DNA Replication Flashcards
Conservative model of replication
Parent molecules rejoin after replication or parent strands stay together during replication
Incorrect model of replication
Semiconservative model of replication
Parent strand is used as template and joins with new strand
Correct model of replication
Dispersive model of replication
Parent and new strands are cleaved: 1 strand could contain both new and old pieces
Incorrect model of replication
Initiation of replication steps
- Replicator sequence is denatured by initiator proteins to form a replication bubble
- Helicase is loaded onto the DNA, breaking H-bonds between 2 strands
- Helicase recruits primase
- Primase synthesizes a short primer (made out of RNA and contains 5-10 nucleotides)
Ori
Origin of replication in bacteria
Located at middle of replication bubble
of replication forks in replication
2 replication forks (bidirectional)
Replication steps
- Single stranded binding proteins bind to the single stranded DNA in the fork, preventing strands from coming back together
- DNA pol III adds nucleotides in 5’ to 3’ direction, synthesizing off of RNA primer
- DNA gyrase relaxes the tension ahead of the replication fork
Direction that DNA pol III reads template strand
3’ to 5’
Joining of the Okazaki fragments/ end of replication
- DNA pol I digests RNA primer ahead of it using its 5’ to 3’ exonuclease activity (cuts at end of DNA) and replaces primer with nucleotides in the 5’ to 3’ direction
- DNA ligase seals the nick between adjacent Okazaki fragments
dNTP
Deoxynucleoside triphosphate
Building blocks of DNA (nucleotides)
“Primer” for DNA pol I
Okazaki fragments
Fidelity
Accuracy of polymerase
Processivity
How many dNTPs DNA pol can add before it falls off strand
How many nucleotides are incorrect vs. how many are correct
About 1 in 1 million is incorrect
Direction of exonuclease activity in DNA pols I and III
3’ to 5’ exonuclease activity
Removes incorrect 3’ dNTP, adds correct dNTP, and keeps going
