Eukaryotic Linear DNA Synthesis: Mechanism Of Telomere Addition Note: The 3’ end of the chromosome will always be longer, but now all sequences in the chromosome will be replicated Courtesy: Alberts et. al. Molecular Biology of the Cell
Eukaryotic Linear DNA Synthesis: Mechanism Of Telomere Addition Note: The 3’ end of the chromosome will always be longer, but now all sequences in the.
Dec 19, 2015
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Eukaryotic Linear DNA Synthesis: Mechanism Of Telomere Addition
Note: The 3’ end of the chromosome will always be longer, but now all sequences in the chromosome will be replicated
Courtesy: Alberts et. al. Molecular Biology of the Cell
Prokaryotic DNA Replication: Rolling Circle Replication
• Rolling circle replication is used to replicate some plasmids
• Plasmids are small circular DNA molecules that are double stranded
• For rolling circle replication, the outer strand is considered the (+) strand and the inner strand is the (-) strand
• To start rolling circle replication, the (+) strand is nicked (cut)
• In rolling circle replication, the (+) strand serves as a template for the (-) strand and the (-) strand serves as a template to make the (+) strand
Prokaryotic DNA Replication:Rolling Circle Replication
• The nick in the (+) strand will create a free 3’ OH and allow for synthesis of a new (+) strand– Synthesis of a new (+) strand will start at the free 3’OH using the (-) strand as a
template– Synthesis of a new (+) strand is continuous lending the name rolling circle because we
go around the circle
• Synthesis of a new (-) strand uses the (+) strand as a template
• Synthesis of a new (-) strand occurs in a discontinuous replication
Prokaryotic DNA Replication: Evidence For Bi-Directional Replication In Bacteria
• Although there are two replication forks created, there are two possible ways that the circular Bacterial chromosome could be replicated– Uni-directional (DNA is replicated at only one of the
forks)– Bi-Directional (DNA is replicated at both forks)
• Elizabeth Gyurasits and R.B. Wake showed that DNA replication in B. subtilis is bi-directional
• Grew B. subtilis in the presence of 3H-Thymidine (weak radioactivity) for a short time
• Then switch the B. subtilis to media with a more strongly radiolabeled nucleotide (32P)
• Exposed the replicating DNA to autoradiography
• Both forks picked up the strongly radiolabeled nucleotide, and must have been replicating at the point where the shift occured
Related Documents
