2023
DOI: 10.1039/d3cp02958a
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Probing the inner local density of complex macromolecules by pyrene excimer formation

Hunter Little,
Sanjay Patel,
Jean Duhamel

Abstract: The direct relationship existing between the average rate constant <k> for pyrene excimer formation and the local concentration [Py]loc of ground-state pyrenyl labels covalently attached to a macromolecule was established...

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Cited by 5 publications
(25 citation statements)
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References 76 publications
(259 reference statements)
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“…The Pearson coefficient close to unity retrieved for ⟨τ⟩ also confirms that whereas the individual pre-exponential factors and decay times in a triexponential fit cannot be retrieved with enough accuracy to conduct a proper kinetic analysis of PEF for the Py-PEG n MA samples, ⟨τ⟩ is a reliable parameter that can be used in conjunction with ⟨k⟩ to characterize the local density and dynamics of a macromolecule in solution through, respectively, the parameters [Py] loc and k diff , as defined in eq 1. 20 As discussed earlier, the low Pearson coefficients obtained for the individual pre-exponential factors and decay times in Figure 6 retrieved from different sums of exponential analyses corroborate the challenges associated with the fit of multiexponential decays with the sums of exponentials. 7−12 Perhaps more specifically, it brings into question the value of the different models that have been introduced over the years to fit the multiexponential fluorescence decays acquired with PyLM, since the common feature of these models is that the pyrene monomer and excimer fluorescence decays acquired with PyLM can be represented by sums of exponentials.…”
Section: Difficulty In Retrieving Accurate Parameters From Asupporting
confidence: 74%
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“…The Pearson coefficient close to unity retrieved for ⟨τ⟩ also confirms that whereas the individual pre-exponential factors and decay times in a triexponential fit cannot be retrieved with enough accuracy to conduct a proper kinetic analysis of PEF for the Py-PEG n MA samples, ⟨τ⟩ is a reliable parameter that can be used in conjunction with ⟨k⟩ to characterize the local density and dynamics of a macromolecule in solution through, respectively, the parameters [Py] loc and k diff , as defined in eq 1. 20 As discussed earlier, the low Pearson coefficients obtained for the individual pre-exponential factors and decay times in Figure 6 retrieved from different sums of exponential analyses corroborate the challenges associated with the fit of multiexponential decays with the sums of exponentials. 7−12 Perhaps more specifically, it brings into question the value of the different models that have been introduced over the years to fit the multiexponential fluorescence decays acquired with PyLM, since the common feature of these models is that the pyrene monomer and excimer fluorescence decays acquired with PyLM can be represented by sums of exponentials.…”
Section: Difficulty In Retrieving Accurate Parameters From Asupporting
confidence: 74%
“…This result is a mere consequence of the ⟨k⟩ versus [Py] loc relationship demonstrated in a previous publication. 20 However, application of the ⟨k⟩ versus [Py] loc relationship to characterize the conformation of a macromolecule requires that those pyrenyl labels form excimers by diffusive encounters so that [Py] loc truly reflects the local density of the macromolecule. Poor solubility of the pyrenyl labels, as in water, a high macromolecular density as for structured macromolecules, or pyrene clustering induced by the labeling reaction are all the effects leading to the formation of pyrene aggregates.…”
Section: Resultsmentioning
confidence: 99%
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