Transient Incomplete Separation of Species with Close Diffusivity to Study the Stability of Affinity Complexes

Wang, Tong Ye; Rukundo, Jean-Luc; Le, An T. H.; Ivanov, Nikita A.; Leblanc, J.; Gorin, B. I.; Krylov, Sergey N.

doi:10.1021/acs.analchem.2c03313

Cited by 9 publications

(9 citation statements)

References 44 publications

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“…First, we showed that ACTIS is inherently accurate, and this accuracy is invariant to large variations in geometries of the fluidic system and the flow. , Second, this insensitivity to variations, in turn, allowed us to create a simple and robust fluidic system, which supports ACTIS accuracy . Third, we showed ACTIS to be applicable to protein–small molecule and protein–aptamer binding pairs. , Although ACTIS can potentially be used for all molecular complexes, including protein–protein binding pairs, future experimental work needs to be done to show such applicability. Until now, ACTIS has lacked a practical data processing workflow.…”

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confidence: 83%

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Streamlined Data Processing for Determination of Equilibrium Dissociation Constants with Accurate Constant via Transient Incomplete Separation (ACTIS)

et al. 2023

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The determination of accurate equilibrium dissociation constants, K d, of protein–small molecule complexes is important but challenging as all established methods have inherent sources of inaccuracy. Accurate Constant via Transient Incomplete Separation (ACTIS) is a new method for K d determination using transient incomplete separation of the complex from the unbound small molecule in a pressure-driven flow inside a capillary. ACTIS is accurate, and its accuracy is invariant to variations in geometries of both the fluidic system and the flow. Furthermore, ACTIS is implemented using a simple fluidic system supporting its accuracy and providing a simple-to-follow/copy template for instrumentation. Despite the simple and robust instrumentation/acquisition, the current data processing workflow is cumbersome, time consuming, and prone to hard-to-trace human errors therefore hindering ACTIS’ ability to become a practical reference method for K d determination. This technical note describes a streamlined workflow for processing ACTIS data; the workflow is implemented as a set of open-source software tools called prACTISed (). These tools allow all steps of data processing to be performed in a fast and straightforward fashion. These practical software tools complement the simple instrumentation serving both developers and users of ACTIS.

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confidence: 83%

“…Third, we showed ACTIS to be applicable to protein−small molecule and protein−aptamer binding pairs. 8,13 Although ACTIS can potentially be used for all molecular complexes, including protein−protein binding pairs, future experimental work needs to be done to show such applicability. Until now, ACTIS has lacked a practical data processing workflow.…”

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confidence: 99%

Streamlined Data Processing for Determination of Equilibrium Dissociation Constants with Accurate Constant via Transient Incomplete Separation (ACTIS)

et al. 2023

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“…BSA−fluorescein equilibrium mixtures (EMs) were prepared with the strategy of "new sample-preparation workflow" that was introduced in our previous work. 2 In four ACTIS experiments, the fluorescein concentrations (L0) were fixed to be 0.07, 7.0, 70 and 210 µM, respectively (after correction based on the purity of fluorescein). For the ACTIS experiment with L0 = 0.07 µM, the total BSA concentrations (T0) in the EMs varied from 0 (lowest non-zero T0 = 1.0 µM) to 1000 µM with a total of 10 EMs with different T0 values.…”

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confidence: 99%

Introducing Quantitative Assessment of Accuracy for the Equilibrium Constant of Affinity Complexes

Wang,

Latimer,

Rukundo

et al. 2024

Preprint

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The equilibrium constant of affinity complexes (Kd) is among the most frequently determined physicochemical parameters, with thousands of papers reporting Kd values monthly. Kd is classically computed via nonlinear regression of a binding isotherm and, while it can be precise, it is often inaccurate due to error amplification. Currently, no method exists for quantitatively assessing the accuracy of Kd — here, we fill this knowledge gap. We introduce the accuracy confidence interval (ACI): a range within which the accurate value of a parameter lies with a defined probability. We also present the “ACI-Concept”: a general approach for determining the ACI of parameters computed with correct nonlinear regression models. The ACI-Concept combines regression-stability and error-propagation analyses. We apply the ACI-Concept to develop a workflow for determining the ACI of Kd from a single binding isotherm. We verify this workflow with computer-simulated and experimental binding isotherms. Finally, we implement this workflow in a user-friendly web application (https://aci.sci.yorku.ca) to facilitate its fast adoption by the broad research community. Knowing the ACI of Kd and other parameters computed through nonlinear regression will help researchers avoid misconceptions that can arise when relying solely on precision.

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“…126,127 With the aid of computer simulation, Wang et al introduced a strategy named "Accurate Constant via Transient Incomplete Separation", which can serve as a reference method for characterizing the affinity of protein− aptamer binding in solution (Figure 3). 128 Strategies were also made for the determination of binding constants in strong complexation. 129,130 The authors demonstrated that the peak shape can be asymmetrical due to electromigration dispersion.…”

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confidence: 99%

Capillary Electrophoresis: A Three-Year Literature Review

Li,

Miao,

Tan

et al. 2024

Anal. Chem.

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Transient Incomplete Separation of Species with Close Diffusivity to Study the Stability of Affinity Complexes

Cited by 9 publications

References 44 publications

Streamlined Data Processing for Determination of Equilibrium Dissociation Constants with Accurate Constant via Transient Incomplete Separation (ACTIS)

Streamlined Data Processing for Determination of Equilibrium Dissociation Constants with Accurate Constant via Transient Incomplete Separation (ACTIS)

Introducing Quantitative Assessment of Accuracy for the Equilibrium Constant of Affinity Complexes

Capillary Electrophoresis: A Three-Year Literature Review

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