The phosphorylated pathway of serine biosynthesis affects sperm, embryo, and sporophyte development, and metabolism in Marchantia polymorpha

Author:

Wang Mengyao,Tabeta HiromitsuORCID,Ohtaka Kinuka,Kuwahara Ayuko,Nishihama RyuichiORCID,Ishikawa ToshikiORCID,Toyooka KiminoriORCID,Sato MayukoORCID,Wakazaki Mayumi,Akashi Hiromichi,Tsugawa HiroshiORCID,Shoji Tsubasa,Okazaki Yozo,Yoshida KeisukeORCID,Sato Ryoichi,Ferjani AliORCID,Kohchi TakayukiORCID,Hirai Masami YokotaORCID

Abstract

AbstractSerine metabolism is involved in various biological processes. Here we investigate primary functions of the phosphorylated pathway of serine biosynthesis in a non-vascular plant Marchantia polymorpha by analyzing knockout mutants of MpPGDH encoding 3-phosphoglycerate dehydrogenase in this pathway. Growth phenotypes indicate that serine from the phosphorylated pathway in the dark is crucial for thallus growth. Sperm development requires serine from the phosphorylated pathway, while egg formation does not. Functional MpPGDH in the maternal genome is necessary for embryo and sporophyte development. Under high CO2 where the glycolate pathway of serine biosynthesis is inhibited, suppressed thallus growth of the mutants is not fully recovered by exogenously-supplemented serine, suggesting the importance of serine homeostasis involving the phosphorylated and glycolate pathways. Metabolomic phenotypes indicate that the phosphorylated pathway mainly influences the tricarboxylic acid cycle, the amino acid and nucleotide metabolism, and lipid metabolism. These results indicate the importance of the phosphorylated pathway of serine biosynthesis in the dark, in the development of sperm, embryo, and sporophyte, and metabolism in M. polymorpha.

Funder

MEXT | Japan Society for the Promotion of Science

GteX Program Japan Grant Number JPMJGX23B0

Publisher

Springer Science and Business Media LLC

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