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1. Allelic variation of TaWD40-4B.1 contributes to drought tolerance by modulating catalase activity in wheat

Author

Geng Tian, Shubin Wang, Jianhui Wu, Yanxia Wang, Xiutang Wang, Shuwei Liu, Dejun Han, Guangmin Xia, and Mengcheng Wang

Subjects
Science
Abstract

Drought stress limits wheat production around the world. Here, the authors report allelic variation of a WD40 encoding gene TaWD40-4B.1 contributes to wheat drought tolerance by interacting with canonical catalases as a chaperone to promote their activities to avoid ROS over accumulation.

Published
2023
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2. Mixed-flow pump performance improvement based on circulation method

Author

Jiaqi Chen, Mengcheng Wang, Yonghao Bao, Xiao Chen, and Hepeng Xia

Subjects
pump, coupling optimization, circulation method, geometric and hydrodynamic parameters, numerical simulation, General Works
Abstract

Mixed-flow pumps have been extensively employed in daily life, improving their energy characteristics contribute to the reduction of energy consumption worldwide. In this study, to overcome the decrease of optimization upper limit caused by using a single type of parameter as the design parameter, a typical mixed-flow pump was chosen for study, and its impeller was parameterized by five geometric and eight hydrodynamic parameters. With head and efficiency as the constraint and optimization objective respectively, 27 schemes were constructed by the Taguchi method. The influence of design factors to the objective and constraint was analyzed based on range and regression analysis. The optimization mechanism was elucidated using the entropy production method. The result reveals that the geometric and hydrodynamic parameters have a significantly impact on the mixed-flow pump’s energy characteristics. The optimized model head is 12.43m, which meets the constraints, while the efficiency increases by 3.2%–88.51%. Therefore, considering both geometric and hydrodynamic parameters in the mixed-flow pump optimization is workable and necessary. This paper can provide practical instructions on the optimal design of different turbomachines.

Published
2023
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3. Comparison of the Shutdown Transitions of the Full-Flow Pump and Axial-Flow Pump

Author

Haifeng Jiao, Jilian Shan, Guorui Yang, Mengcheng Wang, and Songshan Chen

Subjects
full-flow pump, axial-flow pump, shutdown transition, model test, omega vortex, entropy production, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

In this study, a comparative analysis of the shutdown transitions of a full-flow pump and an axial-flow pump was carried out through numerical simulation and model tests. The UDF method was used to achieve control of the impeller rotational speed during shutdown. The results show that during the shutdown transition, the rate of decline of rotational speed, flow rate, and torque of the axial-flow pump are greater than those of the full-flow pump, so the axial-flow pump stops faster than the full-flow pump. The axial force of the axial-flow pump is significantly lower than that of the full-flow pump, and the maximum value of the radial force of the axial-flow pump is approximately 1.14 times that of the full-flow pump. Due to the influence of the clearance backflow vortex, the impeller inlet and outlet of the full-flow pump generate clearance backflow vortices in the near-wall area, resulting in the overall flow pattern of the impeller chamber being worse than that of the axial-flow pump and the hydraulic loss being greater than that of the axial-flow pump. The runaway speed and flow rate of the axial-flow pump are higher than those of the full-flow pump. Due to the influence of the clearance backflow, the range of the high entropy production rate at the suction side of the impeller of the full-flow pump is always larger than that of the axial-flow pump. The research results in this paper can provide theoretical support for the selection and operation of pumps in large low-head pumping stations.

Published
2023
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4. Effects of different vortex designs on optimization results of mixed-flow pump

Author

Mengcheng Wang, Yanjun Li, Jianping Yuan, and Shouqi Yuan

Subjects
mixed-flow pump, inverse design method, optimization, vortex design, weighted efficiency, entropy production, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Turbomachinery optimization based on the inverse design method (IDM) has been investigated in several previous studies, however, due to head constraints, most of these studies have adopted the constant impeller outlet angular momentum (IOAM) distribution, namely the free vortex design, which in turn reduces the optimization effect. To overcome these drawbacks, forced and compound vortex designs are proposed here by parameterizing the IOAM using a parabola, and the effects of different vortex designs on the optimization results of a mixed-flow pump impeller are investigated. First, a baseline mixed-flow pump is simulated and experimentally verified. Second, based on the IDM, the impeller is parameterized for the three vortex designs. Finally, it is optimized by artificial neural network and genetic algorithm to maximize the weighted efficiency at 0.8Qdes, 1.0Qdes and 1.2Qdes, and the results are analyzed. The results show that the weighted efficiency of the forced and compound vortex design is improved by 1.33% and 1.69% respectively compared to free vortex design. The internal flow analysis reveals that the improved efficiency of the compound vortex design can be attributed to the improved impeller-outlet flow regime. Finally, the energy characteristics of the preferred and baseline models are compared using the entropy production method.

Published
2022
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5. TaBAS1 encoding a typical 2-Cys peroxiredoxin enhances salt tolerance in wheat

Author

Guilian Xiao, Mingming Zhao, Qinghua Liu, Junzhi Zhou, Zhaohui Cheng, Qiannan Wang, Guangmin Xia, and Mengcheng Wang

Subjects
wheat, salt, peroxiredoxin, ROS, yield, Plant culture, SB1-1110
Abstract

Efficient antioxidant enzymatic system contributes to salt tolerance of plants via avoiding ROS over-accumulation. Peroxiredoxins are crucial components of the reactive oxygen species (ROS) scavenging machinery in plant cells, but whether they offer salt tolerance with potential for germplasm improvement has not been well addressed in wheat. In this work, we confirmed the role of a wheat 2-Cys peroxiredoxin gene TaBAS1 that was identified through the proteomic analysis. TaBAS1 overexpression enhanced the salt tolerance of wheat at both germination and seedling stages. TaBAS1 overexpression enhanced the tolerance to oxidative stress, promoted the activities of ROS scavenging enzymes, and reduced ROS accumulation under salt stress. TaBAS1 overexpression promoted the activity of ROS production associated NADPH oxidase, and the inhibition of NADPH oxidase activity abolished the role of TaBAS1 in salt and oxidative tolerance. Moreover, the inhibition of NADPH-thioredoxin reductase C activity erased the performance of TaBAS1 in the tolerance to salt and oxidative stress. The ectopic expression of TaBAS1 in Arabidopsis exhibited the same performance, showing the conserved role of 2-Cys peroxiredoxins in salt tolerance in plants. TaBAS1 overexpression enhanced the grain yield of wheat under salt stress but not the control condition, not imposing the trade-offs between yield and tolerance. Thus, TaBAS1 could be used for molecular breeding of wheat with superior salt tolerance.

