant. All but one EIT-based regional lung function parameter were significantly improved after hospitalization. The results highly correlated with the patient-reported outcome assessment (R > 0.6, p < 0.001). The overall acceptability score of EIT measurement for both attending physicians and patients was high (4.1 ± 0.8 for physicians, 4.5 ± 0.5 for patients out of 5). These results demonstrated that it was feasible and acceptable to use EIT as an objective bedside evaluation tool for COPD treatment efficacy.

Published

2024

42. Mesoporous Silica Nanoparticles Mediate SiRNA Delivery for Long‐Term Multi‐Gene Silencing in Intact Plants

Author

Yao Cai, Zhujiang Liu, Hang Wang, Huan Meng, and Yuhong Cao

Subjects

gene silencing, mesoporous silica nanoparticles, plant biotechnology, siRNA delivery, Science

Abstract

Abstract RNA interference (RNAi) is a powerful tool for understanding and manipulating signaling pathways in plant science, potentially facilitating the accelerated development of novel plant traits and crop yield improvement. The common strategy for delivering siRNA into intact plants using agrobacterium or viruses is complicated and time‐consuming, limiting the application of RNAi in plant research. Here, a novel delivery method based on mesoporous silica nanoparticles (MSNs) is reported, which allows for the efficient delivery of siRNA into mature plant leaves via topical application without the aid of mechanical forces, achieving transient gene knockdown with up to 98% silencing efficiency at the molecular level. In addition, this method is nontoxic to plant leaves, enabling the repeated delivery of siRNA for long‐term silencing. White spots and yellowing phenotypes are observed after spraying the MSN‐siRNA complex targeted at phytoene desaturase and magnesium chelatase genes. After high light treatment, photobleaching phenotypes are also observed by spraying MSNs‐siRNA targeted at genes into the Photosystem II repair cycle. Furthermore, the study demonstrated that MSNs can simultaneously silence multiple genes. The results suggest that MSN‐mediated siRNA delivery is an effective tool for long‐term multi‐gene silencing, with great potential for application in plant functional genomic analyses and crop improvement.

Published

2024

43. TMT quantitative proteomics reveals key proteins relevant to microRNA-1-mediated regulation in osteoarthritis

Author

Pinpin Jiang, Dan Liang, Hang Wang, Raorao Zhou, Xianda Che, Linlin Cong, Penghua Li, Chunfang Wang, Wenjin Li, Xiaochun Wei, and Pengcui Li

Subjects

Osteoarthritis, Proteomics, Differentially expressed proteins, Fn1, P4ha1, Acan, Cytology, QH573-671

Abstract

Abstract Osteoarthritis (OA) is the second-commonest arthritis, but pathogenic and regulatory mechanisms underlying OA remain incompletely understood. Here, we aimed to identify the mechanisms associated with microRNA-1 (miR-1) treatment of OA in rodent OA models using a proteomic approach. First, N = 18 Sprague Dawley (SD) rats underwent sham surgery (n = 6) or ACL transection (n = 12), followed at an interval of one week by randomization of the ACL transection group to intra-articular administration of either 50 µL placebo (control group) or miR-1 agomir, a mimic of endogenous miR-1 (experimental group). After allowing for eight weeks of remodeling, articular cartilage tissue was harvested and immunohistochemically stained for the presence of MMP-13. Second, N = 30 Col2a1-cre-ERT2 /GFPf1/fl -RFP-miR-1 transgenic mice were randomized to intra-articular administration of either placebo (control group, N = 15) or tamoxifen, an inducer of miR-1 expression (experimental group, N = 15), before undergoing surgical disruption of the medial meniscus (DMM) after an interval of five days. After allowing for eight weeks of remodeling, articular cartilage tissue was harvested and underwent differential proteomic analysis. Specifically, tandem mass tagging (TMT) quantitative proteomic analysis was employed to identify inter-group differentially-expressed proteins (DEP), and selected DEPs were validated using real-time quantitative polymerase chain reaction (RT-qPCR) technology. Immunohistochemically-detected MMP-13 expression was significantly lower in the experimental rat group, and proteomic analyses of mouse tissue homogenate demonstrated that of 3526 identified proteins, 345 were differentially expressed (relative up- and down-regulation) in the experimental group. Proteins Fn1, P4ha1, P4ha2, Acan, F2, Col3a1, Fga, Rps29, Rpl34, and Fgg were the *top ten most-connected proteins, implying that miR-1 may regulate an expression network involving these proteins. Of these ten proteins, three were selected for further validation by RT-qPCR: the transcript of Fn1, known to be associated with OA, exhibited relative upregulation in the experimental group, whereas the transcripts of P4ha1 and Acan exhibited relative downregulation. These proteins may thus represent key miR-1 targets during OA-regulatory mechanisms, and may provide additional insights regarding therapeutic mechanisms of miR-1 in context of OA.

