Your search keyword '"Mengmeng Yu"' showing total 314 results

1. Human ANP32A/B are SUMOylated and utilized by avian influenza virus NS2 protein to overcome species-specific restriction

Author

Liuke Sun, Xing Guo, Mengmeng Yu, Xue-Feng Wang, Huiling Ren, and Xiaojun Wang

Subjects

Science

Abstract

Abstract Human ANP32A/B (huANP32A/B) poorly support the polymerase activity of avian influenza viruses (AIVs), thereby limiting interspecies transmission of AIVs from birds to humans. The SUMO-interacting motif (SIM) within NS2 promotes the adaptation of AIV polymerase to huANP32A/B via a yet undisclosed mechanism. Here we show that huANP32A/B are SUMOylated by the E3 SUMO ligase PIAS2α, and deSUMOylated by SENP1. SUMO modification of huANP32A/B results in the recruitment of NS2, thereby facilitating huANP32A/B-supported AIV polymerase activity. Such a SUMO-dependent recruitment of NS2 is mediated by its association with huANP32A/B via the SIM-SUMO interaction module, where K68/K153-SUMO in huANP32A or K68/K116-SUMO in huANP32B interacts with the NS2-SIM. The SIM-SUMO-mediated interactions between NS2 and huANP32A/B function to promote AIV polymerase activity by positively regulating AIV vRNP-huANP32A/B interactions and AIV vRNP assembly. Our study offers insights into the mechanism of NS2-SIM in facilitating AIVs adaptation to mammals.

Published

2024

2. Discovery of Quality by Design-Based Extraction Technology and the Quality Standard of Jinhua Finger Citron Essential Oil

Author

Qiafan Fu, Zengying Yu, Changquan Yang, Mengmeng Yu, Yanxue Wei, and Chaoyue Wang

Subjects

Chemistry, QD1-999

Published

2024

3. Recombinant Marek’s disease virus expressing VP1 and VP2 proteins provides robust immune protection against chicken infectious anemia virus

Author

Chengfei Ge, Hangqiong Lu, Jinze Han, Guorong Sun, Shihao Li, Xingge Lan, Yongzhen Liu, Mengmeng Yu, Xinyun Hu, Mingxue Hu, Xiaole Qi, Hongyu Cui, Yulu Duan, Suyan Wang, Yuntong Chen, Xiaomei Wang, Yanping Zhang, Yulong Gao, and Changjun Liu

Subjects

chicken infectious anemia virus, Marek’s disease virus, CRISPR/Cas9, VP1, VP2, vaccine, Microbiology, QR1-502

Abstract

Chicken infectious anemia (CIA) is a highly contagious disease caused by the chicken infectious anemia virus (CIAV), and it poses a serious threat to the poultry industry. However, effective control measures and strategies have not been identified. In this study, a recombinant Marek’s disease virus (rMDV) expressing the VP1 and VP2 proteins of CIAV was successfully constructed using CRISPR/Cas9, and a commercial Marek’s disease virus (MDV) vaccine strain was used as the vector. VP1 and VP2 expression by rMDV was confirmed by immunofluorescence assay and western blot analysis, which revealed robust in vitro expression. Further analysis showed that the VP1 and VP2 genes integrated into the MDV genome did not alter the growth kinetics of the virus and remained stable even after 20 passages, indicating the genetic stability of the recombinant virus. In animal studies, vaccination of one-day-old specific-pathogen-free chickens with rMDV induced high levels of CIAV-specific antibodies (1 × 105) and neutralizing antibodies (1:25) and a potent cellular immune response. Moreover, rMDV vaccination conferred an 85% protective index against challenge with a highly virulent strain of CIAV, significantly reducing the occurrence of anemia and thymic atrophy caused by CIAV infection and dramatically suppressing CIAV replication in the thymus. Collectively, these results highlight the potential of rMDV as a vaccine candidate for preventing and controlling CIAV infection, thus offering a new avenue for mitigating the impact of CIA on the poultry industry.

Published

2025

4. Effect of loading rate on energy evolution of coal confined passively by CFRP sheets

Author

Qingwen LI, Mengmeng YU, Senlin GAO, Yiwei LIU, Hang CAO, Xinggang ZENG, and Xiao HUANG

Subjects

loading rate, coal, passive confinement, uniaxial compression test, energy dissipation, Geology, QE1-996.5, Mining engineering. Metallurgy, TN1-997

Abstract

In order to study the influence law of energy evolution characteristics of coal confined passively by CFRP sheets. A series of uniaxial compression tests of coal confined passively by CFRP sheets were carried out under different loading rates by the SAM–2000 rock mechanics test systems. The research results show that with the increase axial deformation, the total energy of coal confined passively by CFRP sheets first increase gradually with a “fovea inferior”, and then reaching a stable slope. The stable slope in the single-sheet condition is smaller than that in the double-sheet one, and the increase of the slope is larger than that of the latter one, but the stable slope at the maximum loading rate is cliff-like steep increase. With the increase of CFRP layers, the total energy of coal at peak and its growth ratio also increases. The effect of CFRP layers on the total energy of coal at peak and its growth rate is significantly better than that of the loading rate. The function evolution law of the total energy growth rate at peak under different rates is obtained and established a response surface considering rate and CFRP layers. When the loading rate is at its minimum or maximum, the dissipated energy rate growth ratio at peak decreases with the increase of CFRP layers, and the value at the maximum loading rate is about 6.03−8.87 times more than the value at the minimum rate. In the loading rate ranges from 1.67×10−3 mm/s to 1.67×10−2 mm/s, the peak dissipation energy rate and its growth ratio also increase with the increase of the CFRP layers. The function evolution law of the dissipated energy rate growth ratio at peak under different loading rates is obtained, and the response surface considering both loading rate and CFRP layers is also established. With the increase of axial deformation, the elastic energy consumption ratio of CFRP passively confined coal has a transition from rapid steep drop to steady inflection point and then from slow increase to rapid steep increase, which is like a “fishhook” shape. The elastic energy consumption ratio near the peak shows a continuous step mutation, indicating that cracks are developing rapidly.

Published

2024

5. A novel live attenuated vaccine candidate protects chickens against subtype B avian metapneumovirus

Author

Lingzhai Meng, Mengmeng Yu, Suyan Wang, Yuntong Chen, Yuanling Bao, Peng Liu, Xiaoyan Feng, Tana He, Ru Guo, Tao Zhang, Mingxue Hu, Changjun Liu, Xiaole Qi, Kai Li, Li Gao, Yanping Zhang, Hongyu Cui, and Yulong Gao

Subjects

avian metapneumovirus, attenuated, protection, vaccine candidate, chickens, Agriculture (General), S1-972

Abstract

Avian metapneumovirus (aMPV) is a highly contagious pathogen that causes acute upper respiratory tract diseases in chickens and turkeys, resulting in serious economic losses. Subtype B aMPV has recently become the dominant epidemic strain in China. We developed an attenuated aMPV subtype B strain by serial passaging in Vero cells and evaluated its safety and efficacy as a vaccine candidate. The safety test showed that after the 30th passage, the LN16-A strain was fully attenuated, as clinical signs of infection and histological lesions were absent after inoculation. The LN16-A strain did not revert to a virulent strain after five serial passages in chickens. The genomic sequence of LN16-A differed from that of the parent wild-type LN16 (wtLN16) strain and had nine amino acid mutations. In chickens, a single immunization with LN16-A induced robust humoral and cellular immune responses, including the abundant production of neutralizing antibodies, CD4+ T lymphocytes, and the Th1 (IFN-γ) and Th2 (IL-4 and IL-6) cytokines. We also confirmed that LN16-A provided 100% protection against subtype B aMPV and significantly reduced viral shedding and turbinate inflammation. Our findings suggest that the LN16-A strain is a promising live attenuated vaccine candidate that can prevent infection with subtype B aMPV.

