Research Keyword: biosensors

Nanomaterials for Plant Disease Diagnosis and Treatment: A Review

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Scientists are developing tiny particles called nanomaterials to fight plant diseases caused by bacteria, fungi, viruses, and worms. These nanoparticles can detect infections quickly and treat diseases more effectively than traditional pesticides, while reducing harmful environmental impacts. The technology shows promise for safer, more sustainable farming that could help feed a growing global population.

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Safe Meat, Smart Science: Biotechnology’s Role in Antibiotic Residue Removal

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Antibiotics used to treat sick animals can leave residues in meat that contribute to dangerous antibiotic-resistant bacteria affecting human health. This review explores cutting-edge biotechnology solutions like rapid detection sensors, engineered enzymes, and bacterial viruses that can identify and eliminate these harmful residues. When combined with smarter antibiotic use on farms, these technologies offer practical ways to make meat safer and protect public health.

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Harnessing the yeast Saccharomyces cerevisiae for the production of fungal secondary metabolites

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Scientists have learned to use common baker’s yeast (S. cerevisiae) as a biological factory to produce valuable medicines and compounds that naturally come from fungi and mushrooms. By transferring the genetic instructions for making these compounds into yeast cells and improving them with genetic engineering, researchers can now produce therapeutically important substances like cancer-fighting drugs and antibiotics in large quantities. This approach is more practical and cost-effective than trying to extract these rare compounds directly from their native fungal sources or using other production methods.

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Laser Direct Writing of Dual-Scale 3D Structures for Cell Repelling at High Cellular Density

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Researchers used advanced laser technology to create tiny mushroom-shaped structures decorated with nano-sized fingerprint patterns on surfaces. These structures were inspired by spider webs and designed to repel cells from sticking to the surface. Even when many cells were present, these specially designed surfaces kept about 60% of the cells from adhering, which could be useful for medical devices, sensors, and antibacterial coatings.

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Harnessing pycnidia-forming fungi for eco-friendly nanoparticle production, applications, and limitations

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Certain fungi called pycnidial fungi can create tiny particles called nanoparticles that are useful in medicine, agriculture, and environmental cleanup. These fungi naturally produce chemicals and enzymes that reduce metal ions into nanoparticles, which have antimicrobial and cancer-fighting properties. While this biological approach is more environmentally friendly than chemical methods, scientists still need to solve challenges like making it work at large scales and ensuring the nanoparticles are safe and stable.

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