Your search keyword '"Yuanyou Xu"' showing total 16 results

1. Multifaceted regulation of siderophore synthesis by multiple regulatory systems in Shewanella oneidensis

Author

Peilu Xie, Yuanyou Xu, Jiaxin Tang, Shihua Wu, and Haichun Gao

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Siderophore-dependent iron uptake is a mechanism by which microorganisms scavenge and utilize iron for their survival, growth, and many specialized activities, such as pathogenicity. The siderophore biosynthetic system PubABC in Shewanella can synthesize a series of distinct siderophores, yet how it is regulated in response to iron availability remains largely unexplored. Here, by whole genome screening we identify TCS components histidine kinase (HK) BarA and response regulator (RR) SsoR as positive regulators of siderophore biosynthesis. While BarA partners with UvrY to mediate expression of pubABC post-transcriptionally via the Csr regulatory cascade, SsoR is an atypical orphan RR of the OmpR/PhoB subfamily that activates transcription in a phosphorylation-independent manner. By combining structural analysis and molecular dynamics simulations, we observe conformational changes in OmpR/PhoB-like RRs that illustrate the impact of phosphorylation on dynamic properties, and that SsoR is locked in the ‘phosphorylated’ state found in phosphorylation-dependent counterparts of the same subfamily. Furthermore, we show that iron homeostasis global regulator Fur, in addition to mediating transcription of its own regulon, acts as the sensor of iron starvation to increase SsoR production when needed. Overall, this study delineates an intricate, multi-tiered transcriptional and post-transcriptional regulatory network that governs siderophore biosynthesis.

Published

2024

2. Molecular epidemiology and clinical characteristics of respiratory syncytial virus in hospitalized children during winter 2021–2022 in Bengbu, China

Author

Limin Huang, Yuanyou Xu, Yanqing Yang, Hongming Dong, Qin Luo, Zhen Chen, Haijun Du, Guoyong Mei, Xinyue Wang, Yake Guan, Chihong Zhao, Jun Han, and Guoyu Lu

Subjects

respiratory syncytial virus, molecular epidemiology, clinical characteristics, G gene, amino acid mutation, Public aspects of medicine, RA1-1270

Abstract

ObjectiveThis study aimed to study the molecular epidemiology and clinical characteristics of respiratory syncytial virus (RSV) infection from hospitalized children with ARTI in Bengbu.MethodsOne hundred twenty-four nasopharyngeal swab specimens and clinical data from children with ARTI cases were collected in Bengbu, China, during winter 2021–2022. The samples were detected by qPCR of 13 respiratory viruses. Phylogenetic analysis was constructed using MEGA 7.0. All analyses were performed using SAS software, version 9.4.ResultsIn winter 2021–2022, URTI, NSCAP, SCAP, and bronchiolitis accounted for 41.03%, 27.35%, 17.09%, and 14.53% of hospitalized children in Bengbu, China. The detection rates of the top three were RSV (41.94%), ADV (5.65%), and FluB (5.65%) in hospitalized children through 13 virus detection. RSV is the main pathogen of hospitalized children under 2 years old. Forty-eight sequences of G protein of RSV were obtained through PCR amplification, including RSV-A 37 strains and RSV-B 11 strains. Phylogenetic analysis showed that all RSV-A and RSV-B were ON1 and BA9 genotypes, respectively. ON1 genotypes were further divided into two clades. The majority of ON1 strains formed a unique genetic clade with T113I, V131D, N178 G, and H258Q mutations. Furthermore, RSV infection was an independent risk factor for ventilator use (OR = 9.55, 95% CI 1.87–48.64).ConclusionThere was a high incidence of RSV among hospitalized children during winter 2021–2022 in Bengbu with ON1 and BA9 being the dominant strains. This study demonstrated the molecular epidemiological characteristics of RSV in children with respiratory infections in Bengbu, China.