Published
2023
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6. Alteration of synonymous codon usage bias accompanies polyploidization in wheat

Author

Geng Tian, Guilian Xiao, Tong Wu, Junzhi Zhou, Wenjing Xu, Yanxia Wang, Guangmin Xia, and Mengcheng Wang

Subjects
wheat, polyploidy, synonymous codon usage bias, nucleotide substitution, DNA methylation, epigenetic variation, Genetics, QH426-470
Abstract

The diploidization of polyploid genomes is accompanied by genomic variation, including synonymous nucleotide substitutions that may lead to synonymous codon usage bias (SCUB). SCUB can mirror the evolutionary specialization of plants, but its effect on the formation of polyploidies is not well documented. We explored this issue here with hexaploid wheat and its progenitors. Synonymous codons (SCs) ending in either cytosine (NNC) or guanidine (NNG) were more frequent than those ending in either adenosine (NNA) or thymine (NNT), and the preference for NNC/G codons followed the increase in genome ploidy. The ratios between NNC/G and NNA/T codons gradually decreased in genes with more introns, and the difference in these ratios between wheat and its progenitors diminished with increasing ploidy. SCUB frequencies were heterogeneous among exons, and the bias preferred to NNA/T in more internal exons, especially for genes with more exons; while the preference did not appear to associate with ploidy. The SCUB alteration of the progenitors was different during the formation of hexaploid wheat, so that SCUB was the homogeneous among A, B and D subgenomes. DNA methylation-mediated conversion from cytosine to thymine weakened following the increase of genome ploidy, coinciding with the stronger bias for NNC/G SCs in the genome as a function of ploidy, suggesting that SCUB contribute to the epigenetic variation in hexaploid wheat. The patterns in SCUB mirrored the formation of hexaploid wheat, which provides new insight into genome shock-induced genetic variation during polyploidization. SCs representing non-neutral synonymous mutations can be used for genetic dissection and improvement of agricultural traits of wheat and other polyploidies.

Published
2022
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7. Positive and Negative Performance Analysis of the Bi-Directional Full-Flow Pump with an 'S' Shaped Airfoil

Author

Haifeng Jiao, Mengcheng Wang, Haiyu Liu, and Songshan Chen

Subjects
bi-directional full-flow pump, S-shaped airfoil, pressure pulsation, unsteady, entropy production rate, model test, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

In this study, model tests and numerical simulations are conducted to study the bi-directional full-flow pump (BFFP). Firstly, the head, efficiency and shaft power of the BFFP are significantly higher in the positive operating condition than in the negative operating condition. When the unit operates in the positive direction, the clearance reflux flow rate, the flow uniformity and velocity-weighted average angle of the impeller inlet, and the intensity of pressure pulsation are significantly greater than those during the negative operation. When the pump unit is operating at low flow rates, the clearance reflux produces a significant disturbance to the impeller inlet main flow. Two vortices appear in the near-wall area of the clearance outlet (i.e., impeller inlet), and the range of vortices is larger in the positive operation than in the negative operation. Secondly, at low-flow and design-flow conditions, the total entropy production of the pump unit in the positive direction is greater than that in the negative direction. When at small- and design-flow rates, the amplitude of pressure pulsation in the positive direction is smaller than that in the negative direction. This study will contribute to the research and development of a full-flow pump.

Published
2023
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8. How Does New Energy Demonstration City Policy Promote Urban Land Use Efficiency in China? The Mediating Effect of Industrial Structure

Author

Mengcheng Wang, Nana Lin, Youming Dong, and Yifeng Tang

Subjects
new energy demonstration city (NEDC), urban land use efficiency (ULUE), industrial structure advancement, industrial structure rationalization, PSM-DID, mediating effect model, Agriculture
Abstract

As an effective measure to solve the dilemma of urban energy consumption and economic development, the new energy demonstration city (NEDC) policy in China could greatly promote the development of the new energy industry and urban economy. This study aims to explore how the NEDC policy effectively promotes the growth of urban land use efficiency (ULUE), an essential indicator of economic development, through the urban industrial structure. Based on the panel data of 285 Chinese cities during 2003–2019, this study took the NEDC policy as a quasi-natural experiment and employed the PSM-DID method and the mediating effect model to objectively evaluate its policy effects. We found that the NEDC policy could significantly promote the growth of the ULUE. Specifically, the ULUE has been significantly improved by 17.0%. The NEDC policy could also promote the ULUE indirectly through the mediating effect of industrial structure advancement (ISA), but the mediating effect of industrial structure rationalization (ISR) was not significant. Furthermore, the promotional effect of the NEDC policy on the ULUE has regional heterogeneity. Compared with eastern cities and high-innovation cities, central and western cities and medium-innovation and low-innovation cities can obtain much higher promotion effects. This study may provide some policy inspiration for policymakers to support low-corban and sustainable economic development and urban land use.

Published
2023
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9. Do You Feel Included? A Latent Profile Analysis of Inclusion in the Chinese Context

Author

Jiaojiao Qu and Mengcheng Wang

Subjects
inclusion, latent profile analysis, diversity, the Chinese context, teachers, Psychology, BF1-990
Abstract

Although the importance of inclusion has been firmly supported by prior studies, the question of whether certain subgroups exist in the workplace whose members feel more or less included remains under-explored, limiting our understanding of how an inclusive workplace can be achieved. To address this gap, the current study conducted a latent profile analysis (LPA) to obtain evidence-based information regarding employees’ sense of inclusion in their organizations. Using a sample of 1,168 participants engaged in multiple industries in China, we identified three profiles of inclusion, with a largest proportion feeling a moderate level of inclusion (69.5%), a smaller proportion feeling a high level of inclusion (22.7%), and a tiny proportion feeling a low level of inclusion (7.8%). The three profiles differ significantly on key variables, demonstrating that the group feeling more included tends to be more aged and tenured, hold a higher educational degree, work in the high-tech sector, and come from a developed area. Such a group also shows more engagement in their work but less exhaustion, feels that they have more opportunities for development, and gains more support from colleagues and supervisors. Our findings point to the existence of subgroups of inclusion within the Chinese context and highlight the characteristics of these profiles, which in turn shed lights on how we can reach the goal of inclusion.

Published
2022
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10. CUL5–ASB6 Complex Promotes p62/SQSTM1 Ubiquitination and Degradation to Regulate Cell Proliferation and Autophagy

Author

Liyan Gong, Kaihua Wang, Mengcheng Wang, Ronggui Hu, Huaguang Li, Daming Gao, and Moubin Lin

Subjects
p62, ubiquitination, CUL5, ASB6, proliferation, autophagy, Biology (General), QH301-705.5
Abstract

p62/SQSTM1 (sequestosome-1) is a key protein involved in multiple cellular bioprocesses including autophagy, nutrient sensing, cell growth, cell death, and survival. Therefore, it is implicated in human diseases such as obesity and cancer. Here, we show that the CUL5–ASB6 complex is a ubiquitin E3 ligase complex mediating p62 ubiquitination and degradation. Depletion of CUL5 or ASB6 induced p62 accumulation, and overexpression of ASB6 promoted ubiquitination and degradation of p62. Functionally, ASB6 overexpression can inhibit the proliferation of MEF and hepatocellular carcinoma cells by reducing p62 protein level, and impair the occurrence of autophagy. Overall, our study identified a new molecular mechanism regulating p62 stability, which may provide additional insights for understanding the delicate control of p62 and cell proliferation–autophagy control in physiological and pathological settings.

Published
2021
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11. Asymmetric Somatic Hybridization Affects Synonymous Codon Usage Bias in Wheat

Author

Wenjing Xu, Yingchun Li, Yajing Li, Chun Liu, Yanxia Wang, Guangmin Xia, and Mengcheng Wang

Subjects
introgression line, genomic shock, synonymous codon usage bias, somatic hybridization, wheat, Genetics, QH426-470
Abstract

Asymmetric somatic hybridization is an efficient strategy for crop breeding by introducing exogenous chromatin fragments, which leads to whole genomic shock and local chromosomal shock that induces genome-wide genetic variation including indel (insertion and deletion) and nucleotide substitution. Nucleotide substitution causes synonymous codon usage bias (SCUB), an indicator of genomic mutation and natural selection. However, how asymmetric somatic hybridization affects SCUB has not been addressed. Here, we explored this issue by comparing expressed sequence tags of a common wheat cultivar and its asymmetric somatic hybrid line. Asymmetric somatic hybridization affected SCUB and promoted the bias to A- and T-ending synonymous codon (SCs). SCUB frequencies in chromosomes introgressed with exogenous fragments were comparable to those in chromosomes without exogenous fragments, showing that exogenous fragments had no local chromosomal effect. Asymmetric somatic hybridization affected SCUB frequencies in indel-flanking sequences more strongly than in non-flanking sequences, and this stronger effect was present in both chromosomes with and without exogenous fragments. DNA methylation-driven SCUB shift was more pronounced than other SC pairs. SCUB shift was similar among seven groups of allelic chromosomes as well as three sub-genomes. Our work demonstrates that the SCUB shift induced by asymmetric somatic hybridization is attributed to the whole genomic shock, and DNA methylation is a putative force of SCUB shift during asymmetric somatic hybridization. Asymmetric somatic hybridization provides an available method for deepening the nature of SCUB shift and genetic variation induced by genomic shock.

