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Replication of DNA always begins at an origin of replication. In yeast, the origins contain autonomously replicating sequences (ARS), distributed throughout the chromosome about 30 kb from each other. They allow replication of DNA wherever they are placed. Each one is 100-200 bp long, and the A element is one of the most conserved stretches.
[h] The authors conclude that if replication is defined by a subsequent study finding a sufficiently similar effect size to the original, replication success is not likely even if replications have very large sample sizes. Importantly, this occurs even if replications are direct or exact since heterogeneity nonetheless remains relatively high ...
Normal replication stress occurs at low to mild levels and induces genomic instability, which can lead to tumorigenesis and cancer progression. [18] However, high levels of replication stress have been shown to kill cancer cells. In one study, researchers sought to determine the effects of inducing high levels of replication stress on cancer cells.
DSBs caused by the replication machinery attempting to synthesize across a single-strand break or unrepaired lesion cause collapse of the replication fork and are typically repaired by recombination. In an in vitro system, MMEJ occurred in mammalian cells at the levels of 10–20% of HR when both HR and NHEJ mechanisms were also available. [32]
Slipped strand mispairing (SSM, also known as replication slippage) is a mutation process which occurs during DNA replication. It involves denaturation and displacement of the DNA strands, resulting in mispairing of the complementary bases. Slipped strand mispairing is one explanation for the origin and evolution of repetitive DNA sequences. [1]
High-normal levels of the bile acid deoxycholic acid cause apoptosis in human colon cells, [56] but may also lead to colon cancer if repair and apoptotic defenses are insufficient. [57] Apoptosis serves as a safeguard mechanism against tumorigenesis. [58] It prevents the increased mutagenesis that excess DNA damage could cause, upon replication ...
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DNA replication is an all-or-none process; once replication begins, it proceeds to completion. Once replication is complete, it does not occur again in the same cell cycle. This is made possible by the division of initiation of the pre-replication complex. [citation needed]