Long-distance transfer of a positive charge through DNA can be described by a hopping model. In double strands where the (A:T)n bridges between the guanines are short (n 3), the charge hops only between guanines, and each hopping step depends strongly upon the guanine to guanine distances. In strands where the (A:T)n sequences between the guanines are rather long (n 4), also the adenines act as charge carriers. To predict the yields of the H2O-trapping products one has to take into account not only the charge-transfer rates but also the rates of H2O-trapping reaction
DNA-mediated charge transport (CT) is exquisitely sensitive to the integrity of the bridging π-stack...
<p>Biological electron transfer (ET) reactions are typically described in the framework of coherent ...
In this paper, we investigate the possibility of stable migration of charge carriers over long dista...
Abstract: Long-distance transfer of a positive charge through DNA can be described by a hopping mode...
Quantum yields for charge transport across adenine tracts of increasing length have been measured by...
This article reviews our recent theoretical development toward understanding the interplay of electr...
Long-range oxidative damage to DNA has been demonstrated in experiments using a variety of remotely ...
Electron transport through DNA occurs over very long distances (100 Å and more). The process follows...
A formulation that readily allows quantitative comparisons with experimental chemical yields in long...
Since its discovery, the ability of singly ionized DNA to provide long-range hole transport (HT) has...
A quantum chemistry based Green's function formulation of long-range charge transfer in deoxyribose ...
DNA-based electron transfer reactions are seen in processes such as biosynthesis and radiation damag...
Fluorescent analogs of adenine that selectively oxidize guanine were used to investigate photoinduce...
DNA charge transport (CT) chemistry has received considerable attention by scientific researchers ov...
The role of base motions in delocalization and propagation of charge through double helical DNA must...
DNA-mediated charge transport (CT) is exquisitely sensitive to the integrity of the bridging π-stack...
<p>Biological electron transfer (ET) reactions are typically described in the framework of coherent ...
In this paper, we investigate the possibility of stable migration of charge carriers over long dista...
Abstract: Long-distance transfer of a positive charge through DNA can be described by a hopping mode...
Quantum yields for charge transport across adenine tracts of increasing length have been measured by...
This article reviews our recent theoretical development toward understanding the interplay of electr...
Long-range oxidative damage to DNA has been demonstrated in experiments using a variety of remotely ...
Electron transport through DNA occurs over very long distances (100 Å and more). The process follows...
A formulation that readily allows quantitative comparisons with experimental chemical yields in long...
Since its discovery, the ability of singly ionized DNA to provide long-range hole transport (HT) has...
A quantum chemistry based Green's function formulation of long-range charge transfer in deoxyribose ...
DNA-based electron transfer reactions are seen in processes such as biosynthesis and radiation damag...
Fluorescent analogs of adenine that selectively oxidize guanine were used to investigate photoinduce...
DNA charge transport (CT) chemistry has received considerable attention by scientific researchers ov...
The role of base motions in delocalization and propagation of charge through double helical DNA must...
DNA-mediated charge transport (CT) is exquisitely sensitive to the integrity of the bridging π-stack...
<p>Biological electron transfer (ET) reactions are typically described in the framework of coherent ...
In this paper, we investigate the possibility of stable migration of charge carriers over long dista...