Add to ORKGThe design of sequence specific DNA-binding molecules has advanced in recent years due, in part, to the development of analytical techniques such as footprinting and affinity cleaving which allow rapid and precise analysis of hundreds of of potential DNA binding sites. The construction of synthetic molecules that bind in the minor and major groove of DNA with incrementally increasing sequence specificity is simply the first step toward developing a set of rules for the three-dimensional readout of double helical DNA
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A combination of the binding models for the simultaneous recognition of both grooves of DNA led to t...
The sequence-specific recognition of double-helical DNA by oligonucleotide-directed triple-helix for...
The design of sequence specific DNA-binding molecules has advanced in recent years due, in part, to ...
The design of synthetic sequence-specific DNA-binding molecules has advanced in recent years due, in...
Base sequence information can be stored in the local structure of right-handed double-helical DNA (B...
Deoxyribonucleic acid (DNA) is the stuff of our genes. There are four bases (A, T, G, C) possible fo...
The design of sequence specific DNA binding molecules has advanced in recent years due, in part, to ...
Affinity cleaving, a method that relies on the attachment of a nonspecific cleaving moiety, such as ...
Small molecules that specifically bind with high affinity to any predetermined DNA sequence in the h...
The sequence-specific recognition of double-helical DNA is an essential biological process responsib...
One approach to the design of sequence specific DNA binding molecules that read large sequences of r...
The design of sequence-specific cleaving molecules for double-helical DNA requires the attachment of...
ABSTRACT: Genomic applications of DNA-binding mole-cules require an unbiased knowledge of their high...
textChemistryAlthough molecules that bind DNA have the potential to modify gene expression, the real...
Publication details, including instructions for authors and subscription information
A combination of the binding models for the simultaneous recognition of both grooves of DNA led to t...
The sequence-specific recognition of double-helical DNA by oligonucleotide-directed triple-helix for...
The design of sequence specific DNA-binding molecules has advanced in recent years due, in part, to ...
The design of synthetic sequence-specific DNA-binding molecules has advanced in recent years due, in...
Base sequence information can be stored in the local structure of right-handed double-helical DNA (B...
Deoxyribonucleic acid (DNA) is the stuff of our genes. There are four bases (A, T, G, C) possible fo...
The design of sequence specific DNA binding molecules has advanced in recent years due, in part, to ...
Affinity cleaving, a method that relies on the attachment of a nonspecific cleaving moiety, such as ...
Small molecules that specifically bind with high affinity to any predetermined DNA sequence in the h...
The sequence-specific recognition of double-helical DNA is an essential biological process responsib...
One approach to the design of sequence specific DNA binding molecules that read large sequences of r...
The design of sequence-specific cleaving molecules for double-helical DNA requires the attachment of...
ABSTRACT: Genomic applications of DNA-binding mole-cules require an unbiased knowledge of their high...
textChemistryAlthough molecules that bind DNA have the potential to modify gene expression, the real...
Publication details, including instructions for authors and subscription information
A combination of the binding models for the simultaneous recognition of both grooves of DNA led to t...
The sequence-specific recognition of double-helical DNA by oligonucleotide-directed triple-helix for...