Thursday, 28-05-2026 | 08:06
With an exceptional energy density and high polyunsaturated fatty acid content, maize oil positions high-oil maize as multifunctional feedstocks. Exploring the genetic architecture of oil content (OC) in maize kernel is crucial for breeding high-oil maize varieties. Herein, a combination of genome-wide association study and linkage mapping was employed to explore the quantitative trait loci (QTL) and candidate genes underlying the OC in maize kernel under four environments.
Updated News
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- FAO Food Price Index up for third consecutive month largely on rising vegetable oil prices
Scientific news
- 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
- Integration of Ty-1/Ty-3 and Ty-6 confers improved and durable resistance to highly pathogenic begomoviruses in tomato
- Integrated physiological, biochemical and hormonal traits determine drought tolerance and yield stability in cashew (Anacardium occidentale L.)
- Advances and prospects of genomic-assisted breeding in roots, tubers, and banana crops
- Unlocking genetic diversity in Colombian cassava landraces for accelerated breeding
- An auxin-induced transcriptional cascade CmBES1–CmSAUR66 orchestrates the ray floret development in Chrysanthemum morifolium
Thursday, 28-05-2026 | 01:04
Under the U.S. Department of Agriculture (USDA)-funded Fertilize Right (FerRight) project, the International Rice Research Institute (IRRI), in collaboration with the Plant Production and Protection Department (PPD) of the Ministry of Agriculture and Environment (MAE) and the Department of Agriculture and Environment (DAE) of Can Tho City, teamed up to scale efforts in implementing a government program that focuses on the sustainable development of one million hectares of low-emission rice cultivation in the Mekong Delta region by 2030 (the 1mHa Program).
Thursday, 28-05-2026 | 01:06
With an exceptional energy density and high polyunsaturated fatty acid content, maize oil positions high-oil maize as multifunctional feedstocks. Exploring the genetic architecture of oil content (OC) in maize kernel is crucial for breeding high-oil maize varieties. Herein, a combination of genome-wide association study and linkage mapping was employed to explore the quantitative trait loci (QTL) and candidate genes underlying the OC in maize kernel under four environments.
Thursday, 28-05-2026 | 01:05
A team of engineers at the University of Florida has developed the world's first CRISPR system that uses DNA instead of RNA to guide gene-editing enzymes. Published in Nature Biotechnology, the breakthrough challenges the long-standing assumption that RNA must be used as the guide in CRISPR-based RNA editing tools.
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