(2026). Collective interactions along recombinase-bound D-loops could speed repair of double-strand breaks by destabilizing flanking homoduplex tails. Nucleic Acids Research.
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Chicago Style (17th ed.) Citation
"Collective Interactions Along Recombinase-bound D-loops Could Speed Repair of Double-strand Breaks by Destabilizing Flanking Homoduplex Tails."
Nucleic Acids Research 2026.
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MLA (9th ed.) Citation
"Collective Interactions Along Recombinase-bound D-loops Could Speed Repair of Double-strand Breaks by Destabilizing Flanking Homoduplex Tails."
Nucleic Acids Research, 2026.
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Warning: These citations may not always be 100% accurate.