π–π and cation–π interactions in protein–porphyrin complex crystal structures

Dimitrijević, Bojan; Borozan, Sunčica; Stojanović, Srđan Đ.

doi:10.1039/c2ra21937a

Cited by 36 publications

(23 citation statements)

References 71 publications

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“…There is no significant statistical difference in the  angle distribution between the multiple and the single amide- interactions. The preferred orientations are quite similar to those found in aromatic-aromatic interactions, 47 and T-shaped orientation is observed. In the parallel-stacked case, van der Waals contribution is the dominant effect and the electrostatics contribution is actually repulsive, although small in value (<1 kcal mol -1 ).…”

Section: Interaction Geometries and Energetic Contribution Of Amide-π Interactionssupporting

confidence: 79%

Amide-π interactions in active centers of superoxide dismutase

2021

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In this work, we have analyzed the influence of amide-? interactions on stability and properties of superoxide dismutase (SOD) active centers. In the data set of 43 proteins, 5017 amide-? interactions were observed, and every active center forms 117 interactions, on the average. Most of the interactions belong to the backbone of proteins. The analysis of the geometry of the amide-? interactions revealed two preferred structures, parallel-displaced and T-shaped structure. The aim of this study was to investigate the energy contribution resulting from amide-? interactions, which were in the lower range of strong hydrogen bonds. The conservation patterns in the present study indicate that more than half of the residues involved in these interactions are evolutionarily conserved. Stabilization centers for these proteins showed that all residues involved in amide-? interactions were important in locating one or more of such centers. The results presented in this work can be very useful for understanding the contribution of amide-? interaction to the stability of SOD active centers.

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Section: Interaction Geometries and Energetic Contribution Of Amide-π Interactionssupporting

confidence: 79%

Amide-π interactions in active centers of superoxide dismutase

2021

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“…Although aromatic interactions are often grouped together, several distinct types are observed, each with their own characteristic stabilities: sandwiched, parallel displaced, T-shaped, edge-to-face; cation-π interactions also represent stabilizing interactions found in proteins ( Figure 5). 85,86,87,88,89,90,91,92…”

Section: Resultsmentioning

confidence: 99%

“…Figure 5: Illustration of stabilizing aromatic (π-π, cation-π) interactions with their corresponding estimated stabilization energies. 85,89,87,86,90,91,92 It should be noted that all of the π-π interaction energies shown here were calculated in the gas phase, while the cation-π term was calculated in solution: Commonly seen ring-ring centroid distances between aromatic residues in such clusters are between 5-8Å. 84 Furthermore, they concluded that aromatic substrates should preferentially bind in protein active sites with significant aromatic character.…”

Section: + a ) C ) D ) E ) B )mentioning

confidence: 89%

Elucidating a chemical defense mechanism of Antarctic sponges: A computational study

Vankayala

Kearns

Baker

et al. 2017

Journal of Molecular Graphics and Modelling

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In 2000, a novel secondary metabolite (erebusinone, Ereb) was isolated from the Antarctic sea sponge, Isodictya erinacea. The bioactivity of Ereb was investigated, and it was found to inhibit molting when fed to the arthropod species Orchomene plebs. Xanthurenic acid (XA) is a known endogenous molt regulator present in arthropods. Experimental studies have confirmed that XA inhibits molting by binding to either (or both) of two P450 enzymes (CYP315a1 or CYP314a1) that are responsible for the final two hydroxylations in the production of the molt-inducing hormone, 20-hydroxyecdysone (20E). The lack of crystal structures and biochemical assays for CYP315a1 or CYP314a1, has prevented further experimental exploration of XA and Ereb's molt inhibition mechanisms. Herein, a wide array of computational techniques - homology modeling, molecular dynamics simulations, binding site bioinformatics, flexible receptor-flexible ligand docking, and molecular mechanics-generalized Born surface area calculations - have been employed to elucidate the structure-function relationships between the aforementioned P450s and the two described small molecule inhibitors (Ereb and XA). Results indicate that Ereb likely targets CYP315a1 by interacting with a network of aromatic residues in the binding site, while XA may inhibit both CYP315a1 and CYP314a1 because of its aromatic, as well as charged nature.

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“…9,20 Generally the composition of cation- interaction forming residues is similar to other globular proteins. [39][40][41][42] The organization of multicomponent supramolecular assemblies is often governed by multiple noncovalent interactions. 43 Ternary complexes are the…”

Section: Preference Of Cationic and Aromatic Residues For Forming Cat...mentioning

confidence: 99%

Investigations on the role of cation-π interactions in active centers of superoxide dismutase

Stojanovic

Zlatović

2022

JSCS

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In this study, we have analysed the influence of cation-? interactions on stability and properties of superoxide dismutase (SOD) active centres. The number of interactions formed by arginine is higher than lysine in the cationic group, while histidine is comparatively higher in the ? group. The energy contribution resulting from most frequent cation-? interactions was in the lower range of strong hydrogen bonds. The cation-? interactions involving transition metal ions as cation have energy more negative than -418.4 kJ mol-1. Stabilization centres for these proteins showed that all residues involved in cation-? interactions were important in locating one or more of such centres. The majority of the residues involved in cation-p interactions were evolutionarily conserved and might have a significant contribution towards the stability of SOD proteins. The results presented in this work can be very useful for understanding the contribution of cation-? interactions to the stability of SOD active canters.

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π–π and cation–π interactions in protein–porphyrin complex crystal structures

Cited by 36 publications

References 71 publications

Amide-π interactions in active centers of superoxide dismutase

Amide-π interactions in active centers of superoxide dismutase

Elucidating a chemical defense mechanism of Antarctic sponges: A computational study

Investigations on the role of cation-π interactions in active centers of superoxide dismutase

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