Electrochemical Characterization and Biosensors with the Coagulant &lt;em&gt;Moringa oleifera&lt;/em&gt; Seed Lectin (cMoL)

Oliveira, Benny Ferreira de; Araújo, Hallysson Douglas Andrade de; Neves, Eloisa Ferreira; Napoleão, Thiago Henrique; Paiva, Patrícia Maria Guedes; Freitas, Kátia Cristina Silva de; Souza, Sandra Rodrigues de; Coelho, Luana Cassandra Breitenbach Barroso

doi:10.20944/preprints202304.1267.v1

2023

DOI: 10.20944/preprints202304.1267.v1

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Electrochemical Characterization and Biosensors with the Coagulant <em>Moringa oleifera</em> Seed Lectin (cMoL)

Benny Ferreira de Oliveira¹,

Hallysson Douglas Andrade de Araújo²,

Eloisa Ferreira Neves³

et al.

Abstract: Coagulant lectin from Moringa oleifera seeds (cMoL) was characterized by potentiometry and scanning electron microscopy (SEM) using MOF, Metal-Organic Frameworks of [Cu3(BTC)2.H2O)3]n, to immobilize cMoL and construct biosensors. Developed aluminum-air batteries degraded indigo carmine dye formulated similar to a textile effluent; biosensors investigated cMoL interaction with specific galactose and monitored residual dye. SEM revealed components of electrode assembly steps. Oxide reduction reactions of batteri… Show more

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2024

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Carbohydrate-Binding Mechanism of the Coagulant Lectin from Moringa oleifera Seeds (cMoL) Is Related to the Dimeric Protein Structure

de Barros,

de Oliveira,

dos Santos

et al. 2024

Molecules

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This study characterized the binding mechanisms of the lectin cMoL (from Moringa oleifera seeds) to carbohydrates using spectroscopy and molecular dynamics (MD). The interaction with carbohydrates was studied by evaluating lectin fluorescence emission after titration with glucose or galactose (2.0–11 mM). The Stern–Volmer constant (Ksv), binding constant (Ka), Gibbs free energy (∆G), and Hill coefficient were calculated. After the urea-induced denaturation of cMoL, evaluations were performed using fluorescence spectroscopy, circular dichroism (CD), and hemagglutinating activity (HA) evaluations. The MD simulations were performed using the Amber 20 package. The decrease in Ksv revealed that cMoL interacts with carbohydrates via a static mechanism. The cMoL bound carbohydrates spontaneously (ΔG < 0) and presented a Ka on the order of 102, with high selectivity for glucose. Protein–ligand complexes were stabilized by hydrogen bonds and hydrophobic interactions. The Hill parameter (h~2) indicated that the binding occurs through the cMoL dimer. The loss of HA at urea concentrations at which the fluorescence and CD spectra indicated protein monomerization confirmed these results. The MD simulations revealed that glucose bound to the large cavity formed between the monomers. In conclusion, the biotechnological application of cMoL lectin requires specific methods or media to improve its dimeric protein structure.

show abstract

Carbohydrate-Binding Mechanism of the Coagulant Lectin from Moringa oleifera Seeds (cMoL) Is Related to the Dimeric Protein Structure

de Barros,

de Oliveira,

dos Santos

et al. 2024

Molecules

View full text Add to dashboard Cite

show abstract

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Electrochemical Characterization and Biosensors with the Coagulant <em>Moringa oleifera</em> Seed Lectin (cMoL)

Cited by 1 publication

References 66 publications

Carbohydrate-Binding Mechanism of the Coagulant Lectin from Moringa oleifera Seeds (cMoL) Is Related to the Dimeric Protein Structure

Carbohydrate-Binding Mechanism of the Coagulant Lectin from Moringa oleifera Seeds (cMoL) Is Related to the Dimeric Protein Structure

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