1. The chemical NJ15 affects hypocotyl elongation and shoot gravitropism via cutin polymerization
- Author
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Sho Miyazaki, Akito Hosoi, Shinsaku Ito, Tadao Asami, Naiyanate Jaroensanti-Tanaka, Masatoshi Nakajima, Masatomo Kobayashi, Takeshi Nakano, Keisuke Tanaka, and Satoshi Iuchi
- Subjects
0301 basic medicine ,Cuticle ,Arabidopsis ,Cutin ,Real-Time Polymerase Chain Reaction ,Applied Microbiology and Biotechnology ,Biochemistry ,Polymerization ,Analytical Chemistry ,Hypocotyl ,Gravitropism ,Membrane Lipids ,03 medical and health sciences ,chemistry.chemical_compound ,Auxin ,Brassinosteroid ,Sulfones ,Mode of action ,Molecular Biology ,chemistry.chemical_classification ,biology ,Sequence Analysis, RNA ,Fatty Acids ,Organic Chemistry ,food and beverages ,General Medicine ,Triazoles ,biology.organism_classification ,Crosstalk (biology) ,030104 developmental biology ,chemistry ,Mutation ,Biophysics ,Transcriptome ,Plant Shoots ,Biotechnology - Abstract
We previously found a chemical, designated as NJ15, which inhibited both auxin and brassinosteroid responses in dark-grown Arabidopsis. To study its mode of action, we performed a phenotypic screening of NJ15-low-sensitive lines among mutant pools of Arabidopsis. One line (f127) showed clear NJ15-low-sensitivity in terms of hypocotyl elongation and shoot gravitropism. After further testing, it was determined that DCR, an enzyme involved in cutin polymerization, had lost its function in the mutant, which caused its low sensitivity to NJ15. Fatty acids are the base materials for polymers such as cutin and cuticular wax. We confirmed that NJ15 affects fatty acid biosynthesis, and that it does differently from cafenstrole, a known inhibitor of cuticular wax formation. Based on these results, we propose that the target of NJ15 is likely located within the cutin polymer formation pathway. Abbreviations: Caf: cafenstrole; DEG: differentially expressed gene; FDR: false discovery rate; FOX: full length cDNA-overexpressor; VLCFA: very-long-chain fatty acid NJ15 inhibits auxin and brassinosteroid responses in dark-grown Arabidopsis. Its target was supposed to be within the cutin polymer formation pathway.
- Published
- 2018
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