Aprepitant 80mg | 99% High Purity | Laboratory Research Use Only

Description Contents hide 1 Product Description 2 Product Specifications 2.1 Notes 3 Mechanism of Action 3.1 1. NK1 Receptor Binding 3.2 2. Modulation of Signal Transduction 3.3 3. Protein-Ligand Interaction Analysis 3.4 4. Structural and Functional Studies 3.5 5. Analytical Validation 4 Applications 4.1 1. Receptor Binding Assays 4.2 2. Molecular Pathway Studies 4.3 3. Structure-Activity Relationship (SAR) Studies 4.4 4. Analytical Method Development 4.5 5. Computational Integration 4.6 6. High-Throughput Screening 5 Research Models 5.1 1. Receptor-Based Models 5.2 2. Signal Transduction Pathway Models 5.3 3. Protein-Ligand Interaction Models 5.4 4. Analytical Validation Models 5.5 5. Computational Integration Models 6 Experimental Design Considerations 6.1 1. Concentration Optimization 6.2 2. Environmental Control 6.3 3. Time-Course Studies 6.4 4. Analytical Method Integration 6.5 5. Replication and Controls 6.6 6. Computational Modeling 7 Laboratory Safety & Handling Guidelines 7.1 1. Personal Protective Equipment (PPE) 7.2 2. Handling and Preparation 7.3 3. Storage Conditions 7.4 4. Spill and Decontamination Procedures 7.5 5. Documentation and Traceability 7.6 6. Laboratory Equipment 8 Integration with Multi-Omic & Computational Studies 8.1 1. Proteomic and Structural Integration 8.2 2. Computational Modeling Applications 8.3 3. Multi-Omic Correlation 8.4 4. Analytical Method Validation 9 Things to Note 10 Keywords 11 Shipping Guarantee 12 Trade Assurance 13 Payment Support 14 Disclaimer 15 References Product DescriptionAprepitant is a high-purity, laboratory-grade small molecule specifically formulated for in vitro mechanistic and molecular research. Its chemical stability and verified high purity make it ideal for studying neurokinin-1 (NK1) receptor interactions, signal transduction pathways, and receptor-ligand dynamics under controlled laboratory conditions.This research-grade compound is widely used in biochemical and mechanistic studies, including receptor binding assays, protein interaction analysis, and molecular pathway modulation. Its reproducible activity allows precise evaluation of dose-response relationships, receptor selectivity, and binding kinetics, ensuring reliable mechanistic insights.Aprepitant is suitable for cell-free systems, purified receptor models, and synthetic protein studies, where strict experimental control is necessary. Its high solubility in DMSO and other common solvents allows preparation of accurate stock solutions for diverse in vitro assays.In addition, Aprepitant serves as a reference standard for analytical method validation, supporting techniques such as HPLC, mass spectrometry, and spectroscopic analysis. Researchers can integrate it into high-throughput screening, structure-activity relationship studies, and mechanistic pathway elucidation, generating reproducible and precise data.Factory-controlled production ensures bulk, wholesale, and customized supply, including flexible packaging and concentration options. Each batch is accompanied by a Certificate of Analysis (CoA) verifying purity, solubility, and stability, guaranteeing reproducibility across laboratories.By combining high chemical purity, stability, and reproducible activity, Aprepitant provides a robust platform for molecular mechanism research, receptor-ligand interaction studies, and biochemical pathway analysis. Its application in in vitro experimental models allows laboratories to generate reliable, high-quality mechanistic data.The factory-manufactured, low-price wholesale availability ensures laboratories can obtain sufficient quantities for extended studies without compromising on quality, reproducibility, or experimental integrity. Overall, Aprepitant is a versatile and essential reagent for laboratories conducting advanced mechanistic and molecular research.Aprepitant 80mgProduct SpecificationsParameterSpecification (Aprepitant)Product NameAprepitantFormPowderChemical Name(S)-N-[(1R,3R)-3-(1-(3-fluorophenyl)propyl)-1-(2-methylpropyl)-2-oxo-2,3-dihydro-1H-imidazo[4,5-c]pyridin-1-yl]-4-(trifluoromethyl)benzamideMolecular FormulaC23H21F7N4O3Molecular Weight534.4 g/molPurity≥ 99% (HPLC verified)AppearanceWhite to off-white crystalline powderSolubilitySoluble in DMSO, DMF, partially soluble in ethanolStabilityChemically stable under recommended storage; avoid heat and lightStorage ConditionsStore at 2–8°C, sealed, light-protectedRecommended Research UseSuitable for receptor-ligand studies, NK1 receptor mechanistic assays, molecular pathway research, and in vitro signal transduction studiesCAS Number170729-80-3HS CodeAvailable for bulk and wholesale ordersPackaging OptionsLaboratory vials; bulk and custom packaging availableFactory Production CapabilityHigh-capacity production supporting OEM/ODM and bulk laboratory supplyQuality VerificationQC-tested for chemical purity, solubility, and stabilityRegulatory StatusFor laboratory research use only; not for human or veterinary applicationsNotesAprepitant is manufactured under strict factory-controlled conditions to maintain chemical purity, stability, and