Your search keyword '"Wenjin Yu"' showing total 144 results

1. Regulatory responses and approval status of artificial intelligence medical devices with a focus on China

Author

Yuehua Liu, Wenjin Yu, and Tharam Dillon

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract This paper focuses on how regulatory bodies respond to artificial intelligence (AI)-enabled medical devices. To achieve this, we present a comparative overview of the United States (USA), European Union (EU), and China. Our search in the governmental database identified 59 AI medical devices approved in China as of July 2023. In comparison to the rules-based regulatory approach in China, the approaches in the USA and EU are more standards-oriented.

Published

2024

2. Fine mapping of TFL, a major gene regulating fruit length in snake gourd (Trichosanthes anguina L)

Author

Qingwei Jiang, Peng Wang, Yuanchao Xu, Bingying Zou, Shishi Huang, Yuancai Wu, Yongqiang Li, Chuan Zhong, and Wenjin Yu

Subjects

Snake gourd, Fruit length, Map-based cloning, Molecular marker-assisted selection, MADS-box, Botany, QK1-989

Abstract

Abstract Fruit length is a crucial agronomic trait of snake gourd (Trichosanthes anguina L); however, genes associated with fruit length have not been characterised. In this study, F2 snake gourd populations were generated by crossing the inbred lines, S1 and S2 (fruit lengths: 110 and 20 cm, respectively). Subsequently, bulk segregant analysis, sequencing, and fine-mapping were performed on the F2 population to identify target genes. Our findings suggest that the fruit length of snake gourd is regulated by a major-effect regulatory gene. Mining of genes regulating fruit length in snake gourd to provide a basis for subsequent selection and breeding of new varieties. Genotype-phenotype association analysis was performed on the segregating F2 population comprising 6,000 plants; the results indicate that the target gene is located on Chr4 (61,846,126–61,865,087 bp, 18.9-kb interval), which only carries the annotated candidate gene, Tan0010544 (designated TFL). TFL belongs to the MADS-box family, one of the largest transcription factor families. Sequence analysis revealed a non-synonymous mutation of base C to G at position 202 in the coding sequence of TFL, resulting in the substitution of amino acid Gln to Glu at position 68 in the protein sequence. Subsequently, an InDel marker was developed to aid the marker-assisted selection of TFL. The TFL in the expression parents within the same period was analysed using quantitative real-time PCR; the TFL expression was significantly higher in short fruits than long fruits. Therefore, TFL can be a candidate gene for determining the fruit length in snake gourd. Collectively, these findings improve our understanding of the genetic components associated with fruit length in snake gourds, which could aid the development of enhanced breeding strategies for plant species.

Published

2024

3. Carbon monoxide is involved in melatonin-enhanced drought resistance in tomato seedlings by enhancing chlorophyll synthesis pathway

Author

Yunzhi Liu, Junrong Xu, Xuefang Lu, Mengxiao Huang, Yuanzhi Mao, Chuanghao Li, Wenjin Yu, and Changxia Li

Subjects

Carbon monoxide, Melatonin, Drought stress, Chlorophyll synthesis, Genes expression, Botany, QK1-989

Abstract

Abstract Background Drought is thought to be a major abiotic stress that dramatically limits tomato growth and production. As signal molecule, melatonin (MT) and carbon monoxide (CO) can enhance plant stress resistance. However, the effect and underlying mechanism of CO involving MT-mediated drought resistance in seedling growth remains unknown. In this study, tomato (Solanum lycopersicum L. ‘Micro-Tom’) seedlings were used to investigate the interaction and mechanism of MT and CO in response to drought stress. Results The growth of tomato seedlings was inhibited significantly under drought stress. Exogenous MT or CO mitigated the drought-induced impairment in a dose-dependent manner, with the greatest efficiency provided by 100 and 500 µM, respectively. But application of hemoglobin (Hb, a CO scavenger) restrained the positive effects of MT on the growth of tomato seedlings under drought stress. MT and CO treatment promoted chlorophyll a (Chl a) and chlorophyll a (Chl b) accumulations. Under drought stress, the intermediate products of chlorophyll biosynthesis such as protoporphyrin IX (Proto IX), Mg-protoporphyrin IX (Mg-Proto IX), potochlorophyllide (Pchlide) and heme were increased by MT or CO, but uroporphyrinogen III (Uro III) content decreased in MT-treated or CO-treated tomato seedlings. Meanwhile, MT or CO up-regulated the expression of chlorophyll and heme synthetic-related genes SlUROD, SlPPOX, SlMGMT, SlFECH, SlPOR, SlChlS, and SlCAO. However, the effects of MT on chlorophyll biosynthesis were almost reversed by Hb. Conclusion The results suggested that MT and CO can alleviate drought stress and facilitate the synthesis of Chl and heme in tomato seedlings. CO played an essential role in MT-enhanced drought resistance via facilitating chlorophyll biosynthesis pathway.

Published

2024

4. Interaction between ABA and NO in plants under abiotic stresses and its regulatory mechanisms

Author

Junrong Xu, Xuefang Lu, Yunzhi Liu, Weisen Lan, Zhien Wei, Wenjin Yu, and Changxia Li

Subjects

environmental stresses, regulatory pathways, metabolic pathways, abscisic acid, nitric oxide, crosstalk, Plant culture, SB1-1110

Abstract

Abscisic acid (ABA) and nitric oxide (NO), as unique signaling molecules, are involved in plant growth, developmental processes, and abiotic stresses. However, the interaction between ABA and NO under abiotic stresses has little been worked out at present. Therefore, this paper reviews the mechanisms of crosstalk between ABA and NO in the regulation of plants in response to environmental stresses. Firstly, ABA-NO interaction can alleviate the changes of plant morphological indexes damaged by abiotic stresses, for instance, root length, leaf area, and fresh weight. Secondly, regulatory mechanisms of interaction between ABA and NO are also summarized, such as reactive oxygen species (ROS), antioxidant enzymes, proline, flavonoids, polyamines (PAs), ascorbate-glutathione cycle, water balance, photosynthetic, stomatal movement, and post−translational modifications. Meanwhile, the relationships between ABA and NO are established. ABA regulates NO through ROS at the physiological level during the regulatory processes. At the molecular level, NO counteracts ABA through mediating post-translational modifications. Moreover, we also discuss key genes related to the antioxidant enzymes, PAs biosynthesis, ABA receptor, NO biosynthesis, and flavonoid biosynthesis that are regulated by the interaction between ABA and NO under environmental stresses. This review will provide new guiding directions for the mechanism of the crosstalk between ABA and NO to alleviate abiotic stresses.

Published

2024

5. Combined BSA-Seq and RNA-Seq to Identify Potential Genes Regulating Fruit Size in Bottle Gourd (Lagenaria siceraria L.)

Author

Huarong Fang, Shishi Huang, Ruirui Li, Peng Wang, Qingwei Jiang, Chuan Zhong, Yanjuan Yang, and Wenjin Yu

Subjects

bottle gourd, fruit size, BSA-seq, transcriptome, Botany, QK1-989

Abstract

Fruit size is a crucial agronomic trait in bottle gourd, impacting both yield and utility. Despite its significance, the regulatory mechanism governing fruit size in bottle gourd remains largely unknown. In this study, we used bottle gourd (small-fruited H28 and large-fruited H17) parent plants to measure the width and length of fruits at various developmental stages, revealing a single ‘S’ growth curve for fruit expansion. Paraffin section observations indicated that both cell number and size significantly influence bottle gourd fruit size. Through bulked segregant analysis and combined genotype–phenotype analysis, the candidate interval regulating fruit size was pinpointed to 17,747,353 bp–18,185,825 bp on chromosome 9, encompassing 0.44 Mb and including 44 genes. Parental fruits in the rapid expansion stage were subjected to RNA-seq, highlighting that differentially expressed genes were mainly enriched in pathways related to cell wall biosynthesis, sugar metabolism, and hormone signaling. Transcriptome and resequencing analysis, combined with gene function annotation, identified six genes within the localized region as potential regulators of fruit size. This study not only maps the candidate interval of genes influencing fruit size in bottle gourd through forward genetics, but also offers new insights into the potential molecular mechanisms underlying this trait through transcriptome analysis.

