MiPT fumarate

MiPT fumarate, or N-methyl-N-isopropyltryptamine fumarate, is a fumarate salt form of MiPT, a synthetic compound belonging to the tryptamine class. Tryptamines are a family of organic compounds related to the structure of tryptophan, characterized by their use in various fields such as pharmacological research, neuroscience, and chemical study. MiPT fumarate’s structure includes a tryptamine backbone with methyl and isopropyl substitutions on the amine group, enhancing its properties compared to the parent compound.

The fumarate salt form of MiPT is valued for its enhanced stability and solubility in polar solvents, making it more suitable for storage and handling in laboratory environments. This compound appears as a crystalline powder, typically white or off-white, and is highly soluble in water due to its salt formation. MiPT fumarate is commonly utilized in laboratory analysis for advanced study into the structure-activity relationships (SARs) of tryptamines and their interactions with biological systems.

Chemical Properties

MiPT fumarate possesses the following molecular characteristics:

• Molecular Formula: C14H20N2O4
• Molecular Weight: 280.33 g/mol
• IUPAC Name: N-[2-(1H-indol-3-yl)ethyl]-N-methylpropan-2-amine fumarate
• Boiling Point: Not applicable (typically referenced as a stable fumarate salt)
• Solubility: Soluble in water and ethanol; relatively stable under standard laboratory conditions.

Its chemical properties align with those of other substituted tryptamines, but its unique substitutions set it apart in terms of functional and pharmacological behavior when studied under specific conditions.

Research Applications

MiPT fumarate is often examined in experimental settings due to its structural similarity to endogenous compounds like serotonin. It allows researchers to explore receptor binding dynamics, neurotransmitter interactions, and more. Notably, MiPT fumarate is employed in:

1. Pharmacological Studies

Researchers analyze the interaction between MiPT derivatives and serotonin receptor subtypes (such as 5-HT2A) to better understand the impact of structural modifications on receptor affinity and activation. MiPT fumarate’s unique profile contributes valuable data to the understanding of tryptamine-based molecular signaling.

2. Structure-Activity Relationship Analysis

The compound’s specific substitutions, along with modifications like the fumarate salt form, provide data for SAR analysis. Patterns derived from MiPT fumarate help scientists develop analogs or identify potential therapeutic applications.

3. Neuroscience Innovations

MiPT fumarate is also used to study synaptic pathways and neuromodulation. By serving as a control compound or comparison molecule, researchers can explore the behavior of neuroactive chemicals in simulated models.

Handling and Storage

MiPT fumarate should be handled with appropriate safety precautions in a controlled laboratory setting. It is essential to use personal protective equipment (PPE), including gloves and laboratory coats, to prevent accidental contact or inhalation. The compound should be stored in a cool, dry place in tightly sealed containers to avoid exposure to moisture and air, as this may degrade the substance over time. For optimal preservation, a temperature range of 2–8°C is recommended.

Usage and Legal Considerations

MiPT fumarate is strictly intended for research and analytical purposes. It is not approved for human consumption or medicinal use due to limited data about its safety profile outside of controlled environments. Researchers must adhere to local regulations and obtain proper authorization for its acquisition and usage, as certain regions may restrict its possession or distribution.

Availability

MiPT fumarate is supplied by specialty chemical providers catering to academic, pharmaceutical, and industrial research facilities. The compound is typically available in quantities ranging from milligrams to grams, ensuring flexibility for both small-scale and larger experimental designs. Its high purity specifications are confirmed by advanced analytical techniques, such as nuclear magnetic resonance (NMR) spectroscopy and high-performance liquid chromatography (HPLC).

Safety and Disposal

MiPT fumarate must be treated as a potentially hazardous substance. Waste and unused material should be disposed of according to local hazardous waste management protocols. Laboratory personnel must be trained in handling compounds of this nature to minimize risks associated with spills, exposure, or improper disposal.

By providing detailed insights into MiPT fumarate’s properties, applications, and handling considerations, this description aims to assist researchers in utilizing the compound effectively in their scientific pursuits.