reproducibility. Bulk and wholesale orders are supported with custom concentrations, packaging options, and batch-specific Certificates of Analysis (CoA). This ensures high-quality material for mechanistic, biochemical, and molecular pathway research.Mechanism of ActionAprepitant is a selective neurokinin-1 (NK1) receptor antagonist designed for in vitro mechanistic and molecular pathway studies. Its high purity and stable formulation enable precise exploration of receptor-ligand interactions, signal transduction, and downstream molecular effects in controlled laboratory settings.1. NK1 Receptor BindingAprepitant binds specifically to the NK1 receptor, inhibiting its interaction with substance P. In vitro studies using purified receptor proteins or cell-free systems can quantify binding kinetics, affinity, and selectivity, providing detailed mechanistic insights.2. Modulation of Signal TransductionIn biochemical assays, Aprepitant affects downstream signaling cascades initiated by NK1 receptor activation. Researchers can examine phosphorylation events, secondary messenger pathways, and protein interaction networks under tightly controlled experimental conditions.3. Protein-Ligand Interaction AnalysisMechanistic studies can include surface plasmon resonance (SPR), isothermal titration calorimetry (ITC), and spectroscopic methods to measure binding dynamics, conformational changes, and structure-activity relationships.4. Structural and Functional StudiesHigh-purity Aprepitant allows experiments on protein conformational dynamics, receptor-ligand complex formation, and SAR studies, supporting reproducible in vitro mechanistic investigations.5. Analytical ValidationIt can serve as a reference compound for validating analytical assays, including HPLC, mass spectrometry, and high-throughput screening platforms, ensuring accuracy and reproducibility.Overall, Aprepitant provides a robust tool for in vitro mechanistic research, enabling laboratories to study receptor inhibition, molecular pathway modulation, and biochemical interactions with high precision and reproducibility.Aprepitant Chemistry-StructureApplicationsAprepitant is widely used in in vitro mechanistic and molecular research due to its high-purity and stable formulation, making it suitable for studying NK1 receptor inhibition, signal transduction, and molecular pathway modulation.1. Receptor Binding AssaysAprepitant is ideal for evaluating NK1 receptor-ligand interactions in purified receptor systems or cell-free assays. Researchers can assess binding affinity, receptor selectivity, and dose-response relationships.2. Molecular Pathway StudiesThe compound enables laboratories to explore downstream signaling pathways, including phosphorylation cascades, secondary messenger modulation, and protein-protein interactions. Controlled in vitro models provide reproducible mechanistic insights.3. Structure-Activity Relationship (SAR) StudiesHigh-purity Aprepitant supports receptor-ligand structural studies, conformational dynamics analysis, and SAR mapping, allowing detailed evaluation of molecular interactions and binding mechanisms.4. Analytical Method DevelopmentIt serves as a reference standard for validating analytical techniques such as HPLC, mass spectrometry, and fluorescence-based assays, ensuring reproducibility in mechanistic experiments.5. Computational IntegrationExperimental data can be combined with molecular docking, predictive modeling, and in silico simulations to refine mechanistic hypotheses and validate receptor interaction models.6. High-Throughput ScreeningCompatible with automated platforms, Aprepitant allows parallel testing of multiple conditions, including ligand variants, receptor isoforms, and environmental factors, enhancing throughput for mechanistic investigations.Overall, Aprepitant provides a versatile platform for laboratories studying receptor inhibition, molecular signaling, and mechanistic biochemistry under fully controlled in vitro conditions.Research ModelsAprepitant is designed for in vitro research models that enable detailed exploration of NK1 receptor inhibition, signal transduction, and molecular pathway modulation. Its high purity and stable formulation provide reproducible results across diverse mechanistic studies.1. Receptor-Based ModelsIn cell-free systems, Aprepitant can be applied to purified NK1 receptor assays to study ligand binding, receptor conformational changes, and inhibition kinetics. These models allow precise measurement of receptor-ligand interactions under controlled conditions.2. Signal Transduction Pathway ModelsThe compound supports biochemical signaling studies, including secondary messenger analysis, phosphorylation cascades, and downstream protein interactions. Controlled in vitro models facilitate reproducible mechanistic insights without cellular complexity.3. Protein-Ligand Interaction ModelsAprepitant facilitates binding studies with NK1 receptors or receptor fragments, allowing evaluation of binding affinity, kinetics, and structural changes. Techniques such as SPR, ITC, and fluorescence spectroscopy are commonly employed to validate these