Published

2024

6. Global Infectious Diseases from April-June 2024: Periodic Analysis

Author

Yi Luo, Guodan Li, Lin Lin, Dongliang Liu, Yinfu Sun, Taihan Li, Yufan Wu, Qi Xiang, Wenjin Yu, and Dayong Gu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

Infectious diseases pose a huge threat to human health. Human infectious diseases, especially infections originating from zoonotic or vector-borne sources, are an important global challenge. With the rising number of humans that engage in international travel, infectious disease outbreaks can spread rapidly across continents and borders worldwide. It is therefore important to monitor the transmission of infectious disease efficiently to prevent epidemics. We obtained surveillance data from the Shusi Tech Global Epidemic Information Monitoring System and comprehensively analyzed the timing and location of outbreaks in infected populations from April-June 2024.

Published

2024

7. Global Infectious Diseases between January and March 2024: Periodic Analysis

Author

Tingting Jiang, Xiaona Zhao, Zhiyuan Tao, Jiazhen Zou, Wenjin Yu, Minjing He, Dayong Gu, Shuqiong Zhang, Wanyi Zhang, and Hopui Ho

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

In recent years, humanity has faced formidable challenges posed by infectious diseases. For example, previously controlled infectious diseases have undergone resurgences, while ongoing pathogen mutations have given rise to drug-resistant strains. These developments, coupled with changes in natural and societal factors, have contributed to the emergence of new infectious diseases. Spring is a season prone to infectious diseases, with common examples including influenza, measles, smallpox, and dengue fever. These diseases are primarily transmitted through respiratory droplets, airborne transmission, and close contact. To gain insight into the global distribution of infectious diseases we analyzed data from the Global Epidemic Information Monitoring System, which was developed by Shusi Technology, from January to March 2024.

Published

2024

8. Nervous system manifestations related to COVID-19 and their possible mechanisms

Author

Zhen Xie, Hao Hui, Zhihan Zhao, Wenjin Yu, Rui Wu, Yanzhao Zhu, Yuan Song, Bingqing Cao, Wenzhen Shi, Di Zhao, Yunsong Zhao, Junchao Lv, Qian Yao, Yan Duan, Jingwen Li, Haijun Zhang, Linfu Zhou, Xiaotian Wang, Ye Tian, and Gang Zhao

Subjects

COVID-19, SARS-CoV-2, Neuroinvasion, CNS, PNS, Neurology, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

In December 2019, the novel coronavirus disease (COVID-19) due to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection broke. With the gradual deepening understanding of SARS-CoV-2 and COVID-19, researchers and clinicians noticed that this disease is closely related to the nervous system and has complex effects on the central nervous system (CNS) and peripheral nervous system (PNS). In this review, we summarize the effects and mechanisms of SARS-CoV-2 on the nervous system, including the pathways of invasion, direct and indirect effects, and associated neuropsychiatric diseases, to deepen our knowledge and understanding of the relationship between COVID-19 and the nervous system.

Published

2022

9. Global Infectious Diseases between September and December 2023: Periodical Analysis

Author

Junzi Liao, Yufan Wu, Yinfu Sun, Qi Xiang, Taihan Li, Yi Luo, Guodan Li, Wenjin Yu, Dongliang Liu, Shiping He, and Dayong Gu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

A plethora of infectious diseases have plagued mankind since the dawn of civilization. Historically, humans have suffered from a range of infectious diseases, including MPOX, Ebola virus, dengue virus, malaria, and influenza. Many respiratory infectious diseases are more likely to occur in cold weather. Due to the speed and easy mode of transmission, and short latency, respiratory infectious diseases are more likely to cause epidemics. It is more likely that influenza will circulate during the autumn-winter months, resulting in great outbreaks of influenza-like illnesses and even serious seasonal epidemics in some cases. We obtained surveillance data from the Shusi Tech’s Global Epidemic Information Monitoring System and comprehensively analyzed the timing and location of outbreaks in infected populations from September-December 2023.

Published

2024

10. Fully automating LI-RADS on MRI with deep learning-guided lesion segmentation, feature characterization, and score inference

Author

Ke Wang, Yuehua Liu, Hongxin Chen, Wenjin Yu, Jiayin Zhou, and Xiaoying Wang

Subjects

LI-RADS, clinical study, lesion segmentation, feature characterization, problem formulation, deep learning, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

IntroductionLeveraging deep learning in the radiology community has great potential and practical significance. To explore the potential of fitting deep learning methods into the current Liver Imaging Reporting and Data System (LI-RADS) system, this paper provides a complete and fully automatic deep learning solution for the LI-RADS system and investigates its model performance in liver lesion segmentation and classification.MethodsTo achieve this, a deep learning study design process is formulated, including clinical problem formulation, corresponding deep learning task identification, data acquisition, data preprocessing, and algorithm validation. On top of segmentation, a UNet++-based segmentation approach with supervised learning was performed by using 33,078 raw images obtained from 111 patients, which are collected from 2010 to 2017. The key innovation is that the proposed framework introduces one more step called feature characterization before LI-RADS score classification in comparison to prior work. In this step, a feature characterization network with multi-task learning and joint training strategy was proposed, followed by an inference module to generate the final LI-RADS score.ResultsBoth liver segmentation and feature characterization models were evaluated, and comprehensive statistical analysis was conducted with detailed discussions. Median DICE of liver lesion segmentation was able to achieve 0.879. Based on different thresholds, recall changes within a range of 0.7 to 0.9, and precision always stays high greater than 0.9. Segmentation model performance was also evaluated on the patient level and lesion level, and the evaluation results of (precision, recall) on the patient level were much better at approximately (1, 0.9). Lesion classification was evaluated to have an overall accuracy of 76%, and most mis-classification cases happen in the neighboring categories, which is reasonable since it is naturally difficult to distinguish LI-RADS 4 from LI-RADS 5.DiscussionIn addition to investigating the performance of the proposed model itself, extensive comparison experiment was also conducted. This study shows that our proposed framework with feature characterization greatly improves the diagnostic performance which also validates the effectiveness of the added feature characterization step. Since this step could output the feature characterization results instead of simply generating a final score, it is able to unbox the black-box for the proposed algorithm thus improves the explainability.

