Interactions among DNA ligase I, the flap endonuclease and proliferating cell nuclear antigen in the expansion and contraction of CAG repeat tracts in yeast.

Interactions among DNA ligase I, the flap endonuclease and proliferating cell nuclear antigen in the expansion and contraction of CAG repeat tracts

Long patch base excision repair with purified human proteins. DNA ligase I as patch size mediator for DNA polymerases delta and epsilon.

Among the different base excision repair pathways known, the long patch base excision repair of apurinic/apyrimidinic sites is an important mechanism that requires proliferating cell nuclear antigen. We have reconstituted this pathway using purified human proteins. Our data indicated that efficient repair is dependent on six components including AP endonuclease, replication factor C, proliferat...

The effect of DNA replication mutations on CAG tract stability in yeast.

CAG repeat tracts are unstable in yeast, leading to frequent contractions and infrequent expansions in repeat tract length. To compare CAG repeats to other simple repeats and palindromic sequences, we examined the effect of DNA replication mutations, including alleles of pol alpha, pol delta, pol epsilon, and PCNA (proliferating cell nuclear antigen), on tract stability. Among the polymerase mu...

The impact of lagging strand replication mutations on the stability of CAG repeat tracts in yeast.

We have examined the stability of long tracts of CAG repeats in yeast mutants defective in enzymes suspected to be involved in lagging strand replication. Alleles of DNA ligase (cdc9-1 and cdc9-2) destabilize CAG tracts in the stable tract orientation, i.e., when CAG serves as the lagging strand template. In this orientation nearly two-thirds of the events recorded in the cdc9-1 mutant were tra...

Regulation of DNA replication and repair proteins through interaction with the front side of proliferating cell nuclear antigen.

The DNA polymerase accessory factor proliferating cell nuclear antigen (PCNA) has been caught in interaction with an ever increasing number of proteins. To characterize the sites and functions of some of these interactions, we constructed four mutants of human PCNA and analysed them in a variety of assays. By targeting loops on the surface of the PCNA trimer and changing three or four residues ...