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Main Authors: Faisal, Muhammad, Mehreen, Afshan, Hays, Deli, Yaseen, Faiza, Liang, Yujun
Format: Artículo científico
Language:en
Published: The International journal of developmental biology 2024
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39723527/
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author Faisal, Muhammad
Mehreen, Afshan
Hays, Deli
Yaseen, Faiza
Liang, Yujun
author_facet Faisal, Muhammad
Mehreen, Afshan
Hays, Deli
Yaseen, Faiza
Liang, Yujun
Faisal, Muhammad
Mehreen, Afshan
Hays, Deli
Yaseen, Faiza
Liang, Yujun
collection PubMed - marine biology
contents The Genetic Odyssey of Axolotl Regeneration: Insights and Innovations. Faisal, Muhammad Mehreen, Afshan Hays, Deli Yaseen, Faiza Liang, Yujun Animals Regeneration Ambystoma mexicanum Signal Transduction Epigenesis, Genetic DNA Methylation MicroRNAs The axolotl, a legendary creature with the potential to regenerate complex body parts, is positioned as a powerful model organism due to its extraordinary regenerative capabilities. Axolotl can undergo successful regeneration of multiple structures, providing us with the opportunity to understand the factors that exhibit altered activity between regenerative and non-regenerative animals. This comprehensive review will explore the mysteries of axolotl regeneration, from the initial cellular triggers to the intricate signaling cascades that guide this complex process. We will delve deeply into the multifaceted interplay of genes and factors, highlighting the key role of signaling pathways and the influence of epigenetic modifications (such as DNA methylation, histone modification, and miRNA regulation) during regeneration. Furthermore, we will discuss how axolotls defy the odds by showing remarkable resistance to cancer, offering insights into potential therapeutic strategies. However, that is not the end; we will also highlight how age might affect the regenerative power of this creature. We hope this review will help navigate the awe-inspiring realm of axolotl regeneration, advance our understanding of regenerative biology, and chart pathways for future investigations aimed at uncovering new therapeutic approaches.
format Artículo científico
id pubmed_39723527
institution PubMed
language en
publishDate 2024
publisher The International journal of developmental biology
record_format pubmed
spellingShingle The Genetic Odyssey of Axolotl Regeneration: Insights and Innovations.
Faisal, Muhammad
Mehreen, Afshan
Hays, Deli
Yaseen, Faiza
Liang, Yujun
Animals
Regeneration
Ambystoma mexicanum
Signal Transduction
Epigenesis, Genetic
DNA Methylation
MicroRNAs
The Genetic Odyssey of Axolotl Regeneration: Insights and Innovations. Faisal, Muhammad Mehreen, Afshan Hays, Deli Yaseen, Faiza Liang, Yujun Animals Regeneration Ambystoma mexicanum Signal Transduction Epigenesis, Genetic DNA Methylation MicroRNAs The axolotl, a legendary creature with the potential to regenerate complex body parts, is positioned as a powerful model organism due to its extraordinary regenerative capabilities. Axolotl can undergo successful regeneration of multiple structures, providing us with the opportunity to understand the factors that exhibit altered activity between regenerative and non-regenerative animals. This comprehensive review will explore the mysteries of axolotl regeneration, from the initial cellular triggers to the intricate signaling cascades that guide this complex process. We will delve deeply into the multifaceted interplay of genes and factors, highlighting the key role of signaling pathways and the influence of epigenetic modifications (such as DNA methylation, histone modification, and miRNA regulation) during regeneration. Furthermore, we will discuss how axolotls defy the odds by showing remarkable resistance to cancer, offering insights into potential therapeutic strategies. However, that is not the end; we will also highlight how age might affect the regenerative power of this creature. We hope this review will help navigate the awe-inspiring realm of axolotl regeneration, advance our understanding of regenerative biology, and chart pathways for future investigations aimed at uncovering new therapeutic approaches.
title The Genetic Odyssey of Axolotl Regeneration: Insights and Innovations.
topic Animals
Regeneration
Ambystoma mexicanum
Signal Transduction
Epigenesis, Genetic
DNA Methylation
MicroRNAs
url https://pubmed.ncbi.nlm.nih.gov/39723527/