models.4. Analytical Validation ModelsHigh-purity Aprepitant serves as a reference standard for validating analytical assays, including HPLC, mass spectrometry, and high-throughput screening methods, ensuring precision and reproducibility.5. Computational Integration ModelsExperimental data from these in vitro models can be combined with molecular docking, predictive simulations, and systems biology approaches to explore mechanistic pathways and refine hypotheses.Overall, Aprepitant enables robust in vitro research models that support mechanistic, structural, and kinetic studies of NK1 receptor interactions and molecular signaling, providing reproducible, high-quality data for laboratory research.Experimental Design ConsiderationsDesigning experiments with Aprepitant requires careful attention to concentration, environmental conditions, and analytical methods to ensure reliable mechanistic insights.1. Concentration OptimizationDetermine optimal concentrations based on receptor binding affinity, assay sensitivity, and target protein interactions. Perform preliminary titrations to avoid oversaturation or underdetection in in vitro models.2. Environmental ControlMaintain precise temperature, pH, and buffer conditions, as these parameters affect receptor stability, ligand binding, and chemical integrity. Controlled conditions ensure reproducible mechanistic outcomes.3. Time-Course StudiesDesign experiments with defined time points to monitor receptor-ligand interactions, downstream signaling, and kinetic responses. Time-course measurements provide detailed mechanistic data.4. Analytical Method IntegrationSelect analytical techniques such as HPLC, mass spectrometry, SPR, or fluorescence spectroscopy to detect molecular interactions, conformational changes, and pathway modulation. Integration of multiple methods enhances data robustness.5. Replication and ControlsInclude appropriate controls, replicates, and blank conditions to validate results. Document lot numbers, storage conditions, and experimental procedures for reproducibility.6. Computational ModelingCombine experimental data with in silico modeling, docking studies, and pathway simulations to refine mechanistic hypotheses and validate experimental findings.By following these considerations, laboratories can achieve high-precision, reproducible in vitro experiments with Aprepitant, yielding robust data on receptor inhibition, molecular pathway modulation, and biochemical mechanisms.Laboratory Safety & Handling GuidelinesAprepitant is a high-purity laboratory reagent intended exclusively for in vitro mechanistic and molecular research. Proper handling ensures chemical stability, experimental reproducibility, and laboratory safety.1. Personal Protective Equipment (PPE)Always wear gloves, lab coat, and eye protection when handling Aprepitant. Work in a controlled laboratory environment to prevent contamination and maintain chemical integrity.2. Handling and PreparationUse dedicated laboratory consumables to avoid cross-contamination. Dissolve or dilute the compound carefully to preserve molecular integrity and activity.3. Storage ConditionsStore in sealed, light-protected containers at 2–8°C. Avoid exposure to heat, light, or repeated freeze-thaw cycles, which can affect stability and purity.4. Spill and Decontamination ProceduresContain spills immediately with approved absorbents. Clean surfaces using appropriate buffers or decontamination solutions, and dispose of contaminated materials according to institutional chemical waste protocols.5. Documentation and TraceabilityMaintain records of lot numbers, storage conditions, and experimental usage. This ensures reproducibility and supports troubleshooting in mechanistic studies.6. Laboratory EquipmentUse chemically compatible glassware, pipettes, and plates to prevent adsorption or chemical degradation.Following these guidelines ensures safe handling, reproducible results, and reliable mechanistic insights in laboratory-based in vitro studies.Integration with Multi-Omic & Computational StudiesAprepitant can be integrated into multi-omic workflows and computational modeling to explore NK1 receptor inhibition, molecular signaling, and mechanistic pathway modulation in vitro. Its stable, high-purity formulation enables reproducible data collection suitable for proteomic, structural, and computational analyses.1. Proteomic and Structural IntegrationIn vitro studies with Aprepitant can generate data on receptor-ligand interactions, phosphorylation changes, and protein network modulation. Techniques such as mass spectrometry, western blotting, and structural analyses can map interactions and validate mechanistic hypotheses.2. Computational Modeling ApplicationsData from in vitro assays can be combined with molecular docking, predictive simulations, and pathway modeling. Computational integration helps predict inhibitor-target interactions, refine mechanistic pathways, and corroborate experimental findings.3. Multi-Omic CorrelationExperimental results can be correlated with transcriptomic, proteomic, or metabolomic datasets from controlled systems to identify mechanistic relationships