Edge roughness analysis in nanoscale for single-molecule localization microscopy images

zu Verbundenen Objekten

Abstract: The recent advances in super-resolution fluorescence microscopy, including single-molecule localization microscopy (SMLM), has enabled the study of previously inaccessible details, such as the organization of proteins within cellular compartments and even nanostructures in nonbiological nanomaterials, such as the polymers and semiconductors. With such developments, the need for the development of various computational nanostructure analysis methods for SMLM images is also increasing; however, this has been limited to protein cluster analysis. In this study, we developed an edge structure analysis method for pointillistic SMLM images based on the line edge roughness and power spectral density analyses. By investigating the effect of point properties in SMLM images, such as the size, density, and localization precision on the roughness measurement, we successfully demonstrated this analysis method for experimental SMLM images of actual samples, including the semiconductor line patterns, cytoskeletal elements, and cell membranes. This systematic investigation of the effect of each localization rendering parameter on edge roughness measurement provides a range for the optimal rendering parameters that preserve the relevant nanoscale structure of interest. These new methods are expected to expand our understanding of the targets by providing valuable insights into edge nanoscale structures that have not been previously obtained quantitatively.

Standort
Deutsche Nationalbibliothek Frankfurt am Main
Umfang
Online-Ressource
Sprache
Englisch

Erschienen in
Edge roughness analysis in nanoscale for single-molecule localization microscopy images ; volume:13 ; number:2 ; year:2024 ; pages:195-207 ; extent:13
Nanophotonics ; 13, Heft 2 (2024), 195-207 (gesamt 13)

Urheber
Jeong, Uidon
Go, Ga-eun
Jeong, Dokyung
Lee, Dongmin
Kim, Min Jeong
Kang, Minjae
Kim, Namyoon
Jung, Jaehwang
Kim, Wookrae
Lee, Myungjun
Kim, Doory

DOI
10.1515/nanoph-2023-0709
URN
urn:nbn:de:101:1-2024012513290011121891
Rechteinformation
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Letzte Aktualisierung
15.08.2025, 07:27 MESZ

Datenpartner

Dieses Objekt wird bereitgestellt von:
Deutsche Nationalbibliothek. Bei Fragen zum Objekt wenden Sie sich bitte an den Datenpartner.
Original beim Datenpartner anzeigen

Beteiligte

  • Jeong, Uidon
  • Go, Ga-eun
  • Jeong, Dokyung
  • Lee, Dongmin
  • Kim, Min Jeong
  • Kang, Minjae
  • Kim, Namyoon
  • Jung, Jaehwang
  • Kim, Wookrae
  • Lee, Myungjun
  • Kim, Doory

Ähnliche Objekte (12)

Single-molecule fluorescence excitation spectroscopy

zweidimensionales bewegtes Bild

Single-molecule fluorescence excitation spectroscopy

Single‐Molecule Conductance of Staffanes

Single‐Molecule Conductance of Staffanes

Single‐Molecule Conductance of Staffanes

Single‐Molecule Conductance of Staffanes

Quantitative single-molecule studies on the nanoscale organization of the bacterial stress response regulator OmpR

Hochschulschrift

Quantitative single-molecule studies on the nanoscale organization of the bacterial stress response regulator OmpR

Single-cell and single-molecule methods

Aufsatzsammlung

Single-cell and single-molecule methods

Thermal conductance of single-molecule junctions

Thermal conductance of single-molecule junctions

Single-molecule theory of enzymatic inhibition

Single-molecule theory of enzymatic inhibition

Single-molecule kinetics of nanoparticle catalysis

Single-molecule kinetics of nanoparticle catalysis

Photoconductance of organic single-molecule contacts

Photoconductance of organic single-molecule contacts

Anomalously bright single-molecule upconversion electroluminescence

Anomalously bright single-molecule upconversion electroluminescence

Raman Spectroscopy on Single-Molecule Junctions

Hochschulschrift

Raman Spectroscopy on Single-Molecule Junctions

Photoconductance of organic single-molecule contacts

Photoconductance of organic single-molecule contacts

Verbundene Objekte