Flap Endonuclease 1: A Central Component of DNA Metabolism
- 1 June 2004
- journal article
- review article
- Published by Annual Reviews in Annual Review of Biochemistry
- Vol. 73 (1) , 589-615
- https://doi.org/10.1146/annurev.biochem.73.012803.092453
Abstract
▪ Abstract One strand of cellular DNA is generated as RNA-initiated discontinuous segments called Okazaki fragments that later are joined. The RNA terminated region is displaced into a 5′ single-stranded flap, which is removed by the structure-specific flap endonuclease 1 (FEN1), leaving a nick for ligation. Similarly, in long-patch base excision repair, a damaged nucleotide is displaced into a flap and removed by FEN1. FEN1 is a genome stabilization factor that prevents flaps from equilibrating into structures that lead to duplications and deletions. As an endonuclease, FEN1 enters the flap from the 5′ end and then tracks to cleave the flap base. Cleavage is oriented by the formation of a double flap. Analyses of FEN1 crystal structures suggest mechanisms for tracking and cleavage. Some flaps can form self-annealed and template bubble structures that interfere with FEN1. FEN1 interacts with other nucleases and helicases that allow it to act efficiently on structured flaps. Genetic and biochemical analyses continue to reveal many roles of FEN1.Keywords
This publication has 196 references indexed in Scilit:
- Phosphorylation of human Fen1 by cyclin-dependent kinase modulates its role in replication fork regulationOncogene, 2003
- Human FEN-1 can process the 5'-flap DNA of CTG/CAG triplet repeat derived from human genetic diseases by length and sequence dependent mannerExperimental & Molecular Medicine, 2002
- The ‘flap’ endonuclease gene FEN1 is excluded as a candidate gene implicated in the CAG repeat expansion underlying Huntington diseaseClinical Genetics, 2001
- Processing of UV Damage in Vitro by FEN-1 Proteins as Part of an Alternative DNA Excision Repair PathwayBiochemistry, 1999
- Structure of the DNA Repair and Replication Endonuclease and Exonuclease FEN-1Cell, 1998
- Repeat expansion — all in flap?Nature Genetics, 1997
- Mutator Specificity and Disease: Looking over the FENceCell, 1997
- Calf 5′ to 3′ Exo/Endonuclease Must Slide from a 5′ End of the Substrate to Perform Structure-specific CleavagePublished by Elsevier ,1995
- Reconstitution of the DNA base excision—repair pathwayPublished by Elsevier ,1994
- Transient generation of displaced single-stranded DNA during nick translationCell, 1982