Monday, 20-04-2026 | 08:23
Soybean plays a crucial role in meeting nitrogen demands through biological nitrogen fixation (BNF), a process highly dependent on phosphorus availability. Low-phosphorus (LP) stress significantly impairs nodule development, thereby affecting soybean growth and productivity. Genome-wide association study (GWAS) was conducted using the ratio of the nodule numbers (RNNs) under normal phosphorus condition and low-phosphorus condition in a natural population with 272 soybean accessions grown in three environments
Updated News
- Japan and Brazil Grant Green Light to Non-browning Banana
- Nigeria Approves High-Performing Groundnut Variety SAMNUT 30 Developed by ICRISAT
- FAO: Protracted Strait of Hormuz crisis could turn into global agrifood catastrophe
- New research provides updated estimates on global forest-sector employment
- FAO Director-General calls for accelerated action on One Health agenda
- FAO rolls out new initiatives to include and promote entrepreneurial youth
- Can Better Fish Processing Improve Diets Without Undermining Local Nutrition?
- ICRISAT Celebrates its Foundation Day, Marking 55 Years of Science-Driven Impact
- FAO Director-General calls for accelerated action on One Health agenda
- FAO rolls out new initiatives to include and promote entrepreneurial youth
- Food security is crucial to global security (Globe and Mail)
- Will the Iran crisis lead to another round of food price spikes?
- Peru Releases Gene Editing Guidelines
- Launch of new SIDS and new GIAHS initiatives mark milestone in FAO’s partnership with China
- Experts Recommend Climate-adaptive Breeding Pipeline for Rice
Scientific news
- Identification of nodule number-related loci and the candidate gene GmbHLH135 in soybean under low phosphorus stress
- Microbiological quality of plant-based cheese analogues and pathogen behavior in cashew nut-based varieties in cashew nut-based varieties
- Identification and Analysis of DUF506 Gene Family in Peanut (Arachis hypogaea)
- Next-Generation Precision Breeding in Peanut (Arachis hypogaea L.) for Disease and Pest Resistance: From Multi-Omics to AI-Driven Innovations
- Deciphering cassava brown streak virus infection in cassava through VPg mediated host protein interactions
- Population genetics and phylogenomic insights into the origin of economically important black pepper (Piper nigrum)
- Cloning and functional analysis of qCmr2.1, a novel gene for Cucumber mosaic virus resistance in Capsicum frutescens
- A haplotype-layered GWAS identifies a multi-trait grain mold resistance hub on sorghum chromosome 5
- CasY7: An optimized Cas12i system for enhanced genome editing in monocot crops
- Integrated physiological, biochemical and hormonal traits determine drought tolerance and yield stability in cashew (Anacardium occidentale L.)
- Endophytic Streptomyces griseorubens MEPSL1 from sweetpotato promotes plant growth and enhances γ-tocopherol accumulation
- Identification of photosynthetic pigment content-related genes in peanut (Arachis hypogaea L.) by GWAS and RNA-seq
- MeNADP-ME3 Confers Salt and Drought Tolerance in Arabidopsis and Drives Functional Diversification of the NADP-ME Family in Cassava
- Structural insight of a photosystem I-CpcL-phycobilisome supercomplex from a cyanobacterium Anabaena sp. PCC 7120
- Integrating image-based phenotyping and QTL mapping to enhance genetic resistance and accelerate breeding for bacterial grain rot resistance in rice
Monday, 20-04-2026 | 01:20
Tropic's non-browning banana variety has received regulatory approvals in Japan and Brazil. These approvals enable the import, sale, and consumption in both countries. Brazil, one of the world's largest banana‑producing and banana‑consuming countries, also granted cultivation approval.
Monday, 20-04-2026 | 01:23
Soybean plays a crucial role in meeting nitrogen demands through biological nitrogen fixation (BNF), a process highly dependent on phosphorus availability. Low-phosphorus (LP) stress significantly impairs nodule development, thereby affecting soybean growth and productivity. Genome-wide association study (GWAS) was conducted using the ratio of the nodule numbers (RNNs) under normal phosphorus condition and low-phosphorus condition in a natural population with 272 soybean accessions grown in three environments
Monday, 20-04-2026 | 01:21
Experts from Chonnam National University have developed a new way to reduce histamine levels in tomatoes using CRISPR-Cas9 gene editing. Histamine, a compound that can trigger adverse reactions in sensitive individuals, is found at relatively high levels in tomatoes. In this study, the researchers modified specific genes linked to histamine production during fruit ripening.
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