Abstract
Flap endonuclease-1 (FEN-1), a 43-kDa protein, is a structure-specific and multifunctional nuclease. It plays important roles in RNA primer removal of Okazaki fragments during DNA replication, DNA base excision repair, and maintenance of genome stability. Three functional motifs of the enzyme were proposed to be responsible for its nuclease activities, interaction with proliferating cell nuclear antigen, and nuclear localization. In this study, we demonstrate in HeLa cells that a signal located at the C terminus (the nuclear localization signal (NLS) motif) facilitates nuclear localization of the enzyme during S phase of the cell cycle and in response to DNA damage. Truncation of the NLS motif prevents migration of the protein from the cytoplasm to the nucleus, while having no effect on the nuclease activities and its proliferating cell nuclear antigen interaction capability. Site-directed mutagenesis further revealed that a mutation of the KRK cluster to three alanine residues completely blocked the localization of FEN-1 into the nucleus, whereas mutagenesis of the KKK cluster led to a partial defect of nuclear localization in HeLa cells without observable phenotype in yeast. Therefore, the KRKXXXXXXXXKKK motif may be a bipartite NLS driving the protein into nuclei. Yeast RAD27Delta cells transformed with human mutant M(krk) survived poorly upon methyl methanesulfonate treatment or when they were incubated at an elevated temperature.
Highlights
DNA replication and repair are critical for maintaining genome stability
Site-directed mutagenesis further revealed that a mutation of the KRK cluster to three alanine residues completely blocked the localization of Flap endonuclease-1 (FEN-1) into the nucleus, whereas mutagenesis of the KKK cluster led to a partial defect of nuclear localization in HeLa cells without observable phenotype in yeast
FEN-1 Nuclease Is Localized into the Nucleus in G1/S Phase of the Cell Cycle—To study the nuclear localization of the human enzyme, cell cycle phases were first determined by flow cytometry based on relative fluorescence represented on the x axis and cell number represented on the y axis of the flow cytometric profiles (Fig. 1A)
Summary
Oligonucleotide primers were synthesized at the City of Hope Cancer Center core facility. To determine the localization pattern of the FEN-1 proteins in human cells, we amplified DNA fragments of the wild type FEN-1 and the three site-directed mutants Mkkk, Mkrk, and Mkr using PCR based on primers, CK01- 5ЈCCTCTGTGCTAGCATGGGAATTCAAGGCC3Ј and CK02a-5ЈCCTCTCCAAGCTTTCCCCTTTTAAACTTCC3Ј (sequences for desired restriction sites are underlined). These fragments were subcloned into the pEGFP-N1 vector, respectively, at the NheI and HindIII sites. To observe the biological functions of the FEN-1 proteins in yeast, DNA fragments of the wild type FEN-1, Mkkk, Mkrk, and Mkr cDNA were directly derived from pBSK-based plasmids using the restriction enzyme NotI They were cloned into the yeast expression vector, pDB20. Protein concentrations were determined using the Bio-Rad protein assay
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