AI Article Synopsis
- Ciliates serve as important models for understanding unique genome structures due to their dual nuclear system, consisting of somatic macronuclei (MAC) and germline micronuclei (MIC), formed after sexual reproduction through conjugation.
- The study focuses on a specific non-model ciliate genus within the Class Phyllopharyngea, using advanced techniques like DAPI staining and fluorescence in situ hybridization (FISH) to analyze nuclear architecture and genome dynamics.
- Results indicate distinct differences in MAC developmental stages compared to other ciliate species, contributing valuable insights into nuclear development and genome evolution among non-model ciliates.
Article 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 as well explored among non-model ciliate genera, including (Class- Phyllopharyngea), the focus of our work. Here, we characterize nuclear architecture and genome dynamics in by combining DAPI (4',6-diamidino-2-phenylindole) staining and fluorescence hybridization (FISH) techniques with confocal microscopy. We developed a telomere probe for staining alongside DAPI, which allows for the identification of fragmented somatic chromosomes among the total DNA in the nuclei. We quantify both total DNA and telomere-bound signals to explore changes in DNA content and chromosome maturation across 's nuclear life cycle. Specifically, we find that MAC developmental stages in the ciliate are different than the data reported from other ciliate species. These data provide insights into nuclear dynamics during nuclear development and enrich our understanding of genome evolution in non-model ciliates.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11601529 | PMC |
| http://dx.doi.org/10.1101/2024.11.13.623465 | DOI Listing |
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