Live imaging reveals spatial separation of parental chromatin until the four-cell stage in Caenorhabditis elegans embryos.

Jitka Bolková, C. Lanctôt
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引用次数: 9

Abstract

The parental genomes are initially spatially separated in each pronucleus after fertilization. Here we have used green-to-red photoconversion of Dendra2-H2B-labeled pronuclei to distinguish maternal and paternal chromatin domains and to track their spatial distribution in living Caenorhabditis elegans embryos starting shortly after fertilization. Intermingling of the parental chromatin did not occur until after the division of the AB and P1 blastomeres, at the 4-cell stage. Unexpectedly, we observed that the intermingling of chromatin did not take place during mitosis or during chromatin decondensation, but rather ∼ 3-5 minutes into the cell cycle. Furthermore, unlike what has been observed in mammalian cells, the relative spatial positioning of chromatin domains remained largely unchanged during prometaphase in the early C. elegans embryo. Live imaging of photoconverted chromatin also allowed us to detect a reproducible 180° rotation of the nuclei during cytokinesis of the one-cell embryo. Imaging of fluorescently-labeled P granules and polar bodies showed that the entire embryo rotates during the first cell division. To our knowledge, we report here the first live observation of the initial separation and subsequent mixing of parental chromatin domains during embryogenesis.
在秀丽隐杆线虫胚胎的四细胞阶段,实时成像显示亲本染色质的空间分离。
亲本基因组在受精后最初在每个原核中空间分离。本研究利用dendra2 - h2b标记的原核的绿色到红色的光转化来区分母本和父本的染色质结构域,并追踪它们在受精后不久开始的秀丽隐杆线虫活体胚胎中的空间分布。亲本染色质的混合直到AB和P1卵裂球分裂后,即4细胞期才发生。出乎意料的是,我们观察到染色质的混合并没有在有丝分裂或染色质去浓缩期间发生,而是在细胞周期的3-5分钟内发生。此外,与在哺乳动物细胞中观察到的不同,在早期秀丽隐杆线虫胚胎的前期,染色质结构域的相对空间定位基本保持不变。光转化染色质的实时成像也使我们能够在单细胞胚胎的胞质分裂过程中检测到细胞核可重复的180°旋转。荧光标记的P颗粒和极体成像显示,整个胚胎在第一次细胞分裂时旋转。据我们所知,我们在这里报告了胚胎发生过程中亲本染色质结构域的初始分离和随后混合的第一次现场观察。
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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