著者

Iwai Ohbayashi Yuki Sakamoto Hitomi Kuwae Hiroyuki Kasahara Munetaka Sugiyama

出版者

Japanese Society for Plant Biotechnology

雑誌

Plant Biotechnology (ISSN:13424580)

巻号頁・発行日

vol.39, no.1, pp.43-50, 2022-03-25 (Released:2022-03-25)

参考文献数

40

被引用文献数

1 7

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In two-step culture systems for efficient shoot regeneration, explants are first cultured on auxin-rich callus-inducing medium (CIM), where cells are activated to proliferate and form calli containing root-apical meristem (RAM)-type stem cells and stem cell niche, and then cultured on cytokinin-rich shoot-inducing medium (SIM), where stem cells and stem cell niche of the shoot apical meristem (SAM) are established eventually leading to shoot regeneration. In the present study, we examined the effects of inhibitors of auxin biosynthesis and polar transport in the two-step shoot regeneration culture of Arabidopsis and found that, when they were applied during CIM culture, although callus growth was repressed, shoot regeneration in the subsequent SIM culture was significantly increased. The regeneration-stimulating effect of the auxin biosynthesis inhibitor was not linked with the reduction in the endogenous indole-3-acetic acid (IAA) level. Expression of the auxin-responsive reporter indicated that auxin response was more uniform and even stronger in the explants cultured on CIM with the inhibitors than in the control explants. These results suggested that the shoot regeneration competence of calli was enhanced somehow by the perturbation of the endogenous auxin dynamics, which we discuss in terms of the transformability between RAM and SAM stem cell niches.

著者

Shun Sasaki Toru Murakami Miharu Yasumuro Ayaka Makita Yutaro Oi Yuta Hiragori Shun Watanabe Rin Kudo Noriya Hayashi Iwai Ohbayashi Munetaka Sugiyama Yui Yamashita Satoshi Naito Hitoshi Onouchi

出版者

Japanese Society for Plant Biotechnology

雑誌

Plant Biotechnology (ISSN:13424580)

巻号頁・発行日

vol.40, no.1, pp.21-30, 2023-03-25 (Released:2023-03-25)

参考文献数

36

被引用文献数

1

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Perturbations in ribosome biogenesis cause a type of cellular stress called nucleolar or ribosomal stress, which triggers adaptive responses in both animal and plant cells. The Arabidopsis ANAC082 transcription factor has been identified as a key mediator of the plant nucleolar stress response. The 5′-untranslated region (5′-UTR) of ANAC082 mRNA contains an upstream ORF (uORF) encoding an evolutionarily conserved amino acid sequence. Here, we report that this uORF mediates the upregulation of ANAC082 expression in response to nucleolar stress. When transgenic Arabidopsis plants containing a luciferase reporter gene under the control of the ANAC082 promoter and 5′-UTR were treated with reagents that induced nucleolar stress, expression of the reporter gene was enhanced in a uORF sequence-dependent manner. Additionally, we examined the effect of an endoplasmic reticulum (ER) stress-inducing reagent on reporter gene expression because the closest homolog of ANAC082 in Arabidopsis, ANAC103, is involved in the ER stress response. However, the ANAC082 uORF did not respond to ER stress. Interestingly, although ANAC103 has a uORF with an amino acid sequence similar to that of the ANAC082 uORF, the C-terminal sequence critical for regulation is not well conserved among ANAC103 homologs in Brassicaceae. Transient expression assays revealed that unlike the ANAC082 uORF, the ANAC103 uORF does not exert a sequence-dependent repressive effect. Altogether, our findings suggest that the ANAC082 uORF is important for the nucleolar stress response but not for the ER stress response, and that for this reason, the uORF sequence-dependent regulation was lost in ANAC103 during evolution.

著者

Natsu Takayanagi Mai Mukai Munetaka Sugiyama Misato Ohtani

出版者

Japanese Society for Plant Biotechnology

雑誌

Plant Biotechnology (ISSN:13424580)

巻号頁・発行日

vol.39, no.3, pp.329-333, 2022-09-25 (Released:2022-09-25)

参考文献数

18

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During organ regeneration, differentiated cells acquire cell proliferation competence before the re-start of cell division. In Arabidopsis thaliana (Arabidopsis), CDKA;1, a cyclin-dependent kinase, RID1, a DEAH-box RNA helicase, and SRD2, a small nuclear RNA transcription factor, are implicated in the regulation of cell proliferation competence. Here, we report phytohormonal transcriptional regulation of these cell proliferation competence-associated genes during callus initiation. We can induce the callus initiation from Arabidopsis hypocotyl explants by the culture on the auxin-containing medium. By RT-quantitative PCR analysis, we observed higher mRNA accumulation of CDKA;1, RID1, and SRD2 in culture on the auxin-containing medium than in culture on the auxin-free medium. Promoter-reporter analysis showed that the CDKA;1, RID1, and SRD2 expression was induced in the stele regions containing pericycle cells, where cell division would be resumed to make callus, by the culture in the medium containing auxin and/or cytokinin. However, the expression levels of these genes in cortical and epidermal cells, which would not originate callus cells, were variable by genes and phytohormonal conditions. We also found that the rid1-1 mutation greatly decreased the expression levels of CDKA;1 and SRD2 during callus initiation specifically at 28°C (restrictive temperature), while the srd2-1 mutation did not obviously decrease the expression levels of CDKA;1 and RID1 regardless of temperature conditions but rather even increased them at 22°C (permissive temperature). Together, our results implicated the phytohormonal and differential regulation of cell proliferation competence-associated genes in the multistep regulation of cell proliferation competence.