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Two GPSes in a Ball: Deciphering the Endosomal Tug-of-War Using Plasmonic Dark-Field STORM

Title
Two GPSes in a Ball: Deciphering the Endosomal Tug-of-War Using Plasmonic Dark-Field STORM
Author(s)
Jin, SiwooPark, JiseongLee, Wonhee JohnAhn, YongdeokPark, YoungchanPark, MinsooHwang, InchanSeo, KwanyongSeo, Daeha
Issued Date
2022-05
Citation
JACS Au, v.2, no.7, pp.1596 - 1603
Type
Article
Author Keywords
plasmonicsdark-field microscopysuper-resolution imagingbioimagingintracellular transportthree-dimensional rotationendosomal tug-of-war
Keywords
GOLD NANORODSTRANSPORTLEVYMECHANISMSMICROSCOPYPATTERNSPLATFORMCELL
ISSN
2691-3704
Abstract
Live video recording of intracellular material transport is a promising means of deciphering the fascinating underlying mechanisms driving life at the molecular level. Such technology holds the key to realizing real-time observation at appropriate resolutions in three-dimensional (3D) space within living cells. Here, we report an optical microscopic method for probing endosomal dynamics with proper spatiotemporal resolution within 3D space in live cells: plasmonic dark -field STORM (pdf-STORM). We first confirmed that pdf-STORM has a spatial resolution comparable to that of scanning electron microscopy. Additionally, by observing two optical probes within a single organelle, we were able to track rotational movements and demonstrate the feasibility of using pdf-STORM to observe the angular displacements of an endosome during a "tug-of-war" over an extended period. Finally, we show various biophysical parameters of the hitherto unelucidated dynamics of endosomes-angular displacement is discontinuous and y-axis movement predominates and follows a long-tail distribution. © 2022 American Chemical Society. All rights reserved.
URI
http://hdl.handle.net/20.500.11750/16819
DOI
10.1021/jacsau.2c00180
Publisher
American Chemical Society
Related Researcher
  • 서대하 Seo, Daeha
  • Research Interests Synthetic Chemistry of Nanomaterials; Biophysics; Cell biology
Files in This Item:
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000819385100001.pdf

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Appears in Collections:
Department of Physics and Chemistry SMALL LAB(Single Molecule Approaches to ceLL Lab) 1. Journal Articles

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