Add to ORKG2 A functionality for regulating hole transport efficiency is a prerequisite for the utilization of DNA duplexes as nanodevices. Herein, we report the regulation of hole transport in anthraquinone-tethered DNA with dual triplex forming sites. Long-range photooxidation experiments showed that hole transport was effectively suppressed by the formation of triplex at low temperature, while it was recovered by dissociation to the duplex at higher temperature. Variation of temperature induced the formation and dissociation of the third strand at each triplex region individually, leading to the stepwise regulation of hole transport in DNA
Intraduplex DNA-mediated reduction is established as a general mechanism for the reduction of distal...
The formation of DNA triple helices offers the possibility of selectively targeting specific genes t...
Triple helical DNA is a DNA structure in which three oligonucleotides wind around each other by form...
Here we examine the photooxidation of two kinetically fast electron hole traps, N_4-cyclopropylcytos...
DNA/RNA hybrid duplexes are prevalent in many cellular functions and are an attractive target form f...
Pyrimidine/purine/purine triplexes are known to inhibit DNA polymerization. Here we have studied the...
Background: Multiple-stranded DNA assemblies, encoded by sequence, have been constructed in an effor...
AbstractBackground: Multiple-stranded DNA assemblies, encoded by sequence, have been constructed in ...
The nucleosome core particle (NCP) is the funda-mental building block of chromatin which compacts 14...
Here, we show that DNA-mediated charge transport (CT) can lead to the oxidation of thiols to form di...
DNA is a strikingly flexible molecule and can form a variety of secondary structures, including the ...
Electronic coupling of the stacked heterocyclic base pairs in DNA duplexes makes DNA a promising bio...
Triplex DNA is an H-form triple-helical structure that is formed through Hoogsteen hydrogen bonding ...
The role of base motions in delocalization and propagation of charge through double helical DNA must...
ABSTRACT: We studied the formation of triplex DNA in the purine-pyrimidine-rich promoter site sequen...
Intraduplex DNA-mediated reduction is established as a general mechanism for the reduction of distal...
The formation of DNA triple helices offers the possibility of selectively targeting specific genes t...
Triple helical DNA is a DNA structure in which three oligonucleotides wind around each other by form...
Here we examine the photooxidation of two kinetically fast electron hole traps, N_4-cyclopropylcytos...
DNA/RNA hybrid duplexes are prevalent in many cellular functions and are an attractive target form f...
Pyrimidine/purine/purine triplexes are known to inhibit DNA polymerization. Here we have studied the...
Background: Multiple-stranded DNA assemblies, encoded by sequence, have been constructed in an effor...
AbstractBackground: Multiple-stranded DNA assemblies, encoded by sequence, have been constructed in ...
The nucleosome core particle (NCP) is the funda-mental building block of chromatin which compacts 14...
Here, we show that DNA-mediated charge transport (CT) can lead to the oxidation of thiols to form di...
DNA is a strikingly flexible molecule and can form a variety of secondary structures, including the ...
Electronic coupling of the stacked heterocyclic base pairs in DNA duplexes makes DNA a promising bio...
Triplex DNA is an H-form triple-helical structure that is formed through Hoogsteen hydrogen bonding ...
The role of base motions in delocalization and propagation of charge through double helical DNA must...
ABSTRACT: We studied the formation of triplex DNA in the purine-pyrimidine-rich promoter site sequen...
Intraduplex DNA-mediated reduction is established as a general mechanism for the reduction of distal...
The formation of DNA triple helices offers the possibility of selectively targeting specific genes t...
Triple helical DNA is a DNA structure in which three oligonucleotides wind around each other by form...