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Our work suggests centromere evolution follows a unique mutational path, dominated by small, local events with massive structural consequences.
📄 Read the preprint: doi.org/10.1101/2025...
#genomics #bioRxiv #centromere #Arabidopsis
Our work suggests centromere evolution follows a unique mutational path, dominated by small, local events with massive structural consequences.
📄 Read the preprint: doi.org/10.1101/2025...
#genomics #bioRxiv #centromere #Arabidopsis
doi.org
June 5, 2025 at 8:47 AM
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Our work suggests centromere evolution follows a unique mutational path, dominated by small, local events with massive structural consequences.
📄 Read the preprint: doi.org/10.1101/2025...
#genomics #bioRxiv #centromere #Arabidopsis
Our work suggests centromere evolution follows a unique mutational path, dominated by small, local events with massive structural consequences.
📄 Read the preprint: doi.org/10.1101/2025...
#genomics #bioRxiv #centromere #Arabidopsis
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Simulations using just these small mutations recreated large-scale repeat structures, like higher-order repeats and long-range homology.
Big architecture from tiny edits.
Simulations using just these small mutations recreated large-scale repeat structures, like higher-order repeats and long-range homology.
Big architecture from tiny edits.
June 5, 2025 at 8:47 AM
4/
Simulations using just these small mutations recreated large-scale repeat structures, like higher-order repeats and long-range homology.
Big architecture from tiny edits.
Simulations using just these small mutations recreated large-scale repeat structures, like higher-order repeats and long-range homology.
Big architecture from tiny edits.
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Key findings:
• Point mutations occur 9× faster in centromeres than elsewhere
• Non-allelic gene conversions copy sequences between repeats
• In-frame indels preserve repeat structure
→ All without large rearrangements
Key findings:
• Point mutations occur 9× faster in centromeres than elsewhere
• Non-allelic gene conversions copy sequences between repeats
• In-frame indels preserve repeat structure
→ All without large rearrangements
June 5, 2025 at 8:47 AM
3/
Key findings:
• Point mutations occur 9× faster in centromeres than elsewhere
• Non-allelic gene conversions copy sequences between repeats
• In-frame indels preserve repeat structure
→ All without large rearrangements
Key findings:
• Point mutations occur 9× faster in centromeres than elsewhere
• Non-allelic gene conversions copy sequences between repeats
• In-frame indels preserve repeat structure
→ All without large rearrangements
2/
Centromeres are full of repetitive satellite DNA, often megabases long, but how do they evolve?
Using Arabidopsis mutation accumulation lines, we tracked real-time mutation patterns in these regions.
Centromeres are full of repetitive satellite DNA, often megabases long, but how do they evolve?
Using Arabidopsis mutation accumulation lines, we tracked real-time mutation patterns in these regions.
June 5, 2025 at 8:47 AM
2/
Centromeres are full of repetitive satellite DNA, often megabases long, but how do they evolve?
Using Arabidopsis mutation accumulation lines, we tracked real-time mutation patterns in these regions.
Centromeres are full of repetitive satellite DNA, often megabases long, but how do they evolve?
Using Arabidopsis mutation accumulation lines, we tracked real-time mutation patterns in these regions.