Research Keyword: mycoprotein

Mycelium: A Nutrient-Dense Food To Help Address World Hunger, Promote Health, and Support a Regenerative Food System

mycolabadmin

Mycelium, the thread-like root structure of fungi, could help solve world hunger by providing nutritious, sustainable protein in just days. Unlike meat production which takes months to years, mycelium grows rapidly using minimal water and produces far less greenhouse gas. Early research suggests it may help lower cholesterol and improve blood sugar control while supporting a healthier planet.

Read More »

Mushroom: an emerging source for next generation meat analogues

mycolabadmin

Mushrooms are emerging as excellent meat substitutes because they have a meaty, chewy texture and savory flavor similar to meat, while being nutritious, low in fat, and sustainable to grow. When added to meat products like sausages, burgers, and nuggets, mushrooms improve texture, extend shelf-life, and reduce spoilage. The growing shift toward plant-based eating combined with environmental concerns makes mushroom-based meat alternatives an attractive option for consumers seeking healthier and more sustainable food choices.

Read More »

Conversion of Soluble Compounds in Distillery Wastewater into Fungal Biomass and Metabolites Using Australian Ganoderma Isolates

mycolabadmin

Researchers discovered that Ganoderma mushroom mycelium can clean up rum distillery wastewater while producing edible, protein-rich fungal biomass. The mycelium successfully removed harmful compounds from the wastewater and accumulated bioactive compounds with health benefits. This dual-benefit approach transforms an environmental waste problem into a valuable food ingredient, offering a sustainable and economical solution for the distillery industry.

Read More »

Genetic Ablation of the Conidiogenesis Regulator Enhances Mycoprotein Production

mycolabadmin

Scientists created a genetically modified version of the Quorn fungus (Fusarium venenatum) by removing a gene that controls spore production. This modification caused the fungus to grow faster and produce more biomass while also containing higher levels of amino acids. When combined with another genetic modification, the fungus produced 22% more biomass than normal, which could significantly reduce costs for mycoprotein production used in meat alternative products.

Read More »
Scroll to Top