Tuesday, 02-06-2026 | 07:19
RNA-guided programmable nucleases enable high-precision genome engineering for applications in agriculture, medicine, and biotechnology. Genome editing in biological organisms relies on a limited set of naturally occurring enzymes. Widely used nucleases such as Cas9 (Jinek et al., 2012) and Cas12a (Zetsche et al., 2015), as well as emerging effectors including TnpB (Karvelis et al., 2021; Karmakar et al., 2024a) and IscB (Altae-Tran et al., 2021),
Updated News
- Pakistan Introduces Major Biosafety Reforms to GMO Regulation
- FAO Director-General calls for AI’s transformative power to be at the service of rural communities and a bridge towards shared prosperit
- Kenyan President calls for ambitious investment in IFAD14 at Africa Forward Summit
- ICRISAT Accelerated Crop Improvement (ACI) Overview
- Reviving Water, Restoring Landscapes: Livelihoods Improved After Six Years of Measurable Change in Central India
- New Fertilizer Supply Chain Network Formed to Support Vietnam's 1-Million-Hectare Rice Program
- Nutrition-Sensitive Trade: What Zanzibar’s Dagaa Fishery Reveals About Food and Nutrition Security
- Hilltops and teacups: How Rwanda is maximising its hilly landscape and boosting up small-scale farmers for quality tea production
- FAO Director General honours India’s Prime Minister Narendra Modi with FAO’s prestigious Agricola Medal
- ICRISAT and CIMMYT Launch New Initiative to Fast-Track Climate-Resilient Crops for Dryland Farmers in Africa and India
- ICRISAT Unveils New Identity for its Center of Excellence for South-South Cooperation in Agriculture
- Plant Health for Food Security: ICRISAT’s Integrated Approach to Grain Legume Disease Management
- What will it take to make food systems work for women?
- Kenya Clears Path for Field Trials of Gene-Edited Banana
- Risk of Famine persists as nearly 19.5 million people face acute food insecurity in Sudan
Scientific news
- AI-designed OpenCRISPR-1 performs robust knockout, base editing, and prime editing in rice
- The effector NlOBP1b from the brown planthopper suppresses rice immunity by manipulating the OsCK2 complex
- OsCBL10 negatively regulates salt tolerance at seedling stage in rice
- Water stress tolerance, genomic selection and identification of genomic regions in a MAGIC population of eggplant
- Rorippa islandica is a genetically accessible dicot model system to study flooding tolerance
- Genetic dissection of oil content in maize kernel using combined genome-wide association analysis and linkage mapping
- A candidate gene marker at the red kidney color locus (Rk) enables the development of slow-darkening pink beans
- Breeding for next-generation biotic stress-tolerant pigeonpea for sustainable food legume production
- Reprogramming immunity: TAL effector-informed genome editing in rice and other crops
- Molecular and metabolic regulation of anthocyanin accumulation under phosphorus stress in purple-fleshed sweet potato
- Comprehensive analysis of VOZ proteins in sweet potato and related species reveals their evolutionary dynamics and responses to abiotic stresses
- Subsurface soil inorganic carbon gains offset half of surface losses in China’s upland croplands over the last four decades
- Metabolomics and transcriptomics analyses reveal quality differences in forage-grain ratoon rice under varying mowing stages
- Multiplexed CRISPR base editing enables pulse-activated irreversible biocontainment of engineered bacteria Open Access
- Discovery of cold tolerance genes and favorable alleles in Kam sweet rice across various growth stages
Tuesday, 02-06-2026 | 00:18
Pakistan's National Biosafety Committee has approved major amendments to the Pakistan Biosafety Rules 2005, significantly liberalizing its genetically modified organisms (GMO) regulatory regime. The reforms aim to transition the country toward a modern, science-based, and business-friendly governance system by simplifying licensing procedures, easing import restrictions, and facilitating laboratory research.
Tuesday, 02-06-2026 | 00:19
RNA-guided programmable nucleases enable high-precision genome engineering for applications in agriculture, medicine, and biotechnology. Genome editing in biological organisms relies on a limited set of naturally occurring enzymes. Widely used nucleases such as Cas9 (Jinek et al., 2012) and Cas12a (Zetsche et al., 2015), as well as emerging effectors including TnpB (Karvelis et al., 2021; Karmakar et al., 2024a) and IscB (Altae-Tran et al., 2021),
Tuesday, 02-06-2026 | 00:18
A new study from the University of Toyama has revealed why certain varieties of the natural sweetener stevia possess a cleaner, more sugar-like flavor than others. Sourced from the leaves of Stevia rebaudiana plant, stevia can be up to 300 times sweeter than regular sugar, though some varieties leave an undesirable bitter aftertaste. The research team discovered that stevia's sweetness is fundamentally determined by specific glycosyltransferase genes and their localized, cell-specific activity within the leaf structure.
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