Published

2023

11. Forward genetic studies reveal LsAPRR2 as a key gene in regulating the green color of pericarp in bottle gourd (Lagenaria siceraria)

Author

Yulai Huo, Gui Zhang, Wenjin Yu, Zhengguo Liu, Mujie Shen, Rongchong Zhao, Shengping Hu, Xuyang Zheng, Peng Wang, and Yanjuan Yang

Subjects

bottle gourd, rind color, chlorophyll, APRR2, promoter variation, race, Plant culture, SB1-1110

Abstract

The fruit peel color is an important factor that affects its quality. However, genes involved in regulating pericarp color in bottle gourd (Lagenaria siceraria) have not been explored to date. Genetic analysis of color traits in bottle gourd peel through a genetic population of six generations demonstrated that the green color of peels is inherited as a single gene dominant trait. Combined phenotype-genotype analysis of recombinant plants using BSA-seq mapped the candidate gene to a 22.645 Kb interval at the head end of chromosome 1. We observed that the final interval contained only one gene, LsAPRR2 (HG_GLEAN_10010973). Sequence and spatiotemporal expression analyses of LsAPRR2 unraveled two nonsynonymous mutations (A→G) and (G→C) in the parental CDS sequences. Further, LsAPRR2 expression was higher in all green-skinned bottle gourds (H16) at various stages of fruit development than in white-skinned bottle gourds (H06). Cloning and sequence comparison of the two parental LsAPRR2 promoter regions indicated 11 bases insertion and 8 SNPs mutations in the region -991~-1033, upstream of the start codon in white bottle gourd. Proof of GUS reporting system, Genetic variation in this fragment significantly reduced the expression of LsAPRR2 in the pericarp of white bottle gourd. In addition, we developed a tightly linked (accuracy 93.88%) InDel marker for the promoter variant segment. Overall, the current study provides a theoretical basis for comprehensive elucidation of the regulatory mechanisms underlying the determination of bottle gourd pericarp color. This would further help in the directed molecular design breeding of bottle gourd pericarp.

Published

2023

12. Global Infectious Diseases in August 2023: A Monthly Analysis

Author

Jiawen Huang, Yi Luo, Jiazhen Zou, Yufan Wu, Yinfu Sun, Qi Xiang, Minjing He, Shuqiong Zhang, Wenjin Yu, Qun Su, Taihan Li, and Dayong Gu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

Infectious diseases frequently affect children and adults worldwide. Owing to their specific biology and mode of transmission, the presence of infected individuals or carriers in a region often leads to outbreaks of the disease in that region, and in severe cases, to the death of the infected individual. Infectious diseases have been one of the main causes of mass disability or death in humans for centuries. Surveillance of infectious diseases on a continental scale is therefore important for assessing, recognizing, and preventing the risks that these diseases may pose to animal and human health on a global scale. This report focuses on global infectious disease outbreaks and systematically summarises the timing and location of outbreaks in infected populations between 24 July and 23 August 2023 based on the Global Outbreak Information Surveillance System (GOSIS) of Shusi Technologies.

Published

2023

13. Global Infectious Diseases in July 2023: Monthly Analysis

Author

Guodan Li, Ying Zhou, Yinfu Sun, Qi Xiang, Tingting Jiang, Jiazhen Zou, Yufan Wu, Taihan Li, Yi Luo, Minjing He, Shuqiong Zhang, Dayong Gu, Shiping He, Dongliang Liu, Wenjin Yu, and Jing Xie

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

Many infectious diseases are ubiquitous and pose persistent adverse effects on public health. Infectious diseases have also been leading causes of high mortality in different periods of history. Real-time monitoring and analysis of global infectious disease transmission can provide a comprehensive understanding of critical information regarding the transmission routes, scope, velocity, and effects of viruses or bacteria. Here, using Shusi Tech’s Global Epidemic Information Monitoring System, we analyzed the prevalence of infectious diseases worldwide. We describe types of infectious diseases with relatively low incidence from 24 June 2023 to 23 July 2023 as comprehensibly as possible.

Published

2023

14. Strigolactone-Mediated Trehalose Enhances Salt Resistance in Tomato Seedlings

Author

Xuefang Lu, Xiaojun Liu, Junrong Xu, Yunzhi Liu, Yuzhen Chi, Wenjin Yu, and Changxia Li

Subjects

strigolactone, trehalose, salt, regulator pathway, genes expression, Plant culture, SB1-1110

Abstract

Strigolactones (SLs) are newly discovered plant hormones that modulate a variety of physiological and biochemical processes and plant stress responses. In this study, SLs’ synthetic analog, GR24, significantly improved the growth of tomato seedlings under salt stress, while SLs’ synthesis inhibitor, TIS108, inversed the positive role of SLs, indicating that SLs could effectively enhance salt-stress resistance in tomato. To further explore the mechanism of SL-modulated trehalose (Tre) in response to salt stress, Tre metabolism was analyzed during this process. GR24 increased the endogenous Tre and starch contents and decreased the glucose (Glu) level under salt-stress conditions. Additionally, the TPS and TPP activities were enhanced by GR24 and the activity of THL was inhibited by GR24 under salt stress; thereafter, Tre biosynthesis-related genes, including TPS1, TPS2, TPP1, and TPP2, were also upregulated by GR24 under salt stress. However, the function of GR24 in Tre metabolism was inhibited by TIS108. Thus, the results indicated that GR24 improved the expression levels or activities of Tre biosynthesis-related genes or enzymes and inhibited the transcript level or activity of genes or enzymes related to Tre degradation, respectively, resulting in an increase in the endogenous Tre level and, therefore, weakening the salt toxicity of tomato seedlings.

Published

2023

15. Global Infectious Diseases in June 2023: Monthly Analysis

Author

Shuqiong Zhang, Xin Fu, Shiping He, Jiazhen Zou, Yi Luo, Guodan Li, Qi Xiang, Taihan Li, Dayong Gu, Qun Su, Minjing He, and Wenjin Yu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

Infectious diseases are a class of diseases caused by various pathogens that can be transmitted between humans and animals or between humans and animals, thus seriously affecting the development of human society. To control the spread of infectious diseases worldwide and ensure the safety of people’s lives, it is essential to regularly analyze global infectious disease cases. This review is based on data from the World Health Organization, the Centers for Disease Control in countries around the world, Outbreak News Today and many other epidemiological websites to predict the global infectious disease outbreak trend. In addition, using the Shuci Technology global epidemic information monitoring system, we analyzed the distribution of infectious diseases that occurred around the world from 24 May 2023 to 23 June 2023.

Published

2023

16. Comparative full-length transcriptome analysis by Oxford Nanopore Technologies reveals genes involved in anthocyanin accumulation in storage roots of sweet potatoes (Ipomoea batatas L.)

Author

Jun Xiong, Xiuhua Tang, Minzheng Wei, and Wenjin Yu

Subjects

Sweet potato, Oxford Nanopore Technologies, Full-length transcriptome, Anthocyanin, Storage roots, Medicine, Biology (General), QH301-705.5

Abstract

Background Storage roots of sweet potatoes (Ipomoea batatas L.) with different colors vary in anthocyanin content, indicating different economically agronomic trait. As the newest DNA/RNA sequencing technology, Oxford Nanopore Technologies (ONT) have been applied in rapid transcriptome sequencing for investigation of genes related to nutrient metabolism. At present, few reports concern full-length transcriptome analysis based on ONT for study on the molecular mechanism of anthocyanin accumulation leading to color change of tuberous roots of sweet potato cultivars. Results The storage roots of purple-fleshed sweet potato (PFSP) and white-fleshed sweet potato (WFSP) at different developmental stages were subjected to anthocyanin content comparison by UV-visible spectroscopy as well as transcriptome analysis at ONT MinION platform. UV-visible spectrophotometric measurements demonstrated the anthocyanin content of PFSP was much higher than that of WFSP. ONT RNA-Seq results showed each sample generated average 2.75 GB clean data with Full-Length Percentage (FL%) over 70% and the length of N50 ranged from 1,192 to 1,395 bp, indicating reliable data for transcriptome analysis. Subsequent analysis illustrated intron retention was the most prominent splicing event present in the resulting transcripts. As compared PFSP with WFSP at the relative developmental stages with the highest (PH vs. WH) and the lowest (PL vs. WL) anthocyanin content, 282 and 216 genes were up-regulated and two and 11 genes were down-regulated respectively. The differential expression genes involved in flavonoid biosynthesis pathway include CCoAOMT, PpLDOX, DFR, Cytochrome P450, CHI, and CHS. The genes encoding oxygenase superfamily were significantly up-regulated when compared PFSP with WFSP at the relative developmental stages. Conclusions Comparative full-length transcriptome analysis based on ONT serves as an effective approach to detect the differences in anthocyanin accumulation in the storage roots of different sweet potato cultivars at transcript level, with noting that some key genes can now be closely related to flavonoids biosynthesis. This study helps to improve understanding of molecular mechanism for anthocyanin accumulation in sweet potatoes and also provides a theoretical basis for high-quality sweet potato breeding.

