Integration of GWAS and transcriptome approaches for the identification of nitrogen-, phosphorus-, and potassium-responsive genes in tomato Abstract. Plant growth is inseparable from the presence of mineral nutrients such as nitrogen (N), phosphorus (P), and potassium (K), but the mechanism by

New study reveals tomato's N/P/K response mechanisms, identifies key genes for breeding. #TomatoGenetics #PlantNutrition @oxfordacademic.bsky.social
Details: doi.org/10.1093/hr/u...

New research published in Cell reveals that modern potatoes are the result of a rare natural hybridization event 8–9 million years ago between ancestral wild tomatoes and a lesser-known plant group called Etuberosum.

#PotatoOrigin #PlantEvolution #TomatoGenetics #Hybridization #AgricultureScience

SlNOR & SlNOR-like1 crucial for tomato pollen wall & fertility! #TomatoGenetics #PlantResearch @oxfordacademic.bsky.social
Details: doi.org/10.1093/hr/u...

Introducing furanocoumarin biosynthetic genes in tomato results in coumarins accumulation and impacted growth
Boerjan, W., Bouille, A. et al.
Paper
Details
#FuranocoumarinBiosynthesis #TomatoGenetics #CoumarinsAccumulation