Your search keyword '"Zhong Wei"' showing total 15,699 results

1. Volatile-mediated interspecific plant interaction promotes root colonization by beneficial bacteria via induced shifts in root exudation

Author

Xingang Zhou, Jingyu Zhang, Jibo Shi, Muhammad Khashi u Rahman, Hongwei Liu, Zhong Wei, Fengzhi Wu, and Francisco Dini-Andreote

Subjects

Volatile organic compounds, Interspecific plant interaction, Rhizosphere, Microbiota, Root colonization, Microbial ecology, QR100-130

Abstract

Abstract Background Volatile organic compounds (VOCs) released by plants can act as signaling molecules mediating ecological interactions. Therefore, the study of VOCs mediated intra- and interspecific interactions with downstream plant physiological responses is critical to advance our understanding of mechanisms underlying information exchange in plants. Here, we investigated how plant-emitted VOCs affect the performance of an interspecific neighboring plant via induced shifts in root exudate chemistry with implications for root-associated microbiota recruitment. Results First, we showed that VOCs emitted by potato-onion plants stimulate the growth of adjacent tomato plants. Then, we demonstrated that this positive effect on tomato biomass was attributed to shifts in the tomato rhizosphere microbiota. Specifically, we found potato-onion VOCs to indirectly affect the recruitment of specific bacteria (e.g., Pseudomonas and Bacillus spp.) in the tomato rhizosphere. Second, we identified and validated the compound dipropyl disulfide as the active molecule within the blend of potato-onion VOCs mediating this interspecific plant communication. Third, we showed that the effect on the tomato rhizosphere microbiota occurs via induced changes in root exudates of tomato plants caused by exposure to dipropyl disulfide. Last, Pseudomonas and Bacillus spp. bacteria enriched in the tomato rhizosphere were shown to have plant growth-promoting activities. Conclusions Potato-onion VOCs—specifically dipropyl disulfide—can induce shifts in the root exudate of adjacent tomato plants, which results in the recruitment of plant-beneficial bacteria in the rhizosphere. Taken together, this study elucidated a new mechanism of interspecific plant interaction mediated by VOCs resulting in alterations in the rhizosphere microbiota with beneficial outcomes for plant performance. Video Abstract

Published

2024

2. Prophage-encoded antibiotic resistance genes are enriched in human-impacted environments

Author

Hanpeng Liao, Chen Liu, Shungui Zhou, Chunqin Liu, David J. Eldridge, Chaofan Ai, Steven W. Wilhelm, Brajesh K. Singh, Xiaolong Liang, Mark Radosevich, Qiu-e Yang, Xiang Tang, Zhong Wei, Ville-Petri Friman, Michael Gillings, Manuel Delgado-Baquerizo, and Yong-guan Zhu

Subjects

Science

Abstract

Abstract The spread of antibiotic resistance genes (ARGs) poses a substantial threat to human health. Phage-mediated transduction could exacerbate ARG transmission. While several case studies exist, it is yet unclear to what extent phages encode and mobilize ARGs at the global scale and whether human impacts play a role in this across different habitats. Here, we combine 38,605 bacterial genomes, 1432 metagenomes, and 1186 metatranscriptomes across 12 contrasting habitats to explore the distribution of prophages and their cargo ARGs in natural and human-impacted environments. Worldwide, we observe a significant increase in the abundance, diversity, and activity of prophage-encoded ARGs in human-impacted habitats linked with relatively higher risk of past antibiotic exposure. This effect was driven by phage-encoded cargo ARGs that could be mobilized to provide increased resistance in heterologous E. coli host for a subset of analyzed strains. Our findings suggest that human activities have altered bacteria-phage interactions, enriching ARGs in prophages and making ARGs more mobile across habitats globally.

Published

2024

3. Fusaric acid mediates the assembly of disease-suppressive rhizosphere microbiota via induced shifts in plant root exudates

Author

Xue Jin, Huiting Jia, Lingyi Ran, Fengzhi Wu, Junjie Liu, Klaus Schlaeppi, Francisco Dini-Andreote, Zhong Wei, and Xingang Zhou

Subjects

Science

Abstract

Abstract The plant health status is determined by the interplay of plant-pathogen-microbiota in the rhizosphere. Here, we investigate this tripartite system focusing on the pathogen Fusarium oxysporum f. sp. lycopersici (FOL) and tomato plants as a model system. First, we explore differences in tomato genotype resistance to FOL potentially associated with the differential recruitment of plant-protective rhizosphere taxa. Second, we show the production of fusaric acid by FOL to trigger systemic changes in the rhizosphere microbiota. Specifically, we show this molecule to have opposite effects on the recruitment of rhizosphere disease-suppressive taxa in the resistant and susceptible genotypes. Last, we elucidate that FOL and fusaric acid induce changes in the tomato root exudation with direct effects on the recruitment of specific disease-suppressive taxa. Our study unravels a mechanism mediating plant rhizosphere assembly and disease suppression by integrating plant physiological responses to microbial-mediated mechanisms in the rhizosphere.

Published

2024

4. Feature sequence-based genome mining uncovers the hidden diversity of bacterial siderophore pathways

Author

Shaohua Gu, Yuanzhe Shao, Karoline Rehm, Laurent Bigler, Di Zhang, Ruolin He, Ruichen Xu, Jiqi Shao, Alexandre Jousset, Ville-Petri Friman, Xiaoying Bian, Zhong Wei, Rolf Kümmerli, and Zhiyuan Li

Subjects

microbial secondary metabolites, siderophore, pyoverdine, genome mining, non-ribosomal peptide synthetases, Pseudomonas, Medicine, Science, Biology (General), QH301-705.5

Abstract

Microbial secondary metabolites are a rich source for pharmaceutical discoveries and play crucial ecological functions. While tools exist to identify secondary metabolite clusters in genomes, precise sequence-to-function mapping remains challenging because neither function nor substrate specificity of biosynthesis enzymes can accurately be predicted. Here, we developed a knowledge-guided bioinformatic pipeline to solve these issues. We analyzed 1928 genomes of Pseudomonas bacteria and focused on iron-scavenging pyoverdines as model metabolites. Our pipeline predicted 188 chemically different pyoverdines with nearly 100% structural accuracy and the presence of 94 distinct receptor groups required for the uptake of iron-loaded pyoverdines. Our pipeline unveils an enormous yet overlooked diversity of siderophores (151 new structures) and receptors (91 new groups). Our approach, combining feature sequence with phylogenetic approaches, is extendable to other metabolites and microbial genera, and thus emerges as powerful tool to reconstruct bacterial secondary metabolism pathways based on sequence data.

Published

2024

5. Exploring the temporal dynamics of a disease suppressive rhizo-microbiome in eggplants

Author

Yuling Zhang, Guiyun Gan, Yarong Li, Weiliu Li, Yaqin Jiang, Peng Wang, Jie Hu, Ningqi Wang, Xiaowen Quan, Jialin Liu, Waseem Raza, Yangchun Xu, Pierre Hohmann, Alexandre Jousset, Yikui Wang, Qirong Shen, Gaofei Jiang, and Zhong Wei

Subjects

Microbiology, Applied microbiology, Plant Biology, Plant pathology, Soil ecology, Soil biology, Science

Abstract

Summary: The rhizosphere microbiome is important for plant health, yet their contributions to disease resistance and assembly dynamics remain unclear. This study employed rhizosphere microbiome transplantation (RMT) to delineate the impact of the rhizosphere microbiome and the immune response of eggplant (Solanum melongena) on resistance to bacterial wilt caused by Ralstonia solanacearum. We first identified disease-suppressive and disease-conducive rhizosphere microbiome in a susceptible tomato recipient. Using a non-destructive rhizobox and 16S rRNA amplicon sequencing, we monitored the dynamics of both microbiome types during the eggplant development. Most differences were observed at the early stage and then diminished over time. The suppressive microbiome maintained a higher proportion of initial community members throughout eggplant development and exhibited stronger deterministic processes in the early stage, underscoring the importance of plant selection in recruiting protective microbes for rhizosphere immunity. Our study sheds light on the development of microbiome-based strategies for plant disease management and resistance breeding.

