Atsuko Gyohda scite author profile

SUMMARYIndole-3-acetic acid (IAA), an auxin plant hormone, is biosynthesized from tryptophan. The indole-3-pyruvic acid (IPyA) pathway, involving the tryptophan aminotransferase TAA1 and YUCCA (YUC) enzymes, was recently found to be a major IAA biosynthetic pathway in Arabidopsis. TAA1 catalyzes the conversion of tryptophan to IPyA, and YUC produces IAA from IPyA. Using a chemical biology approach with maize coleoptiles, we identified 5-(4-chlorophenyl)-4H-1,2,4-triazole-3-thiol (yucasin) as a potent inhibitor of IAA biosynthesis in YUC-expressing coleoptile tips. Enzymatic analysis of recombinant AtYUC1-His suggested that yucasin strongly inhibited YUC1-His activity against the substrate IPyA in a competitive manner. Phenotypic analysis of Arabidopsis YUC1 over-expression lines (35S::YUC1) demonstrated that yucasin acts in IAA biosynthesis catalyzed by YUC. In addition, 35S::YUC1 seedlings showed resistance to yucasin in terms of root growth. A loss-of-function mutant of TAA1, sav3-2, was hypersensitive to yucasin in terms of root growth and hypocotyl elongation of etiolated seedlings. Yucasin combined with the TAA1 inhibitor L-kynurenine acted additively in Arabidopsis seedlings, producing a phenotype similar to yucasin-treated sav3-2 seedlings, indicating the importance of IAA biosynthesis via the IPyA pathway in root growth and leaf vascular development. The present study showed that yucasin is a potent inhibitor of YUC enzymes that offers an effective tool for analyzing the contribution of IAA biosynthesis via the IPyA pathway to plant development and physiological processes.

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RSOsPR10 Expression in Response to Environmental Stresses is Regulated Antagonistically by Jasmonate/Ethylene and Salicylic Acid Signaling Pathways in Rice Roots

Takeuchi

Gyohda

Tominaga

et al. 2011

103

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Plant roots play important roles not only in the absorption of water and nutrients, but also in stress tolerance. Previously, we identified RSOsPR10 as a root-specific pathogenesis-related (PR) protein induced by drought and salt treatments in rice. Transcripts and proteins of RSOsPR10 were strongly induced by jasmonate (JA) and the ethylene (ET) precursor 1-aminocyclopropane-1-carboxylic acid (ACC), while salicylic acid (SA) almost completely suppressed these inductions. Immunohistochemical analyses showed that RSOsPR10 strongly accumulated in cortex cells surrounding the vascular system of roots, and this accumulation was also suppressed when SA was applied simultaneously with stress or hormone treatments. In the JA-deficient mutant hebiba, RSOsPR10 expression was up-regulated by NaCl, wounding, drought and exogenous application of JA. This suggested the involvement of a signal transduction pathway that integrates JA and ET signals in plant defense responses. Expression of OsERF1, a transcription factor in the JA/ET pathway, was induced earlier than that of RSOsPR10 after salt, JA and ACC treatments. Simultaneous SA treatment strongly inhibited the induction of RSOsPR10 expression and, to a lesser extent, induction of OsERF1 expression. These results suggest that JA/ET and SA pathways function in the stress-responsive induction of RSOsPR10, and that OsERF1 may be one of the transcriptional factors in the JA/ET pathway.

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Sequence-specific and Non-specific Binding of the Rci Protein to the Asymmetric Recombination Sites of the R64 Shufflon

Gyohda

Furuya

Kogure

et al. 2002

Journal of Molecular Biology

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Purification and Characterization of the R64 Shufflon-Specific Recombinase

Gyohda

Komano

2000

J Bacteriol

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The shufflon, a multiple DNA inversion system in plasmid R64, consists of four invertible DNA segments which are separated and flanked by seven 19-bp repeat sequences. The product of a site-specific recombinase gene, rci, promotes site-specific recombination between any two of the inverted 19-bp repeat sequences of the shufflon. To analyze the molecular mechanism of this recombination reaction, Rci protein was overproduced and purified. The purified Rci protein promoted the in vitro recombination reaction between the inverted 19-bp repeats of supercoiled DNA of a plasmid carrying segment A of the R64 shufflon. The recombination reaction was enhanced by the bacterial host factor HU. Gel electrophoretic analysis indicated that the Rci protein specifically binds to the DNA segments carrying the 19-bp sequences. The binding affinity of the Rci protein to the four shufflon segments as well as four synthetic 19-bp sequences differed greatly: among the four 19-bp repeat sequences, the repeat-a and -d sequences displayed higher affinity to Rci protein. These results suggest that the differences in the affinity of Rci protein for the 19-bp repeat sequences determine the inversion frequencies of the four segments.Several multiple-inversion systems which function to create biological diversity have been identified in prokaryotes (for a review, see reference 14). The shufflon of plasmid R64 consists of four DNA segments, A, B, C, and D, which are separated and flanked by seven 19-bp repeat sequences (17, 18) (Fig. 1A). The site-specific recombination between any inverted 19-bp repeat sequences mediated by the rci product results in the inversion of a DNA segment(s) independently or in groups.The R64 shufflon is located in the C-terminal region of the pilV gene, which is the last gene of the pil operon. The R64 pil operon functions in the formation of conjugative thin pili which are required only for liquid matings. From the deduced amino acid sequences of several pil gene products, the R64 thin pilus was shown to belong to the type IV pilus family (13). DNA inversions in the shufflon give rise to seven pilV genes in which the N-terminal regions are constant while the C-terminal regions are variable. Recently, it was revealed that the pilV gene product is a minor component of the R64 thin pilus (30). The R64 shufflon is believed to determine recipient specificity in liquid matings through the switching of the seven C-terminal segments of the PilV protein (16). Shufflons with three or four invertible segments are present in all IncI1 and IncI2 plasmids (15). Recently, a variant shufflon consisting of a single invertible DNA segment was found in the pathogenicity island of the Salmonella enterica serovar Typhi genome (31).The rci gene encodes a basic protein belonging to the integrase (Int) family of site-specific recombinases (19). The seven 19-bp repeat sequences separating the four segments are not identical and can be classified into four types (repeat-a, -b, -c, and -d) (Fig. 1C). The in vivo inversion frequencies of thr...

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Ca2+-dependent anti-GQ1b antibody in GQ1b-seronegative Fisher syndrome and related disorders

Uchibori

Gyohda

Chiba

2016

Journal of Neuroimmunology

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Atsuko Gyohda

Yucasin is a potent inhibitor of YUCCA, a key enzyme in auxin biosynthesis

RSOsPR10 Expression in Response to Environmental Stresses is Regulated Antagonistically by Jasmonate/Ethylene and Salicylic Acid Signaling Pathways in Rice Roots

Sequence-specific and Non-specific Binding of the Rci Protein to the Asymmetric Recombination Sites of the R64 Shufflon

Purification and Characterization of the R64 Shufflon-Specific Recombinase

Ca2+-dependent anti-GQ1b antibody in GQ1b-seronegative Fisher syndrome and related disorders

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