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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 process of semiconservative replication for the site of DNA replication is a fork-like DNA structure, the replication fork, where the DNA helix is open, or unwound, exposing unpaired DNA nucleotides for recognition and base pairing for the incorporation of free nucleotides into double-stranded DNA. [3]
File:DNA_replication_en.svg licensed with PD-user 2009-06-01T14:09:19Z Bibi Saint-Pol 691x336 (113021 Bytes) {{Information |Description= {{en|DNA replication or DNA synthesis is the process of copying a double-stranded DNA molecule. This process is paramount to all life as we know it.}} |Source=Own work |Date= 2007-01-24 |Author= [
The factual accuracy of this diagram or the file name is disputed. ... DNA replication or DNA synthesis is the process of copying a double-stranded DNA molecule.
The process of duplicating DNA is called DNA replication, and it takes place by first unwinding the duplex DNA molecule, starting at many locations called DNA replication origins, followed by an unzipping process that unwinds the DNA as it is being copied. However, replication does not start at all the different origins at once.
The double-stranded structure of DNA provides a simple mechanism for DNA replication. Here, the two strands are separated and then each strand's complementary DNA sequence is recreated by an enzyme called DNA polymerase. This enzyme makes the complementary strand by finding the correct base through complementary base pairing and bonding it onto ...
This diagram uses embedded text that can be easily translated using a text editor. ... DNA replication fork made to adress all commenst on [[File:DNA_replication_en ...
Stylized DNA replication fork with nucleotides matched, 5'->3' synthesis shown, no enzymes in diagram. Please credit Madeleine Price Ball if used in a commercial context. Source