N-Acetyl Semx Amidate

This compound is a chemically modified synthetic heptapeptide derived from the Semx peptide backbone. The compound incorporates N-terminal acetylation and C-terminal amidation, modifications commonly employed in peptide chemistry to alter molecular stability and degradation characteristics under experimental conditions. Supplied as a lyophilized powder, N-Acetyl Semx Amidate is intended exclusively for controlled in-vitro laboratory research conducted by qualified professionals.

what is n-acetyl semax amidate

This compound is a chemically modified synthetic heptapeptide derived from the Semx peptide backbone. The compound incorporates N-terminal acetylation and C-terminal amidation, modifications commonly employed in peptide chemistry to alter molecular stability and degradation characteristics under experimental conditions. Supplied as a lyophilized powder, N-Acetyl Semx Amidate is intended exclusively for controlled in-vitro laboratory research conducted by qualified professionals.

Research Applications:

• In-vitro evaluation of modified peptide analogs in controlled analytical assay systems
• Comparative structural and stability analysis of acetylated and amidated peptide sequences
• Laboratory investigation of peptide–protein interactions in controlled experimental models
• Analytical method development for short-chain synthetic peptides

Storage and Handling:

• Store lyophilized powder at −20 °C until use
• Once reconstituted, store at 2–8 °C and use promptly
• Handle using appropriate aseptic laboratory techniques

Product Specifications:

• Purity: ≥99% (HPLC Certified)
• Appearance: Lyophilized white to off-white powder
• Solubility: Soluble in common laboratory solvents

Compliance Notice:

N-Acetyl Semx Amidate is FOR RESEARCH USE ONLY. It is not intended for human or veterinary use. This product has not been evaluated by the FDA. Misuse of this product is strictly prohibited and may violate federal, state, or local laws. By purchasing this product, buyer represents and warrants that it will be used only for in vitro research purposes.