and pathway modulation. This integration allows robust hypothesis generation and mechanistic validation.4. Analytical Method ValidationAprepitant can serve as a reference standard to validate HPLC, fluorescence, or mass spectrometry assays. Integration with computational studies enhances interpretation and reproducibility of mechanistic experiments.Overall, Aprepitant supports a comprehensive approach combining experimental in vitro data with computational and multi-omic analyses, providing deep mechanistic insights into NK1 receptor signaling and molecular pathways.Things to NoteLaboratory Use OnlyAprepitant is intended exclusively for in vitro mechanistic, structural, and biochemical research. It is not suitable for human or veterinary use, clinical applications, or diagnostic purposes.Handling and SafetyAlways use appropriate PPE, including gloves, lab coat, and eye protection. Handle in a controlled laboratory environment to maintain chemical stability and experimental integrity.Storage and StabilityStore in sealed, light-protected containers at 2–8°C. Avoid heat, light exposure, and repeated freeze-thaw cycles, which can compromise chemical purity and activity.Analytical VerificationBefore experiments, confirm purity, solubility, and chemical integrity using techniques such as HPLC, mass spectrometry, or spectroscopy to ensure reproducibility.Waste ManagementDispose of residual material and contaminated consumables according to institutional chemical waste protocols. Decontaminate surfaces and equipment after use.Experimental ConsiderationsDesign experiments considering environmental sensitivity, receptor stability, and inhibitor concentration to ensure reliable mechanistic insights.Following these notes ensures safe handling, reproducible data, and robust mechanistic results in laboratory-based in vitro studies.KeywordsAprepitant, high-purity NK1 receptor inhibitor, laboratory-grade aprepitant, in vitro mechanistic studies, receptor-ligand interaction research, molecular pathway modulation, protein binding assays, signal transduction inhibitor, biochemical mechanism reagent, high-throughput in vitro screening, structural dynamics analysis, proteomic and computational integration, factory-manufactured research reagent, bulk and wholesale laboratory supply, mechanistic pathway analysis reagent, controlled laboratory workflow reagent, high-purity powder for in vitro assays, analytical method validation NK1 inhibitor, Tumor (compound) Research, multi-omic integration reagent.Shipping GuaranteeFactory-manufactured Aprepitant is securely packaged to maintain chemical stability, purity, and experimental integrity during transport. Bulk and wholesale orders are supported with secure shipment and tracking, ensuring the product arrives in optimal condition for in vitro mechanistic and molecular studies. Shipments are handled to minimize exposure to heat, light, or contamination.Trade AssuranceLow-price wholesale supply directly from the factory.Bulk order customization available, including powder amount and packaging formats.Guaranteed high-purity compound for in vitro receptor inhibition and molecular pathway research.Factory-direct supply ensures consistent quality and reproducibility across multiple batches.Payment SupportMultiple secure payment options are available for global laboratory procurement:PayPalCryptocurrencyBank Transfer (TT)Credit CardVerified online payment systemsThese options provide flexible and secure payment methods for bulk and wholesale orders.DisclaimerAprepitant is intended exclusively for laboratory research use. It is not approved for human or veterinary applications, diagnostic purposes, or therapeutic interventions. All experiments must be conducted in controlled in vitro, molecular, or mechanistic studies. Users must follow institutional safety protocols and chemical handling procedures. The product should never be administered to living organisms or used outside research settings.ReferencesWu H. et al. “Human substance P receptor binding mode of the antagonist drug aprepitant by NMR and crystallography.” Nature Communications, 2019;10:3145. Explores the structural and dynamic interaction of Aprepitant with NK1 receptor, providing mechanistic insights for molecular research. (nature.com)Muñoz M., Rosso M. “The NK‑1 receptor antagonist aprepitant as a broad spectrum antitumor drug.” Investigational New Drugs, 2010;28(2):187–193. Demonstrates in vitro NK1 receptor inhibition and downstream pathway modulation, useful for mechanistic studies. (pubmed.ncbi.nlm.nih.gov)“Aprepitant (NK‑1 Antagonist) — Chemical and Biological Properties.” Research-use datasheet providing molecular structure, purity, solubility, and IC₅₀ / K_d data, suitable for lab reference. (tocris.com)“Pharmacology of Aprepitant.” Chemical and drug database overview summarizing NK1 selectivity, receptor affinity, and in vitro mechanistic activity. (chemsrc.com)Selleck Chemicals product entry “Aprepitant — NK‑1 Receptor Antagonist, ≥ 99% Purity.” Provides high-purity batch information and in vitro IC₅₀ data, suitable for mechanistic and receptor-binding studies. (selleckchem.com