Published

2022

17. Identification and Characterization of Csa-miR395s Reveal Their Involvements in Fruit Expansion and Abiotic Stresses in Cucumber

Author

Lin Lu, Weirong Luo, Wenjin Yu, Junguo Zhou, Xinfa Wang, and Yongdong Sun

Subjects

cucumber, miR395, gene expression, fruit expansion, abiotic stress, Plant culture, SB1-1110

Abstract

The miR395 plays an indispensable role in biochemical processes by regulating their target genes. However, little is known about the roles of miR395 in cucumber fruit expansion and response to abiotic stresses. Here, 4 Csa-miR395s and 8 corresponding target genes were identified in the cucumber genome. Csa-miR395s were all located on the same chromosome (Chr 5). Csa-miR395a/b/c and Csa-miR395d were distributed in different branches without a closer genetic relationship. Massive cis-acting elements, including light, phytohormone, and stress response elements, were detected in the promoter regions of Csa-MIR395s, indicating that Csa-miR395s might be involved in complex regulatory networks to control cucumber growth and development and stress response. In addition, Csa-miR395a/b/c shared the same target genes, and Csa-miR395d had its specific target genes. Tissue-specific expression analysis showed that Csa-miR395a/b/c were all expressed in the leaf, root, ovary, and expanded fruit of cucumber and highly expressed in the expanded fruits compared to the ovary, while Csa2G215520 and Csa1G502860 (target genes of Csa-miR395a/b/c) presented a downregulated trend in the expanded fruit compared to the ovary. Meanwhile, the protein co-expression network revealed that these target genes had interactions in sulfur metabolism. These results suggested that Csa-miR395a/b/c targeting Csa2G215520 and Csa1G502860 might promote cucumber fruit expansion by affecting sulfur metabolism. Additionally, Quantitative Real-time PCR analysis validated that Csa-miR395s could be regulated by NaCl stress, and Csa-miR395a/b/c could respond to PEG stress, which further confirmed the reliability of cis-acting elements data. Taken together, our results could be helpful for further exploration of the functions of miR395s in cucumber fruit expansion and response to abiotic stresses.

Published

2022

18. Multifunctional π‐Conjugated Additives for Halide Perovskite

Author

Yinan Lao, Shuang Yang, Wenjin Yu, Haoqing Guo, Yu Zou, Zhijian Chen, and Lixin Xiao

Subjects

additives, halide perovskites, light‐emitting diodes, solar cells, π‐conjugation, Science

Abstract

Abstract Additive is a conventional way to enhance halide perovskite active layer performance in multiaspects. Among them, π‐conjugated molecules have significantly special influence on halide perovskite due to the superior electrical conductivity, rigidity property, and good planarity of π‐electrons. In particular, π‐conjugated additives usually have stronger interaction with halide perovskites. Therefore, they help with higher charge mobility and longer device lifetime compared with alkyl‐based molecules. In this review, the detailed effect of conjugated molecules is discussed in the following parts: defect passivation, lattice orientation guidance, crystallization assistance, energy level rearrangement, and stability improvement. Meanwhile, the roles of conjugated ligands played in low‐dimensional perovskite devices are summarized. This review gives an in‐depth discussion about how conjugated molecules interact with halide perovskites, which may help understand the improved performance mechanism of perovskite device with π‐conjugated additives. It is expected that π‐conjugated organic additives for halide perovskites can provide unprecedented opportunities for the future improvement of perovskite devices.

Published

2022

19. Global Infectious Diseases in May 2023: Monthly Analysis

Author

Yinfu Sun, Tingting Jiang, Jiazhen Zou, Yufan Wu, Taihan Li, Yi Luo, Minjing He, Shuqiong Zhang, Dongliang Liu, Guodan Li, Dayong Gu, Wenjin Yu, Qi Xiang, Shiping He, and Qun Su

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

In the past 5 years, there has been a growing focus on infectious diseases, such as viral infections (coronavirus, Mpox, and influenza), sudden pandemics, and persistent bacterial infections (cholera, malaria, and tuberculosis) that continue to be a challenge in epidemic areas. We analyzed epidemic data from dozens of infectious diseases between 24 April and 23 May 2023 using Shusi Tech’s Global Epidemic Information Monitoring System. This analysis will provide a quick overview of the global epidemic status, and will facilitate the prediction and assessment of future pandemics.

Published

2023

20. Strigolactone Alleviates the Adverse Effects of Salt Stress on Seed Germination in Cucumber by Enhancing Antioxidant Capacity

Author

Changxia Li, Xuefang Lu, Yunzhi Liu, Junrong Xu, and Wenjin Yu

Subjects

GR24, TIS108, alleviation, antioxidant system, gene expression, Therapeutics. Pharmacology, RM1-950

Abstract

Strigolactones (SLs), as a new phytohormone, regulate various physiological and biochemical processes, and a number of stress responses, in plants. In this study, cucumber ‘Xinchun NO. 4’ is used to study the roles of SLs in seed germination under salt stress. The results show that the seed germination significantly decreases with the increase in the NaCl concentrations (0, 1, 10, 50, and 100 mM), and 50 mM NaCl as a moderate stress is used for further analysis. The different concentrations of SLs synthetic analogs GR24 (1, 5, 10, and 20 μM) significantly promote cucumber seed germination under NaCl stress, with a maximal biological response at 10 μM. An inhibitor of strigolactone (SL) synthesis TIS108 suppresses the positive roles of GR24 in cucumber seed germination under salt stress, suggesting that SL can alleviate the inhibition of seed germination caused by salt stress. To explore the regulatory mechanism of SL-alleviated salt stress, some contents, activities, and genes related to the antioxidant system are measured. The malondialdehyde (MDA), H2O2, O2−, and proline contents are increased, and the levels of ascorbic acid (AsA) and glutathione (GSH) are decreased under salt stress conditions, while GR24 treatment reduces MDA, H2O2, O2−, and proline contents, and increases AsA and GSH contents during seed germination under salt stress. Meanwhile, GR24 treatment enhances the decrease in the activities of antioxidant enzymes caused by salt stress [superoxide dismutase (SOD), peroxidase (POD), catalase (CAT) and ascorbate peroxidase (APX)], following which antioxidant-related genes SOD, POD, CAT, APX, and GRX2 are up-regulated by GR24 under salt stress. However, TIS108 reversed the positive effects of GR24 on cucumber seed germination under salt stress. Together, the results of this study revealed that GR24 regulates the expression levels of genes related to antioxidants and, therefore, regulates enzymatic activity and non-enzymatic substances and enhances antioxidant capacity, alleviating salt toxicity during seed germination in cucumber.