Published

2024

6. Phages enhance both phytopathogen density control and rhizosphere microbiome suppressiveness

Author

Xiaofang Wang, Shuo Wang, Mingcong Huang, Yilin He, Saisai Guo, Keming Yang, Ningqi Wang, Tianyu Sun, Hongwu Yang, Tianjie Yang, Yangchun Xu, Qirong Shen, Ville-Petri Friman, and Zhong Wei

Subjects

bacterial wilt disease, phage biocontrol, rhizosphere microbiome, Ralstonia solanacearum, soil suppressiveness, Microbiology, QR1-502

Abstract

ABSTRACT Bacteriophages, viruses that specifically target plant pathogenic bacteria, have emerged as a promising alternative to traditional agrochemicals. However, it remains unclear how phages should be applied to achieve efficient pathogen biocontrol and to what extent their efficacy is shaped by indirect interactions with the resident microbiota. Here, we tested if the phage biocontrol efficacy of Ralstonia solanacearum phytopathogenic bacterium can be improved by increasing the phage cocktail application frequency and if the phage efficacy is affected by pathogen-suppressing bacteria already present in the rhizosphere. We find that increasing phage application frequency improves R. solanacearum density control, leading to a clear reduction in bacterial wilt disease in both greenhouse and field experiments with tomato. The high phage application frequency also increased the diversity of resident rhizosphere microbiota and enriched several bacterial taxa that were associated with the reduction in pathogen densities. Interestingly, these taxa often belonged to Actinobacteria known for antibiotics production and soil suppressiveness. To test if they could have had secondary effects on R. solanacearum biocontrol, we isolated Actinobacteria from Nocardia and Streptomyces genera and tested their suppressiveness to the pathogen in vitro and in planta. We found that these taxa could clearly inhibit R. solanacearum growth and constrain bacterial wilt disease, especially when combined with the phage cocktail. Together, our findings unravel an undiscovered benefit of phage therapy, where phages trigger a second line of defense by the pathogen-suppressing bacteria that already exist in resident microbial communities.IMPORTANCERalstonia solanacearum is a highly destructive plant-pathogenic bacterium with the ability to cause bacterial wilt in several crucial crop plants. Given the limitations of conventional chemical control methods, the use of bacterial viruses (phages) has been explored as an alternative biological control strategy. In this study, we show that increasing the phage application frequency can improve the density control of R. solanacearum, leading to a significant reduction in bacterial wilt disease. Furthermore, we found that repeated phage application increased the diversity of rhizosphere microbiota and specifically enriched Actinobacterial taxa that showed synergistic pathogen suppression when combined with phages due to resource and interference competition. Together, our study unravels an undiscovered benefit of phages, where phages trigger a second line of defense by the pathogen-suppressing bacteria present in resident microbial communities. Phage therapies could, hence, potentially be tailored according to host microbiota composition to unlock the pre-existing benefits provided by resident microbiota.

Published

2024

7. Effects of plant tissue permeability on invasion and population bottlenecks of a phytopathogen

Author

Gaofei Jiang, Yuling Zhang, Min Chen, Josep Ramoneda, Liangliang Han, Yu Shi, Rémi Peyraud, Yikui Wang, Xiaojun Shi, Xinping Chen, Wei Ding, Alexandre Jousset, Yasufumi Hikichi, Kouhei Ohnishi, Fang-Jie Zhao, Yangchun Xu, Qirong Shen, Francisco Dini-Andreote, Yong Zhang, and Zhong Wei

Subjects

Science

Abstract

Abstract Pathogen genetic diversity varies in response to environmental changes. However, it remains unclear whether plant barriers to invasion could be considered a genetic bottleneck for phytopathogen populations. Here, we implement a barcoding approach to generate a pool of 90 isogenic and individually barcoded Ralstonia solanacearum strains. We used 90 of these strains to inoculate tomato plants with different degrees of physical permeability to invasion (intact roots, wounded roots and xylem inoculation) and quantify the phytopathogen population dynamics during invasion. Our results reveal that the permeability of plant roots impacts the degree of population bottleneck, genetic diversity, and composition of Ralstonia populations. We also find that selection is the main driver structuring pathogen populations when barriers to infection are less permeable, i.e., intact roots, the removal of root physical and immune barriers results in the predominance of stochasticity in population assembly. Taken together, our study suggests that plant root permeability constitutes a bottleneck for phytopathogen invasion and genetic diversity.

Published

2024

8. Microbiome convergence enables siderophore-secreting-rhizobacteria to improve iron nutrition and yield of peanut intercropped with maize

Author

Nanqi Wang, Tianqi Wang, Yu Chen, Ming Wang, Qiaofang Lu, Kunguang Wang, Zhechao Dou, Zhiguang Chi, Wei Qiu, Jing Dai, Lei Niu, Jianyu Cui, Zhong Wei, Fusuo Zhang, Rolf Kümmerli, and Yuanmei Zuo

Subjects

Science

Abstract

Abstract Intercropping has the potential to improve plant nutrition as well as crop yield. However, the exact mechanism promoting improved nutrient acquisition and the role the rhizosphere microbiome may play in this process remains poorly understood. Here, we use a peanut/maize intercropping system to investigate the role of root-associated microbiota in iron nutrition in these crops, combining microbiome profiling, strain and substance isolation and functional validation. We find that intercropping increases iron nutrition in peanut but not in maize plants and that the microbiota composition changes and converges between the two plants tested in intercropping experiments. We identify a Pseudomonas secreted siderophore, pyoverdine, that improves iron nutrition in glasshouse and field experiments. Our results suggest that the presence of siderophore-secreting Pseudomonas in peanut and maize intercropped plays an important role in iron nutrition. These findings could be used to envision future intercropping practices aiming to improve plant nutrition.

Published

2024

9. Crop rotation and native microbiome inoculation restore soil capacity to suppress a root disease

Author

Yanyan Zhou, Zhen Yang, Jinguang Liu, Xudong Li, Xingxiang Wang, Chuanchao Dai, Taolin Zhang, Víctor J. Carrión, Zhong Wei, Fuliang Cao, Manuel Delgado-Baquerizo, and Xiaogang Li

Subjects

Science

Abstract

Abstract It is widely known that some soils have strong levels of disease suppression and prevent the establishment of pathogens in the rhizosphere of plants. However, what soils are better suppressing disease, and how management can help us to boost disease suppression remain unclear. Here, we used field, greenhouse and laboratory experiments to investigate the effect of management (monocropping and rotation) on the capacity of rhizosphere microbiomes in suppressing peanut root rot disease. Compared with crop rotations, monocropping resulted in microbial assemblies that were less effective in suppressing root rot diseases. Further, the depletion of key rhizosphere taxa in monocropping, which were at a disadvantage in the competition for limited exudates resources, reduced capacity to protect plants against pathogen invasion. However, the supplementation of depleted strains restored rhizosphere resistance to pathogen. Taken together, our findings highlight the role of native soil microbes in fighting disease and supporting plant health, and indicate the potential of using microbial inocula to regenerate the natural capacity of soil to fight disease.

Published

2023

10. SIDERITE: Unveiling hidden siderophore diversity in the chemical space through digital exploration

Author

Ruolin He, Shaohua Gu, Jiazheng Xu, Xuejian Li, Haoran Chen, Zhengying Shao, Fanhao Wang, Jiqi Shao, Wen‐Bing Yin, Long Qian, Zhong Wei, and Zhiyuan Li

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Published

2024

11. The coordinated operation strategy for offshore wind farms with energy storage under typhoon conditions considering the operation safety demand of receiver grid

Author

XIE Shanyi, YANG Qiang, XIE Enyan, ZHONG Wei, and ZHOU Gang

Subjects

offshore wind farms, energy storage, grid operation safety, typhoon, coordinated operation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Typhoon is an important factor leading to large-scale off-grid of offshore wind power， which is easy to cause a serious imbalance of supply and demand in the affected power grid， thus affecting the safe and stable operation of the regional power system， especially the coastal power grid with large-scale offshore wind power access. Based on this， this paper first establishes a typhoon mathematical model based on Rankine vortex model for the actual typhoon path. The method to slow down the effect of sudden drop of wind is proposed. Then， taking full account of the operation safety requirements of the receiving end power grid， a collaborative operation strategy of offshore wind farm including energy storage was proposed. Aiming at system safety， stability and operation economy， factors such as air abandonment volume and energy storage regulation capacity were comprehensively considered to optimize the wind abandonment volume of offshore wind power. Finally， a simulation analysis is carried out on the receiving end grid system of offshore wind power with energy storage. The results show that the strategy can minimize the operating cost of offshore wind power farm while ensuring the safety and stability of the receiving end system.

