Ribbon boosts ribosomal protein gene expression to coordinate organ form and function.

The Journal of Cell Biology Pub Date : 2022-04-04 Epub Date: 2022-02-23 DOI:10.1083/jcb.202110073

Rajprasad Loganathan, Daniel C Levings, Ji Hoon Kim, Michael B Wells, Hannah Chiu, Yifan Wu, Matthew Slattery, Deborah J Andrew

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引用次数: 1

Abstract

Cell growth is well defined for late (postembryonic) stages of development, but evidence for early (embryonic) cell growth during postmitotic morphogenesis is limited. Here, we report early cell growth as a key characteristic of tubulogenesis in the Drosophila embryonic salivary gland (SG) and trachea. A BTB/POZ domain nuclear factor, Ribbon (Rib), mediates this early cell growth. Rib binds the transcription start site of nearly every SG-expressed ribosomal protein gene (RPG) and is required for full expression of all RPGs tested. Rib binding to RPG promoters in vitro is weak and not sequence specific, suggesting that specificity is achieved through cofactor interactions. Accordingly, we demonstrate Rib's ability to physically interact with each of the three known regulators of RPG transcription. Surprisingly, Rib-dependent early cell growth in another tubular organ, the embryonic trachea, is not mediated by direct RPG transcription. These findings support a model of early cell growth customized by transcriptional regulatory networks to coordinate organ form and function.

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色带促进核糖体蛋白基因表达，协调器官形态和功能。

细胞生长在晚期(胚胎后)发育阶段被明确定义，但有丝分裂后形态发生期间早期(胚胎)细胞生长的证据有限。在这里，我们报告早期细胞生长是果蝇胚胎唾液腺(SG)和气管小管形成的关键特征。BTB/POZ结构域核因子Ribbon (Rib)介导这种早期细胞生长。Rib结合了几乎所有sg表达的核糖体蛋白基因(RPG)的转录起始位点，并且是所有测试的RPG完全表达所必需的。体外实验中，Rib与RPG启动子的结合较弱且不具有序列特异性，这表明特异性是通过辅因子相互作用实现的。因此，我们证明了Rib与三种已知的RPG转录调节因子相互作用的能力。令人惊讶的是，在另一个管状器官——胚胎气管中，依赖肋的早期细胞生长并不是由直接的RPG转录介导的。这些发现支持了一个由转录调节网络定制的早期细胞生长模型，以协调器官的形态和功能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of Cell Biology

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