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Eukaryotes initiate DNA replication at multiple points in the chromosome, so replication forks meet and terminate at many points in the chromosome. Because eukaryotes have linear chromosomes, DNA replication is unable to reach the very end of the chromosomes. Due to this problem, DNA is lost in each replication cycle from the end of the chromosome.
The chromosomes of archaea and eukaryotes can have multiple origins of replication, and so their chromosomes may consist of several replicons [citation needed]. The concept of the replicon was formulated in 1963 by François Jacob, Sydney Brenner, and Jacques Cuzin as a part of their replicon model for replication initiation. According to the ...
Half of the histones present during replication are from chromatin found in the parent DNA and thus carry the parent's epigenetic information. [37] These epigenetic marks play a critical role in determining chromatin structure and thus gene expression in the newly synthesized DNA.
More than five decades ago, Jacob, Brenner, and Cuzin proposed the replicon hypothesis to explain the regulation of chromosomal DNA synthesis in E. coli. [18] The model postulates that a diffusible, trans-acting factor, a so-called initiator, interacts with a cis-acting DNA element, the replicator, to promote replication onset at a nearby origin.
An expression system consists of a gene, normally encoded by DNA, and the molecular machinery required to transcribe the DNA into mRNA and translate the mRNA into protein using the reagents provided. In the broadest sense this includes every living cell but the term is more normally used to refer to expression as a laboratory tool.
Asf1 (and its partner Rtt109) has also been implicated in inhibiting gene expression from replicated genes during S-phase. [144] The heterotrimeric chaperone chromatin assembly factor 1 is a chromatin formation protein that is involved in depositing histones onto both newly replicated DNA strands to form chromatin. [145]
Replication of the low-copy-number ColIb-P9 depends upon Rep, which is produced by expression of the repZ gene. repZ expression requires formation of a pseudoknot in the mRNA. repZ is repressed by a small antisense Inc RNA, which binds to repZ mRNA, forms an Inc RNA-mRNA duplex, and prevents formation of the pseudoknot to inhibit repZ ...
Regulation of gene expression by a hormone receptor Diagram showing at which stages in the DNA-mRNA-protein pathway expression can be controlled. Regulation of gene expression, or gene regulation, [1] includes a wide range of mechanisms that are used by cells to increase or decrease the production of specific gene products (protein or RNA).