@article{0f94e83618164de6999188e49e5cdd8d,
title = "PECT1, a rate-limiting enzyme in phosphatidylethanolamine biosynthesis, is involved in the regulation of stomatal movement in Arabidopsis",
abstract = "An Arabidopsis mutant displaying impaired stomatal responses to CO2, cdi4, was isolated by a leaf thermal imaging screening. The mutated gene PECT1 encodes CTP:phosphorylethanolamine cytidylyltransferase. The cdi4 exhibited a decrease in phosphatidylethanolamine levels and a defect in light-induced stomatal opening as well as low-CO2-induced stomatal opening. We created RNAi lines in which PECT1 was specifically repressed in guard cells. These lines are impaired in their stomatal responses to low-CO2 concentrations or light. Fungal toxin fusicoccin (FC) promotes stomatal opening by activating plasma membrane H+-ATPases in guard cells via phosphorylation. Arabidopsis H+-ATPase1 (AHA1) has been reported to be highly expressed in guard cells, and its activation by FC induces stomatal opening. The cdi4 and PECT1 RNAi lines displayed a reduced stomatal opening response to FC. However, similar to in the wild-type, cdi4 maintained normal levels of phosphorylation and activation of the stomatal H+-ATPases after FC treatment. Furthermore, the cdi4 displayed normal localization of GFP-AHA1 fusion protein and normal levels of AHA1 transcripts. Based on these results, we discuss how PECT1 could regulate CO2- and light-induced stomatal movements in guard cells in a manner that is independent and downstream of the activation of H+-ATPases. [Correction added on 15 May 2023, after first online publication: The third sentence is revised in this version.].",
author = "Juntaro Negi and Tomoki Obata and Sakura Nishimura and Boseok Song and Sho Yamagaki and Yuhei Ono and Makoto Okabe and Natsumi Hoshino and Kohei Fukatsu and Ryo Tabata and Katsushi Yamaguchi and Shuji Shigenobu and Masashi Yamada and Mitsuyasu Hasebe and Shinichiro Sawa and Toshinori Kinoshita and Ikuo Nishida and Koh Iba",
note = "Funding Information: This work was supported by JSPS KAKENHI, Japan (grant nos. JP18K06293, JP21H02512, JP21H05667 to J.N., JP22J20905 to T.O., JP20J13660 to B.S., and JP20H03279 to K.I.) and by Sumitomo foundation, Japan (grant no. 190942 to J.N.) and by Naito Science & Engineering Foundation, Japan (Young Scientist grant to J.N.). The authors thank Center for Advanced Instrumental and Educational Supports, Faculty of Agriculture, Kyushu University for LC–MS (LCMS-8050) analysis. The authors also thank N. Kawahara and Y. Johno for the technical assistance. Funding Information: This work was supported by JSPS KAKENHI, Japan (grant nos. JP18K06293, JP21H02512, JP21H05667 to J.N., JP22J20905 to T.O., JP20J13660 to B.S., and JP20H03279 to K.I.) and by Sumitomo foundation, Japan (grant no. 190942 to J.N.) and by Naito Science & Engineering Foundation, Japan (Young Scientist grant to J.N.). The authors thank Center for Advanced Instrumental and Educational Supports, Faculty of Agriculture, Kyushu University for LC–MS (LCMS‐8050) analysis. The authors also thank N. Kawahara and Y. Johno for the technical assistance. Publisher Copyright: {\textcopyright} 2023 Society for Experimental Biology and John Wiley & Sons Ltd.",
year = "2023",
month = jul,
doi = "10.1111/tpj.16245",
language = "English",
volume = "115",
pages = "563--576",
journal = "Plant Journal",
issn = "0960-7412",
publisher = "Wiley-Blackwell",
number = "2",
}