Published

2023

44. Optic Nerve Head Changes Measured by Swept Source Optical Coherence Tomography and Angiography in Patients with Intracranial Hypertension

Author

Hang Wang, Le Cao, William Robert Kwapong, Guina Liu, Ruilin Wang, Junfeng Liu, and Bo Wu

Subjects

Intracranial hypertension, Papilledema, Optic nerve head, Optical coherence tomography, Frisen score, Ophthalmology, RE1-994

Abstract

Abstract Introduction This study explored the structural and microvascular changes in the optic nerve head (ONH) of patients with intracranial hypertension (IH) by using swept-source optical coherence tomography (SS-OCT)/OCT angiography (OCTA) and evaluated their association with clinical features. Methods The optic disc morphology, peripapillary retinal nerve fiber layer (pRNFL), ganglion cell–inner plexiform layer (GCIPL), and microvascular densities of the nerve fiber layer plexus (NFLP), superficial vascular plexus (SVP), intermediate capillary plexus (ICP), and deep capillary plexus (DCP) were measured by the SS-OCT/OCTA tool. Frisen score, visual acuity, and intracranial pressure were assessed and recorded in patients with IH. Results Sixty-one patients with IH and 65 controls were included in this study. Patients with IH showed thicker pRNFL and GCIPL thickness with larger ONH rim area when compared to controls (P

Published

2023

45. Flotation Research on Recovery of Lithionite from Ta-Nb Tailing in Jiangxi

Author

Xiaobo Li, Hao Xu, Hang Wang, Baojin Xu, Shasha Xu, and Yuhui Mao

Subjects

mineral processing engineering, ta-nb tailing, lithionite, flotation reagent, flotation test, Mining engineering. Metallurgy, TN1-997

Abstract

This is an essay in the field of mineral processing engineering. The main minerals in tantalum niobium tailings in Jiangxi Province are feldspar, quartz, lithionite and topaz, containing a small amount of spodumene and sericite, among which the main available minerals are lithionite. For a long time, the tailings lack a comprehensive utilization and recycling process. This test study studies the flotation test of the main available mineral lithium mica in the tailings, determines the reasonable beneficiation recovery process, and provides a technical basis for the comprehensive utilization of the tailings. According to the process mineralogy properties of the ore, the lithium mica was recovered. Through a series of flotation condition tests, HZ-00 and dodecylamine are used as the combination catcher, Na2CO3 is pH value adjustment agent, water glass as the inhibitor, the flotation process of "one coarse, one sweep and one fine", the flotation closed circuit test can obtain Li2O grade of 4.3.02%, the recovery rate of 72.41%, and the test results are relatively ideal.

Published

2023

46. An in situ self‐assembled peptide derivative for inhibition of glutathione synthesis and selective enhancement of tumor radiotherapy

Author

Xinyan Gong, Benhang Cui, Paiyun Li, Jie Gao, Yang Gao, Xiaoyao Cai, Hang Wang, Wenxue Zhang, and Cuihong Yang

Subjects

GSH depletion, in situ self‐assembly, peptide, radiotherapy, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background Inhibition of glutathione (GSH) synthesis in cancer cells considerably improves the efficacy of reactive oxygen species (ROS)‐related tumor therapy. Self‐assembled peptide derivatives can facilitate the efficient delivery and accumulation of small molecular drugs in cancer cells. Methods Self‐assembling modules were covalently linked to the GSH‐biosynthesis inhibitor l‐buthionine sulfoximine (BSO) by solid‐phase synthesis to form the self‐assembling peptide derivative Nap‐DFDFpY‐GG‐BSO (Nano‐BSO@ in situ). Subsequently, its enzyme‐instructed self‐assembly in vitro and on cell surfaces were confirmed, and its intracellular GSH depletion and radiotherapy‐sensitizing effects were determined. Results Nano‐BSO@ in situ successfully self‐assembles into a hydrogel with a nanofibrous microstructure upon incubation with alkaline phosphatase (ALP) at a critical concentration of 9.84 μM. Furthermore, it selectively self‐assembles in situ on HeLa cells with high ALP expression. At a concentration of 50 μM, Nano‐BSO@ in situ decreases intracellular GSH levels by 80%, ∼2.3 times more than free BSO. Meanwhile, pretreatment of HeLa cells with 50 μM Nano‐BSO@ in situ for 24 h results in a radiotherapy sensitization enhancement ratio to γ‐rays of 2.09. Conclusions A novel in situ self‐assembling peptide derivative for GSH depletion and selective enhancement of tumor radiotherapy was constructed. The excellent GSH‐depletion ability and remarkable radiotherapy‐enhancement performance indicate that Nano‐BSO@ in situ is a promising selective sensitizer for ROS‐related treatment of tumor cells with high ALP expression.