Published

2024

6. Cryo-EM structures of Thogoto virus polymerase reveal unique RNA transcription and replication mechanisms among orthomyxoviruses

Author

Lu Xue, Tiancai Chang, Zimu Li, Chenchen Wang, Heyu Zhao, Mei Li, Peng Tang, Xin Wen, Mengmeng Yu, Jiqin Wu, Xichen Bao, Xiaojun Wang, Peng Gong, Jun He, Xinwen Chen, and Xiaoli Xiong

Subjects

Science

Abstract

Abstract Influenza viruses and thogotoviruses account for most recognized orthomyxoviruses. Thogotoviruses, exemplified by Thogoto virus (THOV), are capable of infecting humans using ticks as vectors. THOV transcribes mRNA without the extraneous 5′ end sequences derived from cap-snatching in influenza virus mRNA. Here, we report cryo-EM structures to characterize THOV polymerase RNA synthesis initiation and elongation. The structures demonstrate that THOV RNA transcription and replication are able to start with short dinucleotide primers and that the polymerase cap-snatching machinery is likely non-functional. Triggered by RNA synthesis, asymmetric THOV polymerase dimers can form without the involvement of host factors. We confirm that, distinctive from influenza viruses, THOV-polymerase RNA synthesis is weakly dependent of the host factors ANP32A/B/E in human cells. This study demonstrates varied mechanisms in RNA synthesis and host factor utilization among orthomyxoviruses, providing insights into the mechanisms behind thogotoviruses’ broad-infectivity range.

Published

2024

7. Energy dissipation damage constitutive relation of CFRP passively confined coal sample

Author

Qingwen Li, Fanfan Nie, Chuangchuang Pan, Ling Li, Yuqi Zhong, Mengmeng Yu, and Hao Yang

Subjects

Passive confinement, Coal, CFRP sheets, Energy dissipation damage, Constitutive relation, Uniaxial compression, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

In view of the stability problem of coal pillars left over during coal resource mining, (Carbon Fiber Reinforced Polymer) CFRP sheet is applied in coal pillar reinforcement. Uniaxial compression tests of CFRP passively confined coal samples are carried out to explore the mechanical response mechanism of passively confined coal samples under different layers, and the energy dissipation damage constitutive relationship of CFRP passively confined coal samples is established based on the energy dissipation principle. The conclusions are: As CFRP layers increased, the local damage of coal samples before the peak evolved from a 'cliff-like jagged' to a 'capillary jagged', with post-peak instability marked by a shift to more 'cliff-like' characteristics. The tests revealed improvements in peak strength and elastic modulus, with a defined functional relationship between these properties and CFRP layers. The energy storage capacity of passively confined coal samples improved with CFRP layers, requiring less axial deformation to achieve equivalent energy levels. The energy dissipation rate showed an initial decrease followed by an increase, with a minimum inflection point, the elastic energy consumption ratio tends to decrease slowly and then rapidly during post-peak instability. A damage constitutive relationship and evolution equation were developed, highlighting that the CFRP sheet significantly inhibits damage, with diminishing effectiveness beyond two layers. The study concludes that three-layer CFRP sheets provide optimal confinement, offering a novel strategy for the reinforcement of coal pillars and the prevention and control of rock burst, without considering the actual coal pillar dimensions and shape. To sum up, the use of CFRP sheet to strengthen coal pillar has considerable potential research value in strengthening coal pillar and improving the recovery rate of coal resources.

Published

2024

8. Mesoscopic study on the effect of CFRP layers on the mechanical properties of coal circular-columns

Author

Qingwen LI, Xinggang ZENG, Xiangdong ZHANG, Mengmeng YU, Yiwei LIU, and Hang CAO

Subjects

coal cylinders, cfrp layers, passive confinement, pfc-flac coupling method, mechanical properties, Mining engineering. Metallurgy, TN1-997

Abstract

In order to study the effect of CFRP layers on the mechanical properties of coal cylinders. A discrete-continuous coupled meso-mechanical numerical model of CFRP passively confined coal cylinders was developed using a three-dimensional FLAC-PFC coupling method. The validity of the model was verified with experimental data of 0-2 layers of CFRP passively confined coal cylinders. On this basis, studies of the influence of 3-7 layers on mechanical properties and energy evolution of CFRP confined coal cylinders was carried out. The results show that the yield limit and the peak of the coal cylinders gradually coincide with the increase of CFRP layers, showing a state of yielding or failure without warning. With the increase of CFRP layers, the increment in the peak strength of coal cylinders first increases and then decreases. A function is obtained to characterize the evolution of the peak strength increment of CFRP confined coal cylinders under different layers. The increment in the peak strain shows a behavior of first increasing and then decreasing, and then increasing and decreasing again. When the elastic strain energy is constant, the axial strain of the coal cylinders has no correlation with CFRP layers, but its peak strain and ultimate strain both increase with the increase of CFRP layers. The dissipative energy conversion ratio at peak point increases first and then decreases with the increase of CFRP layers. A function is established to characterize the evolution of the dissipative energy conversion ratio of CFRP confined coal cylinders with different layers. The ductility characteristics of stress-strain curves, peak strength increment, peak strain increment, dissipative energy conversion ratio and total energy increment of coal cylinders are considered comprehensively, and taking into account the principles of economic cost and winding level, the three layers are determined as the optimal winding layers for CFRP confined coal circular-columns.

Published

2023

9. N123I mutation in the ALV-J receptor-binding domain region enhances viral replication ability by increasing the binding affinity with chNHE1.

Author

Mengmeng Yu, Yao Zhang, Li Zhang, Suyan Wang, Yongzhen Liu, Zhuangzhuang Xu, Peng Liu, Yuntong Chen, Ru Guo, Lingzhai Meng, Tao Zhang, Wenrui Fan, Xiaole Qi, Li Gao, Yanping Zhang, Hongyu Cui, and Yulong Gao

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

The subgroup J avian leukosis virus (ALV-J), a retrovirus, uses its gp85 protein to bind to the receptor, the chicken sodium hydrogen exchanger isoform 1 (chNHE1), facilitating viral invasion. ALV-J is the main epidemic subgroup and shows noteworthy mutations within the receptor-binding domain (RBD) region of gp85, especially in ALV-J layer strains in China. However, the implications of these mutations on viral replication and transmission remain elusive. In this study, the ALV-J layer strain JL08CH3-1 exhibited a more robust replication ability than the prototype strain HPRS103, which is related to variations in the gp85 protein. Notably, the gp85 of JL08CH3-1 demonstrated a heightened binding capacity to chNHE1 compared to HPRS103-gp85 binding. Furthermore, we showed that the specific N123I mutation within gp85 contributed to the enhanced binding capacity of the gp85 protein to chNHE1. Structural analysis indicated that the N123I mutation primarily enhanced the stability of gp85, expanded the interaction interface, and increased the number of hydrogen bonds at the interaction interface to increase the binding capacity between gp85 and chNHE1. We found that the N123I mutation not only improved the viral replication ability of ALV-J but also promoted viral shedding in vivo. These comprehensive data underscore the notion that the N123I mutation increases receptor binding and intensifies viral replication.