Published

2023

21. Global Infectious Diseases in April 2023: Monthly Analysis

Author

Yufan Wu, Jiazhen Zou, Yinfu Sun, Qi Xiang, Minjing He, Shuqiong Zhang, Dongliang Liu, Guodan Li, Taihan Li, Yi Luo, Qun Su, Shiping He, Wenjin Yu, and Dayong Gu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

Thousands of years have passed since infectious diseases first endangered human health as the most potentially lethal and debilitating diseases worldwide. The global incidence of infectious diseases has increased significantly over the past decades, such as COVID-19, cholera, dengue, and influenza. Key elements in combating and controlling diseases include monitoring and reporting infectious disease timelines and geographic distribution. We obtained surveillance data from Shusi Tech’s Global Epidemic Information Monitoring System and comprehensively analyzed the timing and location of outbreaks in infected populations from 24 March 2023 to 23 April 2023. Recent worldwide outbreaks of infectious diseases highlight the need to implement effective monitoring strategies and warning systems.

Published

2023

22. Global Infectious Diseases in March 2023: Monthly Analysis

Author

Taihan Li, Yi Luo, Jiazhen Zou, Yufan Wu, Yinfu Sun, Qi Xiang, Minjing He, Shuqiong Zhang, Dongliang Liu, Guodan Li, Wenjin Yu, Qun Su, and Dayong Gu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

Infectious diseases pose a major burden on public health and economic stability among societies worldwide. For centuries, they have been among the leading causes of death and disability, and are currently presenting growing challenges to health security and human progress. This report focuses on global outbreaks of infectious diseases, relying on Shusi Tech’s Global Epidemic Information Monitoring System to systematically summarize outbreak timing and location in infected populations from February 24, 2023, to March 23, 2023. Therefore, surveillance of infectious diseases on a continental scale is important to assess, recognize and protect against the risks that these diseases may pose to animal, domestic animal and human health on a global scale.

Published

2023

23. Deep Learning-Based Classification of Cancer Cell in Leptomeningeal Metastasis on Cytomorphologic Features of Cerebrospinal Fluid

Author

Wenjin Yu, Yangyang Liu, Yunsong Zhao, Haofan Huang, Jiahao Liu, Xiaofeng Yao, Jingwen Li, Zhen Xie, Luyue Jiang, Heping Wu, Xinhao Cao, Jiaming Zhou, Yuting Guo, Gaoyang Li, Matthew Xinhu Ren, Yi Quan, Tingmin Mu, Guillermo Ayuso Izquierdo, Guoxun Zhang, Runze Zhao, Di Zhao, Jiangyun Yan, Haijun Zhang, Junchao Lv, Qian Yao, Yan Duan, Huimin Zhou, Tingting Liu, Ying He, Ting Bian, Wen Dai, Jiahui Huai, Xiyuan Wang, Qian He, Yi Gao, Wei Ren, Gang Niu, and Gang Zhao

Subjects

leptomeningeal metastasis (LM), deep learning, cytology, CSF, cancer cell, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundIt is a critical challenge to diagnose leptomeningeal metastasis (LM), given its technical difficulty and the lack of typical symptoms. The existing gold standard of diagnosing LM is to use positive cerebrospinal fluid (CSF) cytology, which consumes significantly more time to classify cells under a microscope.ObjectiveThis study aims to establish a deep learning model to classify cancer cells in CSF, thus facilitating doctors to achieve an accurate and fast diagnosis of LM in an early stage.MethodThe cerebrospinal fluid laboratory of Xijing Hospital provides 53,255 cells from 90 LM patients in the research. We used two deep convolutional neural networks (CNN) models to classify cells in the CSF. A five-way cell classification model (CNN1) consists of lymphocytes, monocytes, neutrophils, erythrocytes, and cancer cells. A four-way cancer cell classification model (CNN2) consists of lung cancer cells, gastric cancer cells, breast cancer cells, and pancreatic cancer cells. Here, the CNN models were constructed by Resnet-inception-V2. We evaluated the performance of the proposed models on two external datasets and compared them with the results from 42 doctors of various levels of experience in the human-machine tests. Furthermore, we develop a computer-aided diagnosis (CAD) software to generate cytology diagnosis reports in the research rapidly.ResultsWith respect to the validation set, the mean average precision (mAP) of CNN1 is over 95% and that of CNN2 is close to 80%. Hence, the proposed deep learning model effectively classifies cells in CSF to facilitate the screening of cancer cells. In the human-machine tests, the accuracy of CNN1 is similar to the results from experts, with higher accuracy than doctors in other levels. Moreover, the overall accuracy of CNN2 is 10% higher than that of experts, with a time consumption of only one-third of that consumed by an expert. Using the CAD software saves 90% working time of cytologists.ConclusionA deep learning method has been developed to assist the LM diagnosis with high accuracy and low time consumption effectively. Thanks to labeled data and step-by-step training, our proposed method can successfully classify cancer cells in the CSF to assist LM diagnosis early. In addition, this unique research can predict cancer’s primary source of LM, which relies on cytomorphologic features without immunohistochemistry. Our results show that deep learning can be widely used in medical images to classify cerebrospinal fluid cells. For complex cancer classification tasks, the accuracy of the proposed method is significantly higher than that of specialist doctors, and its performance is better than that of junior doctors and interns. The application of CNNs and CAD software may ultimately aid in expediting the diagnosis and overcoming the shortage of experienced cytologists, thereby facilitating earlier treatment and improving the prognosis of LM.

Published

2022

24. Lead‐free Double Perovskite Cs2AgIn0.9Bi0.1Cl6 Quantum Dots for White Light‐Emitting Diodes

Author

Yuqing Zhang, Zehao Zhang, Wenjin Yu, Yong He, Zhijian Chen, Lixin Xiao, Jun‐jie Shi, Xuan Guo, Shufeng Wang, and Bo Qu

Subjects

double perovskites, electrically excited, lead‐free, quantum dots, white light‐emitting diodes, Science

Abstract

Abstract Perovskite‐based optoelectronic devices have attracted considerable attention owing to their excellent device performances and facile solution processing. However, the toxicity and intrinsic instability of lead‐based perovskites have limited their commercial development. Moreover, the provision of an efficient white emission from a single perovskite layer is challenging. Here, novel electrically excited white light‐emitting diodes (WLEDs) based on lead‐free double perovskite Cs2AgIn0.9Bi0.1Cl6 quantum dots (QDs) without any phosphor are fabricated for the first time. Density functional theory calculations are carried out to clarify the mechanism of absorption and recombination in Cs2AgIn0.9Bi0.1Cl6 with Bi‐doping breaking the parity‐forbidden transition of the direct bandgap. Microzone optical and electronic characterizations reveal that the broadband emission of Cs2AgIn0.9Bi0.1Cl6 QDs originates from self‐trapped excitons, and luminescent properties are unchanged after the film deposition. The QD‐WLED exhibits excellent Commission Internationale de L'Eclairage color coordinates, correlated color temperature and relatively high color rendering index of (0.32, 0.32), 6432 K, and 94.5, respectively. The maximum luminance of 158 cd m−2 is achieved by triphenylphosphine oxide passivation, and this lead‐free QD‐WLED exhibits a superior stability in ambient air with a long T50 ≈48.53 min. Therefore, lead‐free perovskite Cs2AgIn0.9Bi0.1Cl6 QDs are promising candidates for use in WLEDs in the future.