Published

2023

12. Effects of Two Air-conditioning Temperature Control Modes on the Safe Storage of Rice in High-temperature and High-humidity Areas

Author

CHEN Yue-yin, HUANG Dong-yang, WU Wen-jun, WEI Hai-shan, ZHONG Wei-xian, CAI Qing-chun, ZHENG Yuan-xin, and GUO Chao

Subjects

air-conditioning, temperature control, paddy, high temperature and high tumidity grain storage area, Food processing and manufacture, TP368-456, Nutrition. Foods and food supply, TX341-641

Abstract

The temperature changes of grain piles during rice storage in high-temperature and high-humidity grain storage areas were studied under the air-conditioning temperature control mode with a temperature of 22 ℃ and a daily opening time of 13 h and a temperature of 24 ℃ and a daily opening time of 24 h. The changes of rice moisture and fatty acid values ​​before and after temperature-controlled storage were compared, and the differences in temperature changes in each layer in the horizontal direction of grain piles at different depths were analyzed. The results showed that the average temperature and the maximum grain temperature of the grain pile increased slowly under different air-conditioning operation modes. Air-conditioned temperature-controlled grain storage had a greater impact on the surface temperature of the grain pile, but less impact on the middle layer grain temperature. During the air-conditioned temperature-controlled storage period, the lower layer grain temperature may be affected by the floor temperature. The temperature control mode that lowered the temperature control temperature but shortened the temperature control time was more economical and efficient. The temperature control mode of 22 ℃ + 13 h could save about 12.4% of electricity costs compared with the temperature control mode of 24 ℃ + 24 h. At the same time, the control effect of the warehouse temperature, surface grain temperature and average grain temperature of the grain pile with a lower basic grain temperature was more obvious, and the basic grain temperature of the grain pile played an important role in the implementation of temperature-controlled grain storage technology.

Published

2023

13. Synthetic microbial communities: Sandbox and blueprint for soil health enhancement

Author

Mei Li, Jie Hu, Zhong Wei, Alexandre Jousset, Thomas Pommier, Xiangyang Yu, Yangchun Xu, and Qirong Shen

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Published

2024

14. Engineering multifunctional rhizosphere probiotics using consortia of Bacillus amyloliquefaciens transposon insertion mutants

Author

Jingxuan Li, Chunlan Yang, Alexandre Jousset, Keming Yang, Xiaofang Wang, Zhihui Xu, Tianjie Yang, Xinlan Mei, Zengtao Zhong, Yangchun Xu, Qirong Shen, Ville-Petri Friman, and Zhong Wei

Subjects

genetic engineering, microbial consortia, ecological complementarity, plant-microbe interactions, diversity, transposon insertion, Medicine, Science, Biology (General), QH301-705.5

Abstract

While bacterial diversity is beneficial for the functioning of rhizosphere microbiomes, multi-species bioinoculants often fail to promote plant growth. One potential reason for this is that competition between different species of inoculated consortia members creates conflicts for their survival and functioning. To circumvent this, we used transposon insertion mutagenesis to increase the functional diversity within Bacillus amyloliquefaciens bacterial species and tested if we could improve plant growth promotion by assembling consortia of highly clonal but phenotypically dissimilar mutants. While most insertion mutations were harmful, some significantly improved B. amyloliquefaciens plant growth promotion traits relative to the wild-type strain. Eight phenotypically distinct mutants were selected to test if their functioning could be improved by applying them as multifunctional consortia. We found that B. amyloliquefaciens consortium richness correlated positively with plant root colonization and protection from Ralstonia solanacearum phytopathogenic bacterium. Crucially, 8-mutant consortium consisting of phenotypically dissimilar mutants performed better than randomly assembled 8-mutant consortia, suggesting that improvements were likely driven by consortia multifunctionality instead of consortia richness. Together, our results suggest that increasing intra-species phenotypic diversity could be an effective way to improve probiotic consortium functioning and plant growth promotion in agricultural systems.

Published

2023

15. Rhizosphere phage communities drive soil suppressiveness to bacterial wilt disease

Author

Keming Yang, Xiaofang Wang, Rujiao Hou, Chunxia Lu, Zhe Fan, Jingxuan Li, Shuo Wang, Yangchun Xu, Qirong Shen, Ville-Petri Friman, and Zhong Wei

Subjects

Phage community ecology, Viral metagenomics, Rhizosphere virome, Trophic interactions, Bacterial wilt disease, Ralstonia solanacearum, Microbial ecology, QR100-130

Abstract

Abstract Background Bacterial viruses, phages, play a key role in nutrient turnover and lysis of bacteria in terrestrial ecosystems. While phages are abundant in soils, their effects on plant pathogens and rhizosphere bacterial communities are poorly understood. Here, we used metagenomics and direct experiments to causally test if differences in rhizosphere phage communities could explain variation in soil suppressiveness and bacterial wilt plant disease outcomes by plant-pathogenic Ralstonia solanacearum bacterium. Specifically, we tested two hypotheses: (1) that healthy plants are associated with stronger top-down pathogen control by R. solanacearum-specific phages (i.e. ‘primary phages’) and (2) that ‘secondary phages’ that target pathogen-inhibiting bacteria play a stronger role in diseased plant rhizosphere microbiomes by indirectly ‘helping’ the pathogen. Results Using a repeated sampling of tomato rhizosphere soil in the field, we show that healthy plants are associated with distinct phage communities that contain relatively higher abundances of R. solanacearum-specific phages that exert strong top-down pathogen density control. Moreover, ‘secondary phages’ that targeted pathogen-inhibiting bacteria were more abundant in the diseased plant microbiomes. The roles of R. solanacearum-specific and ‘secondary phages’ were directly validated in separate greenhouse experiments where we causally show that phages can reduce soil suppressiveness, both directly and indirectly, via top-down control of pathogen densities and by alleviating interference competition between pathogen-inhibiting bacteria and the pathogen. Conclusions Together, our findings demonstrate that soil suppressiveness, which is most often attributed to bacteria, could be driven by rhizosphere phage communities that regulate R. solanacearum densities and strength of interference competition with pathogen-suppressing bacteria. Rhizosphere phage communities are hence likely to be important in determining bacterial wilt disease outcomes and soil suppressiveness in agricultural fields. Video Abstract

Published

2023

16. Multifaceted roles of flavonoids mediating plant-microbe interactions

Author

Lanxiang Wang, Moxian Chen, Pui-Ying Lam, Francisco Dini-Andreote, Lei Dai, and Zhong Wei

Subjects

Flavonoids, Host-microbe interaction, Microbiome, Root exudate, Rhizosphere, Microbial ecology, QR100-130

Abstract

Abstract Plant-microbe interactions dynamically affect plant growth, health, and development. The mechanisms underpinning these associations are—to a large extent—mediated by specialized host-derived secondary metabolites. Flavonoids are one of the most studied classes of such metabolites, regulating both plant development and the interaction with commensal microbes. Here, we provide a comprehensive review of the multiple roles of flavonoids in mediating plant-microbe interactions. First, we briefly summarize the general aspects of flavonoid synthesis, transport, and exudation in plants. Then, we review the importance of flavonoids regulating plant-microbe interactions and dynamically influencing the overall community assembly of plant-root microbiomes. Last, we highlight potential knowledge gaps in our understanding of how flavonoids determine the interactions between plants and commensal microbes. Collectively, we advocate the importance of advancing research in this area toward innovative strategies to effectively manipulate plant-microbiome composition, in this case, via flavonoid production and exudation in plant roots. Video Abstract

Published

2022

17. Novel targets for gastric cancer: The tumor microenvironment (TME), N6-methyladenosine (m6A), pyroptosis, autophagy, ferroptosis and cuproptosis

Author

Peizheng Yang, Wanting Yang, Zhong Wei, Yan Li, Yinfeng Yang, and Jinghui Wang

Subjects

Gastric cancer (GC), The tumor microenvironment (TME), N6-methyladenosine (m6A), Pyroptosis, Autophagy, Ferroptosis, Therapeutics. Pharmacology, RM1-950

Abstract

Gastric cancer (GC) is a fatal illness, and its mortality rate is very high all over the world. At present, it is a serious health problem for any country. It is a multifactorial disease due to the rising drug resistance and the increasing global cancer burden, the treatment of GC still faces many obstacles and problems. In recent years, research on GC is being carried out continuously, and we hope to address the new targets of GC treatment through this review. At the same time, we also hope to discover new ways to fight GC and create more gospel for clinical patients. First, we discuss the descriptive tumor microenvironment (TME), N6-methyladenosine (m6A), pyroptosis, autophagy, ferroptosis, and cuproptosis. Finally, we expounded on the new or potential targets of GC treatment.

Published

2023

18. A photovoltaic resource evaluation method based on meteorological and geospatial data

Author

Zheng Shurong, Zeng Zhaojie, Li Ziyu, Kong Wei, and Zhong Wei

Subjects

Environmental sciences, GE1-350

Abstract

The increasingly complex issues associated with climate change and environmental degradation have generated significant urgency for the international community to overcrowding sustainable energy alternatives. The validation of energy potential calculations for Lahore City was undertaken using climate data acquired from NASA and the meteorological department of Pakistan. The efficacy of photovoltaic resource evaluation can be enhanced through the integration of climatology data, digital elevation models, and population exposure. The findings of this study suggest significant possibilities for solar photovoltaic installations in Lahore. The results indicate that the implementation of small-scale solar panels has the potential to improve the sustainable energy infrastructure in Lahore. The northeastern region of Lahore is characterized by its significant potential. This study highlights the significance of cross-sector partnerships in facilitating the uptake of solar panels, which holds promise for promoting an evolution in the worldwide energy industry and effectively mitigating the detrimental impacts of climate change.

