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Review
. 2021 Jun;250(6):788-799.
doi: 10.1002/dvdy.276. Epub 2020 Dec 17.

DNA repair during regeneration in Ambystoma mexicanum

Ulises Omar García-Lepe  1 Alfredo Cruz-Ramírez  2 Rosa María Bermúdez-Cruz  1
Affiliations
Free article
Review

DNA repair during regeneration in Ambystoma mexicanum

Ulises Omar García-Lepe et al. Dev Dyn. 2021 Jun.
Free article

Abstract

The remarkable regenerative capabilities of the salamander Ambystoma mexicanum have turned it into one of the principal models to study limb regeneration. During this process, a mass of low differentiated and highly proliferative cells, called blastema, propagates to reestablish the lost tissue in an accelerated way. Such a process implies the replication of a huge genome, 10 times larger than humans, with about 65.6% of repetitive sequences. These features make the axolotl genome inherently difficult to replicate and prone to bear mutations. In this context, the role of DNA repair mechanisms acquires great relevance to maintain genomic stability, especially if we consider the necessity of ensuring the correct replication and integrity of such a large genome in the blastema cells, which are key for tissue regeneration. On the contrary, DNA damage accumulation in these cells may result in senescence, apoptosis and premature differentiation, all of them are mechanisms employed to avoid DNA damage perpetuation but with the potential to affect the limb regeneration process. Here we review and discuss the current knowledge on the implications of DNA damage responses during salamander regeneration.

Keywords: Ambystoma mexicanum; DNA damage; DNA repair; genomic stability; limb regeneration; stem cells.

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References

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