Articles tagged with Metabolic Pathways
Researchers at the University of Pennsylvania developed lipid nanoparticles that modify immune metabolism to strengthen mRNA vaccines and reduce common side effects. The new lipid boosts the metabolism of immune cells, providing energy for the body's defenses while dialing down inflammatory signals.
Researchers discovered that PFK, a key sugar-processing enzyme, has a hidden function controlling cell division by unwinding RNA and promoting gene translation. The enzyme's ability to bind and unwind RNA was found to be crucial for cell cycle progression, with cells lacking PFK2 showing slowed growth and division issues.
Researchers created an automated method to quickly analyze the metabolic effects of natural products, such as kratom, using high-resolution mass spectrometry and molecular network mapping. This breakthrough provides a detailed view of how chemicals are reshaped by human metabolism, marking a major step in natural products research.
Researchers found that inhibiting LETM1, a protein regulating mitochondrial calcium, can significantly improve performance in tasks requiring long-term memory. This approach enhances metabolic stimulation and leads to overproduction of ATP, prolonging energy production beyond normal brain activity.
A new study delivers the first fully gapless, telomere-to-telomere genome assembly of flax, providing a complete genetic blueprint for advancing flax biology and breeding. The research uncovers previously hidden genes, structural variations, and evolutionary signals that shape fatty acid biosynthesis and genome organization.
Rice University scientists create a detailed map of the Alzheimer's brain using hyperspectral Raman imaging and machine learning. The findings show that chemical changes are unevenly distributed across the brain and extend beyond amyloid plaques, revealing broader metabolic differences between healthy and diseased brains.
Researchers have discovered that endophytic bacteria can coexist with plant cells without harming them, triggering the production of previously unattainable compounds. This method has the potential to expand the diversity of obtainable plant-derived compounds for various industries.
A study published in Science of The Total Environment found that e-cigarette exposure alters gut microbiota composition and affects neurobehavior in zebrafish. The researchers observed disruptions in the gut microbiome, with reduced microbial network stability and altered community composition, suggesting potential health risks.
Active aldehydes promote toxic lipid peroxidation, impairing FAO and activating glycolysis in killer T cells, accelerating exhaustion. This vicious cycle exacerbates T cell differentiation and dysfunction.
Researchers at CIC bioGUNE discovered a mechanism that reformulates our understanding about polyamine actions in health and disease. Polyamines alter the phosphoproteomic landscape, affecting protein function and alternative splicing.
Researchers at Northwestern University and Stanford University develop a new artificial metabolism that converts waste carbon dioxide into acetyl-CoA, a universal metabolite used by all living cells. The system, called Reductive Formate Pathway (ReForm), uses engineered enzymes to perform metabolic reactions never seen in nature.
A prospective multicenter trial validated an improved method for predicting treatment benefits in hormone receptor-positive metastatic breast cancer with bone metastases. Metabolic change assessed by FDG-PET/CT accurately predicted progression-free survival as early as 12 weeks after treatment initiation.
Researchers developed a probe to visualize lipid breakdown in living cells, revealing differences in breakdown rates among individual droplets. The study found that an enzyme called ATGL drives these variations, which may contribute to abnormal lipid metabolism in liver cancer cells.
A research team discovered that leucine prevents the degradation of specific mitochondrial proteins, enabling efficient energy production. This mechanism allows cells to adapt to increased energy demands during periods of nutrient abundance.
A new study from UC San Francisco found that saturated fat affects the behavior of a protein called PER2, which orchestrates fat metabolism and circadian rhythms. Mice eating a diet high in hydrogenated fats struggled to adapt to winter, whereas those on unsaturated fat diets adjusted easily.
Researchers transform corn stover into microbial lipids using alkaline storage, gentle steam, and squeeze detoxification. The process delivers high sugar recovery and lipid content, reducing water demand by one-third compared to conventional methods.
Researchers have elucidated the final step in the biosynthesis of iridoids, a widespread class of plant secondary metabolites with defense and medicinal properties. The discovery of an enzyme catalyzing cyclisation to nepetalactol paves the way for future biotechnological production of these compounds.
A new study analyzing the dietary choices of wild woodrats reveals that individual diets may not be as diverse as previously assumed. The research suggests that the costs of specializing on one food source or diversifying one's diet have a strong impact on an animal's ability to survive and thrive.
A new study reveals that the human gut microbiota can pinpoint an individual's city of residence with high accuracy, strongly linked to each city's characteristic diet. The researchers identified unique microbial signatures and interaction networks between cities in China, shedding light on how local environments shape our inner biology.
Researchers find that albumin triggers a shift in fungal behavior, causing previously non-harmful Candida strains to grow strongly and release toxic compounds.