Published

2024

19. Epidemiological characteristics of scarlet fever in Minhang District， Shanghai from 2005 to 2020

Author

LIU Nian, ZHONG Wei, ZHANG Zhaowen, and WANG Weibing

Subjects

scarlet fever, epidemiological characteristic, incidence, regional distribution, student, Medicine

Abstract

ObjectiveTo analyze the epidemiological characteristics of scarlet fever in Minhang District， Shanghai from 2005 to 2020， and to provide scientific basis for the investigation and prevention of scarlet fever.MethodsWe collected the scarlet fever incidence data through the China Information System for Disease Control and Prevention； used SPSS 17.0 to conduct descriptive epidemiological analysis； and used EpiInfo to analyze and compare the differences in incidence rates between different regions.ResultsA total of 12 012 scarlet fever cases were reported in Minhang District， Shanghai from 2005 to 2020. There were more cases in 2011， 2015 and 2017， and the difference in annual incidence was statistically significant （χ2=6 023.977， P

Published

2022

20. Hand-assisted laparoscopic resection versus total laparoscopic gastric surgery for primary gastric gastrointestinal stromal tumors (GISTs): an analysis from a high-volume institution

Author

Ya-Jun Zhao, Yong-Qiang Qiu, Li-Ying Zhong, Wen-Ze Zheng, Lv-Ping Zhuang, Zhong Wei, and Zhong-Liang Ning

Subjects

Gastric GIST, Hand-assisted laparoscopic surgery, Total laparoscopic surgery, Surgical outcome, Surgery, RD1-811

Abstract

Abstract Background Laparoscopic resection of gastric gastrointestinal stromal tumors (GISTs) is technically feasible and associated with favorable outcomes. We compared the clinical efficacy of hand-assisted laparoscopic surgery (HLS) and total laparoscopic surgery (TLS) for gastric GISTs. Methods We retrospectively analyzed the clinical data of 69 consecutive patients diagnosed with a gastric GIST in a tertiary referral teaching hospital from December 2016 to December 2020. Surgical outcomes were compared between two groups. Results Fifty-three patients (TLS group: n = 36; HLS group: n = 17) were included. The mean age was 56.9 and 58.1 years in the TLS and HLS groups, respectively. The maximum tumor margin was significantly shorter in the HLS group than in the TLS group (2.3 ± 0.9. vs. 3.0 ± 0.8 cm; P = 0.004). The operative time of the HLS group was significantly shorter than that of the TLS group (70.6 ± 19.1 min vs. 134.4 ± 53.7 min; P

Published

2022

21. Evaluation of the clinical effectiveness of telephone consultation compared to face-to-face consultation in terms of glycaemic control among patients with suboptimally controlled type 2 diabetes: a retrospective cohort study

Author

Eng Sing Lee, Poay Sian Sabrina Lee, Zhong Wei Jeremy Koh, Sai Zhen Sim, and Kaiwei Jeremy Lew

Subjects

Medicine

Abstract

Objective With the COVID-19 pandemic, telemedicine has been increasingly deployed in lieu of face-to-face consultations for management of diabetes in primary care. There was a need to evaluate clinical effectiveness of telephone consultations for diabetes management and this study aimed to show whether one-off telephone consultation was inferior or not to face-to-face consultation in terms of glycaemic control among patients with suboptimally controlled type 2 diabetes.Design Retrospective cohort study. Data of all patients with type 2 diabetes who had a chronic disease consultation during the period 9 April 2020–18 September 2020, and met the study’s inclusion and exclusion criteria was obtained from the electronic medical records.Setting A primary care clinic in the north-eastern region of Singapore. The clinic’s patient population was representative of Singapore’s population in terms of gender and age.Participants 644 patients with type 2 diabetes and glycated haemoglobin (HbA1c) 7.0% and above, aged 21–80 years old.Interventions Participants either underwent telephone or face-to-face consultation for diabetes management.Outcome measure Mean HbA1c change (∆HbA1c) between preintervention and postintervention.Results Over 4 months, the mean ∆HbA1c was −0.16 percentage points (p.p.) (95% CI −0.26 to –0.07) and −0.11 p.p. (95% CI −0.20 to –0.02) for face-to-face and telephone consultation groups, respectively. The difference in mean ∆HbA1c between the two groups was +0.05 p.p. (95% CI −∞ to 0.16), with the upper limit of the one-sided 95% CI less than the prespecified non-inferiority margin of 0.5 p.p. (p

Published

2023

22. The spatial-temporal characteristics of hand-foot-mouth disease in Minhang District of Shanghai， 2009‒2020

Author

WANG Yating, ZHONG Wei, PAN Jinhua, ZHANG Zhaowen, ZHANG Jingjing, LYU Jing, JIA Biyun, WANG Zhouyun, CHEN Wanli, ZHANG Xuanzhao, SU Hualin, ZHU Minhui, and XU Zhiyin

Subjects

hand-foot-mouth disease, epidemiological characteristics, geographical information system, etiology, Medicine

Abstract

ObjectiveThis study aimed to understand the epidemiological characteristics of hand-foot-mouth disease （HFMD） in Minhang District， Shanghai from 2009 to 2020， and provide a scientific basis for the prevention and control of HFMD.MethodsThe case information of HFMD was collected from the National Notifiable Infectious Diseases Reporting System of Chinese Center for Disease Control and Prevention. We used descriptive epidemiological methods to analyze the population characteristics， temporal and spatial distribution of HFMD， the pathogen composition of the case and its changing trend.ResultsFrom 2009 to 2020， a total of 66，198 cases of HFMD were reported in Minhang District， Shanghai， including 377 severe cases （severe case rate 0.57%） and 3 deaths （severs case fatality rate 0.80%）. There were more cases of HFMD in boys than in girls （1.5∶1）. HFMD patients aged under 5 years predominated， accounting for 88.91% of all cases. Majority of the cases （91.42%） were in scattered children （55.80%） and children in kindergartens （35.62%）. The incidence showed a cyclical trend， with low incidence years and high incidence years appearing alternately. The peak period was from April to July， and sometimes there were small peaks during October to December. A total of 12 years time-space scanning analysis revealed 3 clusters. The cluster centers were located in Wujing Town， Huacao Town and Xinzhuang Town， respectively. The proportion of EV71 in common cases was generally decreasing， and reduced to zero in 2019. The proportion of CoxA6 had increased year by year， and reached 75.00% in 2020. CoxA6 became the dominant pathogen in recent years. The number of severe cases had decreased year by year since 2010， and the dominant pathogen was EV71 （90.03% on average） in severe cases.ConclusionThe incidence of HFMD in Minhang District of Shanghai has a downward trend from 2014. The dominant pathogen changes from EV71 to CoxA6， and the dominant pathogen in severe cases is EV71. The discovered temporal and spatial clustering pattern is helpful for in-depth understanding of the distribution and epidemic trend of HFMD in Minhang District， and provides a scientific basis for epidemic prevention and control.

Published

2022

23. Fast Sensing of Temperature and Strain along Optical Fiber based on Brillouin Scattering

Author

GUAN Guo-fei, SONG Qing-wu, CHEN Zhi-ming, ZHONG Wei-feng, and LI Jun

Subjects

distributed optical fiber sensing, Brillouin scattering, temperature and strain, Savitzky-Golay filter, fast, Applied optics. Photonics, TA1501-1820

Abstract

To improve the extraction accuracy, the Savitzky-Golay filter is used to filter the noisy Brillouin spectra. Based on the obtained relatively accurate Brillouin frequency shift, the symmetric part of the Brillouin spectrum is selected according to the raw Brillouin spectrum. Based on the selected spectrum, the Brillouin frequency shift is extracted by the parabolic fitting. Since the proposed method can obtain the Brillouin spectrum with a high degree of symmetry and more calculation time, the improved parabolic fitting method can significantly improve the accuracy of the extracted Brillouin frequency shift in real-time demonstration. This paper considers the original parabolic fitting method, the fitting method based on the pseudo-Voigt model and the improved parabolic fitting method to calculate the Brillouin frequency shift along the optical fiber. The results show that the calculation time of the modified parabola fitting method is longer than that of the original parabola fitting method, but only 1/37~1/28 of that of the fitting method based on the pseudo-Voigt model. The accuracy of the Brillouin frequency shift extracted by the former is similar to that of the latter. The proposed method is effective to realize fast sensing of temperature and strain along the optical fiber.