Published
2021
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12. Numerical Simulation on the Influence of Rotating Speed on the Hydraulic Loss Characteristics of Desalination Energy Recovery Turbine

Author

Bing Qi, Desheng Zhang, Qi Zhang, Mengcheng Wang, and Ibra Fall

Subjects
Physics, QC1-999
Abstract

The performance of energy recovery turbine (ERT) directly determines the cost and energy consumption of reverse osmosis desalination. In order to study the performance and loss mechanisms of ERT under different conditions, the external characteristics and the losses of different components were quantitatively analyzed. The loss mechanisms of each component in the turbine were revealed through the comparative analysis of the internal flow field. The results show that the efficiency is 2.2% higher than that at the design speed when turbine runs at n = 22000 r/min. The impeller losses account for more than 67% of the total losses. The impeller loss is mainly observed at the leading edge. The vortex on the pressure side of the leading edge is caused by the impact effect, while the vortex on the suction side of the leading edge is caused by the flow separation. With the increase in the rotating speed, the loss caused by flow separation in impeller decreases obviously. The volute loss is mainly observed near the tongue, which is caused by the flow separation at the tongue. The design of the tongue is very important to the performance of the volute. The turbulent kinetic energy (TKE) and loss decrease with the increase in the rotating speed. The loss in the draft tube is mainly observed at the inlet core. With the increase in the rotating speed, the turbulence pulsation and the radial pressure fluctuation amplitude reduce. Therefore, the turbine can be operated at the design or slightly higher than the design rotating speed under the condition that both the hydraulic condition and the intensity are satisfied, which are conducive to the efficient utilization of energy.

Published
2021
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13. Polyploidization is accompanied by synonymous codon usage bias in the chloroplast genomes of both cotton and wheat.

Author

Geng Tian, Guoqing Li, Yanling Liu, Qinghua Liu, Yanxia Wang, Guangmin Xia, and Mengcheng Wang

Subjects
Medicine, Science
Abstract

Synonymous codon usage bias (SCUB) of both nuclear and organellar genes can mirror the evolutionary specialization of plants. The polyploidization process exposes the nucleus to genomic shock, a syndrome which promotes, among other genetic variants, SCUB. Its effect on organellar genes has not, however, been widely addressed. The present analysis targeted the chloroplast genomes of two leading polyploid crop species, namely cotton and bread wheat. The frequency of codons in the chloroplast genomes ending in either adenosine (NNA) or thymine (NNT) proved to be higher than those ending in either guanidine or cytosine (NNG or NNC), and this difference was conserved when comparisons were made between polyploid and diploid forms in both the cotton and wheat taxa. Preference for NNA/T codons was heterogeneous among genes with various numbers of introns and was also differential among the exons. SCUB patterns distinguished tetraploid cotton from its diploid progenitor species, as well as bread wheat from its diploid/tetraploid progenitor species, indicating that SCUB in the chloroplast genome partially mirrors the formation of polyploidies.

Published
2020
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14. The non-random patterns of genetic variation induced by asymmetric somatic hybridization in wheat

Author

Mengcheng Wang, Yujie Ji, Shiting Feng, Chun Liu, Zhen Xiao, Xiaoping Wang, Yanxia Wang, and Guangmin Xia

Subjects
Introgression line, Genomic shock, Genetic variation, Nucleotide substitution, Insertion and deletion, Botany, QK1-989
Abstract

Abstract Background Asymmetric somatic hybridization is an efficient crop breeding approach by introducing several exogenous chromatin fragments, which leads to genomic shock and therefore induces genome-wide genetic variation. However, the fundamental question concerning the genetic variation such as whether it occurs randomly and suffers from selection pressure remains unknown. Results Here, we explored this issue by comparing expressed sequence tags of a common wheat cultivar and its asymmetric somatic hybrid line. Both nucleotide substitutions and indels (insertions and deletions) had lower frequencies in coding sequences than in un-translated regions. The frequencies of nucleotide substitutions and indels were both comparable between chromosomes with and without introgressed fragments. Nucleotide substitutions distributed unevenly and were preferential to indel-flanking sequences, and the frequency of nucleotide substitutions at 5′-flanking sequences of indels was obviously higher in chromosomes with introgressed fragments than in those without exogenous fragment. Nucleotide substitutions and indels both had various frequencies among seven groups of allelic chromosomes, and the frequencies of nucleotide substitutions were strongly negatively correlative to those of indels. Among three sets of genomes, the frequencies of nucleotide substitutions and indels were both heterogeneous, and the frequencies of nucleotide substitutions exhibited drastically positive correlation to those of indels. Conclusions Our work demonstrates that the genetic variation induced by asymmetric somatic hybridization is attributed to both whole genomic shock and local chromosomal shock, which is a predetermined and non-random genetic event being closely associated with selection pressure. Asymmetric somatic hybrids provide a worthwhile model to further investigate the nature of genomic shock induced genetic variation.

Published
2018
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15. The Spatial Changes of Transportation Infrastructure and Its Threshold Effects on Urban Land Use Efficiency: Evidence from China

Author

Xinhai Lu, Mengcheng Wang, and Yifeng Tang

Subjects
transportation infrastructure, urban land use efficiency, spatial spillover effect, spatial Durbin model (SDM), threshold effect, Agriculture
Abstract

The development of social production and the agglomeration of the urban population have brought tremendous pressure to transportation infrastructure. However, the impacts of transportation development on urban land use systems have not been well investigated. Under the pressure of limited land resources, the impact of transportation infrastructure on urban land use efficiency (ULUE) is receiving increasing attention from scholars and needs to be explored. By collecting panel data from 30 regions in China from 2003 to 2018, in this study we constructed a spatial Durbin model and a panel threshold regression model to explore the spatial spillover effects and threshold effects of transportation infrastructure on ULUE. The most obvious findings emerging from this study are that (1) ULUE is not randomly distributed over different regions in China, but has an obvious positive spatial correlation; (2) transportation infrastructure has significant positive direct and spatial spillover effects on ULUE and the direct effects of transportation infrastructure (0.823) are significantly stronger than the spatial spillover effects (0.263); (3) the impact of transportation infrastructure on ULUE has a significant double threshold effect, and the threshold values are 4.520 and 6.429 respectively, and with the improvement of transportation infrastructure, its marginal effects on ULUE show a downward trend. This paper provides theoretical support for policymakers to achieve cross-regional cooperation on land use and transportation infrastructure construction and inspirations for sustainable development.