Published

2024

10. Development of ultrahigh-strength low-alloy Mg-0.7Al-0.3Ca-0.4Mn (wt.%) alloy with excellent ductility via controlling extrusion temperature

Author

Xiaoqing Liu, Xiaoguang Qiao, Yuwei Liu, Risheng Pei, Xianke Zhang, Lin Yuan, Yuanqing Chi, Xiurong Zhu, Mengmeng Yu, and Mingyi Zheng

Subjects

Mg–Al–Ca–Mn alloy, Extrusion temperature, Microstructure, Plastic instability, Mechanical properties, Grain boundary segregation, Mining engineering. Metallurgy, TN1-997

Abstract

Mg-0.7Al-0.3Ca-0.4Mn (AXM070304, wt.%) alloy was subjected to extrusion with a ram speed of 1 mm/s and an extrusion ratio of 25:1. The extrusion temperature varies from 170 °C to 400 °C. The influence of extrusion temperature on microstructure and mechanical properties of the dilute AXM070304 alloy was systematically explored. With raising the extrusion temperature, the average size of the dynamic recrystallized (DRXed) grains was increased, while the intensity of the basal fiber texture was decreased. When the extrusion temperature was escalated from 170 °C to 400 °C, the tensile yield strength (YS) of the low-alloy AXM070304 extrusion alloy was decreased from 437 to 246 MPa, while the elongation to failure (EL) was increased from 2.9 to 16.9%. The alloy extruded at 200 °C obtains an YS of 412 MPa, an ultimate tensile strength (UTS) of 418 MPa and an EL of 14.8%, exhibiting excellent ductility and ultrahigh strength. The ultrahigh YS was mainly due to the strengthening from ultra-fine recrystallized grains (0.61 μm) with grain boundary segregation of solute Al and Ca atoms. The growth of DRXed grains was inhibited mainly by the co-segregation of Al atoms and Ca atoms, nanosized Al2Ca and β-Mn particle phases at the grain boundaries. Plastic instability occurred under tensile loading in the ultrafine-grained AXM070304 alloy, which may be due to the fact that the grain boundary segregation of Al atoms and Ca atoms requires a high energy barrier for dislocation emission. Once the tensile stress reaches the peak value, the mobile dislocation density increases suddenly.

Published

2023

11. The short-term effects of blood donation on the ocular parameters including blood flow of the retina and choroid in healthy people using OCT- angiography

Author

Mengmeng Yu, Xiaolei Sun, Fanxing Zeng, Xiang Gao, Zhenzhen Li, Gongqiang Yuan, and Ting Wang

Subjects

Blood donation, Intraocular pressure, Retina, Choroid, Optical coherence tomography angiography, Ophthalmology, RE1-994

Abstract

Abstract Background To investigate the short-term effects of blood donation on the morphology and blood flow of the retina and choroid in healthy people using optical coherence tomography angiography (OCTA). Methods Twenty-eight healthy blood donors (56 eyes) who participated in the 200 ml voluntary blood donation between March 2, 2021 and January 20, 2022 were included. The best corrected visual acuity (BCVA), systolic (SBP) and diastolic blood pressure (DBP), intraocular pressure (IOP), subfoveal choroid thickness (SFCT), retinal thickness (RT), retinal superficial vascular density (SVD), deep vascular density (DVD) and foveal avascular were a (FAZ) were measured and statistically analysed 10 min before, 30 min and 24 h after the blood donation. Results The 200 ml blood donation could cause significant IOP reduction at 24 h (P = 0.006), which was negatively correlated with SBP (r = -0.268, P = 0.046), while SBP, DBP, or ocular perfusion pressure were not affected (> 0.05). Moreover, no significant difference existed in the OCT and OCTA indexes, including SFCT, RT, SVD, DVD, and FAZ, before and after the 200 ml blood donation (P > 0.05). The visual acuity was not affected either (P > 0.05). Conclusions The 200 ml blood donation was noted to be associated with statistically significant IOP reduction at 24 h, while SBP, DBP, or OPP was not affected. The blood flow of the retina and choroid or the visual acuity did not change significantly after the blood donation. Larger studies with different volumes of blood donation were needed to further analysis the effect of blood donation on ocular parameters.

Published

2023

12. Combined Application of Chemical and Organic Fertilizers: Effects on Yield and Soil Nutrients in Spring Wheat under Drip Irrigation

Author

Xiangjie Chang, Hao He, Liyang Cheng, Xiaojuan Yang, Shuai Li, Mengmeng Yu, Jifeng Zhang, and Junhua Li

Subjects

spring wheat, organic materials, drip irrigation organic fertilizer, soil fertilization, nutrient utilization, Agriculture

Abstract

In this study, we established a feasible fertilization programming method for wheat production by exploring the effects of the combined application of chemical and organic fertilizers on wheat yield, nutrient uptake, soil nutrient content, and fertilizer utilization. Six treatments, no fertilizer (CK), conventional fertilizer (CF), optimized fertilizer (with reduced fertilizer amount) (RF), chemical fertilizer with organic fertilizer extract (RPAE), partial replacement of chemical fertilizer with raw amino acid powder (RAF), and partial replacement of chemical fertilizer with raw humic acid powder (RHF), were set up for a field experiment. The fertilizer application rates for the RF treatment were calculated based on fertilization-monitoring techniques (30.3% nitrogen and 24.8% phosphorus reductions in 2022 and 23.0% nitrogen and 1.5% phosphorus reductions in 2023). The effects of different fertilizer treatments on yield, dry matter accumulation, plant nutrient accumulation, soil nutrients, and nutrient utilization in wheat were investigated. The results showed that, on the basis of 23% nitrogen and 1.5% phosphorus reductions, there was no significant difference in wheat yield between the RF and CF treatments and that the utilization rate of nitrogen fertilizer was improved. The application of organic fertilizer promoted dry matter accumulation in different organs of wheat; increased plant nutrient accumulation; improved soil nutrient content, nutrient utilization rate, nutrient partial productivity, and nutrient agronomic use efficiency; and ensured stable and increased crop yield. Specifically, compared with CF, the RPAE, RAF, and RHF organic fertilizer treatments increased wheat yield by 3.85%, 1.97%, and 0.67%, respectively, and the utilization of nitrogen and phosphorus fertilizers induced by these treatments significantly increased by 40.46%, 39.28%, and 37.46% (nitrogen) and by 9.83%, 8.91%, and 7.46% (phosphorus), respectively. As a result of our experiment, we concluded that RPAE exerted the best effects among the three organic fertilizer treatments (RPAE, RAF, and RHF) and that its use can result in a higher wheat yield and fertilizer utilization rate in drip-irrigated wheat fields. The results of this study provide a theoretical basis for the combined application of chemical and organic fertilizers, which is conducive to sustainable agriculture development.

Published

2024

13. Roles of ANP32 proteins in cell biology and viral replication

Author

Mengmeng Yu, Yuxing Qu, Haili Zhang, and Xiaojun Wang

Subjects

ANP32, ANP32A, Physiological process, Influenza virus, Replication, Cross-species transmission, Veterinary medicine, SF600-1100, Public aspects of medicine, RA1-1270

Abstract

Abstract The acidic leucine-rich nuclear phosphoprotein 32 kDa (ANP32) family consists of evolutionarily conserved proteins of 220–291 amino acids characterized by an N-terminal leucine-rich repeat domain (LRR) and a C-terminal low-complexity acidic region (LCAR). ANP32 family proteins regulate a variety of physiological functions, including chromatin remodeling, apoptosis and nervous system development. Abnormal ANP32 expression is closely related to tumorigenesis. In recent years, the role of ANP32 family proteins in viral infections has received considerable attention due to their activity supporting influenza virus replication and restriction of virus cross-species transmission. Moreover, ANP32 proteins are closely related to the replication of HIV and nonsegmented negative-strand RNA viruses (NNSVs). In this review, the general physiological functions of ANP32 family proteins, as well as their roles in virus replication, are summarized in detail.