Published

2022

25. Establishment and Verification of Neural Network for Rapid and Accurate Cytological Examination of Four Types of Cerebrospinal Fluid Cells

Author

Luyue Jiang, Gang Niu, Yangyang Liu, Wenjin Yu, Heping Wu, Zhen Xie, Matthew Xinhu Ren, Yi Quan, Zhuangde Jiang, Gang Zhao, and Wei Ren

Subjects

neural network, white blood cell, cerebral spinal fluid, classification, clinical, image recognition, Medicine (General), R5-920

Abstract

Fast and accurate cerebrospinal fluid cytology is the key to the diagnosis of many central nervous system diseases. However, in actual clinical work, cytological counting and classification of cerebrospinal fluid are often time-consuming and prone to human error. In this report, we have developed a deep neural network (DNN) for cell counting and classification of cerebrospinal fluid cytology. The May-Grünwald-Giemsa (MGG) stained image is annotated and input into the DNN network. The main cell types include lymphocytes, monocytes, neutrophils, and red blood cells. In clinical practice, the use of DNN is compared with the results of expert examinations in the professional cerebrospinal fluid room of a First-line 3A Hospital. The results show that the report produced by the DNN network is more accurate, with an accuracy of 95% and a reduction in turnaround time by 86%. This study shows the feasibility of applying DNN to clinical cerebrospinal fluid cytology.

Published

2022

26. Global Infectious Diseases in February 2023: Monthly Analysis

Author

Dongliang Liu, Guodan Li, Qun Su, Yi Luo, Taihan Li, Yufan Wu, Jiazhen Zou, Yinfu Sun, Qi Xiang, Shiping He, Wenjin Yu, and Dayong Gu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

Public health security in human societies is placed under enormous strain by infectious disease epidemics. According to the WHO, COVID-19 and Mpox remain on the list of PHEICs, whereas cholera, dengue, and other contagious diseases remain endemic in several countries and regions. Data on prevalent infectious diseases have been collected worldwide in recent weeks, and may provide new ideas for international collaboration in public health.

Published

2023

27. Global Infectious Diseases in December 2022: Monthly Analysis

Author

Qi Xiang, Taihan Li, Minjing He, Shuqiong Zhang, Yi Luo, Jiazhen Zou, Guodan Li, Qun Su, Shiping He, Wenjin Yu, and Dayong Gu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

The emergence and reoccurrence of infectious diseases constitute a significant threat to human health. Data for this paper were mainly obtained from official websites, such as the WHO and national CDC websites. The report summarizes and analyzes information on infectious diseases for early outbreak monitoring from 24 November to 23 December 2022. Monkeypox cases declined in December 2022 with few deaths, while cholera infections have increased in African regions and war-torn countries. Most sub-Saharan countries are affected by insect-borne diseases, such as dengue, Lassa, and chikungunya fever.

Published

2023

28. Global Infectious Diseases in January 2023: Monthly Analysis

Author

Minjing He, Shuqiong Zhang, Qun Su, Dongliang Liu, Guodan Li, Qi Xiang, Yinfu Sun, Yi Luo, Taihan Li, Yufan Wu, Jiazhen Zou, Shiping He, Wenjin Yu, and Dayong Gu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

Infectious diseases are a major threat to global health and the economic stability of societies worldwide. To prevent outbreaks, monitoring the growth trends of infectious diseases appears to be particularly important and necessary. Herein, data from epidemiological websites, such as the World Health Organization and National Health Council are used to illustrate the outbreak trends for infectious diseases worldwide. In the context of the COVID-19 pandemic, a global resurgence in other infectious diseases has been observed, particularly influenza in the United States. Proper surveillance and effective strategies are urgently required to keep emerging infectious diseases under control.

Published

2023

29. Carbon-based perovskite solar cells with electron and hole-transporting/-blocking layers

Author

Wenjin Yu, Yu Zou, Shining Zhang, Zishi Liu, Cuncun Wu, Bo Qu, Zhijian Chen, and Lixin Xiao

Subjects

carbon-electrode-based PSCs, n-i-p architecture, electron transport layer, hole-transporting layer, interface, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Towards commercialization of perovskite solar cells (PSCs), further reducing the cost and increasing the stability of PSCs have been the most important tasks of researchers, as the efficiency of single-junction PSCs has reached a competitive level among all kinds of single-junction solar cells. Carbon-electrode-based PSCs (CPSCs), as one of the most promising constructions for achieving stable economical PSCs, now attract enormous attention for their cost-effectiveness and stability. Here, we briefly review the development of CPSCs and reveal the importance of n-i-p architecture for state-of-the-art CPSCs. However, despite their promising potential, challenges still exist in CPSCs in the n-i-p architecture, which mainly stem from the incompact contact of the hole-transporting layer (HTL)/carbon electrode. Thus, new carbon materials and/or novel manufacturing methods should be proposed. In addition, HTL is yet to be appropriate for state-of-the-art CPSCs because the fabrication of carbon electrode could result in the destruction of the underlayer. To further enhance the performance of CPSCs, both the HTL and electron transport layer as well as their interfaces with perovskite active layer need to be improved. We recommend that the perovskite active layer, with its long carrier lifetime, strong carrier transport capability, and long-term stability, is necessary as well for improved performance of CPSCs. We also highlight current researches on CPSCs and provide a systematic review of various types of regulation tools.

Published

2023

30. Identification and Application of BhAPRR2 Controlling Peel Colour in Wax Gourd (Benincasa hispida)

Author

Lianlian Ma, Zhengguo Liu, Zhikui Cheng, Jiquan Gou, Jieying Chen, Wenjin Yu, and Peng Wang

Subjects

APRR2, chlorophyll, frameshift mutation, peel color, wax gourd, Plant culture, SB1-1110

Abstract

Peel color is an important factor affecting commodity quality in vegetables; however, the genes controlling this trait remain unclear in wax gourd. Here, we used two F2 genetic segregation populations to explore the inheritance patterns and to clone the genes associated with green and white skin in wax gourd. The F2 and BC1 trait segregation ratios were 3:1 and 1:1, respectively, and the trait was controlled by nuclear genes. Bulked segregant analysis of both F2 plants revealed peaks on Chr5 exceeding the confidence interval. Additionally, 6,244 F2 plants were used to compress the candidate interval into a region of 179 Kb; one candidate gene, Bch05G003950 (BhAPRR2), encoding two-component response regulator-like protein Arabidopsis pseudo-response regulator2 (APRR2), which is involved in the regulation of peel color, was present in this interval. Two bases (GA) present in the coding sequence of BhAPRR2 in green-skinned wax gourd were absent from white-skinned wax gourd. The latter contained a frameshift mutation, a premature stop codon, and lacked 335 residues required for the protein functional region. The chlorophyll content and BhAPRR2 expression were significantly higher in green-skinned than in white-skinned wax gourd. Thus, BhAPRR2 may regulate the peel color of wax gourd. This study provides a theoretical foundation for further studies of the mechanism of gene regulation for the fruit peel color of wax gourd.

Published

2021

31. Global Infectious Diseases in November 2022: Monthly Analysis

Author

Jiazhen Zou, Shiping He, Wenjin Yu, Guodan Li, Taihan Li, Qi Xiang, Dongliang Liu, Yi Luo, Yinfu Sun, Minjing He, Shuqiong Zhang, Qun Su, and Dayong Gu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

Infectious diseases, such as COVID-19 and monkeypox, pose a severe threat to economic development in all countries, as well as to the health of people everywhere. The World Health Organization and National Health Council epidemiological websites were used herein as data sources. Shusi Tech’s Global Epidemic Information Monitoring System was used to analyze the data for infectious diseases, determine changes in global epidemics, determine the distribution and quantity of infectious disease cases from October 24, 2022 to November 23, 2022, and analyze their changing trends. Furthermore, the analysis of these data can be used to predict prevalence rates, and assess epidemic prevention and control measures.

