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Scientists have discovered a gene called CYP26B1 that may enable the regeneration of amputated body parts in humans. This gene is active in axolotls and acts like a “cellular mapmaker,” instructing stem cells to precisely and orderly form new tissues at the site of injury. The axolotl’s extraordinary ability to regenerate limbs, as well as parts of its heart and brain, is largely due to the activity of this gene. CYP26B1 functions by regulating levels of retinoic acid (RA), a molecule that plays a key role in determining cell fate. When tissue is damaged, the gene establishes highly specific signaling pathways that guide stem cells to differentiate into skin, muscle, or bone. Without this gene, complete regeneration of limbs would be nearly impossible. Studies on human stem cells have shown promising results. When researchers placed human stem cells under laboratory conditions mimicking those of injured axolotl tissue, and manipulated retinoic acid levels while activating or deactivating CYP26B1, they observed regeneration-like behavior: cells differentiated into specific tissues instead of growing randomly. This provides strong evidence that a similar genetic pathway could potentially be activated in humans. This discovery offers hope for a future where humans might also regenerate lost body parts. If researchers succeed in safely and precisely activating the CYP26B1 pathway in humans, it could usher in a new era of regenerative medicine—one in which restoring amputated limbs and rebuilding vital tissues moves beyond miracle and into reality. #science #biology #medicine #scrolllink

Mohammad Rafiq from Mewat knows everything about Gaza and Palestine, but nothing about the university now linked to the Red Fort blast in Delhi.