Collective nuclear behavior shapes bilateral nuclear symmetry for subsequent left-right asymmetric morphogenesis in Drosophila

Development (Cambridge, England). Supplement Pub Date : 2020-10-15 DOI:10.1101/2020.10.15.340521

Dongsun Shin, Mitsutoshi Nakamura, Yoshitaka Morishita, Mototsugu Eiraku, Tomoko Yamakawa, Takeshi Sasamura, M. Akiyama, Mikiko Inaki, K. Matsuno

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引用次数: 1

Abstract

Proper organ development often requires nuclei to move to a specific position within the cell. To determine how nuclear positioning affects left-right (LR) development in the Drosophila anterior midgut (AMG), we developed a surface-modeling method to measure and describe nuclear behavior at stages 13-14, captured in three-dimensional time-lapse movies. We describe the distinctive positioning and a novel collective nuclear behavior by which nuclei align LR-symmetrically along the anterior-posterior axis in the visceral muscles that overlie the midgut and are responsible for this organ’s LR-asymmetric development. Wnt4 signaling is crucial for the collective behavior and proper positioning of the nuclei, as are myosin II and LINC complex, without which the nuclei failed to align LR-symmetrically. The LR-symmetric positioning of the nuclei is important for the subsequent LR-asymmetric development of the AMG. We propose that the bilaterally symmetrical positioning of these nuclei may be mechanically coupled with subsequent LR-asymmetric morphogenesis.

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集体核行为塑造两侧核对称随后的左右不对称形态发生在果蝇

正常的器官发育通常需要细胞核移动到细胞内的特定位置。为了确定核定位如何影响果蝇前中肠(AMG)的左右(LR)发育，我们开发了一种表面建模方法来测量和描述13-14阶段的核行为，并通过三维延时电影拍摄。我们描述了独特的定位和一种新的集体核行为，通过这种核沿着覆盖在中肠上的内脏肌肉的前后轴以lr对称排列，并负责该器官的lr不对称发育。Wnt4信号对于细胞核的集体行为和正确定位至关重要，肌球蛋白II和LINC复合体也是如此，没有它们，细胞核就不能以lr对称排列。核的lr对称定位对AMG随后的lr不对称发展很重要。我们提出，这些核的双边对称定位可能与随后的lr不对称形态发生机械耦合。

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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Development (Cambridge, England). Supplement

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