Published

2022

32. Global Infectious Diseases in October 2022: Monthly Analysis

Author

Yi Luo, Yinfu Sun, Wenjin Yu, Jiazhen Zou, Guodan Li, Taihan Li, Qi Xiang, Dongliang Liu, Shiping He, Qun Su, and Dayong Gu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

Infectious diseases continue to pose a major threat to worldwide public health. Infections by Coronavirus Disease 2019 have eased but continue to negatively affect international economic development. The situation of other infectious diseases, such as monkeypox and mosquito-borne diseases, became stable in October. Monitoring epidemic situation of infectious diseases can provide rapid insight into global transmission trends and assist in predicting epidemic situations. Visualizations and analyses summarizing the past few weeks of global data on major infectious diseases are provided.

Published

2022

33. Global Infectious Diseases in September 2022: Monthly Analysis

Author

Guodan Li, Dongliang Liu, Wenjin Yu, Qi Xiang, Jiazhen Zou, Taihan Li, Yi Luo, Shiping He, Qun Su, and Dayong Gu

Subjects

Infectious and parasitic diseases, RC109-216, Veterinary medicine, SF600-1100

Abstract

The threat of infectious diseases caused by pathogenic microorganisms to both human health and the economy is enormous. Coronavirus Disease 2019 (COVID-19) remains a global pandemic. In contrast to many other infectious diseases, monkeypox spreads rapidly and cannot be ignored. Collection of data on contagious diseases can provide quantitative evidence to support effective pandemic control strategies. Global data on predominant infectious diseases collected in the past several weeks and a summary of their epidemiology are presented herein.

Published

2022

34. Roles of Hydrogen Gas in Plants under Abiotic Stress: Current Knowledge and Perspectives

Author

Changxia Li, Wenjin Yu, Yuancai Wu, and Yongqiang Li

Subjects

hydrogen gas, environmental stresses, regulatory pathways, metabolisms, genes, Therapeutics. Pharmacology, RM1-950

Abstract

Hydrogen gas (H2) is a unique molecular messenger, which is known to be involved in diverse physiological processes in plants, from seed germination to seedling growth to regulation of environmental stresses. In this review, we focus on the role of H2 in plant responses to abiotic stresses, such as temperature, osmotic stress, light, paraquat (PQ)-induced oxidative stresses, and metal stresses. In general, H2 can alleviate environmental stresses by improving the antioxidant defense system, photosynthetic capacity, re-establishing ion homeostasis and glutathione homeostasis, maintaining nutrient element homeostasis, mediating glucose metabolism and flavonoid pathways, regulating heme oxygenase-1 (HO-1) signaling, and interaction between H2 and nitric oxide (NO), carbonic oxide (CO), or plant hormones. In addition, some genes modulated by H2 under abiotic stresses are also discussed. Detailed evidence of molecular mechanisms for H2-mediated particular pathways under abiotic stress, however, is scarce. Further studies regarding the regulatory roles of H2 in modulating abiotic stresses research should focus on the molecular details of the particular pathways that are activated in plants. More research work will improve knowledge concerning possible applications of hydrogen-rich water (HRW) to respond to abiotic stresses with the aim of enhancing crop quality and economic value.

Published

2022

35. Shape and style Enhancement for Domain Generalization.

Author

Wenjin Yu, Jing Ma, Xiaolong Shi, and Linqiang Ye

Published

2023

36. Sliding Window GBDT for Electricity Demand Forecasting.

Author

Qing Yin, Chengyu Sun, Min Cao, Yong Duan, Rongrong Jia, Wenjin Yu, Xin Yi, Lu Yin, Jiangsheng Huang, and Zhihong Zhang

Published

2023

37. Joint Frame Structure and Beamforming Design for Integrated Localization and Communication Network.

Author

Yexin Shi, Wei Qi, Rui Yin 0001, Wenjin Yu, Jie Qian, Zhihui Ye, and Celimuge Wu

Published

2023

38. Research on Automatic Identification of Information Assets Based on Industrial Control Network Traffic.

Author

Wenjin Yu, Yong Li, and Yixiang Jiang

Published

2021

39. A crystal capping layer for formation of black-phase FAPbI3 perovskite in humid air.

Author

Yu Zou, Wenjin Yu, Haoqing Guo, Qizhi Li, Xiangdong Li, Liang Li, Yueli Liu, Hantao Wang, Zhenyu Tang, Shuang Yang, Yanrun Chen, Bo Qu, Yunan Gao, Zhijian Chen, Shufeng Wang, Dongdong Zhang, Yihua Chen, Qi Chen, Zakeeruddin, Shaik M., and Yingying Peng

Subjects

*DIMETHYL sulfoxide, *PEROVSKITE, *CRYSTAL growth, *SOLAR cells, *LEAD iodide, *HUMIDITY, *CRYSTALS

Abstract

Black-phase formamidinium lead iodide (a-FAPbI3) perovskites are the desired phase for photovoltaic applications, but water can trigger formation of photoinactive impurity phases such as δ-FAPbI3. We show that the classic solvent system for perovskite fabrication exacerbates this reproducibility challenge. The conventional coordinative solvent dimethyl sulfoxide (DMSO) promoted δ-FAPbI3 formation under high relative humidity (RH) conditions because of its hygroscopic nature. We introduced chlorine-containing organic molecules to form a capping layer that blocked moisture penetration while preserving DMSO-based complexes to regulate crystal growth. We report power conversion efficiencies of >24.5% for perovskite solar cells fabricated across an RH range of 20 to 60%, and 23.4% at 80% RH. The unencapsulated device retained 96% of its initial performance in air (with 40 to 60% RH) after 500-hour maximum power point operation. [ABSTRACT FROM AUTHOR]

Published

2024

40. Implementation of Industrial Cyber Physical System: Challenges and Solutions.

Author

Wenjin Yu, Tharam S. Dillon, Fahed Mostafa, Wenny Rahayu, and Yuehua Liu

Published

2019

41. Active Defense System of Industrial Control System Based on Dynamic Behavior Analysis.

Author

Wenjin Yu, Yixiang Jiang, and Yizhen Lin

Published

2019

42. Edge Computing-Assisted IoT Framework With an Autoencoder for Fault Detection in Manufacturing Predictive Maintenance

Author

Wenjin Yu, Yuehua Liu, Tharam Dillon, and Wenny Rahayu

Subjects

Control and Systems Engineering, Electrical and Electronic Engineering, Computer Science Applications, Information Systems

Published

2023

43. Mobile RFID Mutual Authentication Protocol Based on Hash Function.

Author

Wenjin Yu and Yixiang Jiang

Published

2017

44. Research Progress on the Human Behavior Recognition Based on Machine Learning Methods

Author

Peijian Zhou, Wenjin Yu, Lingfeng Shu, Shang Wei, Chenglong Jiang, and Haisheng Zheng

Subjects

General Medicine

Abstract

Background: Machine vision has been used in the industrial automation system for a long time. It also plays a significant role in the field of human behavior recognition. Behavior recognition based on machine vision, such as object tracking, motion detection and crime recognition, greatly broadens the application field of artificial intelligence and has a good application prospect. Objective: We summarize the latest applications of various machine learning algorithms in human behavior recognition, and analyze the accuracy of various algorithms combined with data sets, so as to provide reference for researchers in related fields. Methods: By sorting out the typical research results, briefly expound on the application of machine learning in the field of behavior recognition in recent years. This review focuses on the Two Stream Network structure, TSN structure, LSTM network and C3D network. Results: This paper analyzes the principles, advantages and disadvantages of various human behavior recognition methods, and briefly discusses the future development direction. Conclusion: The wide application prospect of behavior recognition and detection makes it a hot research direction in the field of computer vision, and greatly improves the accuracy of complex human motion recognition combined with deep learning. However, it still faces many difficulties, such as insufficient discrimination of violence attributes, difficult collection, verification of special action data and insufficient hardware computing resources, etc.