Published

2022

24. MBPD: A multiple bacterial pathogen detection pipeline for One Health practices

Author

Xinrun Yang, Gaofei Jiang, Yaozhong Zhang, Ningqi Wang, Yuling Zhang, Xiaofang Wang, Fang‐Jie Zhao, Yangchun Xu, Qirong Shen, and Zhong Wei

Subjects

bacterial pathogen detection, 16S rRNA gene sequencing, One Health, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Bacterial pathogens are one of the major threats to biosafety and environmental health, and advanced assessment is a prerequisite to combating bacterial pathogens. Currently, 16S rRNA gene sequencing is efficient in the open‐view detection of bacterial pathogens. However, the taxonomic resolution and applicability of this method are limited by the domain‐specific pathogen database, taxonomic profiling method, and sequencing target of 16S variable regions. Here, we present a pipeline of multiple bacterial pathogen detection (MBPD) to identify the animal, plant, and zoonotic pathogens. MBPD is based on a large, curated database of the full‐length 16S genes of 1986 reported bacterial pathogen species covering 72,685 sequences. In silico comparison allowed MBPD to provide the appropriate similarity threshold for both full‐length and variable‐region sequencing platforms, while the subregion of V3−V4 (mean: 88.37%, accuracy rate compared to V1−V9) outperformed other variable regions in pathogen identification compared to full‐length sequencing. Benchmarking on real data sets suggested the superiority of MBPD in a broader range of pathogen detections compared with other methods, including 16SPIP and MIP. Beyond detecting the known causal agent of animal, human, and plant diseases, MBPD is capable of identifying cocontaminating pathogens from biological and environmental samples. Overall, we provide a MBPD pipeline for agricultural, veterinary, medical, and environmental monitoring to achieve One Health.

Published

2023

25. Establishment and susceptibility to cyprinid herpesvirus 2 of Carassius carassius gill cell line

Author

Hong-jun Wu, Fan Liu, Hong-Yao Du, Yan-Ge He, Chuan-He Bao, Zhong Wei, and Ruo-lin Zhu

Subjects

Carassius carassius, Cell line, CyHV-2, Cytopathic effect, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Haematopoietic necrosis in Carassius auratus is one of the most serious diseases in recent years caused by CyHV-2 (cyprinid herpesvirus 2) which has caused huge economic losses in aquaculture. Currently, the isolation and propagation of CyHV-2 in vitro is difficult due to the lack of sensitive cell lines, which hinder further studies on the pathogenesis and gene functions of the virus. In this study, Carassius carassius gill cell line (CCG) was constructed and had been passaged up to 90 passages at 25 ℃ in Medium199 (M199) with 15–20% Foetal bovine serum (FBS). Cellular karyotype analysis showed that the chromosome number was 46 at passage 50. CCG could be successfully transfected with GFP reporter gene with an efficiency of more than 60% suggesting that CCG could be used for exogenous gene expression in vitro. CCG infected with CyHV-2 displayed typical cytopathic effects (CPE), and viral replication was confirmed by PCR, indirect immunofluorescence assay (IFA) and transmission electron microscopy (TEM) assay, respectively. In conclusion, the CCG cell line can be used as a useful tool to study the propagation and pathogenesis of CyHV-2.

Published

2022

26. Construction of a Drug Delivery System via pH-Responsive Polymeric Nanomicelles Containing Ferrocene for DOX Release and Enhancement of Therapeutic Effects

Author

Chenggang Song, Fan Yang, Ruixuan Ji, Yin Lv, and Zhong Wei

Subjects

Chemistry, QD1-999

Published

2021

27. Analysis on Tourism Environmental Pollution and Tourism Economy-Ecological Environmental Coordination Degree: A Case Study from China

Author

Zhong Wei Wang and Huan Le Han

Subjects

tourism, environmental pollution, coordination degree, shandong province, Environmental effects of industries and plants, TD194-195, Science (General), Q1-390

Abstract

The rapid development of the tourism industry, range expansion, and intensity growth of human tourism activity have all caused intensifying ecological environmental problems while bringing considerable economic benefits. The ecological environment is currently faced with huge pressures due to the unreasonable tourism resource development, annual decrease in bearing capacity of the tourism environment, and excessive tourism consumption. To coordinate the relationship between tourism economic growth and ecological environment, this work carried out a case study based on Shandong Province, China. First, four aspects of environmental pollution caused by tourism were analyzed. Second, the tourism economy-ecological environmental coordination degree model and index system were established and then the coordination degree in Shandong Province from 2002 to 2019 was estimated. Results show that the tourism industry causes the following typical pollutions: water, soil, air, and noise. The coupling coordination degree (D) between the tourism economy and ecological environment in Shandong Province increased from 0.100 in 2002 to 0.995 in 2019, indicating the transition from serious imbalance to a high-quality coordination state. It is suggested to further promote tourism economy-ecological environment coordinated development by innovating the tourism-economy coupling development mode, creating the entire tourism industrial chain, increasing efforts in tourism reform, and exploring and implementing ecological compensation policies. Research conclusions have important significances to further study and explore the development status between the tourism industry and ecological environment and realize the coordinated development between the tourism industry and regional economy.

Published

2021

28. Coexistence of superconductivity and sliding polar metal state in HgPSe3

Author

Yu, Xiaohui, Zhong, Wei, Kawaguchi, Saori, Kadobayashi, Hirokazu, Wang, Xiaolin, Cheng, Zhenxiang, Chen, Changfeng, Yue, Binbin, Wang, Jian-Tao, Mao, Ho-Kwang, and Hong, Fang

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

The simultaneous presence of polarity and metallicity in a material signifies an exotic polar metal state, but such materials are extremely rare, especially in bulk form, due to mutually exclusive nature of the fundamental defining properties. Here, we report experimental findings that HgPSe3 is a robust bulk polar metal at room temperature with a chiral structure stabilized by pressure and, remarkably, this polar metal hosts superconductivity with critical temperature Tc up to 11 K. Theoretical analysis reveals a two-step interlayer sliding-then-compressing mechanism for coexistence of polarity and metallicity in HgPSe3. This work unveils a new paradigm for creating the bulk polar metal state and simultaneous presence of coexisting quantum orders, raising the prospect of discovering novel emergent physics using pressure as a tuning knob., Comment: 19 pages, 4 main figures + 6 extented figures

Published

2024

29. Device-independent quantum secret sharing with advanced random key generation basis

Author

Zhang, Qi, Ying, Jia-Wei, Wang, Zhong-Jian, Zhong, Wei, Du, Ming-Ming, Shen, Shu-Ting, Li, Xi-Yun, Zhang, An-Lei, Gu, Shi-Pu, Wang, Xing-Fu, Zhou, Lan, and Sheng, Yu-Bo

Subjects

Quantum Physics

Abstract

Quantum secret sharing (QSS) enables a dealer to securely distribute keys to multiple players. Device-independent (DI) QSS can resist all possible attacks from practical imperfect devices and provide QSS the highest level of security in theory. However, DI QSS requires high-performance devices, especially for low-noise channels, which is a big challenge for its experimental demonstration. We propose a DI QSS protocol with the advanced random key generation basis strategy, which combines the random key generation basis with the noise preprocessing and postselection strategies. We develop the methods to simplify Eve's conditional entropy bound and numerically simulate the key generation rate in an acceptable time. Our DI QSS protocol has some advantages. First, it can increase the noise tolerance threshold from initial 7.147% to 9.231% (29.16% growth), and reduce the global detection efficiency threshold from 96.32% to 93.41%. The maximal distance between any two users increases to 1.43 km, which is about 5.5 times of the initial value. Second, by randomly selecting two basis combinations to generate the key, our DI QSS protocol can reduce the entanglement resource consumption. Our protocol has potential for DI QSS's experimental demonstration and application in the future., Comment: 16 pages, 6 figures, 1 table

Published

2024

30. Editorial: The role of dispersal and transmission in structuring microbial communities

Author

Kyle M. Meyer, Peter Deines, Zhong Wei, Posy E. Busby, Steven E. Lindow, and Brendan J. M. Bohannan

Subjects

microbiome, transmission, dispersal, symbiosis, microbial community diversity, Microbiology, QR1-502

Published

2022

31. The role of BCL-2 family proteins in regulating apoptosis and cancer therapy

Author

Shanna Qian, Zhong Wei, Wanting Yang, Jinling Huang, Yinfeng Yang, and Jinghui Wang

Subjects

Bcl-2, apoptosis, cancer, autoimmunity, systematic, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Apoptosis, as a very important biological process, is a response to developmental cues or cellular stress. Impaired apoptosis plays a central role in the development of cancer and also reduces the efficacy of traditional cytotoxic therapies. Members of the B-cell lymphoma 2 (BCL-2) protein family have pro- or anti-apoptotic activities and have been studied intensively over the past decade for their importance in regulating apoptosis, tumorigenesis, and cellular responses to anticancer therapy. Since the inflammatory response induced by apoptosis-induced cell death is very small, at present, the development of anticancer drugs targeting apoptosis has attracted more and more attention. Consequently, the focus of this review is to summarize the current research on the role of BCL-2 family proteins in regulating apoptosis and the development of drugs targeting BCL-2 anti-apoptotic proteins. Additionally, the mechanism of BCL-2 family proteins in regulating apoptosis was also explored. All the findings indicate the potential of BCL-2 family proteins in the therapy of cancer.

