We develop PathoGelTrap (PGT), a tool to bind specific pathogens in water. We use the current knowledge on the self-assembling properties of the LLPS proteins to perform rational design of a chimeric LCR-AFB-like biomaterial that will recognize pathogens (both viruses and bacteria) and trap them. We aim to provide the industry with two different solutions, PGT Liquid to be added directly into the fish-farm water, and PGT Filter for trapping targeted pathogens. We chose two models, Betanodavirus affecting Seabass, and Yersinia affecting rainbow trout.
Viral Nervous Necrosis (VNN) also known as Viral Encephalopathy and Retinopathy (VER), is a hazardous and devastating disease of many species of cultured and marine fish worldwide. It is caused by Betanodaviruses, causing severe mortality. European sea bass (Dicentrarchus labrax L.) is a very valuable fish species in Mediterranean countries, and it is currently one of the main cultured fish species in Europe.
Enteric redmouth disease (ERM), generally accruing amongst cultured salmonids, causes significant economic losses. The disease is caused by Yersinia ruckeri, a gram-negative bacteria.
To use of PGT products in marine and fresh water, chimeras containing selected binders were produced, with high-affinity binding to model pathogens. The trapping capabilities of chimeras against Betanodavirus are confirmed, with the sequestered virus unable to replicate. This gives high specificity and maximum efficiency.
A new strategy based on the immobilization of self-assemble monolayers (SAMs) of chimera was designed and preliminarily evaluated for Filter functionalisation.
A sensitivity analysis carried out by UCD revealed inputs influencing the model predictions, directing future research and helping identify risk mitigations.
LCA, LCC and SLCA were caried out by LOM, identifying hotspots and optimising pathways. A Comparison of the environmental and economic footprint of PGT solution with respect to conventional water disinfection options.
A COST ACTION, BIOAQUA “Enhancing knowledge of biomolecular solutions for the well-being of European aquaculture sector” was initiated.
Interviews with fish farmers were carried out to get feed-back on the PGT concept for health management, and the business opportunity. PGT Filter would address a critical and largely unmet need within the spectrum of fish farming tools.
Patent No. 23328158.6-1111 “PATHOGEN TRAPPING SYSTEMS AND RELATED AQUACULTURAL USES” has been filed European Patent Office.
The Exploitation Plan is focused on the PGT Filter application, and also included profiles for exploitation of results beyond the active protein.