DNA three-way junctions are branched structures formed during replication, repair, and recombination, and are involved in models of repeat expansion. Here the authors use single-molecule Förster resonance energy transfer to reveal the dynamics of DNA three-way junctions containing slip-outs composed of CAG or CTG repeats
Molecular structures that direct charge transport in two or three dimensions possess some of the ess...
Branched nucleic acid molecules serve as key intermediates in DNA replication, recombination, and re...
Three-way DNA junctions can adopt several different conformers, which differ in the coaxial stacking...
It is unclear how the length of a repetitive DNA tract determines the onset and progression of repea...
Branched structures of nucleic acids are widely observed in nature as intermediates during DNA repai...
DNA three-way junctions (3WJs) are branched structures that serve as important biological intermedia...
*S Supporting Information ABSTRACT: Expansions of (CTG)·(CAG) repeated DNAs are the mutagenic cause ...
Expansions of (CTG).(CAG) repeated DNAs are the mutagenic cause of 14 neurological diseases, likely ...
Expansions of (CTG)·(CAG) repeated DNAs are the mutagenic cause of 14 neurological diseases, likely ...
DNA three-way junctions (3WJs) are branched structures that serve as important biological intermedia...
<p>(A) Slipped-strand DNAs can form during various metabolic processes such as replication, repair, ...
Three-way DNA junctions (3WJ) are composed of three mutually complementary strands of DNA. The stra...
AbstractThe Holliday junction (HJ), or four-way junction, is a central intermediate state of DNA for...
The four-way DNA (Holliday) junction is the central intermediate of genetic recombination, but the d...
The etiology of a large class of inherited neurological diseases is founded on hairpin structures ad...
Molecular structures that direct charge transport in two or three dimensions possess some of the ess...
Branched nucleic acid molecules serve as key intermediates in DNA replication, recombination, and re...
Three-way DNA junctions can adopt several different conformers, which differ in the coaxial stacking...
It is unclear how the length of a repetitive DNA tract determines the onset and progression of repea...
Branched structures of nucleic acids are widely observed in nature as intermediates during DNA repai...
DNA three-way junctions (3WJs) are branched structures that serve as important biological intermedia...
*S Supporting Information ABSTRACT: Expansions of (CTG)·(CAG) repeated DNAs are the mutagenic cause ...
Expansions of (CTG).(CAG) repeated DNAs are the mutagenic cause of 14 neurological diseases, likely ...
Expansions of (CTG)·(CAG) repeated DNAs are the mutagenic cause of 14 neurological diseases, likely ...
DNA three-way junctions (3WJs) are branched structures that serve as important biological intermedia...
<p>(A) Slipped-strand DNAs can form during various metabolic processes such as replication, repair, ...
Three-way DNA junctions (3WJ) are composed of three mutually complementary strands of DNA. The stra...
AbstractThe Holliday junction (HJ), or four-way junction, is a central intermediate state of DNA for...
The four-way DNA (Holliday) junction is the central intermediate of genetic recombination, but the d...
The etiology of a large class of inherited neurological diseases is founded on hairpin structures ad...
Molecular structures that direct charge transport in two or three dimensions possess some of the ess...
Branched nucleic acid molecules serve as key intermediates in DNA replication, recombination, and re...
Three-way DNA junctions can adopt several different conformers, which differ in the coaxial stacking...