Superresolution imaging of telomeres with continuous wave stimulated emission depletion (STED) microscope 被引量：3

Superresolution imaging of telomeres with continuous wave stimulated emission depletion (STED) microscope

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摘要 The significant role of telomeres in cells has attracted much attention since they were discovered.Fluorescence imaging is an effective method to study subcellular structures like telomeres.However,the diffraction limit of traditional optical microscope hampers further investigation on them.Recent progress on superresolution fluorescence microscopy has broken this limit.In this work,we used stimulated emission depletion(STED) microscope to observe fluorescence-labeled telomeres in interphase cell nuclei.The results showed that the size of fluorescent puncta representing telomeres under the STED microscope was much smaller than that under the confocal microscope.Two adjacent telomeres were clearly separated via STED imaging,which could hardly be discriminated by confocal microscopy due to the diffraction limit.We conclude that STED microscope is a more powerful tool that enable us to obtain detailed information about telomeres. The significant role of telomeres in cells has attracted much attention since they were discovered.Fluorescence imaging is an effective method to study subcellular structures like telomeres.However,the diffraction limit of traditional optical microscope hampers further investigation on them.Recent progress on superresolution fluorescence microscopy has broken this limit.In this work,we used stimulated emission depletion（STED） microscope to observe fluorescence-labeled telomeres in interphase cell nuclei.The results showed that the size of fluorescent puncta representing telomeres under the STED microscope was much smaller than that under the confocal microscope.Two adjacent telomeres were clearly separated via STED imaging,which could hardly be discriminated by confocal microscopy due to the diffraction limit.We conclude that STED microscope is a more powerful tool that enable us to obtain detailed information about telomeres.

作者 Shaopeng Wang Suhui Deng Xiaoqing Cai Shangguo Hou Jiajun Li Zhaoshuai Gao Jiang Li Lihua Wang Chunhai Fan

机构地区 Division of Physical Biology&Bioimaging Center University of Chinese Academy of Sciences School of Information Engineering

出处《Science China Chemistry》 SCIE EI CAS CSCD 2016年第11期1519-1524,共6页 中国科学（化学英文版）

基金 supported by the National Natural Science Foundation of China(61378062,21227804,21390414,61475181) the National Basic ResearchProgram of China(2012CB825805) the Shanghai Municipal Commission for Science and Technology(14ZR1448000)

关键词 telomere superresolution imaging stimulated emission depletion（STED） microscopy fluorescence in situ hybridization（FISH） telomere；superresolution 成像；刺激排放弄空(STED ) 显微镜学；在 situ 杂交(鱼) 的荧光；

分类号 Q-336 [生物学]

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