Add to ORKGThe Dna2 protein is a multifunctional enzyme with 5'-3' DNA helicase, DNA-dependent ATPase, 3' exo/endonuclease, and 5' exo/endonuclease. The enzyme is highly specific for structures containing single-stranded flaps adjacent to duplex regions. We report here two novel activities of both the yeast and human Dna2 helicase/nuclease protein: single strand annealing and ATP-independent strand exchange on short duplexes. These activities are independent of ATPase/helicase and nuclease activities in that mutations eliminating either nuclease or ATPase/helicase do not inhibit strand annealing or strand exchange. ATP inhibits strand exchange. A model rationalizing the multiple catalytic functions of Dna2 and leading to its coordination with other en...
Flap endonuclease 1 (FEN1) and Dna2 endonuclease/helicase (Dna2) sequentially coordinate their nucle...
Living organisms must keep their DNA content intact to assure the integrity of their genomic informa...
To elucidate the network that maintains high fidelity genome replication, we have introduced two con...
Yeast Dna2 helicase/nuclease is essential for DNA replication and assists FEN1 nuclease in processin...
Dna2 endonuclease/helicase participates in eukaryotic DNA transactions including cleavage of long fl...
Two processes, DNA replication and DNA damage repair, are key to maintaining genomic fidelity. The D...
Dna2 is a nuclease/helicase with proposed roles in DNA replication, double-strand break repair and t...
DNA double-strand break repair by homologous recombination entails nucleolytic resection of the 5′ s...
We have recently described a new helicase, the Dna2 helicase, that is essential for yeast DNA replic...
Eukaryotic Okazaki fragments are initiated by an RNA/DNA primer, which is removed before the fragmen...
DNA2 nuclease–helicase functions in DNA replication and recombination. This requires the nuclease of...
Okazaki fragments contain an initiator RNA/DNA primer that must be removed before the fragments are ...
Okazaki fragments are initiated by short RNA/DNA primers, which are displaced into flap intermediate...
We have developed a system to reconstitute all of the proposed steps of Okazaki fragment processing ...
Dna2 nuclease/helicase is a multitasking protein involved in DNA replication and recombinational rep...
Flap endonuclease 1 (FEN1) and Dna2 endonuclease/helicase (Dna2) sequentially coordinate their nucle...
Living organisms must keep their DNA content intact to assure the integrity of their genomic informa...
To elucidate the network that maintains high fidelity genome replication, we have introduced two con...
Yeast Dna2 helicase/nuclease is essential for DNA replication and assists FEN1 nuclease in processin...
Dna2 endonuclease/helicase participates in eukaryotic DNA transactions including cleavage of long fl...
Two processes, DNA replication and DNA damage repair, are key to maintaining genomic fidelity. The D...
Dna2 is a nuclease/helicase with proposed roles in DNA replication, double-strand break repair and t...
DNA double-strand break repair by homologous recombination entails nucleolytic resection of the 5′ s...
We have recently described a new helicase, the Dna2 helicase, that is essential for yeast DNA replic...
Eukaryotic Okazaki fragments are initiated by an RNA/DNA primer, which is removed before the fragmen...
DNA2 nuclease–helicase functions in DNA replication and recombination. This requires the nuclease of...
Okazaki fragments contain an initiator RNA/DNA primer that must be removed before the fragments are ...
Okazaki fragments are initiated by short RNA/DNA primers, which are displaced into flap intermediate...
We have developed a system to reconstitute all of the proposed steps of Okazaki fragment processing ...
Dna2 nuclease/helicase is a multitasking protein involved in DNA replication and recombinational rep...
Flap endonuclease 1 (FEN1) and Dna2 endonuclease/helicase (Dna2) sequentially coordinate their nucle...
Living organisms must keep their DNA content intact to assure the integrity of their genomic informa...
To elucidate the network that maintains high fidelity genome replication, we have introduced two con...