Roles of DNA Topology and Topoisomerases in Transcription, DNA Replication, Chromosome Structure, and Genomic Stability
A special issue of Biomolecules (ISSN 2218-273X). This special issue belongs to the section "Enzymology".
Deadline for manuscript submissions: closed (15 December 2021) | Viewed by 3262
Special Issue Editor
Interests: DNA topology; DNA topoisomerases; transcription; protein-DNA interactions; HMGA2
Special Issue Information
Dear Colleagues,
DNA topology or supercoiling is a unique and fundamental property of DNA double helix. Typically, DNA in live cells is negatively supercoiled. Free energy constrained in negative supercoils has significant biological consequences and usually promotes essential DNA processes such as transcription and DNA replication. DNA topology also greatly affects chromosome structure and genomic stability. Furthermore, DNA polymerase and RNA polymerase, when replicating or transcribing along the DNA double helix, induce superhelical changes to the DNA molecules. Leroy F. Liu and James C. Wang formulated an elegant twin-supercoiled domain model to explain transcription-induced DNA supercoiling: a transcribing RNA polymerase becomes progressively more difficult to rotate around the DNA double helix as the size of the growing RNA transcript increases. At a critical point, energetically, it is more feasible for the DNA molecule to rotate around its own helical axis to produce a positively supercoiled domain in front of the RNA polymerase and a negatively supercoiled domain behind it. Many experimental evidences demonstrated the importance of this dynamic supercoiling.
DNA topoisomerases, discovered half a century ago by James C. Wang, are essential enzymes to all living organisms. These enzymes resolve the DNA topological issues arisen from DNA replication and transcription usually through relaxing positive and negative DNA supercoiling generated from these processes. Therefore, DNA topoisomerases are critical for DNA replication, transcription, and maintenance of the chromosome structure. Because of their importance, DNA topoisomerases are the targets of certain clinically important antibiotics and anticancer drugs.
The aim of this special issue is to provide a forum to discuss the importance of DNA topology and topoisomerases in transcription, DNA replication, chromosome structure, and genomic stability. Original article and reviews are welcome.
Dr. Fenfei Leng
Guest Editor
Manuscript Submission Information
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Keywords
- DNA topology or supercoiling
- DNA topoisomerase
- DNA replication and transcription
- chromosome
- genomic stability