Published

2022

32. Biochar stimulates tomato roots to recruit a bacterial assemblage contributing to disease resistance against Fusarium wilt

Author

Xue Jin, Yang Bai, Muhammad Khashi u Rahman, Xiaojun Kang, Kai Pan, Fengzhi Wu, Thomas Pommier, Xingang Zhou, and Zhong Wei

Subjects

bacterial diversity, disease suppression, Fusarium wilt, microbiome recruitment, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Biochar amendment is acknowledged to favor plant resistance against soil‐borne diseases. Although plant‐beneficial bacteria enrichment in the rhizosphere is often proposed to be associated with this protection, the mechanism behind this stimulating effect remains unelucidated. Here, we tested whether biochar promotes plants to recruit beneficial bacteria to the rhizosphere, and thus develop a disease‐suppressive rhizosphere microbiome. In a pot experiment, biochar amendment decreased tomato Fusarium wilt disease severity. Using a transplanting rhizosphere microbiome experiment, we showed that biochar enhanced the suppressiveness of tomato rhizosphere microbiome against Fusarium wilt disease. High‐throughput sequencing of 16S ribosomal RNA gene and in vitro cultures further indicated that the recruited suppressive rhizosphere microbiome was associated with the increase of plant‐beneficial bacteria, such as Pseudomonas sp. This amendment also enhanced the in vitro chemoattraction and biofilm promotion activity of tomato root exudates. Collectively, our results demonstrate that biochar amendment induces tomato seedlings to efficiently recruit a disease‐suppressive rhizosphere microbiome against Fusarium wilt.

Published

2022

33. Research on the Factors Affecting the Adoption of Smart Aged-Care Products by the Aged in China: Extension Based on UTAUT Model

Author

Xiang Wang, Chang-Franw Lee, Jiabei Jiang, Genlei Zhang, and Zhong Wei

Subjects

the aged, smart aged-care products, user behavior, unified theory of acceptance and use of technology, perceived cost, perceived risk, Psychology, BF1-990

Abstract

With the rapid development of network technology and smart technology, smart aged-care products are becoming increasingly valued for their ability to help the aged actively cope with the challenges of aging. However, seniors face challenges in using smart aged-care products for many reasons, which reduces their willingness to adopt them. As a result, the sustainable development of smart aged-care products is constrained. This study combined the unified theory of technology acceptance and use, perceived risk theory and perceived cost theory, and reconstructed a research model that investigated the adoption of smart aged-care products by the elderly in China. Questionnaires were given to older Chinese adults in this study, and 386 valuable responses were received. The findings of the structural equation model (SEM) analysis are as follows: (1) performance expectancy, effort expectancy, and social influence were positively related to the behavioral intention of seniors to use smart aged-care products; (2) perceived cost and perceived risk were negatively related to the behavioral intention of seniors to use smart aged-care products; (3) perceived risk indirectly affected use behavior through behavioral intentions; (4) facilitating conditions did not have a significant impact on the use behavior of seniors in adopting smart aged-care products. Based on the empirical results, this study sought to improve the use behavior of the aged in relation to the adoption of smart aged-care products, and provided suggestions to improve the overall service quality and sustainability of those products.

Published

2023

34. Ropivacaine inhibits proliferation, migration, and invasion while inducing apoptosis of glioma cells by regulating the SNHG16/miR-424-5p axis

Author

Liu Rong, Wu Min, Xu Guiju, Ju Lu, Xiao Jinhui, Zhong Wei, He Xiao, and Yang Yan

Subjects

ropivacaine, lncrna, snhg16, mir-424-5p, glioma, Biology (General), QH301-705.5

Abstract

Regional anesthesia has anti-proliferative and pro-apoptotic effects in various cancers. Therefore, the purpose of this study was to investigate the effects of ropivacaine on the proliferation, migration, invasion, and apoptosis of glioma cells in vitro.

Published

2020

35. The Proportion of Soil-Borne Fungal Pathogens Increases with Elevated Organic Carbon in Agricultural Soils

Author

Shuai Du, Pankaj Trivedi, Zhong Wei, Jiao Feng, Hang-Wei Hu, Li Bi, Qiaoyun Huang, and Yu-Rong Liu

Subjects

agricultural soil, fertilization management, fungal phytopathogen, organic carbon, soil health, Microbiology, QR1-502

Abstract

ABSTRACT Soil-borne fungal phytopathogens are important threats to soil and crop health. However, their community composition and environmental determinants remain unclear. Here, we explored the effects of agricultural fertilization regime (i.e., organic material application) on soil fungal phytopathogens, using data sets from a combination of field survey and long-term experiment. We found that soil organic carbon was the key factor that affected the diversity and relative abundance of fungal phytopathogens in agricultural soils. The dominant genera of phytopathogens including Monographella was also strongly associated with soil organic carbon. In addition, the elevated soil organic carbon enhanced the node proportion of phytopathogens and the positive interactions within the fungal community in the network. Results of the long-term experiment revealed that applications of crop straw and fresh livestock manure significantly increased the proportion of phytopathogens, which were associated with the elevated soil organic carbon. This work offers new insights into the occurrence and environmental factors of fungal phytopathogens in agricultural soils, which are fundamental to control their impacts on the soil and crop systems. IMPORTANCE Fungal phytopathogens are important threats to soil and crop health, but their community composition and environmental determinants remain unclear. We found that soil organic carbon is the key factor of the prevalence of fungal phytopathogens through a field survey, which is also supported by our long-term (6-year) experiment showing the applications of crop straw and fresh livestock manure significantly increased the proportion of fungal phytopathogens. These findings advance our understanding of the occurrence and environmental drivers of soil-borne fungal phytopathogens under agricultural fertilization regime and have important implications for the control of soil-borne pathogens.

Published

2022

36. Characterization of Agarolytic Pathway in a Terrestrial Bacterium Cohnella sp. LGH

Author

Gen Li, Rui Guo, Shuqi Wu, Si Cheng, Jiaqi Li, Zhenzhen Liu, Wangliang Xie, Xiaolin Sun, Qiuyi Zhang, Zihan Li, JiaZheng Xu, Jun Wu, Zhong Wei, and Feng Hu

Subjects

agarose, agarotetraose, neoagarotriose, endo-type β-agarase, α-NAOS hydrolase, agarolytic β-galactosidase, Microbiology, QR1-502

Abstract

Previously, we have reported that an endo-type β-agarase AgaW was responsible for the hydrolysis of agarose into the major product neoagarotetraose in a terrestrial agar-degrading bacterium Cohnella sp. LGH. Here, we identify and characterize the following depolymerization pathway in strain LGH through the genomic and enzymatic analysis. In the pathway, neoagarotetraose was depolymerized by a novel α-neoagarooligosaccharide (NAOS) hydrolase CL5012 into 3,6-anhydro-α-L-galactose (L-AHG) and agarotriose; Agarotriose was further depolymerized by a novel agarolytic β-galactosidase CL4994 into D-galactose and neoagarobiose; Neoagarobiose was finally depolymerized by CL5012 into L-AHG and D-galactose. Although α-agarase has not been identified in strain LGH, the combined action of CL5012 and CL4994 unexpectedly plays a critical role in the depolymerization of agarotetraose, one theoretical product of α-agarase hydrolysis of agarose. In this pathway, agarotetraose was depolymerized by CL4994 into D-galactose and neoagarotriose; Neoagarotriose was then depolymerized by CL5012 into L-AHG and agarobiose. Furthermore, another novel endo-type β-agarase CL5055 was identified as an isozyme of AgaW with different pH preference in the hydrolysis of agarose into α-NAOSs. Strain LGH seemed to lack a common exo-type β-agarase responsible for the direct depolymerization of agarose or neoagarooligosaccharide into neoagarobiose. These results highlight the diversity of agarolytic manner in bacteria and provide a novel insight on the diversity of agarolytic pathways.

Published

2022

37. Estimating Conditional Average Treatment Effects via Sufficient Representation Learning

Author

Shi, Pengfei, Zhong, Wei, Zhang, Xinyu, Wang, Ningtao, Fu, Xing, Wang, Weiqiang, and Jin, Yin

Subjects

Computer Science - Machine Learning

Abstract

Estimating the conditional average treatment effects (CATE) is very important in causal inference and has a wide range of applications across many fields. In the estimation process of CATE, the unconfoundedness assumption is typically required to ensure the identifiability of the regression problems. When estimating CATE using high-dimensional data, there have been many variable selection methods and neural network approaches based on representation learning, while these methods do not provide a way to verify whether the subset of variables after dimensionality reduction or the learned representations still satisfy the unconfoundedness assumption during the estimation process, which can lead to ineffective estimates of the treatment effects. Additionally, these methods typically use data from only the treatment or control group when estimating the regression functions for each group. This paper proposes a novel neural network approach named \textbf{CrossNet} to learn a sufficient representation for the features, based on which we then estimate the CATE, where cross indicates that in estimating the regression functions, we used data from their own group as well as cross-utilized data from another group. Numerical simulations and empirical results demonstrate that our method outperforms the competitive approaches.