Researchers have charted how plant metabolism responds to genetic changes that increase oil production, finding simultaneous increases in both oil and protein content. The study's findings will provide scientists with clues for optimizing biofuel production in plants such as camelina and pennycress.
Cancer cells utilize more energy from a less efficient pathway, but researchers found that power-generating waves on the cell membrane could be used to stage cancers and target drugs. Measuring these waves may help stage cancers in a standardized way.
A new study from the Buck Institute has uncovered how breaking down glycogen in neurons may protect against toxic protein buildup and degeneration. Researchers found that restoring an enzyme called glycogen phosphorylase can reduce tau-related damage and improve oxidative stress reduction.
Researchers analyzed single-cell transcriptomes from early, middle, and late stages of AD to identify subtle shifts in cellular activity. They found that mitochondria in vulnerable brain areas began to fail early in the disease, even before amyloid plaque buildup. The study also identified a gene called MEG3 involved in regulating mito...
Researchers developed an AI tool called AAnet to characterize cancer cell diversity, identifying five distinct cell groups with different gene expression profiles. This could lead to more targeted therapies and improved patient outcomes.
Researchers found that maternal iron deficiency can lead to male-to-female sex reversal in mouse embryos due to impaired Sry gene activation. Iron is necessary for KDM3A's enzymatic activity, which removes histone methylation allowing the Sry gene to become active.
Creatine has broad health benefits beyond athletic performance, including maintaining energy in stressed cells and preventing muscle loss with aging. Studies have shown no significant side effects from creatine supplementation, contradicting common misconceptions.
Researchers at University of California San Diego discover itaconate stimulates seedling development, enhancing crop growth and potentially offering a sustainable solution for increasing food production. The study provides new insights into the molecule's role in plant physiology and its connections to animal biology.
Researchers at the Max Planck Institute for Chemical Ecology elucidated the biosynthetic pathway of ipecacuanha alkaloids in two distantly related plant species. The study reveals that both species developed the same pathway independently, with a surprising twist: the first step does not involve an enzyme, but occurs spontaneously.
Researchers found that aging impairs CAR-T cell function and antitumor activity due to lower NAD levels. Rejuvenating aged cells with NAD-boosting compounds improves their effectiveness.
A study published in Science Advances has revealed promising alternative pathways to overcome photorespiration, which can reduce crop productivity by up to 36%. The researchers identified mechanisms that could improve plant productivity while adapting to climate change and growing global food demands.
Researchers at KAIST evaluated industrial microbial cell factories to identify suitable strains and optimal metabolic engineering strategies. Using genome-scale metabolic models, they calculated maximum theoretical yields and achievable yields under industrial conditions for 235 bio-based chemicals.
Researchers found that disrupting bacterial metabolism can help the body tolerate infection and heal more effectively. By inhibiting a specific metabolic pathway, they successfully reduced tissue damage in a mouse model of necrotizing skin infection.
Ancient bacteria can respire carbon dioxide and hydrogen into acetic acid to produce ATP. A new mechanism involving sodium ions is activated when acetic acid is produced, driving a molecular turbine that generates energy.
A study by Michigan Medicine researchers suggests that sulfur-producing bacteria may be behind lingering Crohn's disease symptoms, even in the absence of inflammation. The study found that these bacteria can lead to increased visceral hypersensitivity and altered intestinal permeability, contributing to persistent symptoms.
Researchers at Max Planck Institute developed a new, efficient metabolic pathway to convert acetyl-CoA into pyruvate, enabling effective CO2 utilization. The 'lactyl-CoA mutase' enzyme can produce valuable products like 3-hydroxypropionate for sustainable plastics.
The study found that P. aeruginosa adapts to the lung's mucus by relying on sugars and lactate, but also needs to synthesize essential nutrients through metabolic independence. Biofilm formation imposes a metabolic burden, slowing down the bacteria's ability to spread, while disrupting biofilms makes them more vulnerable to antibiotics.
Researchers at Van Andel Institute discovered that cutting off cancer cells' access to fat makes them highly sensitive to ferroptosis and drugs that induce it. This finding has promising implications for developing new anti-cancer strategies and potentially tailoring diets to enhance treatment effectiveness.
A new study has identified novel strains of microbes that have adapted to use limited resources in cities, including those found in Hong Kong's subways and skin. These microbes can metabolize manufactured products, posing health risks if they are pathogenic.
Scientists have identified over 23,000 genes known as auxiliary metabolic genes (AMGs) that viruses 'steal' from ocean microbes, affecting 37% of metabolic pathways. The research catalogues these genes, shedding light on the vital role of viruses in nutrient cycling and oxygen production.
