Shiori Otosaka scite author profile

Shiori Otosaka

3Publications

28Citation Statements Received

223Citation Statements Given

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Saitama University

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Transcriptional autoregulation of zebrafish tbx6 is required for somite segmentation

Ban

Yokota

Otosaka

et al. 2019

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The presumptive somite boundary in the presomitic mesoderm (PSM) is defined by the anterior border of the expression domain of Tbx6 protein. During somite segmentation, the expression domain of Tbx6 is regressed by Ripply-meditated degradation of Tbx6 protein. Although the expression of zebrafish tbx6 remains restricted to the PSM, the transcriptional regulation of tbx6 remains poorly understood. Here, we show that the expression of zebrafish tbx6 is maintained by transcriptional autoregulation. We find that a proximallocated cis-regulatory module, TR1, which contains two putative Tbox sites, is required for somite segmentation in the intermediate body and for proper expression of segmentation genes. Embryos with deletion of TR1 exhibit significant reduction of tbx6 expression at the 12-somite stage, although its expression is initially observed. Additionally, Tbx6 is associated with TR1 and activates its own expression in the anterior PSM. Furthermore, the anterior expansion of tbx6 expression in ripply gene mutants is suppressed in a TR1dependent manner. The results suggest that the autoregulatory loop of zebrafish tbx6 facilitates immediate removal of Tbx6 protein through termination of its own transcription at the anterior PSM.

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Role of somite patterning in the formation of Weberian apparatus and pleural rib in zebrafish

et al. 2019

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In the vertebrate body, a metameric structure is present along the anterior–posterior axis. Zebrafish tbx6−/− larvae, in which somite boundaries do not form during embryogenesis, were shown to exhibit abnormal skeletal morphology such as rib, neural arch and hemal arch. In this study, we investigated the role of somite patterning in the formation of anterior vertebrae and ribs in more detail. Using three‐dimensional computed tomography scans, we found that anterior vertebrae including the Weberian apparatus were severely affected in tbx6−/− larvae. In addition, pleural ribs of tbx6 mutants exhibited severe defects in the initial ossification, extension of ossification, and formation of parapophyses. Two‐colour staining revealed that bifurcation of ribs was caused by fusion or branching of ribs in tbx6−/−. The parapophyses in tbx6−/− juvenile fish showed irregular positioning to centra and abnormal attachment to ribs. Furthermore, we found that the ossification of the distal portion of ribs proceeded along myotome boundaries even in irregularly positioned myotome boundaries. These results provide evidence of the contribution of somite patterning to the formation of the Weberian apparatus and rib in zebrafish.

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Deadenylation by the CCR4‐NOT complex contributes to the turnover of hairy‐related mRNAs in the zebrafish segmentation clock

et al. 2018

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In the zebrafish segmentation clock, hairy/enhancer of split‐related genes her1, her7, and hes6 encodes components of core oscillators. Since the expression of cyclic genes proceeds rapidly in the presomitic mesoderm (PSM), these hairy‐related mRNAs are subject to strict post‐transcriptional regulation. In this study, we demonstrate that inhibition of the CCR4‐NOT deadenylase complex lengthens poly(A) tails of hairy‐related mRNAs and increases the amount of these mRNAs, which is accompanied by defective somite segmentation. In transgenic embryos, we show that EGFP mRNAs with 3′UTRs of hairy‐related genes exhibit turnover similar to endogenous mRNAs. Our results suggest that turnover rates of her1, her7, and hes6 mRNAs are differently regulated by the CCR4‐NOT deadenylase complex possibly through their 3′UTRs in the zebrafish PSM.

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Shiori Otosaka

Transcriptional autoregulation of zebrafish tbx6 is required for somite segmentation

Role of somite patterning in the formation of Weberian apparatus and pleural rib in zebrafish

Deadenylation by the CCR4‐NOT complex contributes to the turnover of hairy‐related mRNAs in the zebrafish segmentation clock

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