Published

2022

14. Novel phenylacetate derivatives isolated from the fungus Penicillium canescens

Author

Yi ZANG, Yingli SONG, Zhe WANG, Mengmeng YU, and Honghui ZHU

Subjects

Penicillium canescens, Trichocomaceae, One strain-many compounds, Aromatic polyketides, Pharmacy and materia medica, RS1-441, Therapeutics. Pharmacology, RM1-950

Abstract

Two undescribed phenylacetate derivatives (compounds 1 and 2) with a known analog were isolated from a soil-derived fungus Penicillium canescens through the “one strain-many compounds” method. The new structures were assigned using extensive 1D and 2D NMR spectra, high-resolution electrospray ionization mass spectrometry, and the comparison of coupling cleavages of known compounds, which are two pairs of racemic mixtures of aromatic polyketides with a terminal butan-2,3-diol group. In the bioassay, the biological screening signifies no cytotoxic activities against several human cancer cell lines (HL-60, A549, SMMC-7721, MCF-7, and SW480) at a concentration of 40.0 µM.

Published

2022

15. Overexpression of TaMYC2 confers freeze tolerance by ICE-CBF-COR module in Arabidopsis thaliana

Author

Rui Wang, Mengmeng Yu, Jingqiu Xia, Jinpu Xing, Xiaopei Fan, Qinghua Xu, Jing Cang, and Da Zhang

Subjects

wheat, TaMYC2, TaICE41, TaJAZ7, ICE-CBF-COR module, freeze resistance, Plant culture, SB1-1110

Abstract

Dongnongdongmai No.1 (Dn1) is one of the few winter wheat varieties that can successfully overwinter at temperatures as low as -25°C or even lower. To date, few researches were carried to identify the freeze tolerance genes in Dn1 and applied them to improve plant resistance to extreme low temperatures. The basic helix-loop-helix (bHLH) transcription factor MYC2 is a master regulator in JA signaling, which has been reported to involve in responses to mild cold stress (2°C and 7°C). We hypothesized that MYC2 might be part of the regulatory network responsible for the tolerance of Dn1 to extreme freezing temperatures. In this study, we showed that wheat MYC2 (TaMYC2) was induced under both extreme low temperature (-10°C and-25°C) and JA treatments. The ICE-CBF-COR transcriptional cascade, an evolutionary conserved cold resistance pathway downstream of MYC2, was also activated in extreme low temperatures. We further showed that overexpression of any of the MYC2 genes from Dn1 TaMYC2A, B, D in Arabidopsis led to enhanced freeze tolerance. The TaMYC2 overexpression lines had less electrolyte leakage and lower malondialdehyde (MDA) content, and an increase in proline content, an increases antioxidant defences, and the enhanced expression of ICE-CBF-COR module under the freezing temperature. We further verified that TaMYC2 might function through physical interaction with TaICE41 and TaJAZ7, and that TaJAZ7 physically interacts with TaICE41. These results elucidate the molecular mechanism by which TaMYC2 regulates cold tolerance and lay the foundation for future studies to improve cold tolerance in plants.

Published

2022

16. Research on Black Smoke Detection and Class Evaluation Method for Ships Based on YOLOv5s-CMBI Multi-Feature Fusion

Author

Shipeng Wang, Yang Han, Mengmeng Yu, Haiyan Wang, Zhen Wang, Guangzheng Li, and Haochen Yu

Subjects

ship black smoke, YOLOv5s-CMBI, Ringerman Blackness, deep learning, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

To enhance the real-time detection accuracy of ship exhaust plumes and further quantify the degree of darkness, this study proposes a multi-feature fusion approach that combines the YOLOv5s-CMBI algorithm for ship exhaust plume detection with the Ringerman Blackness-based grading method. Firstly, diverse datasets are integrated and a subset of the data is subjected to standard optical model aerosolization to form a dataset for ship exhaust plume detection. Subsequently, building upon the YOLOv5s architecture, the CBAM convolutional attention mechanism is incorporated to augment the network’s focus on ship exhaust plume regions while suppressing irrelevant information. Simultaneously, inspired by the BiFPN structure with weighted bidirectional feature pyramids, a lightweight network named Tiny-BiFPN is devised to enable multi-path feature fusion. The Adaptive Spatial Feature Fusion (ASFF) mechanism is introduced to counteract the impact of feature scale disparities. The EIoU_Loss is employed as the localization loss function to enhance both regression accuracy and convergence speed of the model. Lastly, leveraging the k-means clustering algorithm, color information is mined through histogram analysis to determine clustering centers. The Mahalanobis distance is used to compute sample similarity, and the Ringerman Blackness-based method is employed to categorize darkness levels. Ship exhaust plume grades are estimated by computing a weighted average grayscale ratio between the effective exhaust plume region and the background region. Experimental results reveal that the proposed algorithm achieves improvements of approximately 3.8% in detection accuracy, 5.7% in recall rate, and 4.6% in mean average precision (mAP0.5) compared to the original model. The accuracy of ship exhaust plume darkness grading attains 92.1%. The methodology presented in this study holds significant implications for the establishment and application of future ship exhaust plume monitoring mechanisms.

Published

2023

17. Development and assessment of the usability of a web-based referral to treatment tool for persons with substance use disorders

Author

Kelli Thoele, Mengmeng Yu, Mandeep Dhillon, Robert Skipworth Comer, Hannah L. Maxey, Robin Newhouse, and Ukamaka M. Oruche

Subjects

Substance-related disorder, Usability testing, Referral to treatment, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background Hospitalized people with unhealthy substance use should be referred to treatment. Although inpatient referral resources are often available, clinicians report that outpatient referral networks are not well-established. The purpose of this manuscript is to describe the development and usability testing of a web-based Referral to Treatment Tool (RTT © 2020 Trustees of Indiana University, all rights reserved) designed to identify treatment centers for people with unhealthy substance use. Results The RTT was conceptualized, developed, and then populated with public use and local survey data of treatment centers from 14 market ZIP codes of hospitals participating in an SBIRT implementation study. The tool underwent initial heuristic testing, followed by usability testing at three hospitals within a large healthcare system in the Midwest region of the United States. Administrative (n = 6) and provider (n = 12) users of the RTT completed a list of tasks and provided feedback through Think-Aloud Tests, the System Usability Scale, and in-person interviews. Patients (n = 4) assessed multiple versions of a take-home printout of referral sites that met their specifications and completed in-person interviews to provide feedback. Each administrative task was completed in less than 3 min, and providers took an average of 4 min and 3 s to identify appropriate referral sites for a patient and print a referral list for the patient. The mean System Usability Scale score (M = 77.22, SD = 15.57, p = 0.03) was significantly higher than the passable score of 70, indicating favorable perceptions of the usability of the RTT. Administrative and provider users felt that the RTT was useful and easy to use, but the settings and search features could be refined. Patients indicated that the printouts contained useful information and that it was helpful to include multiple referral sites on the printout. Conclusion The web-based referral tool has the potential to facilitate voluntary outpatient referral to treatment for patients with unhealthy substance use. The RTT can be customized for a variety of health care settings and patient needs. Additional revisions based on usability testing results are needed to prepare for a broader multi-site clinical evaluation. Trial Registration Not applicable.

Published

2021

18. Post-COVID pain and quality of life in COVID-19 patients: protocol for a meta-analysis and systematic review

Author

Yongxing Xu, Jianwen Gu, Mengrong Miao, Yitian Yang, Pule Li, Mengqi Jia, Zhaoyu Wen, Mengmeng Yu, and Jiaqiang Zhang

Subjects

Medicine

Abstract

Introduction During the COVID-19 pandemic, approximately 10%–35% of COVID-19 infected patients experience post-COVID sequela. Among these sequelae, pain symptoms should not be neglected. In addition, the sequelae of COVID-19 also decrease the quality of life of these populations. However, meta-analyses that systematically evaluated post-COVID pain are sparse.Methods and analysis A comprehensive screening will be performed by searching MEDLINE and Embase without language restriction from inception to August 2021. Cohort studies, case–control studies, cross-sectional studies and case series will be included. Case report and interventional studies will be excluded. Studies with less than 20 participants will be also excluded. We aim to investigate the prevalence of pain-related symptoms in patients after the acute phase of COVID-19. The impact of COVID-19 on the quality of life and pain symptoms among these populations in the post-acute phase will also be evaluated. ROBINS-I tool will be used to assess the risk of bias of cohort studies. The risk of bias tool developed by Hoy et al will be used to assess the risk of bias of prevalence studies. Metaprop command in Stata will be used to estimate the pooled prevalence of pain symptoms. DerSimonian and Laird random-effects models will be used to calculate the pooled relative risks. All analyses will be calculated using Stata software (V.15.0; StataCorp)Ethics and dissemination Ethics approval is not required. Results of our study will be submitted to a peer-review journal.PROSPERO registration number CRD42021272800.

