Wound healing and regeneration in spiny mice (Acomys cahirinus)
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Elsevier
Reference124 articles.
1. Distinct regulatory programs control the latent regenerative potential of dermal fibroblasts during wound healing;Abbasi;Cell Stem Cell,2020
2. Multiple radiations of spiny mice (Rodentia: Acomys) in dry open habitats of afro-Arabia: Evidence from a multi-locus phylogeny;Aghova;BMC Evolutionary Biology,2019
3. Macrophages are required for neonatal heart regeneration;Aurora;The Journal of Clinical Investigation,2014
4. Modeling how shark and dolphin skin patterns control transitional wall-turbulence vorticity patterns using spatiotemporal phase reset mechanisms;Bandyopadhyay;Scientific Reports,2014
5. Domains, motifs, and scaffolds: The role of modular interactions in the evolution and wiring of cell signaling circuits;Battacharyya;Annual Review of Biochemistry,2006
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1. Weak magnetic fields modulate superoxide to control planarian regeneration;Frontiers in Physics;2023-01-04
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