supercoilingof dna - | siu school of medicinebbartholomew/-lectures/supercoiling 07.pdf ·...

Supercoiling of DNA 1. Topology A. Right handed supercoiling = negative supercoiling (underwinding) B. Left handed supercoiling = positive supercoiling C. Relaxed state is with no bends D. DNA must be constrained: plasmid DNA or by proteins E. Unraveling the DNA at one position changes the superhelicity - F. Topology only defined for continuous deformation - no strand breakage

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Page 1: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Supercoiling of DNA1. Topology

A. Right handed supercoiling = negative supercoiling(underwinding)B. Left handed supercoiling = positive supercoilingC. Relaxed state is with no bendsD. DNA must be constrained: plasmid DNA or by proteinsE. Unraveling the DNA at one position changes the superhelicity -F. Topology only defined for continuous deformation -no strand breakage

Page 2: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 3: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Supercoiling of DNA1. Topology

Page 4: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 5: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Supercoiling of DNA2. Numerical expression for degree of supercoiling

A. Equation Lk=Tw+WrB. L:linking number, # of times that one DNA strand winds about the others strands, is always an integer

C. T: twist,# of revolutions about the duplex helixD. W: writhe, # of turns of the duplex axis about the superhelical axis

by definition the measure of the degree of supercoilingE. specific linking difference or superhelicaldensity=DLk/Lk0

Page 6: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 7: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 8: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Supercoiling of DNA2. Numerical expression for degree of supercoiling

A. Equation Lk=Tw+WrB. L:linking number, # of times that one DNA strand winds about the others strands, is always an integer

C. T: twist,# of revolutions about the duplex helix D. W: writhe, # of turns of the duplex axis about the superhelical axis

by definition the measure of the degree of supercoilingE. specific linking difference or superhelicaldensity=DLk/Lk0

Page 9: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 10: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 11: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Supercoiling of DNA2. Numerical expression for degree of supercoiling

A. Equation Lk=Tw+WrB. L:linking number, # of times that one DNA strand winds about the others strands, is always an integer

C. T: twist,# of revolutions about the duplex helix D. W: writhe, # of turns of the duplex axis about the superhelical axis

by definition the measure of the degree of supercoilingE. specific linking difference or superhelicaldensity=DLk/Lk0

Page 12: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 13: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 14: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 15: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Supercoiling of DNA1. Topology

A. Right handed supercoiling = negative supercoiling(underwinding)B. Left handed supercoiling = positive supercoilingC. Relaxed state is with no bends D. DNA must be constrained: plasmid DNA or by proteinsE. Unraveling the DNA at one position changes the superhelicity -F. Topology only defined for continuous deformation -no strand breakage

Page 16: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 17: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Supercoiling of DNA

3. DNA compaction requires special form of supercoiling

A. Interwound: supercoiling of DNA in solution

B. Toroidal- tight left handed turns, packing of DNA

both forms are interconvertible

Supercoiling of DNA

4. Methods for measuring supercoiling -based on how compact the DNA is

A. Gel electrophoresisi. 1 dimensional ii. 2 dimensional

B. Density sedimentation

Page 22: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Supercoiling of DNA

4. Topoisomerases are required to relieve torsional strainA. Topoisomerases I :

breaks only one strand B. Topoisomerase II :

breaks both strands

Page 25: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 26: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Page 27: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Supercoiling of DNA4. Topoisomerases are required to relieve torsional

strainA. Topoisomerases I - breaks only one strand

i. monomeric proteinii. after nicking DNA the 5'-PO4 is covalently linked to

enzyme (prokaryotes)or the 3' end is linked to the enzyme (eukaryotes)

iii. evidence is the formation of catenatesiv. E. coli Topo I relaxes negatively supercoiled DNAv. introduces a change of increments of 1 in writhe

Page 28: Supercoilingof DNA - | SIU School of Medicinebbartholomew/-lectures/Supercoiling 07.pdf · Supercoilingof DNA 2. Numerical expression for degree of supercoiling A. Equation Lk=Tw+Wr

Supercoiling of DNA4. Topoisomerases are required to relieve torsional

strainB. Topoisomerase II - breaks both strands

i. supercoils DNA at the expense of ATP hydrolysisii. two subunits: (alpha)2 and (beta)2iii. becomes covalently linked to the alpha subunitiv. relaxes both negative and positively supercoiled

DNAv. introduces a change in increments of 2 in writhe.