Published
2021
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16. A RF Redundant TSV Interconnection for High Resistance Si Interposer

Author

Mengcheng Wang, Shenglin Ma, Yufeng Jin, Wei Wang, Jing Chen, Liulin Hu, and Shuwei He

Subjects
millimeter-wave, redundant TSV, equivalent circuit model, S-parameters extraction, Mechanical engineering and machinery, TJ1-1570
Abstract

Through Silicon Via (TSV) technology is capable meeting effective, compact, high density, high integration, and high-performance requirements. In high-frequency applications, with the rapid development of 5G and millimeter-wave radar, the TSV interposer will become a competitive choice for radio frequency system-in-package (RF SIP) substrates. This paper presents a redundant TSV interconnect design for high resistivity Si interposers for millimeter-wave applications. To verify its feasibility, a set of test structures capable of working at millimeter waves are designed, which are composed of three pieces of CPW (coplanar waveguide) lines connected by single TSV, dual redundant TSV, and quad redundant TSV interconnects. First, HFSS software is used for modeling and simulation, then, a modified equivalent circuit model is established to analysis the effect of the redundant TSVs on the high-frequency transmission performance to solidify the HFSS based simulation. At the same time, a failure simulation was carried out and results prove that redundant TSV can still work normally at 44 GHz frequency when failure occurs. Using the developed TSV process, the sample is then fabricated and tested. Using L-2L de-embedding method to extract S-parameters of the TSV interconnection. The insertion loss of dual and quad redundant TSVs are 0.19 dB and 0.46 dB at 40 GHz, respectively.

Published
2021
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17. Influence of Spanwise Distribution of Impeller Exit Circulation on Optimization Results of Mixed Flow Pump

Author

Mengcheng Wang, Yanjun Li, Jianping Yuan, and Fareed Konadu Osman

Subjects
3D inverse design, optimization design, impeller, spanwise distribution of impeller exit circulation, performance comparison, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The spanwise distribution of impeller exit circulation (SDIEC) has an important influence on the performance of the impeller. To quantitatively study the influence of SDIEC on optimization results, a comprehensive optimization system composed of the computational fluid dynamics, inverse design method, design of experiment, surrogate model, and optimization algorithm was used to optimize a mixed flow pump impeller in two different cases. In the first case, the influence of SDIEC was ignored, while in the second case, the influence of SDIEC was considered. The result shows that the optimization upper limit can be further improved when the influence of SDIEC is considered in the optimization process. The pump efficiency of the preferred optimized impeller F1 obtained in the first case at 1.2Qdes, 1.0Qdes, and 0.8Qdes are increased by 6.48%, 2.41%, and 0.06%, respectively, over the baseline model. Moreover, the pump efficiency of the preferred optimized impeller S2 obtained in the second case further increased by 0.76%, 1.24%, and 1.21%, respectively, over impeller F1. Furthermore, the influence of SDIEC on the performance of the mixed flow pump is clarified by a comparative analysis of the internal flow field.

Published
2021
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18. The Action Representation Elicited by Different Types of Drug-Related Cues in Heroin-Abstinent Individuals

Author

Hong Zeng, Dequan Su, Pengfei Wang, Mengcheng Wang, Sabine Vollstädt-Klein, Qi Chen, and Haosheng Ye

Subjects
drug addiction, drug-related cues, DLS-SM system, habitual drug use, fMRI, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Drug related cue-induced reactivity plays a significant role in maintaining drug use and relapse in addicted individuals. The activation of Dorsolateral striatum-Sensorimotor system (DLS-SM) has been suggested as an important route through which drug cues may induce automatic drug using behavior. The current study used fMRI to investigate the reactivity of heroin abstinent individuals to different types of cues, to clarify the characteristics of the cues that induce the activation of the sensorimotor area. Forty heroin-dependent abstinent individuals and 29 healthy subjects were recruited to perform the heroin cue-reactivity task during fMRI. The participants’ subjective craving and physical signs were evaluated before and after scanning. Whole-brain analysis showed that compared to drug use tool and drug cues, cues related to drug use action were more likely to activate posterior central gyrus, para-hippocampus, supra marginal gyrus, superior parietal lobule (SPL) and inferior parietal lobule (IPL). These areas are involved in motor preparation and output, indicating that the sensorimotor area is also an important neural basis of craving and automatic drug using behavior, and may mediate craving and drug seeking behavior. Our findings thus suggest that cues related to drug using action may induce automatic drug seeking behavior more than cues related only to the drug itself.

Published
2018
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21. Synonymous codon usage bias in plant mitochondrial genes is associated with intron number and mirrors species evolution.

Author

Wenjing Xu, Tian Xing, Mingming Zhao, Xunhao Yin, Guangmin Xia, and Mengcheng Wang

Subjects
Medicine, Science
Abstract

Synonymous codon usage bias (SCUB) is a common event that a non-uniform usage of codons often occurs in nearly all organisms. We previously found that SCUB is correlated with both intron number and exon position in the plant nuclear genome but not in the plastid genome; SCUB in both nuclear and plastid genome can mirror the evolutionary specialization. However, how about the rules in the mitochondrial genome has not been addressed. Here, we present an analysis of SCUB in the mitochondrial genome, based on 24 plant species ranging from algae to land plants. The frequencies of NNA and NNT (A- and T-ending codons) are higher than those of NNG and NNC, with the strongest preference in bryophytes and the weakest in land plants, suggesting an association between SCUB and plant evolution. The preference for NNA and NNT is more evident in genes harboring a greater number of introns in land plants, but the bias to NNA and NNT exhibits even among exons. The pattern of SCUB in the mitochondrial genome differs in some respects to that present in both the nuclear and plastid genomes.

Published
2015
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22. Ectopic expression of a wheat WRKY transcription factor gene TaWRKY71-1 results in hyponastic leaves in Arabidopsis thaliana.

Author

Zhen Qin, Hongjun Lv, Xinlei Zhu, Chen Meng, Taiyong Quan, Mengcheng Wang, and Guangmin Xia

Subjects
Medicine, Science
Abstract

Leaf type is an important trait that closely associates with crop yield. WRKY transcription factors exert diverse regulatory effects in plants, but their roles in the determination of leaf type have not been reported so far. In this work, we isolated a WRKY transcription factor gene TaWRKY71-1 from a wheat introgression line SR3, which has larger leaves, superior growth capacity and higher yield than its parent common wheat JN177. TaWRKY71-1 specifically expressed in leaves, and produced more mRNA in SR3 than in JN177. TaWRKY71-1 localized in the nucleus and had no transcriptional activation activity. TaWRKY71-1 overexpression in Arabidopsis resulted in hyponastic rosette leaves, and the hyponastic strength was closely correlative with the transcription level of the transgene. The spongy mesophyll cells at abaxial side of leaves were drastically compacted by TaWRKY71-1 overexpression. In TaWRKY71-1 overexpression Arabidopsis, the expression of IAMT1 that encodes a methyltransferase converting free indole-3-acetic acid (IAA) to methyl-IAA ester (MeIAA) to alter auxin homeostatic level was induced, and the induction level was dependent on the abundance of TaWRKY71-1 transcripts. Besides, several TCP genes that had found to be restricted by IAMT1 had lower expression levels as well. Our results suggest that TaWRKY71-1 causes hyponastic leaves through altering auxin homeostatic level by promoting the conversion of IAA to MeIAA.