Published

2024

3. Integrating Boxes and Masks: A Multi-Object Framework for Unified Visual Tracking and Segmentation.

Author

Yuanyou Xu, Zongxin Yang, and Yi Yang 0001

Published

2023

4. The First Visual Object Tracking Segmentation VOTS2023 Challenge Results.

Author

Matej Kristan, Jirí Matas, Martin Danelljan, Michael Felsberg, Hyung Jin Chang, Luka Cehovin Zajc, Alan Lukezic, Ondrej Drbohlav, Zhongqun Zhang, Khanh-Tung Tran, Xuan-Son Vu, Johanna Björklund, Christoph Mayer 0007, Yushan Zhang, Lei Ke, Jie Zhao 0014, Gustavo Fernández, Noor Al-Shakarji, Dong An, Michael Arens, Stefan Becker, Goutam Bhat, Sebastian Bullinger, Antoni B. Chan, Shijie Chang, Hanyuan Chen, Xin Chen 0032, Yan Chen, Zhenyu Chen 0001, Yangming Cheng, Yutao Cui, Chunyuan Deng, Jiahua Dong 0001, Matteo Dunnhofer, Wei Feng 0005, Jianlong Fu, Jie Gao, Ruize Han, Zeqi Hao, Jun-Yan He, Keji He, Zhenyu He 0001, Xiantao Hu, Kaer Huang, Yuqing Huang, Yi Jiang 0004, Ben Kang, Jin-Peng Lan, Hyungjun Lee, Chenyang Li, Jiahao Li, Ning Li, Wangkai Li, Xiaodi Li, Xin Li 0034, Pengyu Liu, Yue Liu, Huchuan Lu, Bin Luo 0008, Ping Luo 0002, Yinchao Ma, Deshui Miao, Christian Micheloni, Kannappan Palaniappan, Hancheol Park, Matthieu Paul, Houwen Peng, Zekun Qian, Gani Rahmon, Norbert Scherer-Negenborn, Pengcheng Shao, Wooksu Shin, Elham Soltani Kazemi, Tianhui Song, Rainer Stiefelhagen, Rui Sun, Chuanming Tang, Zhangyong Tang, Imad Eddine Toubal, Jack Valmadre, Joost van de Weijer 0001, Luc Van Gool, Jash Vira, Stéphane Vujasinovic, Cheng Wan 0006, Jia Wan 0001, Dong Wang 0004, Fei Wang 0032, Feifan Wang, He Wang, Limin Wang 0002, Song Wang 0002, Yaowei Wang 0001, Zhepeng Wang 0002, Gangshan Wu, Jiannan Wu, Qiangqiang Wu, Xiaojun Wu 0001, Anqi Xiao, Jinxia Xie, Chenlong Xu, Min Xu 0001, Tianyang Xu, Yuanyou Xu, Bin Yan 0004, Dawei Yang, Ming-Hsuan Yang 0001, Tianyu Yang 0003, Yi Yang 0001, Zongxin Yang, Xuanwu Yin, Fisher Yu 0001, Hongyuan Yu, Qianjin Yu, Weichen Yu, Yongsheng Yuan, Zehuan Yuan, Jianlin Zhang 0001, Lu Zhang 0053, Tianzhu Zhang, Guodongfang Zhao, Shaochuan Zhao, Yaozong Zheng, Bineng Zhong, Jiawen Zhu, Xuefeng Zhu, Yueting Zhuang, ChengAo Zong, and Kunlong Zuo

