Research Keyword: transcriptome

A Combination of Transcriptome and Enzyme Activity Analysis Unveils Key Genes and Patterns of Corncob Lignocellulose Degradation by Auricularia heimuer under Cultivation Conditions

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Researchers investigated using corncob, a corn industry byproduct, as a growing medium for Auricularia heimuer mushrooms instead of expensive sawdust. By analyzing which genes the mushroom activates at different growth stages, they identified key enzymes responsible for breaking down corncob’s tough cellulose structure. The findings show the mushroom can effectively adapt to use corncob as a substrate, offering a sustainable and economical alternative for mushroom farming while reducing agricultural waste.

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Inhibitory effect and mechanism of action of Carvacrol as a promising natural food preservative against Fusarium acuminatum causing postharvest rot of garlic scapes (Allium sativum L)

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Garlic scapes often rot quickly during storage due to fungal infections. This study found that carvacrol, a natural compound from oregano and thyme, effectively prevents this spoilage and extends shelf life. The research showed that carvacrol damages the fungal cells’ protective membranes, stopping the infection. Since carvacrol is already approved as safe for food use, it could become a practical, natural alternative to chemical preservatives.

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Selection and validation of reference genes for RT-qPCR in ophiocordyceps sinensis under different experimental conditions

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Scientists studied the Chinese caterpillar mushroom (Ophiocordyceps sinensis) to find the best genes to use as reference points when measuring other gene activity. They tested sixteen potential reference genes under various stress conditions and growth stages using a technique called RT-qPCR. They found that two specific genes (18S rRNA and beta-Tubulin) were the most reliable to use as standards, which will help researchers accurately study how this medicinal mushroom responds to different conditions.

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Study on the Effect of Sooty Mould Disease in Tea Plants

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Sooty mould disease is a serious fungal infection affecting tea plants, causing a black coating on leaves that reduces photosynthesis and decreases the quality of tea. The study identified the fungus responsible (Cladosporium pseudocladosporioides) and showed that friendly bacteria can help prevent the disease. The research provides insights into how the disease damages plants at the cellular and genetic level, offering potential solutions for protecting tea crops.

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