Published

2022

19. An Asset Administration Shell Method for Data Exchange Between Manufacturing Software Applications

Author

Xun Ye, Mengmeng Yu, Won Seok Song, and Seung Ho Hong

Subjects

Asset administration shell, cyber-physical system, industry 4.0, data exchange, automationML, OPC UA, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The multifaceted industrial application of cyber-physical systems (CPSs) has increased, enabling tight interactions between physical and computational elements. Industry 4.0 aims to promote industrial application of CPSs. The asset administration shell (AAS) represents the practical embodiment of the CPS, and can be obtained by integrating information and communication technologies. Most prior studies concentrated on AASs for hardware assets in the manufacturing domain; they seldom considered AASs for software applications. To fill this gap, we present a method for implementing AASs for software, i.e., a manufacturing execution system (MES) combined with an enterprise resource planning (ERP) system. This method allows runtime data exchange between an MES and ERP; this is better than the conventional file-based method. Finally, a data exchange case (a manufacturing order) is presented to validate our AAS method.

Published

2021

20. Assessing the Feasibility of Game-Theory-Based Demand Response Management by Practical Implementation

Author

Mengmeng Yu, Xiongfeng Zhang, Junhui Jiang, Changdae Lee, Seung Ho Hong, Kai Wang, and Aidong Xu

Subjects

Demand response (DR), implementation, energy management, game theory, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Demand response (DR) has been widely recognized as an effective solution to help mitigate the stresses imposed on power grids. As new concepts evolve, DR induces various interactions among multiple emerging entities, which further complicates the decision-making processes in grid operations. Recently, game theory (GT) has received great attention in DR management, due to its ability to handle complex decision-making problems. Numerous theoretical GT-based approaches have been proposed for addressing various DR issues, but the feasibility of these theoretical approaches in practical implementation remains in doubt. To bridge the gap between theoretical studies and practical implementations, we first provide specific guidelines regarding how to construct a DR-oriented facility, and then investigate the effectiveness of deploying a Stackelberg game theory-based DR algorithm to manage the energy consumption of the facility, wherein the energy management center (EMC) serves as the leader and multiple devices act as the followers. The experimental evaluation results show that the GT-based DR algorithm achieved great performance in practical DR management, including optimal load control in responding to real-time price (RTP), and peak load reduction with a peak-to-average ratio (PAR) of 1.59.

Published

2021

21. Molecular characterization of avian leukosis virus subgroup J in Chinese local chickens between 2013 and 2018

Author

Meige Ma, Mengmeng Yu, Fangfang Chang, Lixiao Xing, Yuanling Bao, Suyan Wang, Muhammad Farooque, Xinyi Li, Peng Liu, Yuntong Chen, Xiaole Qi, Qing Pan, Li Gao, Kai Li, Changjun Liu, Yanping Zhang, Hongyu Cui, Xiaomei Wang, Yanming Sun, and Yulong Gao

Subjects

subgroup J avian leukosis virus, Chinese local chicken, molecular characterization, molecular epidemiology, genetic evolution, Animal culture, SF1-1100

Abstract

Avian leukosis virus subgroup J (ALV-J) was first isolated from broiler chickens in China in 1999; subsequently, it was rapidly introduced into layer chickens and Chinese local chickens. Recently, the incidence of ALV-J in broiler and layer chickens has significantly decreased. However, it has caused substantial damage to Chinese local chickens, resulting in immense challenges to their production performance and breeding safety. To systematically analyze the molecular characteristics and the epidemic trend of ALV-J in Chinese local chickens, 260 clinical samples were collected for the period of 2013–2018; 18 ALV-J local chicken isolates were identified by antigen-capture enzyme-linked immunosorbent assay and subgroup A-, B-, and J-specific multiplex PCR. The whole genomic sequences of 18 isolates were amplified with PCR and submitted to GenBank. Approximately, 55.5% (10/18) of the 18 isolates demonstrated a relatively high homology (92.3–95.4%) with 20 ALV-J early-isolated local strains (genome sequences obtained from GenBank) in gp85 genes clustering in a separated branch. The 3ʹ untranslated region (3ʹ UTR) of the 18 isolates showed a 195–210 and 16–28 base pair deletion in the redundant transmembrane region and in direct repeat 1, respectively; 55.5% (10/18) of the 18 isolates retained the 147 residue E element. The U3 gene of 61.1% (11/18) of the 18 isolates shared high identity (94.6–97.3%) with ALV-J early-isolated local strains. These results implied that the gp85 and U3 of ALV-J local chicken isolates have rapidly evolved and formed a unique local chicken branch. In addition, it was determined that the gene deletion in the 3′UTR region currently serves as a unique molecular characteristic of ALV-J in China. Hence, the obtained results built on the existing ALV-J molecular epidemiological data and further elucidated the genetic evolution trend of ALV-J in Chinese local chickens.

Published

2020

22. KPNA6 is a Cofactor of ANP32A/B in Supporting Influenza Virus Polymerase Activity

Author

Mengmeng Yu, Liuke Sun, Zhenyu Zhang, Yuan Zhang, Haili Zhang, Lei Na, and Xiaojun Wang

Subjects

vRNP, ANP32A, ANP32B, KPNA6, influenza, polymerase, Microbiology, QR1-502

Abstract

ABSTRACT Influenza A virus (IAV) RNA-dependent RNA polymerase (vPol) is a heterotrimer composed of PB2, PB1, and PA, which, together with vRNA and nucleoprotein (NP), forms viral ribonucleoprotein (vRNP) complex to direct the transcription and replication of the viral genome. Host factor ANP32 proteins have been proved to be associated with vRNP and are essential for polymerase activity and cross-species restriction of avian influenza virus. However, the molecular mechanism by which ANP32 supports polymerase activity is largely unknown. Here, we identified that KPNA6 is associated with ANP32A/B and vRNP of the influenza virus. Both knockout and overexpression of KPNA6 downregulate the replication of the influenza virus by inhibiting the polymerase activity, indicating that a certain level of KPNA6 is beneficial for efficient replication of the influenza virus. Furthermore, we demonstrate that overexpression of KPNA6 or its nuclear importing domain negative mutation inhibited the interaction between ANP32 and vRNP, thus reducing the polymerase activity. Our results revealed the role of KPNA6 in interacting with both ANP32A/B and vRNP to maintain viral polymerase activity and provided new insights for further understanding of the mechanism by which ANP32 supports influenza polymerase. IMPORTANCE Host factor ANP32 plays a fundamental role in supporting the polymerase activity of influenza viruses, but the underlying mechanism is largely unknown. Here, we propose that KPNA6 is involved in the function of ANP32A/B to support influenza virus polymerase by interacting with both vRNP and ANP32A/B. The proper amount of KPNA6 and ANP32 proteins in the KPNA6-ANP32-vRNP complex is crucial for maintaining the viral polymerase activity. The KPNA6 may contribute to maintaining stable interaction between vRNA and ANP32 proteins in the nucleus, and this function is independent of the known importing domain of KPNA6. Our research reveals a role of KNPA6 associated with ANP32 proteins that support the viral polymerase and suggests a new perspective for developing antiviral strategies.

