Human genetics, dna replication, protein synthesis, mutations
DNA Synthesis Eukaryotes DNA unwinds at a replication origin Two replication forks form...
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DNA Synthesis •Eukaryotes •DNA unwinds at a replication origin •Two replication forks form •Bidirectional synthesis of DNA •Much more DNA; complexed with proteins •Eukaryotes have much more DNA •Yeast 250-400 replicons •Mammalian cells up to 25,000 •Solution: Multiple replication origins •Yeast 4X that of E. coli •Drosophila 100X that of E. coli
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Transcript of DNA Synthesis Eukaryotes DNA unwinds at a replication origin Two replication forks form...
DNA Synthesis•Eukaryotes
•DNA unwinds at a replication origin •Two replication forks form •Bidirectional synthesis of DNA
•Much more DNA; complexed with proteins
•Eukaryotes have much more DNA
•Yeast 250-400 replicons •Mammalian cells up to 25,000
•Solution:
Multiple replication origins
•Yeast 4X that of E. coli •Drosophila 100X that of E. coli
DNA Synthesis in Eukaryotes
Pre-initiation replication complex:
ORC
Cdt1
Cdc6
MCM
Enzyme Function
Prokaryotes Eukaryotes
Helicase
Primase
Polymerase
Proofreading
Sliding clamp
Prevent ss closure
DnaB
DnaG
Pol III
Pol III
b sliding clamp
SSBPs
MCM
Primase s.u. of a-polymerase
Pol d and e
Pol d and e
PCNA (Proliferating Cell Nuclear Antigen)
RPA (Replication Protein A)
Comparison of some replication components
A Problem and a Solution
Telomere Formation
A model for t loop formation
Reproductive cloning
Biotechnology/Cloning
Reproductive cloning
Therapeutic cloning
http://www.rndsystems.com/dam_public/6515.jpg
Therapeutic cloning
First Cloning Experiment
Cohen et al., 1973
“Recombinant DNA”
Cloning Vectors: pBR322 plasmid
Cloning into pBR322
RT-PCR and Cloning
