[HTML][HTML] Critically short telomeres derepress retrotransposons to promote genome instability in embryonic stem cells
Telomeres, at the ends of chromosomes, protect chromosomes from fusion and preserve
genomic stability. However, the molecular mechanisms underlying telomere attrition …
genomic stability. However, the molecular mechanisms underlying telomere attrition …
[PDF][PDF] Critically short telomeres derepress retrotransposons to promote genome instability in embryonic stem cells
N Zhao, G Yin, C Liu, W Zhang, Y Shen, D Wang, Z Lin… - 2023 - researchgate.net
Telomeres, at the ends of chromosomes, protect chromosomes from fusion and preserve
genomic stability. However, the molecular mechanisms underlying telomere attrition …
genomic stability. However, the molecular mechanisms underlying telomere attrition …
Critically short telomeres derepress retrotransposons to promote genome instability in embryonic stem cells.
N Zhao, G Yin, C Liu, W Zhang, Y Shen… - Cell …, 2023 - search.ebscohost.com
Telomeres, at the ends of chromosomes, protect chromosomes from fusion and preserve
genomic stability. However, the molecular mechanisms underlying telomere attrition …
genomic stability. However, the molecular mechanisms underlying telomere attrition …
[HTML][HTML] Critically short telomeres derepress retrotransposons to promote genome instability in embryonic stem cells
N Zhao, G Yin, C Liu, W Zhang, Y Shen, D Wang… - Cell …, 2023 - ncbi.nlm.nih.gov
Telomeres, at the ends of chromosomes, protect chromosomes from fusion and preserve
genomic stability. However, the molecular mechanisms underlying telomere attrition …
genomic stability. However, the molecular mechanisms underlying telomere attrition …
Critically short telomeres derepress retrotransposons to promote genome instability in embryonic stem cells.
N Zhao, G Yin, C Liu, W Zhang, Y Shen, D Wang… - Cell …, 2023 - europepmc.org
Telomeres, at the ends of chromosomes, protect chromosomes from fusion and preserve
genomic stability. However, the molecular mechanisms underlying telomere attrition …
genomic stability. However, the molecular mechanisms underlying telomere attrition …
Critically short telomeres derepress retrotransposons to promote genome instability in embryonic stem cells
N Zhao, G Yin, C Liu, W Zhang, Y Shen… - Cell …, 2023 - search.proquest.com
Telomeres, at the ends of chromosomes, protect chromosomes from fusion and preserve
genomic stability. However, the molecular mechanisms underlying telomere attrition …
genomic stability. However, the molecular mechanisms underlying telomere attrition …
Critically short telomeres derepress retrotransposons to promote genome instability in embryonic stem cells
N Zhao, G Yin, C Liu, W Zhang, Y Shen… - Cell …, 2023 - pubmed.ncbi.nlm.nih.gov
Telomeres, at the ends of chromosomes, protect chromosomes from fusion and preserve
genomic stability. However, the molecular mechanisms underlying telomere attrition …
genomic stability. However, the molecular mechanisms underlying telomere attrition …
[PDF][PDF] Critically short telomeres derepress retrotransposons to promote genome instability in embryonic stem cells
N Zhao, G Yin, C Liu, W Zhang, Y Shen, D Wang, Z Lin… - 2023 - researchgate.net
Telomeres, at the ends of chromosomes, protect chromosomes from fusion and preserve
genomic stability. However, the molecular mechanisms underlying telomere attrition …
genomic stability. However, the molecular mechanisms underlying telomere attrition …
Critically short telomeres derepress retrotransposons to promote genome instability in embryonic stem cells.
N Zhao, G Yin, C Liu, W Zhang, Y Shen, D Wang… - Cell …, 2023 - europepmc.org
Telomeres, at the ends of chromosomes, protect chromosomes from fusion and preserve
genomic stability. However, the molecular mechanisms underlying telomere attrition …
genomic stability. However, the molecular mechanisms underlying telomere attrition …