Add to ORKGAbstract. Visualisation of local DNA conformation is a useful tool in interpreting and designing experiments at the molecular level. There are a number of methods whereby local curvature as well as other conformational parameters can be predicted. Calculation of these parameters on a genomic scale may help to clarify the role of these elements in genomic architecture
When a protein binds to DNA, a conformational change is often induced so that the protein will fit i...
Relationships between intrinsic and induced superstructures in DNAs are investigated using a theoret...
<div><p>When a protein binds to DNA, a conformational change is often induced so that the protein wi...
Distortions from the uniform idealized B-DNA structure are investigated in terms of differential int...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2012.Cataloged from PDF ve...
A theoretical method to predict DNA curvature was developed, and a strikingly good correlation betwe...
Curved DNA fragments are often found near functionally important sites such as promoters and origins...
DNA and RNA are large and flexible polymers selected by nature to transmit information. The most com...
Although DNA conformation plays an integral role in all genetic processes from transcription to chro...
The genomic DN in the cell is tightly packed and is involved invarious functions like trancription, ...
DNA carries the genetic code of life, with different conformations associated with different biologi...
International audienceBehind its spatial organization, the DNA's molecule conceals a rich functional...
A fully self-consistent formulation is described here for the analysis and generation of base-pairs ...
When a protein binds to DNA, a conformational change is often induced so that the protein will fit i...
Bent DNA, or DNA that is locally more flexible, is a recognition motif for many DNA binding proteins...
When a protein binds to DNA, a conformational change is often induced so that the protein will fit i...
Relationships between intrinsic and induced superstructures in DNAs are investigated using a theoret...
<div><p>When a protein binds to DNA, a conformational change is often induced so that the protein wi...
Distortions from the uniform idealized B-DNA structure are investigated in terms of differential int...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2012.Cataloged from PDF ve...
A theoretical method to predict DNA curvature was developed, and a strikingly good correlation betwe...
Curved DNA fragments are often found near functionally important sites such as promoters and origins...
DNA and RNA are large and flexible polymers selected by nature to transmit information. The most com...
Although DNA conformation plays an integral role in all genetic processes from transcription to chro...
The genomic DN in the cell is tightly packed and is involved invarious functions like trancription, ...
DNA carries the genetic code of life, with different conformations associated with different biologi...
International audienceBehind its spatial organization, the DNA's molecule conceals a rich functional...
A fully self-consistent formulation is described here for the analysis and generation of base-pairs ...
When a protein binds to DNA, a conformational change is often induced so that the protein will fit i...
Bent DNA, or DNA that is locally more flexible, is a recognition motif for many DNA binding proteins...
When a protein binds to DNA, a conformational change is often induced so that the protein will fit i...
Relationships between intrinsic and induced superstructures in DNAs are investigated using a theoret...
<div><p>When a protein binds to DNA, a conformational change is often induced so that the protein wi...