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Article Abstract
In addition to monocentric eukaryotes, which have a single localized centromere on each chromosome, there are holocentric species, with extended repeat-based or repeat-less centromeres distributed over the entire chromosome length. At least two types of repeat-based holocentromeres exist, one composed of many small repeat-based centromere units (small unit-type), and another one characterized by a few large centromere units (large unit-type). We hypothesize that the transposable element-mediated dispersal of hundreds of short satellite arrays formed the small centromere unit-type holocentromere in Rhynchospora pubera. The large centromere unit-type of the plant Chionographis japonica is likely a product of simultaneous DNA double-strand breaks (DSBs), which initiated the de novo formation of repeat-based holocentromeres via insertion of satellite DNA, derived from extra-chromosomal circular DNAs (eccDNAs). The number of initial DSBs along the chromosomes must be higher than the number of centromere units since only a portion of the breaks will have incorporated eccDNA at an appropriate position to serve as future centromere unit sites. Subsequently, preferential incorporation of the centromeric histone H3 variant at these positions is assumed. The identification of repeat-based holocentromeres across lineages will unveil the centromere plasticity and elucidate the mechanisms underlying the diverse formation of holocentromeres.
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Article Synopsis
- The centromere is a key chromosome region, but some organisms have holocentromeres that span the whole chromosome.
- This study analyzes genome structures of three beak-sedge species and their relation to a monocentric species, revealing how holocentricity changes 3D genome architecture and distributes centromere functions across the genome.
- Findings include unique genome organization in R. pubera showing octoploidy and a significant chromosome reduction in R. tenuis, highlighting the impact of repeat-based holocentromeres on karyotype evolution and chromosome fusions.