Published

2023

47. Sex-specific effects of organophosphate ester exposure on child growth trajectories in the first two years

Author

Hang Wang, Liyi Zhang, Jie Wu, Pengpeng Wang, Qiang Li, Xinyao Sui, Yaqi Xu, Yue Zhao, Yang Liu, and Yunhui Zhang

Subjects

Organophosphate esters, Child growth trajectories, Sex-specific effects, Birth cohort, Ecology, QH540-549.5, Environmental sciences, GE1-350

Abstract

The connections between urinary organophosphate ester (OPE) metabolites and child growth have been identified in prior research, but there is currently a dearth of epidemiological evidence regarding the sex-specific impact of OPEs on child growth trajectories. This study enrolled 804 maternal–child pairs, and five OPE congeners were quantified in maternal serum during pregnancy. In this study, the impact of prenatal OPE exposure on child growth trajectories was assessed using linear mixed-effect models and a group-based trajectory model (GBTM), with consideration given to sex-specific effects. Fetuses were frequently exposed to OPEs in utero, and tris(2-butoxyethel) phosphate (TBEP) exhibited the highest concentration levels in maternal serum. Among male children, an increase of 2.72 ng/g lipid in TBEP concentration was associated with a 0.11-unit increase in head circumference-for-age z-score (HCAZ), and the effect was mainly concentrated at 1 and 2 months of age. Among female children, an increase of 2.72 ng/g lipid in tris(2-chloro-1-(chloromethyl) ethyl) phosphate (TDCPP) concentration was associated with a 0.15-unit increase in length-for-age z-score (LAZ) and a 0.14-unit increase in weight-for-age z-score (WAZ), and the effects were mainly concentrated at 9 months of age. For HCAZ trajectories, higher prenatal TBEP exposure was associated with higher odds for the fast growth group in male children. For the LAZ and WAZ trajectories, higher prenatal TDCPP exposure was associated with higher odds for the fast growth group in female children. The trajectory analysis approach provided insight into the complex associations between OPE exposure and child growth.

Published

2023

48. ATR-binding lncRNA ScaRNA2 promotes cancer resistance through facilitating efficient DNA end resection during homologous recombination repair

Author

Yuanyuan Chen, Hui Shen, Tingting Liu, Kun Cao, Zhijie Wan, Zhipeng Du, Hang Wang, Yue Yu, Shengzhe Ma, Edward Lu, Wei Zhang, Jianming Cai, Fu Gao, and Yanyong Yang

Subjects

ScaRNA2, ATR, DNA end resection, Cancer resistance, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Our previous study first showed that ATR-binding long noncoding RNA (lncRNA) is necessary for ATR function and promotes cancer resistance. However, the specific lncRNAs instrumental in ATR activation remain largely unclear, which limits our comprehensive understanding of this critical biological process. Methods RNA immunoprecipitation (RIP) followed by RNA sequencing was employed to identify ATR-binding lncRNAs, which were further validated using RIP-qPCR assays. Immunofluorescence staining and Western blotting were applied to detect the activation of DNA damage repair factors. After the effect of scaRNA2 on cellular sensitivity to DNA-damaging reagents was determined, the effects of scaRNA2 on radiotherapy were investigated in patient-derived organoids and xenograft preclinical models. The clinical relevance of scaRNA2 was also validated in tissues isolated from rectal cancer patients. Results ScaRNA2 was identified as the most enriched ATR-binding lncRNA and was found to be essential for homologous recombination (HR) mediated DNA damage repair. Furthermore, scaRNA2 knockdown abrogated the recruitment of ATR and its substrates in response to DNA damage. Mechanistically, scaRNA2 was observed to be necessary for Exo1-mediated DNA end resection and bridged the MRN complex to ATR activation. Knockdown of scaRNA2 effectively increased the sensitivity of cancer cells to multiple kinds of DNA damage-related chemoradiotherapy. Preclinically, knockdown of scaRNA2 improved the effects of radiotherapy on patient-derived organoids and xenograft models. Finally, an increase in scaRNA2 colocalized with ATR was also found in clinical patients who were resistant to radiotherapy. Conclusions ScaRNA2 was identified as the most abundant lncRNA bound to ATR and was demonstrated to bridge DNA end resection to ATR activation; thus, it could be applied as a potent target for combined cancer treatments with chemoradiotherapy.

