https://www.vxbus.com/bioscience/ Recent content in Biosciences on VXB US Hugo -- gohugo.io en © 2026 Sun, 17 May 2026 00:10:52 +0800 https://www.vxbus.com/bioscience/cancer-driving-mutations-in-microglia-fuel-alzheimers-progression-not-cancer/ Sun, 17 May 2026 00:10:52 +0800 https://www.vxbus.com/bioscience/cancer-driving-mutations-in-microglia-fuel-alzheimers-progression-not-cancer/ <blockquote> <p>Cancer-Driving Mutations in Microglia Fuel Alzheimer&rsquo;s Progression, Not Cancer</p></blockquote> <h2 class="relative group">🧠 Microglia: From Brain Scavengers to Disease Drivers <div id="-microglia-from-brain-scavengers-to-disease-drivers" class="anchor"></div> <span class="absolute top-0 w-6 transition-opacity opacity-0 ltr:-left-6 rtl:-right-6 not-prose group-hover:opacity-100"> <a class="group-hover:text-primary-300 dark:group-hover:text-neutral-700" style="text-decoration-line: none !important;" href="#-microglia-from-brain-scavengers-to-disease-drivers" aria-label="Anchor">#</a> </span> </h2> <p>Microglia are the brain&rsquo;s resident immune cells, responsible for clearing metabolic waste, damaged neurons, and pathogens, while regulating neuroinflammation. Chronic microglia-mediated neuroinflammation has long been recognized as a core pathological feature in Alzheimer&rsquo;s disease (AD).</p> https://www.vxbus.com/bioscience/gut-microbiotas-role-in-child-neurodevelopment-and-neuropsychiatric-risk/ Sat, 16 May 2026 20:59:16 +0800 https://www.vxbus.com/bioscience/gut-microbiotas-role-in-child-neurodevelopment-and-neuropsychiatric-risk/ <blockquote> <p>Gut Microbiota&rsquo;s Role in Child Neurodevelopment and Neuropsychiatric Risk</p></blockquote> <h2 class="relative group">🧠 The Gut-Brain Axis and Early Neurodevelopment <div id="-the-gut-brain-axis-and-early-neurodevelopment" class="anchor"></div> <span class="absolute top-0 w-6 transition-opacity opacity-0 ltr:-left-6 rtl:-right-6 not-prose group-hover:opacity-100"> <a class="group-hover:text-primary-300 dark:group-hover:text-neutral-700" style="text-decoration-line: none !important;" href="#-the-gut-brain-axis-and-early-neurodevelopment" aria-label="Anchor">#</a> </span> </h2> <p>Child neurodevelopment encompasses neural network formation, synapse establishment, and maturation of cognitive, social, and emotional circuits. Disruptions in these processes increase the risk of neuropsychiatric disorders in childhood and adulthood.</p> https://www.vxbus.com/bioscience/ethylene-receptor-links-er-redox-state-to-plant-stress-adaptation/ Sat, 16 May 2026 20:54:11 +0800 https://www.vxbus.com/bioscience/ethylene-receptor-links-er-redox-state-to-plant-stress-adaptation/ <blockquote> <p>Ethylene Receptor Links ER Redox State to Plant Stress Adaptation</p></blockquote> <p>Recent research led by Professor Guo Hongwei at Southern University of Science and Technology (SUSTech) uncovers the molecular mechanism by which <strong>ethylene receptors</strong> sense the <strong>endoplasmic reticulum (ER) redox state</strong>. This discovery establishes a direct link between organelle homeostasis and hormone signaling, providing critical insights into plant adaptability under environmental stress. The findings are reported in <em>Cell</em>.</p>