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The cytosolic aminotransferase VAS1 coordinates aromatic amino acid biosynthesis and metabolism.

Jie WuYanhong ChenYuxin HuangBingbing HaoShengkun DaiLingling ZhaoZhehui ZhaoCuihuan ZhaoLi-Min ZhangYunhai LiXuexia XuNan LiAncheng C HuangJiahai ZhouMin-Jia TanWentao ZhuQiao Zhao
Published in: Science advances (2024)
The aromatic amino acids (AAAs) phenylalanine, tyrosine, and tryptophan are basic protein units and precursors of diverse specialized metabolites that are essential for plant growth. Despite their significance, the mechanisms that regulate AAA homeostasis remain elusive. Here, we identified a cytosolic aromatic aminotransferase, REVERSAL OF SAV3 PHENOTYPE 1 (VAS1), as a suppressor of arogenate dehydrogenase 2 ( adh2 ) in Arabidopsis ( Arabidopsis thaliana ). Genetic and biochemical analyses determined that VAS1 uses AAAs as amino donors, leading to the formation of 3-carboxyphenylalanine and 3-carboxytyrosine. These pathways represent distinct routes for AAA metabolism that are unique to specific plant species. Furthermore, we show that VAS1 is responsible for cytosolic AAA biosynthesis, and its enzymatic activity can be inhibited by 3-carboxyphenylalanine. These findings provide valuable insights into the crucial role of VAS1 in producing 3-carboxy AAAs, notably via recycling of AAAs in the cytosol, which maintains AAA homeostasis and allows plants to effectively coordinate the complex metabolic and biosynthetic pathways of AAAs.
Keyphrases
  • amino acid
  • arabidopsis thaliana
  • plant growth
  • transcription factor
  • ms ms
  • genome wide
  • gene expression
  • dna methylation
  • kidney transplantation
  • binding protein