Research publications.
fresh off the press
Working notes from the lab. Peptide chemistry, reconstitution and storage, certificates of analysis, GLP-1 analogues, and the science behind each compound in the catalogue.
✦ 9 articles
- March 2026
Peptide reconstitution & storage guide
8 minHow to reconstitute a peptide correctly, how much bacteriostatic water to add, how to draw a dose, and how to store the result. The full method, end to end.
read it → - February 2026
GHK-Cu (copper peptide)
7 minA naturally occurring tripeptide with a strong affinity for copper ions, studied for collagen synthesis, antioxidant defense, and broad gene-expression effects.
read it → - January 2026
TB-500 (Thymosin beta-4)
7 minA synthetic fragment of Thymosin beta-4, studied for actin regulation, tissue regeneration, and complementary use with BPC-157 in repair protocols.
read it → - December 2025
How peptides are synthesized and what purity means in research
9 minSolid-phase peptide synthesis, HPLC purification, mass-spectrometry identification, and what a 98%+ purity number actually represents for your protocol.
read it → - November 2025
GLP-1 peptides
7 minHow GLP-1 regulates appetite, body weight, and metabolism, and why analogues like semaglutide and tirzepatide became central to obesity research.
read it → - October 2025
GLP-1 analogues
6 minSemaglutide, tirzepatide, and retatrutide — three GLP-1 analogues, each a step further into multi-receptor metabolic research.
read it → - September 2025
How to read a certificate of analysis (COA)
6 minWhat a COA actually contains, how to verify the lab that issued it, and why it is the single most important document accompanying any research peptide.
read it → - August 2025
BPC-157
6 minA synthetic pentadecapeptide derived from a protective protein in human gastric juice, studied for tissue repair, gut protection, and systemic healing.
read it → - July 2025
Peptides 101
4 minA short primer on what peptides are, how they differ from proteins, how they are produced, and why they sit at the center of so much modern research.
read it →