Published

2022

23. TRIM25 inhibits infectious bursal disease virus replication by targeting VP3 for ubiquitination and degradation.

Author

Suyan Wang, Mengmeng Yu, Aijing Liu, Yuanling Bao, Xiaole Qi, Li Gao, Yuntong Chen, Peng Liu, Yulong Wang, Lixiao Xing, Lingzhai Meng, Yu Zhang, Linjin Fan, Xinyi Li, Qing Pan, Yanping Zhang, Hongyu Cui, Kai Li, Changjun Liu, Xijun He, Yulong Gao, and Xiaomei Wang

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Infectious bursal disease virus (IBDV), a double-stranded RNA virus, causes immunosuppression and high mortality in 3-6-week-old chickens. Innate immune defense is a physical barrier to restrict viral replication. After viral infection, the host shows crucial defense responses, such as stimulation of antiviral effectors to restrict viral replication. Here, we conducted RNA-seq in avian cells infected by IBDV and identified TRIM25 as a host restriction factor. Specifically, TRIM25 deficiency dramatically increased viral yields, whereas overexpression of TRIM25 significantly inhibited IBDV replication. Immunoprecipitation assays indicated that TRIM25 only interacted with VP3 among all viral proteins, mediating its K27-linked polyubiquitination and subsequent proteasomal degradation. Moreover, the Lys854 residue of VP3 was identified as the key target site for the ubiquitination catalyzed by TRIM25. The ubiquitination site destroyed enhanced the replication ability of IBDV in vitro and in vivo. These findings demonstrated that TRIM25 inhibited IBDV replication by specifically ubiquitinating and degrading the structural protein VP3.

Published

2021

24. Hemodynamic Change of Coronary Atherosclerotic Plaque After Statin Treatment: A Serial Follow‐Up Study by Computed Tomography‐Derived Fractional Flow Reserve

Author

Mengmeng Yu, Xu Dai, Lihua Yu, Zhigang Lu, Chengxing Shen, Xiaofeng Tao, and Jiayin Zhang

Subjects

coronary artery disease, coronary CT angiography, fractional flow reserve, plaque, statin, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background Whether statin treatment can improve hemodynamic status of coronary atherosclerotic plaque remains unknown. It is of clinical interest to explore the hemodynamic change of coronary lesions after statin treatment. Methods and Results Consecutive patients with intermediate pre‐test probability of coronary artery disease were prospectively enrolled and underwent baseline coronary computed tomography angiography (CCTA) as well as follow‐up CCTA. The primary end point was to determine the lesion‐specific change of △computed tomography‐derived fractional flow reserve (△CT‐FFR, defined as the change of CT‐FFR value across each lesion) after rosuvastatin treatment. The secondary end point was to compare the change of other plaque characteristics according to serial CCTA findings. 152 patients (mean age: 67.1±9.7 years, 100 men, mean follow‐up duration of 13.9±2.5 months) were finally included. In non‐calcified plaque subgroup, △CT‐FFR was significantly lower at follow‐up compared with baseline (0.051±0.010 versus 0.035±0.012, P=0.013). All other parameters were not found to be significantly different between baseline and follow‐up CCTA measurements. In calcified plaque and mixed plaque subgroups, all parameters showed no significant differences between baseline and follow‐up CCTA groups (P>0.05 for all). According to multivariate regression analysis, non‐calcified plaque was >2 times more likely than calcified plaque to observe the decrease of △CT‐FFR (adjusted hazard ratio: 2.05 [1.03–4.09], P=0.042). Conclusions In patients with mild to intermediate coronary stenosis, rosuvastatin treatment resulted in a reduction in lesion‐specific △CT‐FFR at mid‐term follow‐up. This hemodynamic improvement was mainly observed for non‐calcified lesions.

Published

2020

25. Collaborative Coexistence Management Scheme for Industrial Wireless Sensor Networks

Author

Seung Ho Hong, Junnan Sun, Mengmeng Yu, Xiongfeng Zhang, and Aidong Xu

Subjects

Coexistence, industrial wireless sensor network, heterogeneity, real-time communication, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The future manufacturing environment is foreseen to be increasingly diverse with multi-vendor industrial wireless devices deployed in the same geographical area. Thus, effective medium resource sharing mechanisms are urgently needed to enable the coexistence of those heterogeneous industrial wireless sensor networks (IWSNs). To accommodate such heterogeneity, this paper proposes a collaborative scheduling algorithm (CSA) for coordinating the activation of each coexisting IWSN while guaranteeing their respective real-time communication requirements. Specifically, the proposed CSA is able to help determine a unique data transmission instantance for each network node that periodically generates time-sensitive data, through which timely data delivery is guaranteed without the interference of each other.

Published

2019

26. Demand Response Management for Industrial Facilities: A Deep Reinforcement Learning Approach

Author

Xuefei Huang, Seung Ho Hong, Mengmeng Yu, Yuemin Ding, and Junhui Jiang

Subjects

Artificial intelligence, deep reinforcement learning, demand response (DR), industrial facilities, actor-critic, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

As a major consumer of energy, the industrial sector must assume the responsibility for improving energy efficiency and reducing carbon emissions. However, most existing studies on industrial energy management are suffering from modeling complex industrial processes. To address this issue, a model-free demand response (DR) scheme for industrial facilities was developed. In practical terms, we first formulated the Markov decision process (MDP) for industrial DR, which presents the composition of the state, action, and reward function in detail. Then, we designed an actor-critic-based deep reinforcement learning algorithm to determine the optimal energy management policy, where both the actor (Policy) and the critic (Value function) are implemented by the deep neural network. We then confirmed the validity of our scheme by applying it to a real-world industry. Our algorithm identified an optimal energy consumption schedule, reducing energy costs without compromising production.

Published

2019

27. Facile Electrochemical Method for the Fabrication of Stable Corrosion-Resistant Superhydrophobic Surfaces on Zr-Based Bulk Metallic Glasses

Author

Mengmeng Yu, Ming Zhang, Jing Sun, Feng Liu, Yujia Wang, Guanzhong Ding, Xiubo Xie, Li Liu, Xiangjin Zhao, and Haihong Li

Subjects

metallic glasses, superhydrophobic surfaces, electrochemical etching, micro–nano composite structures, corrosion resistance, Organic chemistry, QD241-441

Abstract

Both surface microstructure and low surface energy modification play a vital role in the preparation of superhydrophobic surfaces. In this study, a safe and simple electrochemical method was developed to fabricate superhydrophobic surfaces of Zr-based metallic glasses with high corrosion resistance. First, micro–nano composite structures were generated on the surface of Zr-based metallic glasses by electrochemical etching in NaCl solution. Next, stearic acid was used to decrease surface energy. The effects of electrochemical etching time on surface morphology and wettability were also investigated through scanning electron microscopy and contact angle measurements. Furthermore, the influence of micro–nano composite structures and roughness on the wettability of Zr-based metallic glasses was analysed on the basis of the Cassie–Baxter model. The water contact angle of the surface was 154.3° ± 2.2°, and the sliding angle was

Published

2021

28. Particle Filtering Based Remaining Useful Life Prediction for Electromagnetic Coil Insulation

Author

Haifeng Guo, Aidong Xu, Kai Wang, Yue Sun, Xiaojia Han, Seung Ho Hong, and Mengmeng Yu

Subjects

insulation degradation, insulation failure, inter-turn short, resonant frequency, PF, prognostics, Chemical technology, TP1-1185

Abstract

Electromagnetic coils are one of the key components of many systems. Their insulation failure can have severe effects on the systems in which coils are used. This paper focuses on insulation degradation monitoring and remaining useful life (RUL) prediction of electromagnetic coils. First, insulation degradation characteristics are extracted from coil high-frequency electrical parameters. Second, health indicator is defined based on insulation degradation characteristics to indicate the health degree of coil insulation. Finally, an insulation degradation model is constructed, and coil insulation RUL prediction is performed by particle filtering. Thermal accelerated degradation experiments are performed to validate the RUL prediction performance. The proposed method presents opportunities for predictive maintenance of systems that incorporate coils.

