Couette Flow Linear Dichroism Spectroscopy

Søren Vrønning Hoffmann; Nykola C. Jones; Alison Rodger

doi:10.1007/978-1-0716-5084-4_7

Couette Flow Linear Dichroism Spectroscopy

Søren Vrønning Hoffmann^*, Nykola C. Jones, Alison Rodger

^*Corresponding author for this work

Research School of Chemistry

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Linear Dichroism (LD) spectroscopy uses linearly polarized light to measure how a molecule orients itself with respect to a reference axis or, more precisely, how the transition moment of a chromophore in the molecule is oriented. This provides insight into how, e.g., molecules assemble into macromolecules and their orientation with respect to each other. Prerequisites for LD is a medium in which the molecules orient in a preferred direction and that the molecules under investigation are long enough to allow orientation. For long biomolecules such as RNA/DNA or fibrils of proteins in solution, Couette flow is an efficient way of creating a flow-induced orientation of the molecules, while recirculating a small volume of sample. In this chapter, we present the methodology behind LD spectroscopy including best practice for sample handling and data collection, as well as the interpretation of LD spectra including examples of RNA, DNA, proteins, and their complexes.

Original language	English
Title of host publication	Methods in Molecular Biology
Publisher	Humana Press Inc.
Pages	105-121
Number of pages	17
DOIs	https://doi.org/10.1007/978-1-0716-5084-4_7
Publication status	Published - 2026

Publication series

Name	Methods in Molecular Biology
Volume	3004
ISSN (Print)	1064-3745
ISSN (Electronic)	1940-6029

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10.1007/978-1-0716-5084-4_7

Cite this

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title = "Couette Flow Linear Dichroism Spectroscopy",

abstract = "Linear Dichroism (LD) spectroscopy uses linearly polarized light to measure how a molecule orients itself with respect to a reference axis or, more precisely, how the transition moment of a chromophore in the molecule is oriented. This provides insight into how, e.g., molecules assemble into macromolecules and their orientation with respect to each other. Prerequisites for LD is a medium in which the molecules orient in a preferred direction and that the molecules under investigation are long enough to allow orientation. For long biomolecules such as RNA/DNA or fibrils of proteins in solution, Couette flow is an efficient way of creating a flow-induced orientation of the molecules, while recirculating a small volume of sample. In this chapter, we present the methodology behind LD spectroscopy including best practice for sample handling and data collection, as well as the interpretation of LD spectra including examples of RNA, DNA, proteins, and their complexes.",

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author = "Hoffmann, \{S{\o}ren Vr{\o}nning\} and Jones, \{Nykola C.\} and Alison Rodger",

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AU - Hoffmann, Søren Vrønning

AU - Jones, Nykola C.

AU - Rodger, Alison

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature 2026.

PY - 2026

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N2 - Linear Dichroism (LD) spectroscopy uses linearly polarized light to measure how a molecule orients itself with respect to a reference axis or, more precisely, how the transition moment of a chromophore in the molecule is oriented. This provides insight into how, e.g., molecules assemble into macromolecules and their orientation with respect to each other. Prerequisites for LD is a medium in which the molecules orient in a preferred direction and that the molecules under investigation are long enough to allow orientation. For long biomolecules such as RNA/DNA or fibrils of proteins in solution, Couette flow is an efficient way of creating a flow-induced orientation of the molecules, while recirculating a small volume of sample. In this chapter, we present the methodology behind LD spectroscopy including best practice for sample handling and data collection, as well as the interpretation of LD spectra including examples of RNA, DNA, proteins, and their complexes.

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ER -

Couette Flow Linear Dichroism Spectroscopy

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