Published
2013
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28. <scp>TaSRO1</scp> plays a dual role in suppressing <scp>TaSIP1</scp> to fine tune mitochondrial retrograde signalling and enhance salinity stress tolerance

Author

Mei Wang, Meng Wang, Min Zhao, Mengcheng Wang, Shupeng Liu, Yanchen Tian, Byeongho Moon, Chaochao Liang, Chunlong Li, Weiming Shi, Ming‐Yi Bai, Shuwei Liu, Wei Zhang, Inhwan Hwang, and Guangmin Xia

Subjects
Salinity, Gene Expression Regulation, Plant, Stress, Physiological, Physiology, Salt Tolerance, Plant Science, Plants, Genetically Modified, Triticum, Plant Proteins, Transcription Factors
Abstract

Initially discovered in yeast, mitochondrial retrograde signalling has long been recognised as an essential in the perception of stress by eukaryotes. However, how to maintain the optimal amplitude and duration of its activation under natural stress conditions remains elusive in plants. Here, we show that TaSRO1, a major contributor to the agronomic performance of bread wheat plants exposed to salinity stress, interacted with a transmembrane domain-containing NAC transcription factor TaSIP1, which could translocate from the endoplasmic reticulum (ER) into the nucleus and activate some mitochondrial dysfunction stimulon (MDS) genes. Overexpression of TaSIP1 and TaSIP1-∆C (a form lacking the transmembrane domain) in wheat both compromised the plants' tolerance of salinity stress, highlighting the importance of precise regulation of this signal cascade during salinity stress. The interaction of TaSRO1/TaSIP1, in the cytoplasm, arrested more TaSIP1 on the membrane of ER, and in the nucleus, attenuated the trans-activation activity of TaSIP1, therefore reducing the TaSIP1-mediated activation of MDS genes. Moreover, the overexpression of TaSRO1 rescued the inferior phenotype induced by TaSIP1 overexpression. Our study provides an orchestrating mechanism executed by the TaSRO1-TaSIP1 module that balances the growth and stress response via fine tuning the level of mitochondria retrograde signalling.

Published
2022
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29. Positive and Negative Performance Analysis of the Bi-Directional Full-Flow Pump with an “S” Shaped Airfoil

Author

Chen, Haifeng Jiao, Mengcheng Wang, Haiyu Liu, and Songshan

Subjects
bi-directional full-flow pump, S-shaped airfoil, pressure pulsation, unsteady, entropy production rate, model test
Abstract

In this study, model tests and numerical simulations are conducted to study the bi-directional full-flow pump (BFFP). Firstly, the head, efficiency and shaft power of the BFFP are significantly higher in the positive operating condition than in the negative operating condition. When the unit operates in the positive direction, the clearance reflux flow rate, the flow uniformity and velocity-weighted average angle of the impeller inlet, and the intensity of pressure pulsation are significantly greater than those during the negative operation. When the pump unit is operating at low flow rates, the clearance reflux produces a significant disturbance to the impeller inlet main flow. Two vortices appear in the near-wall area of the clearance outlet (i.e., impeller inlet), and the range of vortices is larger in the positive operation than in the negative operation. Secondly, at low-flow and design-flow conditions, the total entropy production of the pump unit in the positive direction is greater than that in the negative direction. When at small- and design-flow rates, the amplitude of pressure pulsation in the positive direction is smaller than that in the negative direction. This study will contribute to the research and development of a full-flow pump.

Published
2023
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31. Entropy production analysis for energy dissipation of a vertical mixed-flow pump device under asymmetric inflow conditions

Author

Yunhao Zheng, Zichuan Gu, Yanjun Li, Xingye Zhu, Fan Meng, and Mengcheng Wang

Subjects
Mechanical Engineering
Abstract

To investigate the influence of the inflow angle on the hydraulic loss and internal flow fields of a vertical mixed-flow pump device, unsteady numerical simulations were performed under different inflow angles ( θ = 0°, 10°, 20°, and 30°). The calculation results were validated using an external characteristic test at an inflow angle of 0°. The entropy production theory was applied to analyse the energy loss and dissipation rate distribution in a vertical mixed-flow pump device under different inflow angles. Influenced by asymmetric inflow, the design point of the external characteristics deviated towards the overload flow rate, and the maximum deviations were obtained under 1.2 Q des, whereas the influence of the inflow angle on the internal flow fields was the most significant under the part-load flow rate. When the inflow angle increased from 0° to 30°, the total entropy production in the pump device increased by 18.35% under 0.6 Q des, and indirect dissipation accounted for the largest proportion. The internal flow patterns in the impeller and guide vane were also distorted by asymmetric inflow. The indirect dissipation rate on the suction side of the impeller blade, interface between the impeller and diffuser, and pressure side of the guide vane increased significantly with an increase in the inflow angle. To restrain the influence of asymmetric inflow, it is of great significance to optimise the hydraulic design structure of the inflow runner. In this study, a middle spacer pier was used to improve the operational efficiency of the pump device.

Published
2022
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33. Assessing the threshold effects of road infrastructure construction on farmland use transition: an empirical study in China

Author

Yifeng Tang, Xinhai Lu, Mengcheng Wang, Bin Jiang, Danling Chen, and Kun Ge

Subjects
China, Farms, Health, Toxicology and Mutagenesis, Environmental Chemistry, Economic Development, General Medicine, Empirical Research, Pollution
Abstract

China's rapid road infrastructure construction (RIC) occupies farmland and promotes the flow of rural development factors, which causes farmland use transition (FUT). Although prior research on RIC and their impact on FUT has attracted considerable attention, few studies have investigated the threshold effect of RIC on FUT. Threshold effect is the phenomenon that when the level of RIC reaches a certain critical value, the level of FUT changes abruptly. This paper uses China's provincial panel data from 2004 to 2018 to evaluate FUT. We also consider the spatial spillover effect of RIC and construct a panel threshold regression model to assess the impact of RIC on FUT. The results demonstrate that, considering the spatial spillover effect, RIC significantly promotes FUT, and the threshold effect first rises and then falls. Also, the threshold effect of RIC on FUT also has significant regional heterogeneity. There is a significant single threshold effect for RIC in central and western China, with threshold values of 0.90 and 0.84, respectively, while the spatial lag of RIC in eastern China has a single threshold with a value of 1.10. Our research indicates that the Chinese central government should promote the synergistic increase in RIC and sustainable farmland use by improving the accessibility of road infrastructure and basing RIC planning on the actual development needs of the region.

Published
2022
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35. The Shift in Synonymous Codon Usage Reveals Similar Genomic Variation during Domestication of Asian and African Rice

Author

Guilian, Xiao, Junzhi, Zhou, Zhiheng, Huo, Tong, Wu, Yingchun, Li, Yajing, Li, Yanxia, Wang, and Mengcheng, Wang

Subjects
Crops, Agricultural, Organic Chemistry, Oryza, Genomics, General Medicine, rice, domestication, genomic variation, synonymous codon usage bias, DNA methylation, Catalysis, Computer Science Applications, Domestication, Inorganic Chemistry, Cytosine, Physical and Theoretical Chemistry, Codon Usage, Codon, Molecular Biology, Thymine, Spectroscopy
Abstract

The domestication of wild rice occurred together with genomic variation, including the synonymous nucleotide substitutions that result in synonymous codon usage bias (SCUB). SCUB mirrors the evolutionary specialization of plants, but its characteristics during domestication were not yet addressed. Here, we found cytosine- and guanidine-ending (NNC and NNG) synonymous codons (SCs) were more pronounced than adenosine- and thymine-ending SCs (NNA and NNT) in both wild and cultivated species of Asian and African rice. The ratios of NNC/G to NNA/T codons gradually decreased following the rise in the number of introns, and the preference for NNA/T codons became more obvious in genes with more introns in cultivated rice when compared with those in wild rice. SCUB frequencies were heterogeneous across the exons, with a higher preference for NNA/T in internal exons than in terminal exons. The preference for NNA/T in internal but not terminal exons was more predominant in cultivated rice than in wild rice, with the difference between wild and cultivated rice becoming more remarkable with the rise in exon numbers. The difference in the ratios of codon combinations representing DNA methylation-mediated conversion from cytosine to thymine between wild and cultivated rice coincided with their difference in SCUB frequencies, suggesting that SCUB reveals the possible association between genetic and epigenetic variation during the domestication of rice. Similar patterns of SCUB shift in Asian and African rice indicate that genomic variation occurs in the same non-random manner. SCUB representing non-neutral synonymous mutations can provide insight into the mechanism of genomic variation in domestication and can be used for the genetic dissection of agricultural traits in rice and other crops.

