Friday, 27-03-2026 | 14:22
Epigenetic regulation plays a central role in coordinating peanut (Arachis hypogaea L.) fruit pegging, a unique developmental process in which fertilized ovaries transition from aerial growth to subterranean pod formation. This review synthesizes current evidence demonstrating that dynamic interactions among DNA methylation, histone modifications, and small RNA-mediated pathways govern peg elongation, directional growth,
Updated News
- Closing the gender gap in agrifood systems can help reduce food insecurity and boost global GDP: FAO gender experts
- FAO celebrates 2026 International Day of Forests and World Water Day
- Madagascar Shows Why the Future of Agricultural Innovation Must Be Integrated
- Localized nexus solutions could offer a global blueprint for agricultural waste
- FAO celebrates 2026 International Day of Forests and World Water Day
- Grow Trees. Grow Futures. Restore landscapes with farmers
- ISAAA Global Report on Biotech Adoption Now Available
- New Partnership to Strengthen Soil Health and Secure Livelihoods for 1.5 Million Sahelian Farmers
- Turning the tide on typhoon havoc in the Philippines
- FAO’s Food and Agriculture Museum and Network links with new WOW Agrifood Museum in Siena
- CRISPR Improves Alkalinity Tolerance in Rice
- ICRISAT and University of Queensland Partner to Accelerate Climate-Resilient Crop Breeding for Dryland
- In a world searching for solutions to the interconnected climate, biodiversity and land degradation crises, rangelands and pastoralists are part of the answer: FAO animal production and health expert
- FAO welcomes UN resolution instituting International Coffee Day
- Director-General addresses 20th Session of the Commission on Phytosanitary Measures
Scientific news
- Oral immunotherapy suppresses peripheral blood transcriptomic response to peanut in peanut allergy
- Epigenetic modifications regulate peg elongation and underground fruiting in peanut in response to environmental cues
- Dynamic water relations and alternative splicing in common bean under progressive soil drought and recovery
- Unmasking Tomato Spotted Wilt Virus in Peanuts: From Nucleocapsid Protein Sequence and Localization to Practical Management in Alabama
- A sorghum pangenome reference improves global crop trait discovery
- Editing strigolactone hormone receptor for robust antiviral silencing in rice
- Accessing crop genetic diversity via pangenomics
- Alternaria alternata Effector Aa593 Promotes Virulence by Hijacking the CmNAC29-Mediated Abscisic Acid Biosynthesis Pathway in Chrysanthemum
- Pan-Genome Analysis and Expression Profiling of HIPP Gene Family in Cassava
- Role of Altered Metabolites and Metabolic Pathways in Major Tuber Crops Under Drought Stress
- Fine mapping and functional verification of the Cf-19 gene controlling leaf mold disease resistance in tomato
- OsAld-Y on qATS6 links to alkalinity tolerance at the seedling stage in Oryza sativa L. ssp. Japonica
- Phased potato genome assembly and association genetics enable delineation of the H1 resistance locus against potato cyst nematodes
- CRISPR/Cas9-mediated mutagenesis of SMXL4 alters plant height and yield-related traits in rice (cv. Samkwang)
- Genetically modified foods and human health: a comprehensive review and cross-national time-trend analysis
Friday, 27-03-2026 | 07:19
The Food and Agriculture Organization of the United Nations (FAO) marked International Day of Forests 2026 and World Water Day 2026 on Thursday with a series of high‑level and technical events at its headquarters in Rome.The two UN global observances, celebrated annually on 21 and 22 March respectively, underscore the critical role of forests and water in sustaining local economies, resilient agrifood systems and the Sustainable Development Goals.
Friday, 27-03-2026 | 07:22
Epigenetic regulation plays a central role in coordinating peanut (Arachis hypogaea L.) fruit pegging, a unique developmental process in which fertilized ovaries transition from aerial growth to subterranean pod formation. This review synthesizes current evidence demonstrating that dynamic interactions among DNA methylation, histone modifications, and small RNA-mediated pathways govern peg elongation, directional growth,
Friday, 27-03-2026 | 07:20
Scientists at the University of Edinburgh have developed a pioneering method to convert waste plastic into a drug used to treat Parkinson's disease. The study, published in Nature Sustainability, shows how bacteria can transform post-consumer plastic bottles into L-DOPA, a frontline medication for managing the neurological condition.
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