Linear or Nonlinear Least-Squares Analysis of Kinetic Data?

Perrin, Charles L.

doi:10.1021/acs.jchemed.6b00629

Cited by 69 publications

(59 citation statements)

References 19 publications

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“…17 Time-resolved data were obtained by NMR-spectroscopy. Rate constants were determined by both nonlinear tting 19 and linear tting of the conversion plots, which gave almost identical results (ESI Tables S4-S7 ‡ and chapter 9). We also performed reaction progress kinetic analysis (RPKA) based on different and same excess measurements.…”

Section: General Approachmentioning

confidence: 90%

What is the role of acid–acid interactions in asymmetric phosphoric acid organocatalysis? A detailed mechanistic study using interlocked and non-interlocked catalysts

et al. 2020

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Section: General Approachmentioning

confidence: 90%

What is the role of acid–acid interactions in asymmetric phosphoric acid organocatalysis? A detailed mechanistic study using interlocked and non-interlocked catalysts

et al. 2020

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“…The absorbance difference between 390 and 420 nm was found at each time point and exported to generate mixing transients. These transients were then fit by nonlinear regression in GraphPad Prism to avoid the heteroskedasticity that occurs with linear fits (47). The fitting Equation 4 assumes that the enzyme and substrate are initially at the same equation and is shown below.…”

Section: Binding Studiesmentioning

confidence: 99%

Human cytochrome P450 11B2 produces aldosterone by a processive mechanism due to the lactol form of the intermediate 18-hydroxycorticosterone

Reddish

Guengerich

2019

Journal of Biological Chemistry

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Edited by Ruma Banerjee Human cytochrome P450 (P450) 11B2 catalyzes the formation of aldosterone, the major endogenous human mineralocorticoid. Aldosterone is important for the regulation of electrolyte homeostasis. Mutations and overexpression of P450 11B2 (also known as aldosterone synthase) can lead to hypertension, congestive heart failure, and diabetic nephropathy. The enzyme is therefore a target for drug development to manage these various disorders. P450 11B2 catalyzes aldosterone formation from 11-deoxycorticosterone through three distinct oxidation steps. It is currently unknown to which degree these reactions happen in sequence without the intermediate products dissociating from the enzyme (i.e. processively) or whether these reactions happen solely distributively, in which the intermediate products must first dissociate and then rebind to the enzyme before subsequent oxidation. We present here a comprehensive investigation of processivity in P450 11B2-catalyzed reactions using steadystate, pre-steady-state, pulse-chase, equilibrium-binding titrations, and stopped-flow binding studies. We utilized the data obtained to develop a kinetic model for P450 11B2 and tested this model by enzyme kinetics simulations. We found that although aldosterone is produced processively, the enzyme preferentially utilizes a distributive mechanism that ends with the production of 18-OH corticosterone. This seemingly contradictory observation could be resolved by considering the ability of the intermediate product 18-OH corticosterone to exist as a lactol form, with the equilibrium favoring the ring-closed lactol configuration. In summary, our refined model for P450 11B2 catalysis indicates isomerization of the intermediate to a lactol can explain why P450 11B2 must produce aldosterone through a processive mechanism despite favoring a distributive mechanism. This work was supported by National Institutes of Health Grants R01 GM118122 (to F. P. G.) and T32 ES007028 (to F. P. G. for support of M. J. R.). The authors declare that they have no conflicts of interest with the contents of this article. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. This article contains Figs. S1-S6 and Tables S1 and S2.

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“…Rate constants and reaction orders were determined by nonlinear least-squares fitting of time dependent concentrations. [42] Initial experiments were conducted with equimolar concentrations (0.5 mM) of the rods (1 or 2) and the cyclophane 4 in D 2 O. Interestingly, the expected second order formation kinetic was only observed for the isophthalate terminated rod 2, while for the complexation of 1, a reasonable fit of the data was only possible for a first order kinetic. Attempts to vary the host/guest ratio of 2/4 to a point where a transition to a pseudo first-order reaction occurs was not possible due to signal broadening.…”

Section: Resultsmentioning

confidence: 99%

“…The formation kinetics of the pseudorotaxanes 1⊂4 and 2⊂4 were monitored by time‐dependent 1 H‐NMR spectroscopy (Figure ). Rate constants and reaction orders were determined by nonlinear least‐squares fitting of time dependent concentrations . Initial experiments were conducted with equimolar concentrations (0.5 m m ) of the rods ( 1 or 2 ) and the cyclophane 4 in D 2 O. Interestingly, the expected second order formation kinetic was only observed for the isophthalate terminated rod 2 , while for the complexation of 1 , a reasonable fit of the data was only possible for a first order kinetic.…”

Section: Resultsmentioning

confidence: 99%

Slow Formation of Pseudorotaxanes in Water

et al. 2019

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The synthesis of two water‐soluble oligophenylene‐ethynylene (OPE)‐rods with substituted iso‐ and terephthalate end groups is presented. Both undergo slow association with a Diederich‐type cyclophane in aqueous solution. Formation of [2]pseudorotaxanes occurs with reaction half‐lives of several hours. Characterization of the supermolecules by 1H‐NMR spectroscopy reveals a high thermodynamic stability and kinetic inertness of the pseudorotaxanes. The phthalate precursors are functionalized with peripheral azide groups, which make them modular precursors for construction of mechanically interlocked molecules in water.

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Linear or Nonlinear Least-Squares Analysis of Kinetic Data?

Cited by 69 publications

References 19 publications

What is the role of acid–acid interactions in asymmetric phosphoric acid organocatalysis? A detailed mechanistic study using interlocked and non-interlocked catalysts

What is the role of acid–acid interactions in asymmetric phosphoric acid organocatalysis? A detailed mechanistic study using interlocked and non-interlocked catalysts

Human cytochrome P450 11B2 produces aldosterone by a processive mechanism due to the lactol form of the intermediate 18-hydroxycorticosterone

Slow Formation of Pseudorotaxanes in Water

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