Published

2023

5. Video Object Segmentation in Panoptic Wild Scenes.

Author

Yuanyou Xu, Zongxin Yang, and Yi Yang 0001

Published

2023

6. The Tenth Visual Object Tracking VOT2022 Challenge Results.

Author

Matej Kristan, Ales Leonardis, Jirí Matas, Michael Felsberg, Roman P. Pflugfelder, Joni-Kristian Kämäräinen, Hyung Jin Chang, Martin Danelljan, Luka Cehovin Zajc, Alan Lukezic, Ondrej Drbohlav, Johanna Björklund, Yushan Zhang, Zhongqun Zhang, Song Yan, Wenyan Yang, Dingding Cai, Christoph Mayer 0007, Gustavo Fernández, Kang Ben, Goutam Bhat, Hong Chang 0001, Guangqi Chen, Jiaye Chen, Shengyong Chen, Xilin Chen 0001, Xin Chen 0032, Xiuyi Chen, Yiwei Chen, Yu-Hsi Chen, Zhixing Chen, Yangming Cheng, Angelo Ciaramella, Yutao Cui, Benjamin Dzubur, Mohana Murali Dasari, Qili Deng, Debajyoti Dhar, Shangzhe Di, Emanuel Di Nardo, Daniel K. Du, Matteo Dunnhofer, Heng Fan 0001, Zhen-Hua Feng, Zhihong Fu, Shang Gao, Rama Krishna Gorthi, Eric Granger, Q. H. Gu, Himanshu Gupta, Jianfeng He, Keji He, Yan Huang 0008, Deepak Jangid, Rongrong Ji, Cheng Jiang 0005, Yingjie Jiang, Felix Järemo Lawin, Ze Kang, Madhu Kiran, Josef Kittler, Simiao Lai, Xiangyuan Lan, Dongwook Lee, Hyunjeong Lee, Seohyung Lee, Hui Li 0037, Ming Li 0010, Wangkai Li, Xi Li 0001, Xianxian Li, Xiao Li, Zhe Li 0008, Liting Lin, Haibin Ling, Bo Liu 0005, Chang Liu 0071, Si Liu 0001, Huchuan Lu, Rafael M. O. Cruz, Bingpeng Ma, Chao Ma 0004, Jie Ma, Yinchao Ma, Niki Martinel, Alireza Memarmoghadam, Christian Micheloni, Payman Moallem, Le Thanh Nguyen-Meidine, Siyang Pan, ChangBeom Park, Danda Pani Paudel, Matthieu Paul, Houwen Peng, Andreas Robinson, Litu Rout, Shiguang Shan, Kristian Simonato, Tianhui Song, Xiaoning Song, Chao Sun, Jingna Sun, Zhangyong Tang, Radu Timofte, Chi-Yi Tsai, Luc Van Gool, Om Prakash Verma, Dong Wang 0004, Fei Wang 0032, Liang Wang 0001, Liangliang Wang, Lijun Wang, Limin Wang 0002, Qiang Wang 0023, Gangshan Wu, Jinlin Wu, Xiaojun Wu 0001, Fei Xie, Tianyang Xu, Wei Xu 0017, Yong Xu 0007, Yuanyou Xu, Wanli Xue, Zizheng Xun, Bin Yan 0004, Dawei Yang, Jinyu Yang, Wankou Yang, Xiaoyun Yang, Yi Yang 0001, Yichun Yang, Zongxin Yang, Botao Ye, Fisher Yu 0001, Hongyuan Yu, Jiaqian Yu, Qianjin Yu, Weichen Yu, Kang Ze, Jiang Zhai, Chengwei Zhang 0001, Chunhu Zhang, Kaihua Zhang 0001, Tianzhu Zhang, Wenkang Zhang, Zhibin Zhang, Zhipeng Zhang, Jie Zhao 0014, Shao-Chuan Zhao, Feng Zheng, Haixia Zheng, Min Zheng, Bineng Zhong, Jiawen Zhu, Xuefeng Zhu, and Yueting Zhuang

Published

2022

7. SEEAvatar: Photorealistic Text-to-3D Avatar Generation with Constrained Geometry and Appearance.

Author

Yuanyou Xu, Zongxin Yang, and Yi Yang 0001

Published

2023

8. ZJU ReLER Submission for EPIC-KITCHEN Challenge 2023: TREK-150 Single Object Tracking.

Author

Yuanyou Xu, Jiahao Li, Zongxin Yang, Yi Yang 0001, and Yueting Zhuang

Published

2023

9. Segment and Track Anything.

Author

Yangming Cheng, Liulei Li, Yuanyou Xu, Xiaodi Li, Zongxin Yang, Wenguan Wang, and Yi Yang 0001

Published

2023

10. ZJU ReLER Submission for EPIC-KITCHEN Challenge 2023: Semi-Supervised Video Object Segmentation.

Author

Jiahao Li, Yuanyou Xu, Zongxin Yang, Yi Yang 0001, and Yueting Zhuang

Published

2023

11. Semantic Segmentation of Panoramic Images Using a Synthetic Dataset.

Author

Yuanyou Xu, Kaiwei Wang, Kailun Yang 0001, Dongming Sun, and Jia Fu 0001

Published

2019

12. A novel bacterial sulfite dehydrogenase that requires three c-type cytochromes for electron transfer.

Author

Weining Sun, Yuanyou Xu, Yawen Liang, Qingzi Yu, and Haichun Gao

Subjects

*CHARGE exchange, *CYTOCHROMES, *SHEWANELLA oneidensis, *GENOMICS, *OXYGEN reduction, *OXIDOREDUCTASES

