⚛️ 4-Me-TMP (4-Methylthio-2,5-Dimethoxyphenethylamine)
Advanced Research Compound – Phenethylamine Class
4-Me-TMP, also known as 4-Methylthio-2,5-Dimethoxyphenethylamine, is a synthetic compound from the substituted phenethylamine family. Structurally related to 2C-T series compounds, 4-Me-TMP has attracted growing interest in neurochemical, receptor-binding, and behavioral research due to its distinctive serotonergic profile and molecular configuration.
Scientific Overview
4-Me-TMP functions primarily as a serotonergic agent, interacting with 5-HT2A and related receptor systems — pathways central to the study of psychedelic pharmacology and neurotransmitter modulation. Its structural resemblance to other 2,5-dimethoxy-substituted phenethylamines makes it an important model compound for structure–activity relationship (SAR) investigations.
Reported research observations include:
-
✨ Modulation of serotonin receptor activity
-
Influence on perceptual and cognitive processing in controlled environments
-
Insights into receptor selectivity among sulfur-substituted phenethylamines
These properties position 4-Me-TMP as a valuable subject for studies exploring receptor binding, neurotransmission, and psychedelic response mechanisms.
⚗️ Applications in Research
4-Me-TMP is primarily used for:
-
Neuropharmacological and receptor-binding profiling
-
Analytical reference and calibration standards
-
Comparative SAR and molecular modeling studies
Researchers value 4-Me-TMP for its research-grade purity, batch consistency, and analytical stability.
⚠️ Critical Safety Notice
STRICTLY FOR RESEARCH USE ONLY
-
Not for human or animal consumption
-
Not for medical, therapeutic, or household use
-
For qualified laboratory professionals only
Proper safety protocols and handling procedures must be followed at all times.
✅ Why Choose 4-Me-TMP for Your Research
-
Premium research-grade quality
-
Reliable analytical performance
-
Trusted by laboratories and research institutions worldwide
Advance your understanding of substituted phenethylamines with 4-Me-TMP — where scientific exploration meets neurochemical precision.