Published

2023

45. Strigolactone-Mediated Trehalose Enhances Salt Resistance in Tomato Seedlings

Author

Li, Xuefang Lu, Xiaojun Liu, Junrong Xu, Yunzhi Liu, Yuzhen Chi, Wenjin Yu, and Changxia

Subjects

strigolactone, trehalose, salt, regulator pathway, genes expression

Abstract

Strigolactones (SLs) are newly discovered plant hormones that modulate a variety of physiological and biochemical processes and plant stress responses. In this study, SLs’ synthetic analog, GR24, significantly improved the growth of tomato seedlings under salt stress, while SLs’ synthesis inhibitor, TIS108, inversed the positive role of SLs, indicating that SLs could effectively enhance salt-stress resistance in tomato. To further explore the mechanism of SL-modulated trehalose (Tre) in response to salt stress, Tre metabolism was analyzed during this process. GR24 increased the endogenous Tre and starch contents and decreased the glucose (Glu) level under salt-stress conditions. Additionally, the TPS and TPP activities were enhanced by GR24 and the activity of THL was inhibited by GR24 under salt stress; thereafter, Tre biosynthesis-related genes, including TPS1, TPS2, TPP1, and TPP2, were also upregulated by GR24 under salt stress. However, the function of GR24 in Tre metabolism was inhibited by TIS108. Thus, the results indicated that GR24 improved the expression levels or activities of Tre biosynthesis-related genes or enzymes and inhibited the transcript level or activity of genes or enzymes related to Tre degradation, respectively, resulting in an increase in the endogenous Tre level and, therefore, weakening the salt toxicity of tomato seedlings.

Published

2023

46. Progress on strategies to control the built-in electric field of perovskite solar cells

Author

Shining Zhang, Xian Zhang, Shuang Yang, Wenjin Yu, Bowen Ren, Cuncun Wu, and Lixin Xiao

Subjects

Multidisciplinary

Published

2022

47. Zwitterionic Ionic Liquid as Additive for High‐Performance FAPbI 3 Perovskite Solar Cells with Negligible Hysteresis

Author

Xiangdong Li, Yu Zou, Shangbo Yu, Xin Zhao, Wenjin Yu, Shuang Yang, Haoqing Guo, Lixin Xiao, Zhijian Chen, and Bo Qu

Subjects

Energy Engineering and Power Technology, Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials

Published

2023

48. An Integrated Framework for Health State Monitoring in a Smart Factory Employing IoT and Big Data Techniques

Author

Yuehua Liu, Fahed Mostafa, Wenjin Yu, Wenny Rahayu, and Tharam S. Dillon

Subjects

Computer Networks and Communications, business.industry, Computer science, Data transformation, Big data, Data security, Cloud computing, Computer Science Applications, Digital sensors, Hardware and Architecture, Data quality, Signal Processing, Data analysis, Systems engineering, Factory (object-oriented programming), business, Information Systems

Abstract

With the rapid growth in the use of various smart digital sensors, the Internet of Things (IoT) is a swiftly growing technology which has contributed significantly to Industry 4.0 and the promotion of IoT-based smart factories, which gives rise to the new challenges of big data analytics and the implementation of machine learning techniques. This paper proposes a practical framework that combines IoT techniques, a data lake, data analysis, and cloud computing for manufacturing equipment health state monitoring and diagnostics in smart manufacturing. It addresses all the required aspects in the realization of such a system and allows the seamless interchange of data and functionality. Due to the specific characteristics of IoT sensor data (low quality, redundant multi-sources, partial labelling), we not only provide a promising framework but also give detailed insights and pay considerable attention to data quality issues. In the proposed framework, an ingestion procedure is designed to manage data collection, data security, data transformation and data storage issues. To improve the quality of IoT big data, a high-noise feature filter is proposed for automated preliminary sensor selection to suppress noisy features, followed by a noisy data cleaning module to provide good quality data for unbiased diagnosis modelling. The proposed framework can achieve seamless integration between IoT big data ingestion from the physical factory and machine learning-based data analytics in the virtual systems. It is built on top of the Apache Spark processing engine, being capable of working in both big data and real-time environments. One case study has been conducted based on a four-stage syngas compressor from real industries, which won the Best Industry Application of IoT at the BigInsights Data & AI Innovation Awards. The experiment results demonstrate the effectiveness of both the proposed IoT-architecture and techniques to address the data quality issues.

Published

2022

49. Empowering IoT Predictive Maintenance Solutions With AI: A Distributed System for Manufacturing Plant-Wide Monitoring

Author

Tharam S. Dillon, Ming Li, Wenny Rahayu, Yuehua Liu, and Wenjin Yu

Subjects

Computer science, business.industry, Distributed computing, Network delay, Feature extraction, Cloud computing, Feature selection, Maintenance engineering, Predictive maintenance, Fault detection and isolation, Computer Science Applications, Control and Systems Engineering, Feature (computer vision), Electrical and Electronic Engineering, business, Information Systems

Abstract

The emergence of Industry 4.0 and the rapid advances in the Industrial Internet of Things (IIoT) have provided manufacturers with the ability to remotely monitor the process by deploying automatic fault detection in an IoT-based predictive maintenance system. However, the monitoring targets are now manufacturing plant-wide instead of being just a local area. Multiple types of faults are involved and the conventional centralized cloud computing-based IoT solutions always lead to a heavy burden on the network bandwidth due to the large amount of sensor data collected frequently that has to be transmitted to the central server and this leads to poor response time for the monitoring system. To address this problem, this article develops an artificial intelligence-assisted distributed system for manufacturing plant-wide predictive maintenance applications. The developed distributed system relies on the feature selection technique to identity an optimal feature subset for each type of fault and is enabled by deploying each independent model built on the obtained feature subset into different edge nodes. The distributed approach enables the data to be processed near the sensors, requiring less data to be transmitted to the central cloud server reducing network delay and delivering more accurate results. In addition, our proposed feature selection approach is especially designed to accommodate the characteristics of IIoT data such as the lack of labels. The effectiveness of the proposed method is validated using the widely used public Tennessee Eastman dataset.

Published

2022

50. CdSe/CdSeS Nanoplatelet Light-Emitting Diodes with Ultrapure Green Color and High External Quantum Efficiency

Author

Peng Bai, An Hu, Yunzhou Deng, Zhenyu Tang, Wenjin Yu, Yanlei Hao, Shuang Yang, Yunke Zhu, Lixin Xiao, Yizheng Jin, and Yunan Gao

Subjects

General Materials Science, Physical and Theoretical Chemistry

Abstract

Colloidal II-VI group nanoplatelets (NPLs) possess ultranarrow emission line widths, for which they have great promise in achieving the purest display color in solution-processed light-emitting diodes (LEDs). Red NPL-LEDs have shown extremely saturated red color with high efficiency, while the green and blue ones lag far behind. Herein, we report green NPL-LEDs with the purest color in accordance with the Rec. 2020 standard and the peak external quantum efficiency (EQE) of 9.78%. By carefully controlling the aspect ratio, capping ligands, and purifications of CdSe/CdSeS core/alloyed-crown NPLs, NPL films with excellent flatness and unity photoluminescence quantum yields (PLQYs) are realized, laying a solid foundation for improving LED performance. Furthermore, via tuning the carrier injection balance, the record-high EQE for green NPL-LEDs is achieved. The electroluminescence (EL) exhibits an extremely saturated green color with the Commission Internationale de L'Eclairage (CIE) coordinates of (0.163 0.786), which demonstrates their great potential in applications of ultrahigh-definition display technology. Our findings would help to further improve the performance of all NPL-LEDs.

Published

2022