Abstract

c-type Cytochromes (c-Cyts), primarily as electron carriers and oxidoreductases, play a key role in energy transduction processes in virtually all living organisms. Many bacteria, such as Shewanella oneidensis, are particularly rich in c-Cyts, supporting respiratory versatility not seen in eukaryotes. Unfortunately, a large number of c-Cyts are underexplored, and their biological functions remain unknown. In this study, we identify SorCABD of S. oneidensis as a novel sulfite dehydrogenase (SDH), which catalyzes the oxidation of sulfite to sulfate. In addition to catalytic subunit SorA, this enzymatic complex includes three c-Cyt subunits, which all together carry out electron transfer. The electrons extracted from sulfite oxidation are ultimately delivered to oxygen, leading to oxygen reduction, a process relying on terminal oxidase cyt cbb3. Genomic analysis suggests that the homologs of this SDH are present in a small number of bacterial genera, Shewanella and Vibrio in particular. Because these bacteria are generally capable of reducing sulfite under anaerobic conditions, the co-existence of a sulfite oxidation system implies that they may play especially important roles in the transformation of sulfur species in natural environments. [ABSTRACT FROM AUTHOR]

Published

2023

13. The Tenth Visual Object Tracking VOT2022 Challenge Results

Author

Kristan, Matej, Leonardis, Aleš, Matas, Jiří, Felsberg, Michael, Pflugfelder, Roman, Kämäräinen, Joni-Kristian, Chang, Hyung Jin, Danelljan, Martin, Zajc, Luka Čehovin, Lukežič, Alan, Drbohlav, Ondrej, Björklund, Johanna, Zhang, Yushan, Zhang, Zhongqun, Yan, Song, Yang, Wenyan, Cai, Dingding, Mayer, Christoph, Fernández, Gustavo, Ben, Kang, Bhat, Goutam, Chang, Hong, Chen, Guangqi, Chen, Jiaye, Chen, Shengyong, Chen, Xilin, Chen, Xin, Chen, Xiuyi, Chen, Yiwei, Chen, Yu-Hsi, Chen, Zhixing, Cheng, Yangming, Ciaramella, Angelo, Cui, Yutao, Džubur, Benjamin, Dasari, Mohana Murali, Deng, Qili, Dhar, Debajyoti, Shangzhe, Di, Nardo, Emanuel Di, Daniel K., Du, Dunnhofer, Matteo, Fan, Heng, Feng, Zhenhua, Zhihong, Fu, Gao, Shang, Gorthi, Rama Krishna, Granger, Eric, Q. H., Gu, Gupta, Himanshu, Jianfeng, He, Keji, He, Huang, Yan, Jangid, Deepak, Rongrong, Ji, Jiang, Cheng, Jiang, Yingjie, Lawin, Felix Järemo, Kang, Ze, Kiran, Madhu, Kittler, Josef, Lai, Simiao, Lan, Xiangyuan, Lee, Dongwook, Lee, Hyunjeong, Lee, Seohyung, Hui, Li, Ming, Li, Wangkai, Li, Xi, Li, Xianxian, Li, Xiao, Li, Zhe, Li, Lin, Liting, Ling, Haibin, Liu, Bo, Liu, Chang, Liu, Si, Huchuan, Lu, Cruz, Rafael M. O., Bingpeng, Ma, Chao, Ma, Jie, Ma, Yinchao, Ma, Martinel, Niki, Memarmoghadam, Alireza, Micheloni, Christian, Moallem, Payman, Nguyen-Meidine, Le Thanh, Pan, Siyang, Park, Changbeom, Paudel, Danda, Paul, Matthieu, Peng, Houwen, Robinson, Andreas, Rout, Litu, Shan, Shiguang, Simonato, Kristian, Song, Tianhui, Song, Xiaoning, Sun, Chao, Sun, Jingna, Tang, Zhangyong, Timofte, Radu, Tsai, Chi-Yi, Gool, Luc Van, Verma, Om Prakash, Wang, Dong, Wang, Fei, Wang, Liang, Wang, Liangliang, Wang, Lijun, Wang, Limin, Wang, Qiang, Gangshan, Wu, Jinlin, Wu, Xiaojun, Wu, Xie, Fei, Tianyang, Xu, Wei, Xu, Yong, Xu, Yuanyou, Xu, Xue, Wanli, Xun, Zizheng, Yan, Bin, Yang, Dawei, Yang, Jinyu, Yang, Wankou, Yang, Xiaoyun, Yang, Yi, Yang, Yichun, Yang, Zongxin, Botao, Ye, Fisher, Yu, Hongyuan, Yu, Jiaqian, Yu, Qianjin, Yu, Weichen, Yu, Zhai, Jiang, Zhang, Chengwei, Zhang, Chunhu, Zhang, Kaihua, Zhang, Tianzhu, Zhang, Wenkang, Zhang, Zhibin, Zhang, Zhipeng, Zhao, Jie, Zhao, Shaochuan, Zheng, Feng, Zheng, Haixia, Zheng, Min, Zhong, Bineng, Zhu, Jiawen, Zhu, Xuefeng, and Zhuang, Yueting

