Wednesday, 27-05-2026 | 08:14
Common bean (Phaseolus vulgaris L.) is a globally important and nutritious crop with diverse market classes. Multiple genes control the seed coat color and patterns that characterize these market classes. Therefore, understanding the genetic control of seed coat color is critical for breeding purposes, especially when making crosses among different market classes. One such gene is Rk, the “red kidney” color gene.
Updated News
- Nutrition-Sensitive Trade: What Zanzibar’s Dagaa Fishery Reveals About Food and Nutrition Security
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- FAO Director General honours India’s Prime Minister Narendra Modi with FAO’s prestigious Agricola Medal
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- 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?
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- Climate-smart rice systems could help curb malaria and other vector-borne diseases
- FAO Food Price Index up for third consecutive month largely on rising vegetable oil prices
- Factors influencing Newcastle disease vaccine use in village chicken flocks in rural Burkina Faso
Scientific news
- 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
- Targeted knockout of a host peroxisomal peptidase confers field resistance to maize lethal necrosis
Wednesday, 27-05-2026 | 01:11
A recent study published in the journal of Environmental Research: Food Systems, examines how trade in aquatic foods can contribute to nutrition security across regions, using the dried dagaa (small pelagic fish) fishery in Zanzibar, Tanzania, as a case study. The authors introduce the concept of “nutrition-sensitive trade,” which refers to trade that delivers and balances access to nutrient-dense foods to multiple spatially distant populations,
Wednesday, 27-05-2026 | 01:14
Common bean (Phaseolus vulgaris L.) is a globally important and nutritious crop with diverse market classes. Multiple genes control the seed coat color and patterns that characterize these market classes. Therefore, understanding the genetic control of seed coat color is critical for breeding purposes, especially when making crosses among different market classes. One such gene is Rk, the “red kidney” color gene.
Wednesday, 27-05-2026 | 01:12
Bioengineers from Stanford University have developed a new protein engineering method that can design, build, and test protein variants in just 24 hours. The technique, called MIDAS or Microbe-Independent Deep Assembly and Screening, could accelerate research in medicine, biotechnology, and environmental science by simplifying how proteins are engineered and tested.
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