Genome content reorganization in the non-model ciliate Chilodonella uncinata: insights into nuclear architecture, DNA content, and chromosome fragmentation during macronuclear development.

IF 3.1 2区生物学 Q2 MICROBIOLOGY

mSphere Pub Date : 2025-06-25 Epub Date: 2025-05-09 DOI:10.1128/msphere.00075-25

Ragib Ahsan, Xyrus X Maurer-Alcalá, Laura A Katz

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Abstract

Ciliates are a model lineage for studies of genome architecture given their unusual genome structures. All ciliates have both somatic macronuclei (MAC) and germline micronuclei (MIC), both of which develop from a zygotic nucleus following sex (i.e., conjugation). Nuclear developmental stages are not well documented among non-model ciliates, including Chilodonella uncinata (class Phyllopharyngea), the focus of our work. Here, we characterize nuclear architecture and genome dynamics in C. uncinata by combining 4',6-diamidino-2-phenylindole (DAPI) staining and fluorescence in situ hybridization (FISH) techniques with confocal microscopy. We developed a telomere probe for staining, which alongside DAPI allows for the identification of fragmented somatic chromosomes among the total DNA in the nuclei. We quantify both total DNA and telomere-bound signals from more than 250 nuclei sampled from 116 individual cells, and analyze changes in DNA content and nuclear architecture across Chilodonella's nuclear life cycle. Specifically, we find that MAC developmental stages in the ciliate C. uncinata are different from those reported from other ciliate species. These data provide insights into nuclear dynamics during development and enrich our understanding of genome evolution in non-model ciliates.

Importance: Ciliates are a clade of diverse single-celled eukaryotic microorganisms that contain at least one somatic macronucleus (MAC) and germline micronucleus (MIC) within each cell/organism. Ciliates rely on complex genome rearrangements to generate somatic genomes from a zygotic nucleus. However, the development of somatic nuclei has only been documented for a few model ciliate genera, including Paramecium, Tetrahymena, and Oxytricha. Here, we study the MAC developmental process in the non-model ciliate, C. uncinata. We analyze both total DNA and the generation of gene-sized somatic chromosomes using a laser scanning confocal microscope to describe C. uncinata's nuclear life cycle. We show that DNA content changes dramatically during their life cycle and in a manner that differs from previous studies on model ciliates. Our study expands knowledge of genome dynamics in ciliates and among eukaryotes more broadly.

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非模式纤毛虫的基因组内容重组：对核结构、DNA内容和染色体片段在大核发育过程中的见解。

鉴于纤毛虫不寻常的基因组结构，它是基因组结构研究的一个模型谱系。所有纤毛虫都有体细胞微核（MAC）和种系微核（MIC），它们都是在交配后由合子核发育而来的。核发育阶段在非模式纤毛虫中没有很好的记录，包括Chilodonella uncinata （phyllophyngea纲），这是我们工作的重点。在这里，我们通过结合4'，6-二氨基-2-苯基吲哚（DAPI）染色和荧光原位杂交（FISH）技术与共聚焦显微镜来表征C. uncinata的核结构和基因组动力学。我们开发了一种用于染色的端粒探针，它与DAPI一起允许在细胞核内的总DNA中识别碎片化的体细胞染色体。我们量化了来自116个细胞的250多个细胞核的总DNA和端粒结合信号，并分析了Chilodonella核生命周期中DNA含量和核结构的变化。具体来说，我们发现C. uncinata纤毛虫的MAC发育阶段与其他纤毛虫不同。这些数据提供了对发育过程中的核动力学的见解，丰富了我们对非模式纤毛虫基因组进化的理解。重要性：纤毛虫是多种单细胞真核微生物的一个分支，每个细胞/生物体中至少包含一个体细胞宏核（MAC）和种系微核（MIC）。纤毛虫依靠复杂的基因组重排从受精卵核产生体细胞基因组。然而，体细胞核的发育只记录在少数模式纤毛虫属中，包括草履虫、四膜虫和氧毛虫。在此，我们研究了非模式纤毛虫C. uncinata的MAC发育过程。我们用激光扫描共聚焦显微镜分析了C. uncinata的总DNA和基因大小的体细胞染色体的产生，以描述C. uncinata的核生命周期。我们表明DNA含量在它们的生命周期中发生了巨大的变化，并且以一种不同于以前对模型纤毛虫的研究的方式。我们的研究更广泛地扩展了纤毛虫和真核生物基因组动力学的知识。

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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来源期刊

mSphere Immunology and Microbiology-Microbiology

CiteScore

8.50

自引率

2.10%

发文量

192

审稿时长

11 weeks

期刊介绍： mSphere™ is a multi-disciplinary open-access journal that will focus on rapid publication of fundamental contributions to our understanding of microbiology. Its scope will reflect the immense range of fields within the microbial sciences, creating new opportunities for researchers to share findings that are transforming our understanding of human health and disease, ecosystems, neuroscience, agriculture, energy production, climate change, evolution, biogeochemical cycling, and food and drug production. Submissions will be encouraged of all high-quality work that makes fundamental contributions to our understanding of microbiology. mSphere™ will provide streamlined decisions, while carrying on ASM''s tradition for rigorous peer review.