生物成像技术发展态势分析

被引:3
作者
丁陈君
陈方
吴晓燕
陈云伟
郑颖
机构
[1] 中国科学院成都文献情报中心
关键词
生物成像; 超分辨率; 多模态; 信息技术; 纳米材料;
D O I
10.16507/j.issn.1006-6055.2018.07.002
中图分类号
Q-33 [生物学实验与生物学技术];
学科分类号
摘要
生物成像技术是生物结构和功能研究最直接、最有效的方法,其技术发展和科研基地建设受到多个国家的重视。本文分析生物成像技术的研究现状和发展态势发现:技术的发展不断提升成像性能,开发多模态、多功能的仪器设备是未来的主要方向;信息技术的发展、纳米材料等新材料的应用使得成像技术发挥更大作用。最后,对我国生物成像领域的发展提出了建议。
引用
收藏
页码:368 / 375
页数:8
相关论文
共 23 条
[1]  
TNF stimulates endothelial palmitic acid transcytosis and promotes insulin resistance. Li W,Yang X,Tao Z,et al. Scientific Rep . 2017
[2]  
Extended-resolution structured illumination imaging of endocytic and cytoskeletal dynamics. Li D,Shao L,Chen B C,et al. Science . 2015
[3]  
2016 National Research Infrastructure Roadmap. AUSTRALIAN Government. https://docs.education.gov.au/system/files/doc/other/ed16-0269_national_research_infrastructure_roadmap_report_internals_acc.pdf . 2017
[4]  
Structure of a yeast catalytic step I spliceosome at 3.4?resolution. Wan R,Yan C,Bai R,Huang G,Shi Y. Science . 2016
[5]  
Fast high-resolution miniature two-photon microscopy for brain imaging in freely behaving mice. ZONG W,WU R,LI M,et al. Nature Methods . 2017
[6]  
Loss of 11βHSD1 enhances glycolysis,facilitates intrahepatic metastasis,and indicates poor prognosis in hepatocellular carcinoma. Xu L,Tan X L,Meng X,etc. Oncotarget . 2016
[7]  
Structure of Spinach Photosystem II-LHCII Supercomplex at 3.28. WEI Xuepeng,SU Xiaodong,CAO Peng,et al. Nature . 2016
[8]  
Structure of Spinach Photosystem II-LHCII Supercomplex at 3.28. WEI Xuepeng,SU Xiaodong,CAO Peng,et al. Nature . 2016
[9]  
Super-resolved Multiphoton Microscopy with Spatial Frequency-modulated Imaging. FIELD J,WERNSING K,DOMINGUE S,et al. Proceedings of the National Academy of Sciences of the United States of America . 2016
[10]  
Roadmap for Medical Imaging Research and Development. NSTC. https://imaging.cancer.gov/news_events/Roadmap-for-Medical-Imaging-Research-and-Development- 2017.pdf . 2017