The red milkweed beetle's genome has been sequenced, providing insights into how it safely feeds on toxic plants. The study found an apparent expansion of genes related to toxin sequestration and metabolic enzymes.
Researchers discovered that activating the pentose phosphate pathway makes antitumor CD8 T cells more likely to stay in an immature state, leading to better results in animal models and human organoids. This metabolic reprogramming strategy may enhance checkpoint inhibitor therapy by boosting a long-term supply of active cytotoxic T ce...
Researchers at Martin-Luther-Universität Halle-Wittenberg have observed proteins restructuring themselves to produce inositol, a key substance for metabolism. The study reveals that this process occurs in multiple similar proteins, shedding light on their functions.
Researchers at Cold Spring Harbor Laboratory have discovered a strategy to kill breast cancer cells and shrink tumors by depriving them of two vital nutrients: glutamine and its backup supply, alpha-ketoglutarate. This approach was successful in lab experiments and effective in treating tumors in mice.
A new study reveals a connection between metabolic genes and immune system T cells, suggesting a potential new class of inborn errors of immunometabolism. Researchers identified genetic overlap between disorders of metabolism and immunity, pointing to a continuum between the two conditions.
CNIO researchers have discovered a 'switch' for the desire to engage in physical activity, revealing a muscle-brain pathway that controls eagerness to train more when we exercise. Two proteins, p38α and p38γ, get activated in the muscle during exercise, influencing interest in physical activity.
A new study found a significant association between higher heme iron intake and type 2 diabetes risk. Participants with the highest heme iron intake had a 26% higher risk of developing T2D than those in the lowest intake group. The researchers also identified key metabolic biomarkers associated with this increased risk.
Anaerobic bacteria have survived for ages in oxygen-free niches, influencing human health and environment. The 'AnoxyGen' project aims to unlock their biosynthetic potential using molecular and synthetic biology tools.
Researchers found increased liver oxidative stress and impaired antioxidant defenses in a DS murine model. The study suggests potential therapeutic strategies targeting oxidative stress and lipid metabolism to prevent or mitigate liver-related complications.
A multidisciplinary team developed GeneMAP to probe gene function in metabolism. They identified SLC25A48 as necessary for mitochondrial choline transport and associated it with eight human diseases.
Researchers tracked how a mixture of plant waste was metabolized by bacteria to contribute to atmospheric CO2. Microbes respired three times as much CO2 from lignin carbons compared to cellulose carbons, shedding light on the role of microbes in soil carbon cycling and its impact on climate change.
Researchers have discovered how softer tumor environments prime cancer cells to better survive metastasis. The study found that soft environments alter the cancer cells' preference for 'fuel', equipping them with a more resilient energy pathway.
A KAIST-Seoul National University Hospital research team has developed a computational workflow that predicts metabolites and metabolic pathways associated with somatic mutations in cancers. The workflow uses genome-scale metabolic models and mutation data to identify altered metabolic pathways that contribute to cancer progression.
Researchers from Johannes Gutenberg University Mainz and their French partners receive funding for two distinctive biology projects through the ANR-DFG program. The EVOMET project investigates plant metabolism, while the NeuroDevFunc project explores how fruit flies process visual motion generated by self-movement.
Researchers at the Boyce Thompson Institute discovered a novel family of metabolites called acylspermidines that are linked to sirtuin activity. These compounds were found to influence lifespan in C. elegans and cell proliferation in mammals, providing new insights into the physiological functions of spermidine and sirtuins.
Researchers from Osaka University have discovered a link between the rare D-form of the amino acid alanine and the circadian clock's influence on glucose metabolism in the kidney. The study found that D-alanine regulates gluconeogenesis, a process that creates new glucose to maintain energy levels, and is mediated by the protein Cry2.
A team of Kyoto University researchers found that macrophages produce granulomas through a hyperactive metabolic pathway called the pentose phosphate pathway. Inhibition of this pathway showed therapeutic efficacy in reducing granuloma formation in vitro and in mouse tissue models.
Researchers developed a new framework to measure metabolic health, introducing the concept of metabolic elasticity. The study found that metabolic elasticity declines with age and obesity, affecting the body's ability to adapt to changing energy needs.
A team of researchers from Germany has been awarded an ERC Synergy Grant to investigate microbial carbon cycle and discover unknown metabolic pathways that enabled microorganisms to live on early Earth. The project aims to provide insights into the conditions prevailing during the Archean Eon, when life first emerged.
Researchers have revealed a revolutionary new understanding of how proteins enter mitochondria, correcting long-held assumptions about the TIM complex. High-resolution cryo-electron microscopy data and advanced biochemical methods were used to re-evaluate old data and map functional organization in great detail.