Supercoiled

Localised unwinding of a circular DNA molecule, which occurs during DNA replication, induces torsional stress into the remaining portion of the molecule because the ends of the strands are not free to rotate. As a result, the DNA molecule twists back on itself, like a twisted rubber band, forming supercoils ^[1]

The supercoiling of DNA is a form of compaction of circular DNA duplex, as its segments are twisted around each other. In the relaxed state, the polynucleotide strands form a right-handed helix, in a pattern of ten nucleotide pair per turn. A underwound circular DNA duplex resists the cuts made by DNA topoismerase ezymes, by twisting opposite to the direction of underwinding, forming supercoils ^[2]^[3]

References

↑ Lodish,H.,Berk,A.,Kaiser,C.A.,Krieger,M.,Bretscher,A.,Ploegh,H., and Amon,A. (2013) Molecular Cell Biology,7th Edition, International Edition.
↑ Hartl, D. L. (2012) Genetics: analysis of genes and genomes, 8th edition, Jones &amp; Bartlett Learning. Chapter 7, page 229-30.
↑ Hartl, D. L. (2012) Genetics: analysis of genes and genomes, 8th edition, Jones and; Bartlett Learning. Chapter 7, page 229-30.

[1] Lodish,H.,Berk,A.,Kaiser,C.A.,Krieger,M.,Bretscher,A.,Ploegh,H., and Amon,A. (2013) Molecular Cell Biology,7th Edition, International Edition.

[2] Hartl, D. L. (2012) Genetics: analysis of genes and genomes, 8th edition, Jones & Bartlett Learning. Chapter 7, page 229-30.

[3] Hartl, D. L. (2012) Genetics: analysis of genes and genomes, 8th edition, Jones and; Bartlett Learning. Chapter 7, page 229-30.

[1]

[2]

[3]

Supercoiled

References

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