Subjects

Short-term tracking, VOT, Performance evaluation, Long-term tracking, Visual Object Tracking challenge

Published

2023

14. Differential Expression Pattern of Pathogenicity-Related Genes of Ralstonia pseudosolanacearum YQ Responding to Tissue Debris of Casuarina equisetifolia

Author

Yue Wang, Xiu Su, Xinqi Zhang, Yuanyou Xu, Tian Yang, Chuqiao Li, and Xiang Zhou

Subjects

Species complex, Ralstonia solanacearum, Bacterial wilt, food and beverages, Pathogenic bacteria, Plant Science, Casuarina equisetifolia, Biology, medicine.disease_cause, biology.organism_classification, Pathogenicity, Forest pathology, Botany, medicine, Agronomy and Crop Science, Gene

Abstract

Ralstonia solanacearum species complex (RSSC) contains a group of destructive plant pathogenic bacteria, causing bacterial wilt of >200 species of crops and trees, such as Casuarina equisetifolia, worldwide. RSSC can survive in the soil environment for a long time and start infection after activation by host plants. This study conducted a transcriptome analysis on the expression pattern of the pathogenicity-related genes of a new isolated RSSC strain YQ (Ralstonia pseudosolanacearum phylotype I-16) in response to C. equisetifolia cladophyll (a branch of a stem that resembles and functions as a leaf) and root debris under in vitro culture. The cladophyll debris induced more genes up-regulated than the root debris, including pathogenicity-related genes involved in motility, effectors, type III secretion systems, quorum sensing, and plant cell wall degradation. Besides, many differentially expressed genes were related to transcriptional regulator such as cyclic dimeric guanosine monophosphate. Moreover, the cultures with cladophyll debris induced a faster wilting in bioassays, and the cell swimming was enhanced by cladophyll exudate. C. equisetifolia cladophylls could activate the expression of pathogenicity-related genes of strain YQ and accelerate infection. Our findings suggest that litterfall management in C. equisetifolia forests, or even other plantations, should receive attention to prevent the induction of bacterial wilt disease caused by RSSC.

Published

2021

15. Differential Expression Pattern of Pathogenicity-Related Genes of

Author

Xiang, Zhou, Yue, Wang, Chuqiao, Li, Yuanyou, Xu, Xiu, Su, Tian, Yang, and Xinqi, Zhang

Subjects

Virulence, Ralstonia solanacearum, Ralstonia, Phylogeny, Plant Diseases

Published

2021

16. Semantic Segmentation of Panoramic Images Using a Synthetic Dataset

Author

Kailun Yang, Kaiwei Wang, Jia Fu, Dongming Sun, and Yuanyou Xu

Subjects

Large field of view, Training set, business.industry, Computer science, Distortion (optics), Stability (learning theory), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Computer Science - Computer Vision and Pattern Recognition, Field of view, Electrical Engineering and Systems Science - Image and Video Processing, Set (abstract data type), Segmentation, Computer vision, Artificial intelligence, business, Map projection, ComputingMethodologies_COMPUTERGRAPHICS

Abstract

Panoramic images have advantages in information capacity and scene stability due to their large field of view (FoV). In this paper, we propose a method to synthesize a new dataset of panoramic image. We managed to stitch the images taken from different directions into panoramic images, together with their labeled images, to yield the panoramic semantic segmentation dataset denominated as SYNTHIA-PANO. For the purpose of finding out the effect of using panoramic images as training dataset, we designed and performed a comprehensive set of experiments. Experimental results show that using panoramic images as training data is beneficial to the segmentation result. In addition, it has been shown that by using panoramic images with a 180 degree FoV as training data the model has better performance. Furthermore, the model trained with panoramic images also has a better capacity to resist the image distortion., Comment: 15 pages, 12 figures, SPIE Security + Defence International Symposium

Published

2019