5-amino-1mq
Price range: $50.00 through $190.00
Description
A single-component research material supplied for controlled research environments. 5-amino-1MQ (5 mg) is a small-molecule compound studied for its role as a selective NNMT (nicotinamide N-methyltransferase) inhibitor in metabolic and cellular energy research.
Composition
• 5-amino-1MQ
• Appearance: Lyophilized powder in a sealed research vial
Research Focus (non-clinical)
• Investigation of NNMT inhibition and its downstream metabolic effects
• Studies on NAD+ metabolism and energy homeostasis in preclinical models
• Development of analytical methods (HPLC/LC-MS) for small-molecule quantitation
• Stability and solubility assessment of 5-amino-1MQ under laboratory storage conditions
For qualified research professionals and institutional laboratories. Not for human use.
Documentation & Quality Assurance
Each lot is sourced through our verified global supply chain with emphasis on traceability and quality control. We work diligently to obtain and maintain third-party analytical reports (HPLC/LC-MS) and Certificates of Analysis for each batch, as part of our ongoing quality process. These documents are reviewed internally and displayed as they become available. Independent third-party testing is also performed on select lots to confirm identity, purity, and alignment with our internal specifications.
Important Notice
This product is intended for laboratory research use only. It is not intended for human or veterinary use, and must not be used for diagnostic, therapeutic, or clinical purposes.
This material is not a drug, medical device, or dietary supplement, and has not been evaluated by the U.S. Food and Drug Administration.
Quality & Manufacturing
All materials are sourced from carefully vetted domestic and international manufacturing partners who follow quality systems consistent with ISO and cGMP principles. Each supplier is reviewed for reliability, documentation integrity, and transparency in testing.
We require a verified purity of 99% or higher and perform independent third-party spot testing to confirm that select lots meet our internal standards for identity, purity, and composition. Where available, endotoxin testing results are included on Certificates of Analysis to verify laboratory purity; their inclusion is for research quality assessment only and does not imply suitability for human or veterinary use.
All research materials are sealed for integrity and packaged for stability during storage and transport from manufacturing through final delivery.
Additional information
| Weight | 0.2 lbs |
|---|---|
| Dosage | 5mg, 50mg |
Storage Instructions
All our research peptides are manufactured using a lyophilization (freeze-drying) process. This method is designed to maintain product integrity and allows vials to remain stable during shipping for approximately 3–4 months.
Once a vial is reconstituted with bacteriostatic water, it should be stored in the refrigerator to help maintain stability. Under these conditions, reconstituted material is generally considered stable for up to 30 days.
Lyophilization is a dehydration technique in which compounds are frozen and then exposed to low pressure. This causes the water in the vial to sublimate directly from solid to gas, leaving behind a stable, crystalline white structure. This powder can be kept at room temperature until reconstitution.
Upon receipt, products should be stored away from heat and light. For short-term use, refrigeration at approximately 4°C (39°F) is suitable. For long-term storage (several months to years), vials may be placed in a freezer at approximately -80°C (-112°F). Freezing is the preferred method for preserving product stability over extended periods.
⚠️ Important Notice: These products are intended for research use only. Not for human consumption.
Certificate of Analysis
Every batch undergoes rigorous third-party laboratory testing to verify identity, purity (≥98%), and quality before release.
All Available COAs
Research Use Only
These studies reference research-grade peptides for laboratory and scientific investigation only. Not for human consumption. Not intended to diagnose, treat, cure, or prevent any disease.
Published Scientific Research
Peer-reviewed laboratory research investigating research peptides from leading scientific databases
Chemoenzymatic Synthesis and in Vitro Selection of De Novo Thiazole-Containing Macrocyclic Peptides.
Backbone thiazole (Thz) moieties prevail in bioactive peptidic natural products and play important roles in their biological functions. However, the de novo discovery of artificial Thz-containing peptide ligands remains challenging. Here, we report an mRNA display-based selection platform for Thz-containing macrocyclic peptides (teMP), established through a dedicated posttranslational chemoenzymatic transformation. This method exploits the unique reactivity of ribosomally incorporated thioamides
View Full StudyRecent advances in peptide macrocyclization strategies.
Recently, owing to their special spatial structures, peptide-based macrocycles have shown tremendous promise and aroused great interest in multidisciplinary research ranging from potent antibiotics against resistant strains to functional biomaterials with novel properties. Besides traditional monocyclic peptides, many fascinating polycyclic and remarkable higher-order cyclic, spherical and cylindric peptidic systems have come into the limelight owing to breakthroughs in various chemical (, nativ
View Full StudyBioinformatic prediction and experimental validation of RiPP recognition elements.
Ribosomally synthesized and post-translationally modified peptides (RiPPs) are a family of natural products for which discovery efforts have rapidly grown over the past decade. There are currently 38 known RiPP classes encoded by prokaryotes. Half of the prokaryotic RiPP classes include a protein domain called the RiPP Recognition Element (RRE) for successful installation of post-translational modifications on a RiPP precursor peptide. In most cases, the RRE domain binds to the N-terminal "leade
View Full StudyLeveraging peptide-cellulose interactions to tailor the hierarchy and mechanics of peptide-polymer hybrids.
The addition of nanofiller with hydrogen bonding sites was used as another pathway towards hierarchical tuning matrix-filler interactions.
View Full StudyIn silico mutagenesis-based designing of oncogenic SHP2 peptide to inhibit cancer progression.
The SHP2 plays a major role in regulation of cell growth, proliferation, and differentiation, and functional upregulation of this enzyme is linked to oncogenesis and developmental disorders. We generated several peptides from the native wild peptide using an in silico mutagenesis method, which showed that changes (P302W, Y304F, E306Q, and Q303A) might boost the peptide's affinity for binding to SHP2.
View Full StudyStructural modeling of peptide toxin-ion channel interactions using RosettaDock.
Peptidic toxins from animal venoms target ion channels and provide useful scaffolds for the rational design of novel channel modulators with enhanced potency and subtype selectivity. We tested this approach on 10 structures of peptide toxin-ion channel complexes and demonstrated that it can sample near-native structures in all tested cases.
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