Published

2024

38. Maximal steered coherence in the background of Schwarzschild space-time

Author

Du, Ming-Ming, Li, Hong-Wei, Shen, Shu-Ting, Yan, Xiao-Jing, Li, Xi-Yun, Zhou, Lan, Zhong, Wei, and Sheng, Yu-Bo

Subjects

Quantum Physics

Abstract

In the past two decades, the exploration of quantumness within Schwarzschild spacetime has garnered significant interest, particularly regarding the Hawking radiation's impact on quantum correlations and quantum coherence. Building on this foundation, we investigate how Hawking radiation influences maximal steered coherence (MSC)-a crucial measure for gauging the ability to generate coherence through steering. We find that as the Hawking temperature increases, the physically accessible MSC degrade while the unaccessible MSC increase. This observation is attributed to a redistribution of the initial quantum correlations, previously acknowledged by inertial observers, across all bipartite modes. In particular, we find that in limit case that the Hawking temperature tends to infinity, the accessible MSC equals to 1/\sqrt{2} of its initial value, and the unaccessible MSC also equals to the same value. Our findings illuminate the intricate dynamics of quantum information in the vicinity of black holes, suggesting that Hawking radiation plays a pivotal role in reshaping the landscape of quantum coherence and entanglement in curved spacetime. This study not only advances our theoretical understanding of black hole thermodynamics but also opens new avenues for investigating the interface between quantum mechanics and general relativity., Comment: 4 pages, 1 figure

Published

2024

39. Basis-independent quantum coherence and its distribution under relativistic motion

Author

Du, Ming-Ming, Li, Hong-Wei, Tao, Zhen, Shen, Shu-Ting, Li, Xiao-Jing Yan. Xi-Yun, Zhong, Wei, Sheng, Yu-Bo, and Zhou, Lan

Subjects

Quantum Physics

Abstract

Recent studies have increasingly focused on the effect of relativistic motion on quantum coherence. Prior research predominantly examined the influence of relative motion on basis-dependent quantum coherence, underscoring its susceptibility to decoherence under accelerated conditions. Yet, the effect of relativistic motion on basis-independent quantum coherence, which is critical for understanding the intrinsic quantum features of a system, remains an interesting open question. This paper addresses this question by examining how total, collective, and localized coherence are affected by acceleration and coupling strength. Our analysis reveals that both total and collective coherence significantly decrease with increasing acceleration and coupling strength, ultimately vanishing at high levels of acceleration. This underscores the profound impact of Unruh thermal noise. Conversely, localized coherence exhibits relative stability, decreasing to zero only under the extreme condition of infinite acceleration. Moreover, we demonstrate that collective, localized, and basis-independent coherence collectively satisfy the triangle inequality. These findings are crucial for enhancing our understanding of quantum information dynamics in environments subjected to high acceleration and offer valuable insights on the behavior of quantum coherence under relativistic conditions., Comment: 7 pages, 3 figures

Published

2024

40. Wells exact sequence for automorphisms and derivations of Leibniz 2-algebras

Author

Zhong, Wei and Zhang, Tao

Subjects

Mathematics - Rings and Algebras, 17A32, 18N10

Abstract

In this paper, we investigate the inducibility of pairs of automorphisms and derivations in Leibniz 2-algebras. To begin, we provide essential background information on Leibniz 2-algebras and its cohomology theory. Next, we examine the inducibility of pairs of automorphisms and derivations, with a focus on the analog of Wells exact sequences in the context of Leibniz 2-algebras. We then analyze the analogue of Wells short exact sequences as they relate to automorphisms and derivations within this framework. Finally, we investigate the special case of crossed modules over Leibniz algebras., Comment: 33pages,a primary edition. arXiv admin note: text overlap with arXiv:2310.07719; text overlap with arXiv:1508.01850 by other authors

Published

2024

41. Risk Occupancy: A New and Efficient Paradigm through Vehicle-Road-Cloud Collaboration

Author

Chen, Jiaxing, Zhong, Wei, Gao, Bolin, Liu, Yifei, Zou, Hengduo, Liu, Jiaxi, Lu, Yanbo, Huang, Jin, and Zhong, Zhihua

Subjects

Computer Science - Robotics

Abstract

This study introduces the 4D Risk Occupancy within a vehicle-road-cloud architecture, integrating the road surface spatial, risk, and temporal dimensions, and endowing the algorithm with beyond-line-of-sight, all-angles, and efficient abilities. The algorithm simplifies risk modeling by focusing on directly observable information and key factors, drawing on the concept of Occupancy Grid Maps (OGM), and incorporating temporal prediction to effectively map current and future risk occupancy. Compared to conventional driving risk fields and grid occupancy maps, this algorithm can map global risks more efficiently, simply, and reliably. It can integrate future risk information, adapting to dynamic traffic environments. The 4D Risk Occupancy also unifies the expression of BEV detection and lane line detection results, enhancing the intuitiveness and unity of environmental perception. Using DAIR-V2X data, this paper validates the 4D Risk Occupancy algorithm and develops a local path planning model based on it. Qualitative experiments under various road conditions demonstrate the practicality and robustness of this local path planning model. Quantitative analysis shows that the path planning based on risk occupation significantly improves trajectory planning performance, increasing safety redundancy by 12.5% and reducing average deceleration by 5.41% at an initial braking speed of 8 m/s, thereby improving safety and comfort. This work provides a new global perception method and local path planning method through Vehicle-Road-Cloud architecture, offering a new perceptual paradigm for achieving safer and more efficient autonomous driving., Comment: 13 pages,9 figures

Published

2024

42. Crossover from Anomalous to Normal Diffusion: Ising Model with Stochastic Resetting

Author

Chen, Yashan and Zhong, Wei

Subjects

Condensed Matter - Statistical Mechanics

Abstract

In this paper, we investigate the dynamics of the two-dimensional Ising model with stochastic resetting, utilizing a constant resetting rate procedure with zero-strength initial magnetization. Our results reveal the presence of a characteristic rate $r_c \sim L^{-z}$, where $L$ represents the system size and $z$ denotes the dynamical exponent. Below $r_c$, both the equilibrium and dynamical properties remain unchanged. At the same time, for $r > r_c$, the resetting process induces a transition in the probability distribution of the magnetization from a double-peak distribution to a three-peak distribution, ultimately culminating in a single-peak exponential decay. Besides, we also find that at the critical points, as $r$ increases, the diffusion of the magnetization changes from anomalous to normal, and the correlation time shifts from being dependent on $L$ to being $r$-dependent only., Comment: 7 pages, 5 figures, to appear in Physical Review Research

Published

2024

43. Direct generation of multi-photon hyperentanglement

Author

Zhao, Peng, Ying, Jia-Wei, Yang, Meng-Ying, Zhong, Wei, Du, Ming-Ming, Shen, Shu-Ting, Li, Yun-Xi, Zhang, An-Lei, Zhou, Lan, and Sheng, Yu-Bo

Subjects

Quantum Physics

Abstract

Multi-photon hyperentangement is of fundamental importance in optical quantum information processing. Existing theory and experiment producing multi-photon hyperentangled states have until now relied on the outcome post-selection, a procedure where only the measurement results corresponding to the desired state are considered. Such approach severely limits the usefulness of the resulting hyperentangled states. We present the protocols of direct production of three- and four-photon hyperentanglement and extend the approach to an arbitrary number of photons through a straightforward cascade of spontaneous parametric down-conversion (SPDC) sources. The generated multi-photon hyperentangled states are encoded in polarization-spatial modes and polarization-time bin degrees of freedom, respectively. Numerical calculation shows that if the average photon number $\mu$ is set to 1, the down conversion efficiency is $7.6*10^{-6}$ and the repetition frequency of the laser is $10^9$ Hz, the number of the generation of three-photon and four-photon hyperentanglement after cascading can reach about $5.78*10^{-2}$ and $4.44*10^{-7}$ pairs per second, respectively. By eliminating the constraints of outcome post-selection, our protocols may represent important progresses for multi-photon hyperentangement generation and providing a pivotal role in future multi-party and high-capacity communication networks.

