Simple. Scalable. Designed for growth.
We believe agricultural innovation should be accessible — no matter the size of your operation.
AMP Peptides
Antimicrobial peptides (AMPs) are next-generation biocontrol molecules inspired by nature’s own defense systems. These short amino acid chains act as natural antibiotics, carrying a positive charge that binds to negatively charged pathogen membranes. They then perforate the cell wall, causing lysis and death with remarkable precision.
AMPs work effectively in nanomolar concentrations, meaning only microdoses are needed to deliver strong antimicrobial action. They are fully biodegradable, leave no harmful residues, and minimize the risk of resistance — making them a safe, sustainable alternative to chemical pesticides.
PeptechLab formulations combine multiple AMP types, targeting pathogens through different mechanisms: some disrupt membranes, others inhibit ribosomes or block genetic pathways. This multi-action approach ensures broad and lasting protection against bacteria, fungi, and viruses, while supporting the natural immune systems of plants and animals.
gamma-Polyglutamic Acid
γ-Polyglutamic Acid is a natural biopolymer produced by selected bacterial strains as a metabolic by-product, combining exceptional biological activity with full environmental safety. Its molecular structure — long chains of glutamic acid linked by peptide bonds — gives it remarkable water-binding capacity, ion-exchange ability, and biodegradability, making it one of the most advanced natural materials used in modern agriculture.
In the soil, γ-PGA improves structure, aeration, and moisture retention, helping roots access water and nutrients even under drought or salinity stress. It acts as a hydrogel-like matrix, stabilizing soil microbiota and supporting microbial activity essential for healthy plant growth.
γ-PGA also plays a key role in bioremediation, capturing and chelating heavy metals, pesticide residues, and excess salts, while accelerating the decomposition of crop residues and restoring soil fertility.
This super biopolymer not only protects plants against abiotic stress but also creates the foundation for long-term soil regeneration — turning biotechnology into a true ally of nature.
