Panigrahi, G. B., Slean, M. M., Simard, J. P., Gileadi, O., & Pearson, C. E. (2010). Isolated short CTG/CAG DNA slip-outs are repaired efficiently by hMutSβ, but clustered slip-outs are poorly repaired. National Academy of Sciences.
Chicago-стиль цитированияPanigrahi, Gagan B., Meghan M. Slean, Jodie P. Simard, Opher Gileadi, and Christopher E. Pearson. Isolated Short CTG/CAG DNA Slip-outs Are Repaired Efficiently By HMutSβ, but Clustered Slip-outs Are Poorly Repaired. National Academy of Sciences, 2010.
MLA-цитированиеPanigrahi, Gagan B., et al. Isolated Short CTG/CAG DNA Slip-outs Are Repaired Efficiently By HMutSβ, but Clustered Slip-outs Are Poorly Repaired. National Academy of Sciences, 2010.
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