Published

2021

29. Novel Inactivated Subtype B Avian Metapneumovirus Vaccine Induced Humoral and Cellular Immune Responses

Author

Yuanling Bao, Mengmeng Yu, Peng Liu, Fujun Hou, Farooque Muhammad, Zhihao Wang, Xinyi Li, Zhuo Zhang, Suyan Wang, Yuntong Chen, Hongyu Cui, Aijing Liu, Xiaole Qi, Qing Pan, Yanping Zhang, Li Gao, Kai Li, Changjun Liu, Xijun He, Xiaomei Wang, and Yulong Gao

Subjects

avian metapneumovirus, inactivated vaccine, adjuvant, Medicine

Abstract

Avian metapneumovirus (aMPV), a highly contagious agent, is widespread and causes acute upper respiratory tract disease in chickens and turkeys. However, currently, there is no vaccine licensed in China. Herein, we describe the development of an inactivated aMPV/B vaccine using the aMPV/B strain LN16. Combined with a novel adjuvant containing immune-stimulating complexes (ISCOMs), the novel vaccine could induce high virus-specific and VN antibodies. In addition, it activated B and T lymphocytes and promoted the expression of IL-4 and IFN-γ. Importantly, boosting vaccination with the inactivated aMPV/B vaccine could provide 100% protection against aMPV/B infection with reduced virus shedding and turbinate inflammation. The protection efficacy could last for at least 6 months. This study yielded a novel inactivated aMPV/B vaccine that could serve as the first vaccine candidate in China, thus contributing to the control of aMPV/B and promoting the development of the poultry industry.

Published

2020

30. The route choice of hazardous material transportation with value-at-risk model using chance measure in uncertain environments

Author

Zhanzhong Wang, Liying Zhao, Ningbo Cao, Mengmeng Yu, and Mingtao Chen

Subjects

Mechanical engineering and machinery, TJ1-1570

Abstract

This article combines a value-at-risk model with fuzzy theory and proposes a model using chance measure based on the value-at-risk model named chance-value-at-risk (ChVaR). The proposed model considers two measures, probability measure and credibility measure. The objective of this model is to determine the best route schedule that minimizes the risk at certain probability levels and credibility levels. For the proposed model, the correctness of its founding is proven. A detailed solution procedure is presented and tested to solve the ChVaR model. To verify the applicability of the model, two different scale cases are given: the first case indicates that the model can provide a satisfactory solution within a relatively small error range, and the second case routes the path of hazardous material transportation in Changchun, China. According to different probability levels and credibility levels, the ChVaR model provides different paths and multiple alternative choices for a decision maker. This point is important in practical scenarios.

Published

2018

31. Characteristic of Stimulus Frequency Otoacoustic Emissions: Detection Rate, Musical Training Influence, and Gain Function

Author

Yao Wang, Zhihang Qi, Mengmeng Yu, Jinhai Wang, and Ruijuan Chen

Subjects

auditory plasticity, detection rate, gain function, musical training, stimulus frequency otoacoustic emissions, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Stimulus frequency otoacoustic emission (SFOAE) is an active acoustic signal emitted by the inner ear providing salient information about cochlear function and dysfunction. To provide a basis for laboratory investigation and clinical use, we investigated the characteristics of SFOAEs, including detection rate, musical training influence, and gain function. Sixty-five normal hearing subjects (15 musicians and 50 non-musicians, aged 16−45 years) were tested and analyzed at the probe level of 30 and 50 dB sound pressure levels (SPL) in the center frequency of 1 and 4 kHz in the study. The results indicate that (1) the detection rates of SFOAE are sensitive to the gender, (2) musicians reveal enhanced hearing capacity and SFOAE amplitudes compared with non-musicians, and (3) probe frequency has a significant effect on the compression threshold of SFOAE. Our findings highlight the importance of SFOAE in the clinical hearing screening and diagnosis and emphasize the use of musical training for the rehabilitation enhancement of the auditory periphery and hearing threshold.

Published

2019

32. MiR-125b Suppression Inhibits Apoptosis and Negatively Regulates Sema4D in Avian Leukosis Virus-Transformed Cells

Author

Chaoqi Ren, Ruyu Xie, Yongxiu Yao, Mengmeng Yu, Fangfang Chang, Lixiao Xing, Yao Zhang, Yongzhen Liu, Suyan Wang, Muhammad Farooque, Yongqiang Wang, Xiaole Qi, Changjun Liu, Yanping Zhang, Hongyu Cui, Kai Li, Li Gao, Qing Pan, Venugopal Nair, Xiaomei Wang, and Yulong Gao

Subjects

miR-125b, Subgroup J avian leukosis virus, Sema4D, cell apoptosis, Microbiology, QR1-502

Abstract

Subgroup J avian leukosis virus (ALV-J), an oncogenic retrovirus, causes hemangiomas and myeloid tumors in chickens. We previously showed that miR-125b is down-regulated in ALV-J-induced tumors. This study aimed to investigate the possible role of miR-125b in ALV-J-mediated infection and tumorigenesis. Knockdown of miR-125b expression in HP45 cells reduced, whereas over-expression induced late-stage apoptosis. Bioinformatics analysis and luciferase activity assays indicate that miR-125b targets Semaphorin 4D/CD100 (Sema4D) by binding the 3′-untranslated region of messenger RNA (mRNA). Up-regulation of miR-125b in the DF1 cell line suppressed Sema4D expression, whereas miR-125 down-regulation increased Sema4D expression levels. To uncover the function of Sema4D during ALV-J infection, animal infection experiments and in vitro assays were performed and show that Sema4D mRNA levels were up-regulated in ALV-J-infected tissues and cells. Finally, functional experiments show that miR-125 down-regulation and Sema4D over-expression inhibited apoptosis in HP45 cells. These results suggest that miR-125b and its target Sema4D might play an important role in the aggressive growth of HP45 cells induced by avian leukosis viruses (ALVs). These findings improve our understanding of the underlying mechanism of ALV-J infection and tumorigenesis.

Published

2019

33. Sensor Configuration and Algorithms for Power-Line Interference Suppression in Low Field Nuclear Magnetic Resonance

Author

Xiaolei Huang, Hui Dong, Quan Tao, Mengmeng Yu, Yongqiang Li, Liangliang Rong, Hans-Joachim Krause, Andreas Offenhäusser, and Xiaoming Xie

Subjects

ultra-low field, nuclear magnetic resonance, superconducting quantum interference device, de-noising algorithms, power-line harmonics interference, J-coupling, Chemical technology, TP1-1185

Abstract

Low field (LF) nuclear magnetic resonance (NMR) shows potential advantages to study pure heteronuclear J-coupling and observe the fine structure of matter. Power-line harmonics interferences and fixed-frequency noise peaks might introduce discrete noise peaks into the LF-NMR spectrum in an open environment or in a conductively shielded room, which might disturb J-coupling spectra of matter recorded at LF. In this paper, we describe a multi-channel sensor configuration of superconducting quantum interference devices, and measure the multiple peaks of the 2,2,2-trifluoroethanol J-coupling spectrum. For the case of low signal to noise ratio (SNR) < 1, we suggest two noise suppression algorithms using discrete wavelet analysis (DWA), combined with either least squares method (LSM) or gradient descent (GD). The de-noising methods are based on spatial correlation of the interferences among the superconducting sensors, and are experimentally demonstrated. The DWA-LSM algorithm shows a significant effect in the noise reduction and recovers SNR > 1 for most of the signal peaks. The DWA-GD algorithm improves the SNR further, but takes more computational time. Depending on whether the accuracy or the speed of the de-noising process is more important in LF-NMR applications, the choice of algorithm should be made.

