protein content – mycolab.ai

Effects of different orchard tree pruning residues on the yield and nutrient composition of Lentinus edodes

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This research explores using fruit tree pruning waste as growing material for shiitake mushrooms instead of traditional sawdust. By testing different fruit tree residues, scientists found that mushrooms grown on mixed substrates (especially apple and mulberry prunings) produced higher yields and improved nutritional content with better protein and mineral levels. This approach offers an environmentally friendly solution that reduces waste while producing more nutritious mushrooms and lowering cultivation costs.

Effect of Culture Media on the Yield and Protein Content of Pleurotus ostreatus (Jacq.) Kumm Mycelia

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This research optimized how to grow oyster mushroom mycelium in laboratory conditions to produce high-protein food ingredients. The scientists tested different nutrient sources, sugar types, and pH levels to find the best growing conditions. They discovered that adding urea and using amaranth flour as a base nearly doubled the protein content, making oyster mushroom mycelium a promising sustainable alternative to animal proteins.

Substrate composition effect on the nutritional quality of Pleurotus ostreatus (MK751847) fruiting body

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Researchers studied how different growing materials affect the nutritional value of oyster mushrooms. They found that mushrooms grown on palm oil waste mixed with wheat or rice bran had better nutritional quality than those grown on single materials. The best mushrooms for protein came from materials containing wheat bran, while fermented materials produced the most vitamins. This research shows how agricultural waste can be recycled into nutritious food.

Advances in Bioprocess Engineering for Optimising Chlorella vulgaris Fermentation: Biotechnological Innovations and Applications

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Chlorella vulgaris is a nutrient-rich microalga gaining popularity in health supplements, functional foods, and sustainable energy production. Scientists are using advanced genetic engineering techniques, special fermentation methods, and innovative bioreactor designs to increase the production of beneficial compounds like proteins and antioxidants. These improvements make Chlorella more valuable for creating health-promoting foods, medicines, and biofuels while keeping production costs low and environmentally sustainable.

Comparative transcriptomic insights into the domestication of Pleurotus abieticola for coniferous cultivation

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Researchers studied a special mushroom called Pleurotus abieticola that can grow on coniferous trees like spruce and larch. Usually, mushrooms prefer broadleaf trees, but this species can thrive on conifer wood, which makes up 70% of Chinese forests. By analyzing the mushroom’s genes and growth conditions, scientists found the best ways to cultivate it and discovered it’s rich in protein and beneficial compounds. This breakthrough could help create sustainable mushroom farming using forest resources that were previously underutilized.

Beeswax waste improves the mycelial growth, fruiting body yield, and quality of oyster mushrooms (Pleurotus ostreatus)

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Researchers found that adding beeswax waste to the growing substrate for oyster mushrooms significantly improves their yield and nutritional quality. At optimal levels (5%), mushrooms grown with beeswax waste produced 4% more yield and had 28% more protein than those grown with traditional wheat bran. This discovery offers an environmentally friendly solution for disposing of beeswax waste from beekeeping while producing healthier, more nutritious mushrooms.

Agaricus bisporus Grown on Sustainable Peat Casing Alternatives—A Systematic Review on Quality Characteristics

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This review examines how replacing traditional peat with sustainable alternatives affects button mushroom quality. Researchers analyzed seventeen studies testing materials like composted waste and soil mixes as replacements for peat casing. The findings show that alternative materials can maintain or improve nutritional content and other quality traits, though specific combinations and fungal strains significantly influence outcomes.

Novel chia (Salvia Hispanica L.) residue-based substrate formulations for oyster mushroom (Pleurotus ostreatus) cultivation

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Researchers discovered that leftover plant material from chia seed production can be used to grow oyster mushrooms with excellent nutritional value. When chia residues were combined with rice straw in the right proportions, they produced mushrooms with higher protein content, more beneficial compounds, and better yields than traditional growing methods. This finding helps solve two problems at once: it creates a valuable use for chia farming waste while producing highly nutritious mushrooms for human consumption.

Mixing oak and eucalyptus sawdusts improves shiitake (Lentinula edodes) yield and nutritional value

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This research explores growing shiitake mushrooms on different wood sawdust mixtures available in Lebanon. A combination of eucalyptus and oak sawdust outperformed oak alone, producing more mushrooms with better nutritional content including higher protein and fiber. This discovery helps local farmers improve mushroom production using readily available materials while creating healthier, more nutritious food.

Research Keyword: protein content