Published
2022
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36. Numerical Simulation on the Influence of Rotating Speed on the Hydraulic Loss Characteristics of Desalination Energy Recovery Turbine

Author

Ibra Fall, Qi Zhang, Mengcheng Wang, Bing Qi, and Desheng Zhang

Subjects
Leading edge, Materials science, Article Subject, Internal flow, Physics, QC1-999, Mechanical Engineering, Volute, Mechanics, Geotechnical Engineering and Engineering Geology, Condensed Matter Physics, Turbine, Draft tube, Impeller, Flow separation, Mechanics of Materials, Turbulence kinetic energy, Civil and Structural Engineering
Abstract

The performance of energy recovery turbine (ERT) directly determines the cost and energy consumption of reverse osmosis desalination. In order to study the performance and loss mechanisms of ERT under different conditions, the external characteristics and the losses of different components were quantitatively analyzed. The loss mechanisms of each component in the turbine were revealed through the comparative analysis of the internal flow field. The results show that the efficiency is 2.2% higher than that at the design speed when turbine runs at n = 22000 r/min. The impeller losses account for more than 67% of the total losses. The impeller loss is mainly observed at the leading edge. The vortex on the pressure side of the leading edge is caused by the impact effect, while the vortex on the suction side of the leading edge is caused by the flow separation. With the increase in the rotating speed, the loss caused by flow separation in impeller decreases obviously. The volute loss is mainly observed near the tongue, which is caused by the flow separation at the tongue. The design of the tongue is very important to the performance of the volute. The turbulent kinetic energy (TKE) and loss decrease with the increase in the rotating speed. The loss in the draft tube is mainly observed at the inlet core. With the increase in the rotating speed, the turbulence pulsation and the radial pressure fluctuation amplitude reduce. Therefore, the turbine can be operated at the design or slightly higher than the design rotating speed under the condition that both the hydraulic condition and the intensity are satisfied, which are conducive to the efficient utilization of energy.

Published
2021
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37. Professional and High-Level Gamers: Differences in Performance, Muscle Activity, and Hand Kinematics for Different Mice

Author

David Rempel, Yue Liu, Mengcheng Wang, Carisa Harris Adamson, Federico Arippa, Alan Barr, and Guangchuan Li

Subjects
Human-Computer Interaction, medicine.medical_specialty, Physical medicine and rehabilitation, medicine, Human Factors and Ergonomics, Kinematics, Computer mouse, Muscle activity, Psychology, Office workers, Computer Science Applications
Abstract

Computer mouse design can impact user comfort and performance. The effect of mouse design on gamers, who use a mouse for long hours and apply higher velocity movements than office workers, is uncer...

Published
2021
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38. Analysis of the auricles and auricular shape types for ear-related wearables: A study of mainland Chinese sample aged 15-79

Author

Mengcheng Wang, Hao Fan, Suihuai Yu, Long Wang, Jianjie Chu, Xing Tang, Wenhua Li, Xiao Zhao, Shuai Zhang, and Dengkai Chen

Subjects
Male, China, Wearable Electronic Devices, Anthropometry, Rehabilitation, Public Health, Environmental and Occupational Health, Humans, Female, Ear, External, Ear Auricle
Abstract

BACKGROUND: Comprehension of the complex shape of the auricle and how it differs in terms of factors such as sex, age, and side have become an imperative aspect of the fabrication and service delivery of products that are natural, functional, and healthy for users. OBJECTIVE: This study was aimed at providing a clear understanding of the anthropometric characteristics based on age, sex, size, and side and shape type of the auricles of mainland Chinese samples. METHODS: Casting and 3D scanning were employed to obtain eighteen auricular measurement variables from 1120 subjects (aged 15–79). Examination of sex-related and bilateral differences were conducted. Furthermore, factor analysis was employed to establish the factors associated with the variations in auricular shape. Also, hierarchical cluster analysis was performed to classify the auricular shapes of individuals. RESULTS: The auricular inclination angle, conchal depth and tragal height did not exhibit any specific trend across the age groups. No significant bilateral difference was observed in both genders. The auricular shapes were classified into five types according to six major factors. CONCLUSIONS: It was observed that measurement variables of the Chinese auricles changed continuously with age, with most of the linear variables exhibiting a steady increase. The apparent strong association between the auricular types and age groups indicate that a person’s auricular shape may change with age.

Published
2022

39. Hand Posture and Force Estimation Using Surface Electromyography and an Artificial Neural Network

Author

Mengcheng Wang, Jay Kapellusch, Chuan Zhao, Alan Barr, Hao Fan, Carisa Harris Adamson, and Suihuai Yu

Subjects
Surface (mathematics), medicine.diagnostic_test, Artificial neural network, business.industry, Computer science, Forearm surface, 05 social sciences, GRASP, Human Factors and Ergonomics, Electromyography, 030210 environmental & occupational health, 03 medical and health sciences, Behavioral Neuroscience, 0302 clinical medicine, medicine, 0501 psychology and cognitive sciences, Computer vision, Artificial intelligence, business, 050107 human factors, Applied Psychology
Abstract

Objective The purpose of this study was to develop an approach to predict hand posture (pinch versus grip) and grasp force using forearm surface electromyography (sEMG) and artificial neural networks (ANNs) during tasks that varied repetition rate and duty cycle. Background Prior studies have used electromyography with machine learning models to predict grip force but relatively few studies have assessed whether both hand posture and force can be predicted, particularly at varying levels of duty cycle and repetition rate. Method Fourteen individuals participated in this experiment. sEMG data for five forearm muscles and force output data were collected. Calibration data (25, 50, 75, 100% of maximum voluntary contraction (MVC)) were used to train ANN models to predict hand posture (pinch versus grip) and force magnitude while performing tasks that varied load, repetition rate, and duty cycle. Results Across all participants, overall hand posture prediction accuracy was 79% (0.79 ± .08), whereas overall hand force prediction accuracy was 73% (0.73 ± .09). Accuracy ranged between 0.65 and 0.93 based on varying repetition rate and duty cycle. Conclusion Hand posture and force prediction were possible using sEMG and ANNs, though there were important differences in the accuracy of predictions based on task characteristics including duty cycle and repetition rate. Application The results of this study could be applied to the development of a dosimeter used for distal upper extremity biomechanical exposure measurement, risk assessment, job (re)design, and return to work programs.