Published

2024

44. Progress of Immunotherapy and Its Application in Triple Negative Breast Cancer

Author

ZHENG Hongmei, FENG Yaojun, XU Juan, CHENG Hongtao, JIN Liting, ZHONG Wei, and WU Xinhong

Subjects

triple negative breast cancer, immunotherapy, immune checkpoint, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

In recent years, potential new therapeutic options have been yielded for the immunotherapy of invasive cancers. The most important breakthrough in breast cancer research today is to understand the immune features and profiles of triple negative breast cancer and then design novel immune-modulatory targeted therapy. The major findings are the use of immune checkpoint inhibitors, which have obtained good curative effect in neoadjuvant treatment for early stage triple negative breast cancer and salvage treatment for metastatic triple negative breast cancer. This paper summarizes the advances of immunotherapy and its application in triple negative breast cancer with emphasis on immune checkpoint inhibitor and its combination with chemotherapy, radiotherapy and targeted therapy.

Published

2020

45. Toughening of Poly(l‑Lactide) with Branched Polycaprolactone: Effect of Chain Length

Author

Xiangming Yang, Shuaibo Liu, Erlei Yu, and Zhong Wei

Subjects

Chemistry, QD1-999

Published

2020

46. Tolvaptan therapy of Chinese cirrhotic patients with ascites after insufficient diuretic routine medication responses: a phase III clinical trial

Author

Jieting Tang, Yongfeng Wang, Tao Han, Qing Mao, Jun Cheng, Huiguo Ding, Jia Shang, Qin Zhang, Junqi Niu, Feng Ji, Chengwei Chen, Jidong Jia, Xiangjun Jiang, Nonghua Lv, Yueqiu Gao, Zhenghua Wang, Zhong Wei, Yingxuan Chen, Minde Zeng, and Yimin Mao

Subjects

Liver cirrhosis, Cirrhotic patients, Tolvaptan, Ascites, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Abstract Background To determine the safety and efficacy of different doses of tolvaptan for treating Chinese cirrhotic patients with or without hyponatraemia who still had ascites after routine therapy with diuretics. Methods In the present placebo-controlled, randomized, double-blinded, multicentre clinical trial, patients with cirrhotic ascites who failed to adequately respond to a combination of an aldosterone antagonist plus an orally administered loop diuretic were randomly placed at a 4:2:1 ratio into 3 groups [the 15 mg/day tolvaptan group (N = 301), 7.5 mg/day tolvaptan group (N = 153) and placebo group (N = 76)] for 7 days of treatment. The effects and safety were evaluated on days 4 and 7. A change in body weight from baseline on day 7 of treatment was the primary endpoint. Results The administration of 7.5 or 15 mg/day tolvaptan significantly decreased body weight from baseline on day 7 of treatment compared to that with placebo treatment (P = 0.026; P = 0.001). For the secondary endpoints, changes in abdominal circumference from baseline and improvements in ascites were markedly different in the treatment groups and the placebo group on day 7 (P 7.5 = 0.05, P 15.0 = 0.002 and P 7.5 = 0.037, P 15.0 = 0.003), but there was no difference between the 7.5 mg/day and 15 mg/day dosage groups. The 24-h cumulative urine volume was higher in the 7.5 mg/day and 15 mg/day tolvaptan groups than the placebo group (P = 0.002, P

Published

2020

47. Interaction Between the Tourism Industry and Ecological Environment Based on the Complicated Adaptation System (CAS) Theory: A Case Study on Henan Province, China

Author

Zhong Wei Wang

Subjects

tourism industry, ecological environment, interactive relationships, cas theory, Environmental effects of industries and plants, TD194-195, Science (General), Q1-390

Abstract

Pressure over the destruction of the ecological environment by the tourism industry from the blind development of tourism areas, tourism projects that destroy the ecological environment, tourist overloading during holidays, and poor environmental protection awareness among tourists is increasing. Seeking a balance point between ecological environmental protection and tourism industrial development is key in the sustainable development of the tourism industry. The Complicated Adaptation System (CAS) theory is an important theory in the current system, which focuses on the interaction of the internal elements of a system. Analyzing the interactive development between the tourism industry and the ecological environment based on CAS theory is one way to achieve the harmonious coexistence of the tourism industry and the ecological environment. A case study on Henan Province, China, is conducted, the literature on the interaction between the tourism industry and ecological environment is reviewed, and the environmental pollution status of Henan Province caused by the tourism industry is summarized. Moreover, the complex adaptation of the tourism industry and ecological environment is analyzed. Research results show that most studies support the belief that the tourism industry generates substantial environmental pollution. Environmental pollution from the tourism industry in Henan Province is reflected in tourist overloading, the direct effects of pollution from tourism consumption, damage to cultural relics in star-level tourism areas, and in dwindling habitats for plant and animal survival. Analyzing the interactive relationship between the tourism industry and ecological environment has scientific value and is worth promoting. This relationship is established based on CAS theory from four characteristics, namely, clustering, nonlinearity, flow, and diversity, and three mechanisms, that is, labelling, an internal model, and building blocks. The research conclusions can serve as a reference to better facilitate tourism industry development, estimate the relationship between the tourism economy and ecological environment, and combine ecological tourism and green technological innovation effectively.

Published

2020

48. Rhizosphere immunity: targeting the underground for sustainable plant health management

Author

Zhong WEI, Ville-Petri FRIMAN, Thomas POMMIER, Stefan GEISEN, Alexandre JOUSSET, Qirong SHEN

Subjects

rhizosphere, soil microbiome, plant immunity, microbial ecology, plant health, soilborne pathogens, Agriculture (General), S1-972

Abstract

Managing plant health is a great challenge for modern food production and is further complicated by the lack of common ground between the many disciplines involved in disease control. Here we present the concept of rhizosphere immunity, in which plant health is considered as an ecosystem level property emerging from networks of interactions between plants, microbiota and the surrounding soil matrix. These interactions can potentially extend the innate plant immune system to a point where the rhizosphere immunity can fulfil all four core functions of a full immune system: pathogen prevention, recognition, response and homeostasis. We suggest that considering plant health from a meta-organism perspective will help in developing multidisciplinary pathogen management strategies that focus on steering the whole plant-microbe-soil networks instead of individual components. This might be achieved by bringing together the latest discoveries in phytopathology, microbiome research, soil science and agronomy to pave the way toward more sustainable and productive agriculture.

Published

2020

49. Research and application progress of polymer composites in armor protection

Author

WEI Hua-zhen, ZHONG Wei-hua, and YU Guang

Subjects

fiber, composite material, armor protection, transparent armor, research progress, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Non-metallic materials such as fiber reinforced resin matrix composites with high specific strength and high specific energy absorption are the key material technologies to realize lightweight and strong protection of armor equipment. Aiming at the requirement of armored equipment protective components for high-performance ballistic materials, the technical progress, application status and development trend of polymer composite in the field of armor protection were summarized. The application of fiber reinforced resin matrix composites in composite armor, structural armor, multi-functional protective components and transparent polymer materials in transparent armor was discussed. Comparative analysis on the development and application status of high-grade organic fibers such as aramid Ⅱ, aramid Ⅲ, PBO, PIPD in China was carried out. A series of developments based on the maturity of fiber technology and different manufacturing costs, meeting the requirements of the near-term, mid-term, long-term armored equipment protection structure were proposed,and suggestions to strengthen the research on graphene ballistic materials, smart armor materials and other cutting-edge emerging protective materials and their mechanisms, and to establish and improve material evaluation methods, mechanism models and databases in the future were put forward.

Published

2020

50. Rhizosphere protists are key determinants of plant health

Author

Wu Xiong, Yuqi Song, Keming Yang, Yian Gu, Zhong Wei, George A. Kowalchuk, Yangchun Xu, Alexandre Jousset, Qirong Shen, and Stefan Geisen

Subjects

Rhizosphere, Pathogen of Ralstonia solanacearum, Protists, Predator-prey interactions, Secondary metabolite genes, Plant health, Microbial ecology, QR100-130

Abstract

Abstract Background Plant health is intimately influenced by the rhizosphere microbiome, a complex assembly of organisms that changes markedly across plant growth. However, most rhizosphere microbiome research has focused on fractions of this microbiome, particularly bacteria and fungi. It remains unknown how other microbial components, especially key microbiome predators—protists—are linked to plant health. Here, we investigated the holistic rhizosphere microbiome including bacteria, microbial eukaryotes (fungi and protists), as well as functional microbial metabolism genes. We investigated these communities and functional genes throughout the growth of tomato plants that either developed disease symptoms or remained healthy under field conditions. Results We found that pathogen dynamics across plant growth is best predicted by protists. More specifically, communities of microbial-feeding phagotrophic protists differed between later healthy and diseased plants at plant establishment. The relative abundance of these phagotrophs negatively correlated with pathogen abundance across plant growth, suggesting that predator-prey interactions influence pathogen performance. Furthermore, phagotrophic protists likely shifted bacterial functioning by enhancing pathogen-suppressing secondary metabolite genes involved in mitigating pathogen success. Conclusions We illustrate the importance of protists as top-down controllers of microbiome functioning linked to plant health. We propose that a holistic microbiome perspective, including bacteria and protists, provides the optimal next step in predicting plant performance. Video Abstract

Published

2020