Hajime Tomatsu
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View article: An Artificial Conversion of Roots into Organs with Shoot Stem Characteristics by Inducing Two Transcription Factors
An Artificial Conversion of Roots into Organs with Shoot Stem Characteristics by Inducing Two Transcription Factors Open
View article: Metabolic diversification of nitrogen‐containing metabolites by the expression of a heterologous lysine decarboxylase gene in Arabidopsis
Metabolic diversification of nitrogen‐containing metabolites by the expression of a heterologous lysine decarboxylase gene in Arabidopsis Open
Summary Lysine decarboxylase converts l ‐lysine to cadaverine as a branching point for the biosynthesis of plant Lys‐derived alkaloids. Although cadaverine contributes towards the biosynthesis of Lys‐derived alkaloids, its catabolism, incl…
View article: SUN-LB082 Sexual Dimorphism of Phosphoethanolamine in HPA-Axis Response to LXR Agonist 25-Hydroxycholesterol: Neuroendocrine Implications for Major Depressive Disorder
SUN-LB082 Sexual Dimorphism of Phosphoethanolamine in HPA-Axis Response to LXR Agonist 25-Hydroxycholesterol: Neuroendocrine Implications for Major Depressive Disorder Open
Major depression is a chronic illness and a major component of disease burden, with high prevalence in women than in men. Plasma phosphoethanolamine (PEA) levels are significantly decreased in major depressive disorder (MDD) patients compa…
View article: SUN-LB081 LXR Agonist 25-Hydroxycholesterol Modulates Plasma, Adrenal, and Hypothalamic Phosphoethanolamine Levels: Neuroendocrine Implications for HPA-Axis in Major Depressive Disorder
SUN-LB081 LXR Agonist 25-Hydroxycholesterol Modulates Plasma, Adrenal, and Hypothalamic Phosphoethanolamine Levels: Neuroendocrine Implications for HPA-Axis in Major Depressive Disorder Open
Plasma phosphoethanolamine (PEA) levels are significantly decreased in major depressive disorder (MDD) patients compared to healthy controls: Also, in chronic ACTH treatment mouse model of MDD, plasma and frontal cortex PEA were significan…
View article: A Novel Conversion of Roots into Organs with Shoot Stem Characteristics by Inducing Two Transcription Factors
A Novel Conversion of Roots into Organs with Shoot Stem Characteristics by Inducing Two Transcription Factors Open