Published
2021
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40. Analysis of the external acoustic meatus for ergonomic design: part II – anthropometric variations of the external acoustic meatus by sex, age and side in Chinese population

Author

Mengcheng Wang, Yihui Ren, Xiao Zhao, Mei Li, Suihuai Yu, Carisa Harris Adamson, Dengkai Chen, Hao Fan, and Shuai Zhang

Subjects
Male, Orthodontics, China, Chinese population, Anthropometry, Anthropometric data, business.industry, 05 social sciences, Ear, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, 030229 sport sciences, External Acoustic Meatus, 03 medical and health sciences, 0302 clinical medicine, Humans, Medicine, 0501 psychology and cognitive sciences, Ergonomics, business, Ear Canal, 050107 human factors
Abstract

For devices worn inside the ear, detailed anthropometric data of the external acoustic meatus (EAM) is needed, yet lacking due to the complex and costly methodology associated with attaining such measurements. The purpose of this study was to provide the anthropometric characteristics of the EAM including variations by age group, sex, and side (right/left). 1400 external ears (700 Chinese subjects) were casted and scanned. A total of 23 EAM dimensions of length, width, angle, circumference and area were measured, most of which changed by age group, sex and side. 19 measurements were larger in males and 17 measurements were larger in left-side ears. Except the entrance length and circumference, measurements were not statistically significant between left- and right-side ears. This study provides key anthropometric measurements of the EAM in a Chinese population which can be used for ergonomic design purposes.

Published
2021
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41. Wheat genomic study for genetic improvement of traits in China

Author

Jun Xiao, Bao Liu, Yingyin Yao, Zifeng Guo, Haiyan Jia, Lingrang Kong, Aimin Zhang, Wujun Ma, Zhongfu Ni, Shengbao Xu, Fei Lu, Yuannian Jiao, Wuyun Yang, Xuelei Lin, Silong Sun, Zefu Lu, Lifeng Gao, Guangyao Zhao, Shuanghe Cao, Qian Chen, Kunpu Zhang, Mengcheng Wang, Meng Wang, Zhaorong Hu, Weilong Guo, Guoqiang Li, Xin Ma, Junming Li, Fangpu Han, Xiangdong Fu, Zhengqiang Ma, Daowen Wang, Xueyong Zhang, Hong-Qing Ling, Guangmin Xia, Yiping Tong, Zhiyong Liu, Zhonghu He, Jizeng Jia, and Kang Chong

Subjects
Plant Breeding, Phenotype, Quantitative Trait Loci, Genomics, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology, Genome, Plant, Triticum, General Environmental Science
Abstract

Bread wheat (Triticum aestivum L.) is a major crop that feeds 40% of the world's population. Over the past several decades, advances in genomics have led to tremendous achievements in understanding the origin and domestication of wheat, and the genetic basis of agronomically important traits, which promote the breeding of elite varieties. In this review, we focus on progress that has been made in genomic research and genetic improvement of traits such as grain yield, end-use traits, flowering regulation, nutrient use efficiency, and biotic and abiotic stress responses, and various breeding strategies that contributed mainly by Chinese scientists. Functional genomic research in wheat is entering a new era with the availability of multiple reference wheat genome assemblies and the development of cutting-edge technologies such as precise genome editing tools, high-throughput phenotyping platforms, sequencing-based cloning strategies, high-efficiency genetic transformation systems, and speed-breeding facilities. These insights will further extend our understanding of the molecular mechanisms and regulatory networks underlying agronomic traits and facilitate the breeding process, ultimately contributing to more sustainable agriculture in China and throughout the world.

Published
2022

42. The Influence of Land Disposition Derived from Land Finance on Urban Innovation in China: Mechanism Discussion and Empirical Evidence

Author

Siyu Han, Mengcheng Wang, Qi Liu, Renyang Wang, Guoliang Ou, and Lu Zhang

Subjects
China, Inventions, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Economic Development, Cities, land disposition, land finance, urban innovation, dynamic spatial Durbin model
Abstract

As China’s economy advances into a new stage of high-quality development driven by scientific and technological innovation, it is of great practical importance to probe what effects land disposition, which underpinned the previous round of rapid economic growth, and may have an exertion on developing innovation. Based on a deep exploration of the potential positive and negative influences of land disposition in relation to the effects of land finance on urban innovation, we employed a dynamic spatial Durbin model, along with panel data from 266 Chinese prefecture-level cities over the period 2004–2017. The empirical results show that the development of China’s urban innovation has had significant path dependence, spatial agglomeration, and inhibiting effects on neighboring cities, and these effects are attributed to inter-governmental competition and the Matthew effect. Overall, the combined impacts of land disposition modes on urban innovation have changed, from facilitative in the early stage to inhibitory at present. In the developed cities of east China, the facilitative effect of land disposition has weakened gradually, and tends to disappear entirely, while the change in impact over time in less developed mid-western cities is consistent with the national sample. This study broadens our understanding of the role of land disposition in China’s urban innovative development and has meaningful direct implications for policymakers.

Published
2022

43. Effects of variations in the tragus expansion angle on physical comfort for in-ear wearables

Author

Mengcheng Wang, Hao Fan, Suihuai Yu, Xiao Zhao, Long Wang, Wenhua Li, Lei Wang, Mingjiu Yu, Jianjie Chu, Shuai Zhang, and Dengkai Chen

Subjects
Male, Wearable Electronic Devices, Humans, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Female, Ergonomics, Ear, External, Ear Auricle
Abstract

Tragus expansion angle (TEA) is an angular variable that quantifies the outward degree of expansion of the tragus cartilage induced by in-ear wearables (designed with hard materials) fitted into the external ear. It is a physical factor that directly influence user's comfort experience during interaction with in-ear wearables. This study was aimed at quantifying the effects of variations in TEA on physical comfort. TEA was measured and normalised employing a measuring device and Tragus Expansion Index (TEI) proposed in this study. Physical (dis)comfort was assessed using a rating scale designed based on the 5-point Likert and Borg-CR10 scales. Comparatively, the comfort range of variations in TEA was similar for both genders. Males could endure a higher level of variations in TEA compared to females. A quantitative relationship between variations in TEA and (dis)comfort ratings was established using TEI values and GaussAmp function, which can be employed for ergonomic design purposes.

Published
2022

44. SDG-oriented multi-scenario sustainable land-use simulation under the background of urban expansion

Author

Min Zhou, Yuxiang Ma, Jiating Tu, and Mengcheng Wang

Subjects
China, Conservation of Natural Resources, Health, Toxicology and Mutagenesis, Urbanization, Environmental Chemistry, Humans, General Medicine, Sustainable Development, Pollution, Carbon, Ecosystem
Abstract

With the continuous improvement of urbanization level and the continuous expansion of city scale, there are some unreasonable land development and utilization problems, which will make the contradiction between people and land more prominent and the risk of ecological environment deterioration more serious. It hinders the sustainable land use (SLU) and then affects the realization of regional Sustainable Development Goals (SDGs). SDGs have become a programmatic document for all countries in the world to implement sustainable development. It provides a guideline and direction for the sustainable urban expansion. The sustainable urban expansion promotes the realization of SDGs worldwide. By combining the SDGs with the urban SLU, this paper obtains the optimized future land-use demand of the multi-scenario city and the urban expansion simulation scenario to the SDGs under the multi-scenario through the uncertain mathematical model (MIFCCP) and the spatial simulation model (PLUS). We find that firstly, the net profit of land use (LNB) reaches the highest value under the economic development scenario (ED), when the probability of environmental constraint violation p = 0.01 and p = 0.15, LNB = [2625.48, 3244.98] × 10

Published
2021

45. Hybrid Economic-Environment-Ecology Land Planning Model under Uncertainty—A Case Study in Mekong Delta

Author

Mengcheng Wang, Yuxiang Ma, Jiating Tu, Chaonan Ma, and Min Zhou

Subjects
Consumption (economics), Food security, Land use, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Ecology, Geography, Planning and Development, Probabilistic logic, TJ807-830, Land-use planning, Management, Monitoring, Policy and Law, Environmental economics, TD194-195, Natural resource, land planning, Renewable energy sources, land use allocation, Mekong Delta, Environmental sciences, Work (electrical), Environmental science, GE1-350, Agricultural productivity, uncertainty, interval probabilistic fuzzy
Abstract

