Sequence-specific DNA-binding small molecules that can permeate cells could potentially regulate transcription of specific genes. Simple pairing rules for the minor groove of the double helix have been developed that allow the design of ligands for predetermined DNA sequences. Some of these polyamides have been shown to inhibit specific gene expression in mammalian cell culture
Small molecules that bind to any predetermined DNA sequence in the human genome are potentially usef...
Small molecules that target specific DNA sequences have the potential to control gene expression. Li...
DNA-binding polyamides can be programmed to target critical genomic sequences to inhibit specific pr...
DNA-minor groove binding small molecules have been extensively developed to achieve higher binding a...
During the past 20 years, polyamides have evolved from the natural product distamycin to a new class...
During the past 20 years, polyamides have evolved from the natural product distamycin to a new class...
During the past 20 years, polyamides have evolved from the natural product distamycin to a new class...
Cell permeable synthetic ligands that bind to predetermined DNA sequences offer a chemical approach ...
Cell permeable synthetic ligands that bind to predetermined DNA sequences offer a chemical approach ...
Cell permeable synthetic ligands that bind to predetermined DNA sequences offer a chemical approach ...
Cell permeable synthetic ligands that bind to predetermined DNA sequences offer a chemical approach ...
Polyamide is a synthetic small molecule that recognizes predetermined sequences in the minor groove ...
Small molecules that specifically bind with high affinity to any predetermined DNA sequence in the h...
SMALL molecules that specifically bind with high affinity to any predetermined DNA sequence in the h...
Cell-permeable small molecules that bind predetermined DNA sequences with affinities and specificit...
Small molecules that bind to any predetermined DNA sequence in the human genome are potentially usef...
Small molecules that target specific DNA sequences have the potential to control gene expression. Li...
DNA-binding polyamides can be programmed to target critical genomic sequences to inhibit specific pr...
DNA-minor groove binding small molecules have been extensively developed to achieve higher binding a...
During the past 20 years, polyamides have evolved from the natural product distamycin to a new class...
During the past 20 years, polyamides have evolved from the natural product distamycin to a new class...
During the past 20 years, polyamides have evolved from the natural product distamycin to a new class...
Cell permeable synthetic ligands that bind to predetermined DNA sequences offer a chemical approach ...
Cell permeable synthetic ligands that bind to predetermined DNA sequences offer a chemical approach ...
Cell permeable synthetic ligands that bind to predetermined DNA sequences offer a chemical approach ...
Cell permeable synthetic ligands that bind to predetermined DNA sequences offer a chemical approach ...
Polyamide is a synthetic small molecule that recognizes predetermined sequences in the minor groove ...
Small molecules that specifically bind with high affinity to any predetermined DNA sequence in the h...
SMALL molecules that specifically bind with high affinity to any predetermined DNA sequence in the h...
Cell-permeable small molecules that bind predetermined DNA sequences with affinities and specificit...
Small molecules that bind to any predetermined DNA sequence in the human genome are potentially usef...
Small molecules that target specific DNA sequences have the potential to control gene expression. Li...
DNA-binding polyamides can be programmed to target critical genomic sequences to inhibit specific pr...
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