0000000000485833

AUTHOR

Saeideh Mohammadzadeh-asl

showing 3 related works from this author

Nanomaterials and phase sensitive based signal enhancment in surface plasmon resonance

2018

Measurement of small molecules in extremely dilute concentrations of analyte play an important role in different issues ranging from food industry to biological, pharmaceutical and therapeutical applications. Surface plasmon resonance (SPR) sensors can be a suitable choice for detection of small molecules based on interactions with biomolecules. However, sensitivity of the system for detection of these molecules is very low. Improving sensitivity has been a challenge for years. Therefore, different methods have been used to enhance SPR signals. The SPR signal enhancement using numerous nanomaterials has provided exciting results. Among various nanomaterials, metal nanoparticles (for instanc…

Materials scienceNanostructureBiomedical EngineeringBiophysicsNanoparticleNanotechnology02 engineering and technology01 natural sciencesSignalPhase TransitionNanomaterialsElectrochemistryAnimalsHumansNanotechnologySurface plasmon resonancechemistry.chemical_classificationBiomolecule010401 analytical chemistryProteinsEquipment DesignGeneral MedicineSurface Plasmon Resonance021001 nanoscience & nanotechnologyNanostructures0104 chemical scienceschemistryMetalsQuantum dotMagnetic nanoparticles0210 nano-technologyBiotechnologyBiosensors and Bioelectronics
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Kinetic and thermodynamic insights into interaction of erlotinib with epidermal growth factor receptor: Surface plasmon resonance and molecular docki…

2020

Abstract Epidermal growth factor receptor (EGFR) plays an important role in cell proliferation at non-small cell lung cancer (NSCLC). Therefore, targeted therapy of cancer via this kind of receptor is highly interested. Small molecule drugs such as erlotinib and gefitinib inhibit EGFR tyrosine kinase and thus suppress cell proliferation. At this paper, erlotinib interaction with EGFR on the cell surface was studied via surface plasmon resonance (SPR) and molecular docking methods. Kinetic parameters indicated that erlotinib affinity toward EGFR was increased through increment of temperature. The thermodynamic analysis showed that van der Waals and hydrogen binding forces play a major role i…

Cell Culture TechniquesQuantitative Structure-Activity RelationshipAntineoplastic Agents02 engineering and technologyMolecular Dynamics SimulationBiochemistry03 medical and health sciencesErlotinib HydrochlorideGefitinibStructural BiologymedicineHumansheterocyclic compoundsEpidermal growth factor receptorSurface plasmon resonanceReceptorneoplasmsMolecular BiologyProtein Kinase Inhibitors030304 developmental biology0303 health sciencesBinding SitesbiologyChemistryCell growthGeneral MedicineSurface Plasmon Resonance021001 nanoscience & nanotechnologySmall moleculerespiratory tract diseasesErbB ReceptorsMolecular Docking SimulationKineticsDocking (molecular)biology.proteinBiophysicsThermodynamicsErlotinib0210 nano-technologymedicine.drugProtein BindingInternational journal of biological macromolecules
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Surface plasmon resonance signal enhancement based on erlotinib loaded magnetic nanoparticles for evaluation of its interaction with human lung cance…

2021

Abstract Surface plasmon resonance (SPR) sensor provides a very useful tool based on its label-free, real-time monitoring and low price properties. However, measurement of small molecules and extremely diluted analytes is difficult and therefore, signal enhancement is required. In the present study, signal enhancement of erlotinib conjugated magnetic nanoparticles (erlotinib-MNPs) compared to erlotinib was evaluated via their interaction with overexpressed epidermal growth factor receptor on human lung cancer cells (A549 cell line) surface using SPR sensor at three temperature levels. The attained results showed an average signal amplification of about 2.5-fold for MNP-erlotinib interaction…

A549 cellbiologyChemistry010401 analytical chemistry02 engineering and technologyConjugated system021001 nanoscience & nanotechnology01 natural sciencesSmall moleculeAtomic and Molecular Physics and Opticsrespiratory tract diseases0104 chemical sciencesElectronic Optical and Magnetic MaterialsCancer cellmedicinebiology.proteinBiophysicsMagnetic nanoparticlesErlotinibEpidermal growth factor receptorElectrical and Electronic EngineeringSurface plasmon resonance0210 nano-technologymedicine.drugOptics & Laser Technology
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