Published

2019

34. Semiochemical Production and Laboratory Behavior Response of the Brown Marmorated Stink Bug, Halyomorpha Halys.

Author

Christina Harris, Sitra Abubeker, Mengmeng Yu, Tracy Leskey, and Aijun Zhang

Subjects

Medicine, Science

Abstract

The brown marmorated stink bug (BMSB) is an exotic insect pest that was first recognized in the United States in 2001. As of today, it has been found in more than 42 states. BMSB has a very broad host plant range and damage to crops in mid-Atlantic States has reached a critical level. A reliable and accurate tool for infestation detection and population monitoring is urgently needed to provide better and more timely interventions. Pheromones produced by male BMSB have been previously identified and are currently used in BMSB infestation detection. However, the conditions affecting BMSB production of these pheromones were unknown.In this study, we collected headspace volatiles from male BMSB under laboratory conditions, measured the temporal patterns of release of these pheromones, and assayed the attractiveness to conspecifics. In addition to the pheromone components, tridecane (C13) and E-2-decenal (an alarm compound) were observed in headspace collections of males, as well as in females and nymphs. Exposure of pheromone-emitting adult males to synthetic C13 greatly reduced pheromone emission.This information should lead to a better understanding of the biology, physiology, and chemical ecology of BMSB, which will help scientists and growers develop more efficient strategies based on natural products to manage BMSB population, therefore, reducing pesticide usage and protecting the crops from BMSB damage.

Published

2015

35. Iterative Reconstruction Algorithms in Magneto-Acousto-Electrical Computed Tomography (MAE-CT) for Image Quality Improvement.

Author

Tong Sun 0008, Mengmeng Yu, Linguo Yu, Dingqian Deng, Mian Chen, Haoming Lin, Siping Chen, Chunqi Chang, and Xin Chen 0025

Published

2024

36. CRVideo: Cross-reality 360° Video Social Systems Exploration.

Author

Mengmeng Yu, Chongke Bi, and Dong Han

Published

2023

37. Integration of 5G and OPC UA for Smart Manufacturing of the Future.

Author

Xiongfeng Zhang, Seonjo Lim, Changdae Lee, Won Seok Song, Yu Chul Kim, Mengmeng Yu, Seung Ho Hong, NamHyun Yoo, and Min Wei

Published

2023

38. Timeline Exploration in 360° Video.

Author

Mengmeng Yu and Chongke Bi

Published

2023

39. Three-dimensional magneto-acousto-electrical tomography (3D MAET) with single-element ultrasound transducer and coded excitation: A phantom validation study.

Author

Tong Sun 0008, Linguo Yu, Dingqian Deng, Mengmeng Yu, Yi Chen, Chunqi Chang, Mian Chen, Siping Chen, Xin Chen 0025, and Haoming Lin

Published

2023

40. Improved Magneto-Acousto-Electrical Computed Tomography (MAE-CT) With Multi-Angle Plane Wave Excitation.

Author

Haoming Lin, Yi Chen, Linguo Yu, Siyuan Xie, Tong Sun 0008, Mengmeng Yu, Siping Chen, Mian Chen, and Xin Chen 0025

Published

2023

41. Demand Response Flexibility Potential Trading in Smart Grids: A Multileader Multifollower Stackelberg Game Approach.

Author

Mengmeng Yu, Junhui Jiang, Xun Ye, Xiongfeng Zhang, Changdae Lee, and Seung Ho Hong

Published

2023

42. Adaptive 360° video timeline exploration in VR environment.

Author

Mengmeng Yu and Chongke Bi

Published

2024

43. A Dual-Modal Imaging Method Combining Ultrasound and Electromagnetism for Simultaneous Measurement of Tissue Elasticity and Electrical Conductivity.

Author

Haoming Lin, Yi Chen, Siyuan Xie, Mengmeng Yu, Dingqian Deng, Tong Sun 0008, Yuyang Hu, Mian Chen, Siping Chen, and Xin Chen 0025

Published

2022

44. Assessing the traffic scheduling method for time-sensitive networking (TSN) by practical implementation.

Author

Junhui Jiang, Yuting Li, Xiongfeng Zhang, Mengmeng Yu, Changdae Lee, and Seung Ho Hong

Published

2023

45. A Simulation Model for Time-sensitive Networking (TSN) with Experimental Validation.

Author

Junhui Jiang, Yuting Li, Seung Ho Hong, Mengmeng Yu, Aidong Xu, and Min Wei

Published

2019

46. A Method of Automatic Code Generation for Spacecraft OBDH Software.

Author

Hongjun Zhang, Li Pan, and Mengmeng Yu

Published

2019

47. Incentivizing Strategy for Demand Response Aggregator Considering Market Entry Criterion: A Game Theoretical Approach.

Author

Mengmeng Yu, Seung Ho Hong, Xiongfeng Zhang, Junhui Jiang, Xuefei Huang, Min Wei, Kai Wang 0023, and Wei Liang

Published

2019

48. Cross-Linking Degree Modulated Highly Sensitive Photopolymer for Holographic Data Storage by Introducing 1,3,5,7-Tetravinyl-1,3,5,7-tetramethylcyclotetrasiloxane.

Author

Po Hu, Xinyan Zheng, Junchao Jin, Ruxian Yao, Shuxiang Sun, Junhao Cai, Zhao Du, Mengmeng Yu, Junhui Wu, and Xiaodi Tan

Published

2024

49. Overexpression of TaMPK3 enhances freezing tolerance by increasing the expression of ICE-CBF-COR related genes in the Arabidopsis thaliana.

Author

Rui Wang, Mengmeng Yu, Xin Zhao, Jingqiu Xia, Jing Cang, and Da Zhang

Subjects

*ARABIDOPSIS thaliana, *MITOGEN-activated protein kinases, *MOLECULAR cloning, *GENETIC overexpression, *WINTER wheat, *FREEZING, *WHEAT, *GENES

Abstract

Mitogen-activated protein kinases (MAPKs) play important roles in plant stress response. As a major member of the MAPK family, MPK3 has been reported to participate in the regulation of chilling stress. However, the regulatory function of wheat (Triticum aestivum) mitogen-activated protein kinase TaMPK3 in freezing tolerance remains unknown. Dongnongdongmai No.1 (Dn1) is a winter wheat variety with strong freezing tolerance; therefore, it is important to explore the mechanisms underlying this tolerance. In this study, the expression of TaMPK3 in Dn1 was detected under low temperature and hormone treatment. Gene cloning, bioinformatics and subcellular localisation analyses of TaMPK3 in Dn1 were performed. Overexpressed TaMPK3 in Arabidopsis thaliana was obtained, and freezing tolerance phenotype observations, physiological indices and expression levels of ICE-C-repeat binding factor (CBF)-COR-related genes were determined. In addition, the interaction between TaMPK3 and TaICE41 proteins was detected. We found that TaMPK3 expression responds to low temperatures and hormones, and the TaMPK3 protein is localised in the cytoplasm and nucleus. Overexpression of TaMPK3 in Arabidopsis significantly improves freezing tolerance. TaMPK3 interacts with the TaICE41 protein. In conclusion, TaMPK3 is involved in regulating the ICE-CBF-COR cold resistance module through its interaction with TaICE41, thereby improving freezing tolerance in Dn1 wheat. [ABSTRACT FROM AUTHOR]

Published

2024

50. An Incentive-Based Demand Response (DR) Model Considering Composited DR Resources.

Author

Mengmeng Yu, Seung Ho Hong, Yuemin Ding, and Xun Ye

Published

2019