The research on land natural resources as the leading factor in the Mekong Delta (MD) is insufficient. Facing the fragile and sensitive ecological environment of MD, how to allocate limited land resources to different land use types to obtain more economic benefits is a challenge that local land managers need to face. Three uncertainties in land use system, interval uncertainty, fuzzy uncertainty, and random uncertainty, are fully considered and an interval probabilistic fuzzy land use allocation (IPF-LUA) model is proposed and applied to multiple planning periods for MD. IPF-LUA considers not only the crucial socio-economic factors (food security, output of wood products, etc.) but also the ecological/environmental constraints in agricultural production (COD discharge, BOD5 discharge, antibiotic consumption, etc.). Therefore, it can effectively reflect the interaction among different aspects of MD land use system. The degree of environmental subordination is between 0.51 and 0.73, the net benefit of land system is between USD 23.31 × 109 and USD 24.24 × 109 in period 1, and USD 25.44 × 109 to 25.68 × 109 in period 2. The results show that the IPF-LUA model can help the decision-makers weigh the economic and ecological benefits under different objectives and work out an optimized land use allocation scheme.

Published
2021

46. Anthropometric Analysis of External Acoustic Meatus for Ergonomic Design

Author

Yihui Ren, Mengcheng Wang, Suihuai Yu, Jianjie Chu, Hao Fan, and Carisa Harris Adamson

Subjects
Medical Terminology, External Acoustic Meatus, Hearing protection, Noise, Computer science, Noise reduction, Acoustics, otorhinolaryngologic diseases, Wearable computer, sense organs, Medical Assisting and Transcription
Abstract

Ear-related wearable products have become ubiquitous and are used daily for instant communication, entertainment, hearing protection (occupational noise) and noise reduction. The proper fit of ear related wearables is imperative to their function and comfort. Prior studies have demonstrated that some anthropometric measures of the ear changes with age. However, despite this, there is a lack of relevant studies on how key dimensions of the ear, like the external acoustic meatus (EAM), change with age. Therefore, the primary purpose of this study was to define EAM measurements that are important for the ergonomic design of ear-related wearable products and explore how the EAM anthropometry changes with age.

Published
2020
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47. Anthropometric characteristics and product categorization of Chinese auricles for ergonomic design

Author

Shuai Zhang, Ning Wang, Hao Fan, Mengcheng Wang, Wenzhong Wang, Jianjie Chu, Tong Wu, Suihuai Yu, and Dengkai Chen

Subjects
Auricle, Orthodontics, 030506 rehabilitation, Anthropometric data, business.industry, 05 social sciences, Public Health, Environmental and Occupational Health, Human Factors and Ergonomics, Anthropometry, 03 medical and health sciences, medicine.anatomical_structure, Categorization, otorhinolaryngologic diseases, Medicine, 0501 psychology and cognitive sciences, 0305 other medical science, business, 050107 human factors
Abstract

The purpose of this study is to provide summarized anthropometric data and ergonomic characteristics about Chinese auricles and categorization modes of anthropometric measurements and ear-related wearable products. 700 male and female volunteers aged 15–90 were recruited, a new measurement has been proposed and 19 ear measurements were measured in this study. 93% volunteers were right-handed people, 15 linear measurements and 3 angular measurements were taken directly on the auricle, and the angle between tragus and medial concha was measured by scanning. Most measurements increase steadily with age, auricular length has highest correlation with age (0.753, p

Published
2019
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48. The Hierarchical Structure and Predictive Validity of the Personality Inventory for

Author

Wenjuan, Zhang, Mengcheng, Wang, Meng, Yu, and Jianping, Wang

Subjects
Diagnostic and Statistical Manual of Mental Disorders, Adolescent, Asian People, Personality Inventory, Humans, Reproducibility of Results, Female, Personality Disorders
Abstract

To evaluate the factor structure, reliability, and validity of the Personality Inventory for

Published
2021

49. Asymmetric Somatic Hybridization Affects Synonymous Codon Usage Bias in Wheat

Author

Chun Liu, Wenjing Xu, Yanxia Wang, Yingchun Li, Yajing Li, Mengcheng Wang, and Guangmin Xia

Subjects
0106 biological sciences, 0301 basic medicine, Somatic cell, introgression line, QH426-470, Biology, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, wheat, Genetic variation, Genetics, synonymous codon usage bias, Allele, Indel, Genetics (clinical), Original Research, somatic hybridization, genomic shock, Somatic fusion, 030104 developmental biology, chemistry, Codon usage bias, DNA methylation, Molecular Medicine, DNA, 010606 plant biology & botany
Abstract

Asymmetric somatic hybridization is an efficient strategy for crop breeding by introducing exogenous chromatin fragments, which leads to whole genomic shock and local chromosomal shock that induces genome-wide genetic variation including indel (insertion and deletion) and nucleotide substitution. Nucleotide substitution causes synonymous codon usage bias (SCUB), an indicator of genomic mutation and natural selection. However, how asymmetric somatic hybridization affects SCUB has not been addressed. Here, we explored this issue by comparing expressed sequence tags of a common wheat cultivar and its asymmetric somatic hybrid line. Asymmetric somatic hybridization affected SCUB and promoted the bias to A- and T-ending synonymous codon (SCs). SCUB frequencies in chromosomes introgressed with exogenous fragments were comparable to those in chromosomes without exogenous fragments, showing that exogenous fragments had no local chromosomal effect. Asymmetric somatic hybridization affected SCUB frequencies in indel-flanking sequences more strongly than in non-flanking sequences, and this stronger effect was present in both chromosomes with and without exogenous fragments. DNA methylation-driven SCUB shift was more pronounced than other SC pairs. SCUB shift was similar among seven groups of allelic chromosomes as well as three sub-genomes. Our work demonstrates that the SCUB shift induced by asymmetric somatic hybridization is attributed to the whole genomic shock, and DNA methylation is a putative force of SCUB shift during asymmetric somatic hybridization. Asymmetric somatic hybridization provides an available method for deepening the nature of SCUB shift and genetic variation induced by genomic shock.

Published
2021

50. Do You Feel Included? A Latent Profile Analysis of Inclusion in the Chinese Context

Author

Jiaojiao Qu and Mengcheng Wang

Subjects
General Psychology
Abstract

Although the importance of inclusion has been firmly supported by prior studies, the question of whether certain subgroups exist in the workplace whose members feel more or less included remains under-explored, limiting our understanding of how an inclusive workplace can be achieved. To address this gap, the current study conducted a latent profile analysis (LPA) to obtain evidence-based information regarding employees’ sense of inclusion in their organizations. Using a sample of 1,168 participants engaged in multiple industries in China, we identified three profiles of inclusion, with a largest proportion feeling a moderate level of inclusion (69.5%), a smaller proportion feeling a high level of inclusion (22.7%), and a tiny proportion feeling a low level of inclusion (7.8%). The three profiles differ significantly on key variables, demonstrating that the group feeling more included tends to be more aged and tenured, hold a higher educational degree, work in the high-tech sector, and come from a developed area. Such a group also shows more engagement in their work but less exhaustion, feels that they have more opportunities for development, and gains more support from colleagues and supervisors. Our findings point to the existence of subgroups of inclusion within the Chinese context and highlight the characteristics of these profiles, which in turn shed lights on how we can reach the goal of inclusion.

Published
2021

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