- DNA replication is a semiconservative process, in which there is one parent strand and one daughter strand in the replicated DNA.
- Each parent strand is a template for ordering nucleotides to make a new complimentary strand
- There are many sites of replication on a strand of DNA called "replication bubbles", with replication forks on each ends.
- The strands in the double helix are antiparallel, so one strand runs in 5' -> 3' direction, while the other runs in 3'->5' direction
- A new DNA strand can only elongate in the 5'->3' direction
The process:
- DNA helicase unwinds the double helix
- DNA gyrase (bacterial enzyme) relieves the tension (produced from unwinding of DNA)
- Single-stranded binding proteins (SSBs) keeps separated strands of DNA apart
- Primase (RNA polymerase) makes primer, which signals Polymerase III to make complementary strand
- DNA Polymerase III then grabs nucleotides to make complementary strands of DNA
- One of the parental strand (3'->5' into the fork), the leading strand (growing towards the fork) can form a continuous complimentary strand (only need one single primer as the fork continues to separate and the new strand continues to elongate)
- The lagging strand (5'->3' into the fork) has to be copied away from the fork in Okazaki fragments, in order to elongate in the 5'->3' direction (it also needs a new primer for each fragment)
- DNA Polymerase I then replaces the RNA primer with DNA
- DNA ligase join all the gaps that are present on the daughter strands
=D good stuff!
ReplyDeletechecked. Neat and to the point.
ReplyDelete