Cheatography
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Module 3.1 - translation and transcription
This is a draft cheat sheet. It is a work in progress and is not finished yet.
DNA Replication
-happens in SPhase |
- proceeds bidirectional |
-copying a DNA molecule |
-semiconservative |
-DNA unwinds and unzips 2 strands |
- Daughter DNA
parent strand and newly synthesize |
-unzip = supercoiling |
SUPERCOILING
DNA Gyrase |
-enzyme topoimerase
-creates a nick to relief torsional strain and release |
Helicase |
-Destabilizing protein
-promotes unwinding by binding to RF |
SSB |
-stabilize single stranded regions |
DNA POLYMERASE
-polymerization at 5' to 3' |
|add in 3' end |
-requires template to copy |
|complementary strand |
Types of dNTPs |
dATP, dGTP, dCTP, dTTP |
Primer |
Organisms |
RNA, DNA in some organisms |
Viruses |
Protein |
DNTP - deoxynucleotide triphosphate
adenine (dATP), cytosine (dCTP), guanine (dGTP), and thymine (dTTP)
DNA POLYMERASE
-polymerization at 5' to 3' |
|add in 3' end |
-requires template to copy |
|complementary strand |
Types of 4dNTPs |
dATP, dGTP, dCTP, dTTP |
Primer |
Organism |
RNA , but DNA in some organism |
Virus |
Protein |
DNTP - deoxynucleotide triphosphate
adenine (dATP), cytosine (dCTP), guanine (dGTP), and thymine (dTTP)
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Models of DNA Replication
SemiConservative |
Conservative |
Dispersive |
-parent & new synthesis |
-both original and new strands |
-mosaic/hybrid |
-unwind each other |
-rebase pair |
Theta Replicaion
-present in bacteria (prokaryotic) |
- circular form |
LAGGING AND LEADING STRAND
Lagging Strand |
Leading Strand |
-3' to 5' |
-5' to 3' |
-discontinuous |
-continuous |
-okazaki fragments |
-no short fragments |
-each fragments requires its own set of primers |
- requires only one primer |
-requires DNA ligase |
-no DNA ligase |
-grows away from RF |
-grows in direction of RF |
-synthesis of new strands SLOW |
-synthesis of new strands FAST |
REPLICATION ORIGINS
-unique DNA segments |
contains multimeric originbinding protein |
-ATrich stretch |
less energy to melt A-T bp due to Hbonds |
PROKARYOTIC DNA POLYMERASE
DNA polymerase I |
-RNA primer removal, DNA repair |
DNA polymerase II |
-DNA repair |
DNA polymerase III |
-Chromosome replication |
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MODELS OF DNA REPLICATION
PROTEINS INVOLVED IN DNA REPLICATION
Protein |
Activity |
DNA Polymerase |
-initiates
-add nucleotide at 3' end |
DNA Helicase |
-unzip/unwind DSDNA
-separates DNA strands |
SSBS |
-stabilizer
-preventing bp from reforming before lagging strand is replicated |
DNA Topoisomerase |
-reseal
-unravel twists in DNA
-reduce torsional strain & positive supercoil |
Sliding Clamp |
-keeps DNA polymerase attached to template |
Clamp Loader |
-lock sliding clamp to DNA (uses ATP hydrolysis) |
Primase |
-synthesis RNA primers in lagging strand |
DNA Ligase |
-sealed/connect okazaki |
SSBS - Single Strand DNA Binding Protein
DSDNA- Double Strand DNA
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