Xiangning Ding
Chinese Academy of Sciences
25 Papers
54 Citations
Xiangning Ding is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Biology & Medicine. The author has an hindex of 4, co-authored 19 publications. Previous affiliations of Xiangning Ding include Harbin Institute of Technology.
Chat about Author
Papers
Endothelial cell heterogeneity and microglia regulons revealed by a pig cell landscape at single-cell level
Fei Wang,Pei-Cheng Ding,Xue Liang,Xiangning Ding,Camilla Brandt,Evelina Sjöstedt,Jiacheng Zhu,Saga Bolund,Lijing Zhang,Laura P.M.H. de Rooij,Lihua Luo,Yanan Wei,Wandong Zhao,Zhiyuan Lv,János Haskó,Runchu Li,Qiuyu Qin,Yi Jia,Wendi Wu,Yuting Yuan,Min Pu,Haoyu Wang,Aiping Wu,Lin Xie,Minghui Liu,Fang Chen,Jacqueline Herold,Joanna Kalucka,Max J. Karlsson,Xiuqing Zhang,Rikke Bek Helmig,Linn Fagerberg,Cecilia Lindskog,Fredrik Pontén,Mathias Uhlén,Lars Bolund,Niels Jessen,Hui Jiang,Xun Xu,Huanming Yang,Peter Carmeliet,Jan Mulder,Dongsheng Chen,Lin Lin,Yonglun Luo +44 more
TL;DR: In this paper , a multiple-organ single-cell transcriptomic map containing over 200,000 pig cells from 20 tissues/organs was generated by leveraging singlecell RNA sequencing, and the authors comprehensively characterize the heterogeneity of cells in tissues and identify 234 cell clusters, representing 58 major cell types.
Single-cell RNA-seq reveals dynamic transcriptome profiling in human early neural differentiation.
Zhouchun Shang,Dongsheng Chen,Quanlei Wang,Shengpeng Wang,Qiuting Deng,Liang Wu,Chuanyu Liu,Xiangning Ding,Shiyou Wang,Jixing Zhong,Doudou Zhang,Xiaodong Cai,Shida Zhu,Huanming Yang,Longqi Liu,J. Lynn Fink,Fang Chen,Xiaoqing Liu,Zhengliang Gao,Xun Xu +19 more
TL;DR: This study investigated the genome-wide transcriptome profile of single cells from six consecutive reprogramming and neural differentiation time points and identified cellular subpopulations present at each differentiation stage, which paves the way for a deeper understanding of the regulatory mechanisms driving the differentiation of the neural lineage.
Application of infrared thermography for laser metal-wire additive manufacturing in vacuum
Xiangning Ding,Xiangning Ding,Hongzhuang Li,Jiacheng Zhu,Guan-jun Wang,Cao Hongzhong,Qian Zhang,Ma Honglin +7 more
TL;DR: In this paper, the thermal behavior of laser metal-wire additive manufacturing (AM) in vacuum was analyzed based on infrared (IR) thermography, and the width of cladding layer was predicted and defect like lack of fusion was detected.
30
Single-cell screening of SARS-CoV-2 target cells in pets, livestock, poultry and wildlife
Dongsheng Chen,Jian Sun,Jiacheng Zhu,Xiangning Ding,Tianming Lan,Linnan Zhu,Rong Xiang,Peiwen Ding,Haoyu Wang,Xiaoling Wang,Weiying Wu,Jiaying Qiu,Shiyou Wang,Haimeng Li,Fuyu An,Heng Bao,Le Zhang,Lei Han,Yixin Zhu,Xiran Wang,Feiyue Wang,Yuting Yuan,Wendi Wu,Chengcheng Sun,Haorong Lu,Jihong Wu,Xinghuai Sun,Shenghai Zhang,Sunil Kumar Sahu,Haixia Chen,Dongming Fang,Lihua Luo,Yuying Zeng,Yiquan Wu,ZeHua Cui,Qian He,Sanjie Jiang,Xiaoyan Ma,Weimin Feng,Yan Xu,Fang Li,Zhongmin Liu,Lei Chen,Fang Chen,Xin Jin,Wei Qiu,Huanming Yang,Jian Wang,Yan Hua,Yahong Liu,Huan Liu,Huan Liu,Xun Xu +52 more
TL;DR: A novel and fundamental strategy to screen virus target cells and susceptible species, based on single-cell transcriptomes generated for domesticated animals and wildlife, which could function as a valuable resource for controlling current pandemics and serve as an early warning system for coping with future infectious disease threats.
25
Single-cell RNA-seq reveals dynamic transcriptome profiling in human early neural differentiation
Zhouchun Shang,Dongsheng Chen,Quanlei Wang,Shengpeng Wang,Qiuting Deng,Liang Wu,Chuanyu Liu,Xiangning Ding,Shiyou Wang,Jixing Zhong,Doudou Zhang,Xiaodong Cai,Shida Zhu,Huanming Yang,Longqi Liu,J. Lynn Fink,Fang Chen,Xiaoqing Liu,Zhengliang Gao,Xun Xu +19 more
TL;DR: This study investigated the genome-wide transcriptome profile of single cells from six consecutive reprogramming and neural differentiation time points and identified cellular subpopulations present at each differentiation stage, and identified putative novel transcription factors in regulating neural differentiation.
19