gas chromatography-mass spectrometry

Comparative study on structural characterization, physicochemical properties, and in vitro probiotic activities of resistant starch from different varieties of Euryale ferox

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Euryale ferox, a nutritious aquatic plant, contains two varieties with significantly different health benefits. North Euryale ferox has much higher levels of resistant starch (a special type of starch that resists digestion) compared to South Euryale ferox, making it potentially more beneficial for gut health and diabetes management. The resistant starch in this plant acts as a prebiotic, promoting the growth of beneficial gut bacteria while inhibiting harmful bacteria, supporting overall digestive and metabolic health.

Bioremediation Potential of Indigenous Bacterial Isolates for Treating Petroleum Hydrocarbons-Induced Environmental Pollution

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Scientists isolated three types of bacteria from soil near auto repair shops that can break down petroleum oil pollutants. When tested in the laboratory, these bacteria degraded between 55-83% of petroleum hydrocarbons over 12 days by converting them into simpler compounds. These findings suggest these naturally occurring bacteria could offer an affordable and environmentally-friendly way to clean up oil-contaminated soil without the harmful side effects of chemical cleanup methods.

Headspace Solid-Phase Microextraction Followed by Gas Chromatography-Mass Spectrometry as a Powerful Analytical Tool for the Discrimination of Truffle Species According to Their Volatiles

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This study analyzed the aromatic compounds in two types of Greek truffles to distinguish between them. Researchers used a technique called headspace solid-phase microextraction combined with gas chromatography to identify 45 different volatile compounds. The study found specific aromatic markers that uniquely identify each truffle species, demonstrating that this analytical approach can reliably differentiate between truffle types based on their smell.

In vitro antifungal activity of plant extracts against fungal pathogens of onion (Allium cepa L.) and red pepper (Capsicum annum L.) in selected districts of Western Hararghe, Ethiopia

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Onion and pepper farmers in Ethiopia lose significant crops to fungal diseases, and chemical fungicides are expensive and harmful. This study tested plant extracts from garlic, neem, and African wintersweet against disease-causing fungi. Acokanthera schimperi (African wintersweet) was most effective at stopping fungal growth, offering farmers an affordable, natural, and environmentally safe alternative to chemical fungicides.

Antifungal and other bioactive properties of the volatilome of Streptomyces scabiei

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Researchers discovered that Streptomyces scabiei, a bacterium that causes common scab disease in potatoes and other root crops, produces numerous airborne chemical compounds with surprising benefits. Using advanced chemical analysis, they identified 36 different volatile molecules, many of which can kill harmful fungi and promote plant health. This discovery suggests the bacterium’s role in nature is more complex than previously thought, as it may actually help protect plants while causing disease, opening new possibilities for developing natural pest control solutions.

Evaluating the Impact of Cultivar and Processing on Pulse Off-Flavor Through Descriptive Analysis, GC–MS, and E-Nose

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Many people don’t eat pulses (beans and chickpeas) despite their health benefits because they have unpleasant flavors often described as beany or earthy. This research tested different bean varieties and cooking methods to reduce these bad flavors. They found that light-colored beans like navy beans naturally have milder flavors, and roasting beans before turning them into flour reduces earthy tastes. A quick electronic nose test works better than traditional chemical analysis for predicting which beans will taste better to consumers.

A mass spectrometry-based strategy for investigating volatile molecular interactions in microbial consortia: unveiling a Fusarium-specific induction of an antifungal compound

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Scientists developed a new method to study how different fungi communicate and compete with each other through invisible chemical signals called volatile organic compounds. By growing three types of fungi together in a controlled setup, they discovered that Fusarium culmorum specifically produces a compound called γ-terpinene when in contact with other fungi. This compound acts as a natural antifungal agent, helping Fusarium fight off competing fungi. This research provides a blueprint for understanding complex fungal interactions in environments like human lungs and could eventually help diagnose or prevent fungal-related diseases.

Research Keyword: gas chromatography-mass spectrometry

Comparative study on structural characterization, physicochemical properties, and in vitro probiotic activities of resistant starch from different varieties of Euryale ferox

Bioremediation Potential of Indigenous Bacterial Isolates for Treating Petroleum Hydrocarbons-Induced Environmental Pollution

Headspace Solid-Phase Microextraction Followed by Gas Chromatography-Mass Spectrometry as a Powerful Analytical Tool for the Discrimination of Truffle Species According to Their Volatiles

In vitro antifungal activity of plant extracts against fungal pathogens of onion (Allium cepa L.) and red pepper (Capsicum annum L.) in selected districts of Western Hararghe, Ethiopia

Antifungal and other bioactive properties of the volatilome of Streptomyces scabiei

Evaluating the Impact of Cultivar and Processing on Pulse Off-Flavor Through Descriptive Analysis, GC–MS, and E-Nose

A mass spectrometry-based strategy for investigating volatile molecular interactions in microbial consortia: unveiling a Fusarium-specific induction of an antifungal compound