Published

2023

49. SENP5 promotes homologous recombination-mediated DNA damage repair in colorectal cancer cells through H2AZ deSUMOylation

Author

Tingting Liu, Hang Wang, Yuanyuan Chen, Zhijie Wan, Zhipeng Du, Hui Shen, Yue Yu, Shengzhe Ma, Ying Xu, Zhuqing Li, Nanxi Yu, Fangxiao Zhang, Kun Cao, Jianming Cai, Wei Zhang, Fu Gao, and Yanyong Yang

Subjects

Cancer resistance, SENP5, deSUMOylation, DNA damage repair, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Neoadjuvant radiotherapy has been used as the standard treatment of colorectal cancer (CRC). However, radiotherapy resistance often results in treatment failure. To identify radioresistant genes will provide novel targets for combined treatments and prognostic markers. Methods Through high content screening and tissue array from CRC patients who are resistant or sensitive to radiotherapy, we identified a potent resistant gene SUMO specific peptidase 5 (SENP5). Then, the effect of SENP5 on radiosensitivity was investigated by CCK8, clone formation, comet assay, immunofluorescence and flow cytometric analysis of apoptosis and cell cycle to investigate the effect of SENP5 on radiosensitivity. SUMO-proteomic mass spectrometry combined with co-immunoprecipitation assay were used to identify the targets of SENP5. Patient-derived organoids (PDO) and xenograft (PDX) models were used to explore the possibility of clinical application. Results We identified SENP5 as a potent radioresistant gene through high content screening and CRC patients tissue array analysis. Patients with high SENP5 expression showed increased resistance to radiotherapy. In vitro and in vivo experiments demonstrated that SENP5 knockdown significantly increased radiosensitivity in CRC cells. SENP5 was further demonstrated essential for efficient DNA damage repair in homologous recombination (HR) dependent manner. Through SUMO mass spectrometry analysis, we characterized H2AZ as a deSUMOylation substrate of SENP5, and depicted the SUMOylation balance of H2AZ in HR repair and cancer resistance. By using PDO and PDX models, we found targeting SENP5 significantly increased the therapeutic efficacy of radiotherapy. Conclusion Our findings revealed novel role of SENP5 in HR mediated DNA damage repair and cancer resistance, which could be applied as potent prognostic marker and intervention target for cancer radiotherapy.

Published

2023

50. Advances in Research on Bacterial Oxidation of Mn(II): A Visualized Bibliometric Analysis Based on CiteSpace

Author

Wentao Mo, Hang Wang, Jianghan Wang, Yue Wang, Yunfei Liu, Yi Luo, Minghui He, Shuang Cheng, Huiting Mei, Jin He, and Jianmei Su

Subjects

Mn(II) oxidation, manganese oxides, Mn(II)-oxidizing bacteria, CiteSpace, bibliometric analysis, visualized knowledge map, Biology (General), QH301-705.5

Abstract

Manganese (Mn) pollution poses a serious threat to the health of animals, plants, and humans. The microbial-mediated Mn(II) removal method has received widespread attention because of its rapid growth, high efficiency, and economy. Mn(II)-oxidizing bacteria can oxidize toxic soluble Mn(II) into non-toxic Mn(III/IV) oxides, which can further participate in the transformation of other heavy metals and organic pollutants, playing a crucial role in environmental remediation. This study aims to conduct a bibliometric analysis of research papers on bacterial Mn(II) oxidation using CiteSpace, and to explore the research hotspots and developmental trends within this field between 2008 and 2023. A series of visualized knowledge map analyses were conducted with 469 screened SCI research papers regarding annual publication quantity, author groups and their countries and regions, journal categories, publishing institutions, and keywords. China, the USA, and Japan published the most significant number of research papers on the research of bacterial Mn(II) oxidation. Research hotspots of bacterial Mn(II) oxidation mainly focused on the species and distributions of Mn(II)-oxidizing bacteria, the influencing factors of Mn(II) oxidation, the mechanisms of Mn(II) oxidation, and their applications in environment. This bibliometric analysis provides a comprehensive visualized knowledge map to quickly understand the current advancements, research hotspots, and academic frontiers in bacterial Mn(II) oxidation.

Published

2024