Stabilization of Reversed Replication Forks by Telomerase Drives Telomere Catastrophe.
about
Human RTEL1 stabilizes long G-overhangs allowing telomerase-dependent over-extension.Actin Dynamics Couples Extracellular Signals to the Mobility and Molecular Stability of TelomeresRPA and RAD51: fork reversal, fork protection, and genome stabilityPARP1 is required for preserving telomeric integrity but is dispensable for A-NHEJ
P2860
Stabilization of Reversed Replication Forks by Telomerase Drives Telomere Catastrophe.
description
2017 nî lūn-bûn
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2017年の論文
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2017年学术文章
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2017年学术文章
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2017年学术文章
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name
Stabilization of Reversed Replication Forks by Telomerase Drives Telomere Catastrophe.
@en
Stabilization of Reversed Replication Forks by Telomerase Drives Telomere Catastrophe.
@nl
type
label
Stabilization of Reversed Replication Forks by Telomerase Drives Telomere Catastrophe.
@en
Stabilization of Reversed Replication Forks by Telomerase Drives Telomere Catastrophe.
@nl
prefLabel
Stabilization of Reversed Replication Forks by Telomerase Drives Telomere Catastrophe.
@en
Stabilization of Reversed Replication Forks by Telomerase Drives Telomere Catastrophe.
@nl
P2093
P2860
P1433
P1476
Stabilization of Reversed Replication Forks by Telomerase Drives Telomere Catastrophe.
@en
P2093
Pol Margalef
Roberto Bellelli
Simon J Boulton
Stephanie Panier
Valerie Borel
P2860
P304
439-453.e14
P356
10.1016/J.CELL.2017.11.047
P407
P577
2017-12-27T00:00:00Z