Transport of torsional stress in DNA
AUTOR(ES)
Nelson, Philip
FONTE
The National Academy of Sciences
RESUMO
It is well known that transcription can induce torsional stress in DNA, affecting the activity of nearby genes or even inducing structural transitions in the DNA duplex. It has long been assumed that the generation of significant torsional stress requires the DNA to be anchored, forming a limited topological domain, because otherwise it would spin almost freely about its axis. Previous estimates of the rotational drag have, however, neglected the role of small natural bends in the helix backbone. We show how these bends can increase the drag several thousandfold relative to prior estimates, allowing significant torsional stress even in linear unanchored DNA. The model helps explain several puzzling experimental results on structural transitions induced by transcription of DNA.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=24438Documentos Relacionados
- Torsional stress and local denaturation in supercoiled DNA.
- Non-complementary DNA helical structure induced by positive torsional stress.
- Evidence for torsional stress in transcriptionally activated chromatin.
- Torsional stress induces left-handed helical stretches in DNA of natural base sequence: circular dichroism and antibody binding.
- Torsional vibration of carbon nanotubes under initial compression stress