Add to ORKGThe development of Py–Im polyamides as potential therapeutic agents is an example of the application of fundamental science at all levels from initial concept, based on purely chemical considerations of DNA–binding, through refinement of the design process to improvements in synthesis, critical analysis of DNA–binding properties, solving problems of cell uptake and distribution, pharmacokinetics and whole–animal studies leading up to clinical trials. This chapter will document the story with particular regard to the development of drugs aimed at treating one of the most prevalent cancers that beset patients today, therapy-resistant prostate cancer
Pyrrole (Py)—Imidazole (Im) polyamides are a class of non-genotoxic DNA-binding small molecules with...
abstract: Abstract Molecular Engineering of Novel Polymeric Agents for Targeted Cancer Gene Therapy ...
During the past 20 years, polyamides have evolved from the natural product distamycin to a new class...
The development of Py–Im polyamides as potential therapeutic agents is an example of the application...
Pyrrole-imidazole polyamides are synthetic mols. programmed to read the DNA double helix by a set of...
Many human diseases are caused by dysregulated gene expression. The oversupply or overactivity of on...
DNA-minor groove binding small molecules have been extensively developed to achieve higher binding a...
DNA-binding polyamides can be programmed to target critical genomic sequences to inhibit specific pr...
THESIS 8785This thesis entitled "Biological Investigations of Novel 1,8-Naphthalimide Compounds and ...
The antiproliferative effects of Py-Im polyamides have been evaluated in several cancer models. The ...
Pyrrole−imidazole (Py-Im) hairpin polyamides are a class of small molecule DNA minor groove binding ...
Pyrrole-imidazole (Py-Im) polyamides are high affinity DNA-binding small molecules that can inhibit ...
Non-genotoxic small molecules of low systemic toxicity that can potentiate the effects of radiation ...
The natural product distamycin contains three N-methylpyrrole amino acids and binds in the minor gro...
This chapter provides an overview of how the polyamine pathway has been exploited as a target for th...
Pyrrole (Py)—Imidazole (Im) polyamides are a class of non-genotoxic DNA-binding small molecules with...
abstract: Abstract Molecular Engineering of Novel Polymeric Agents for Targeted Cancer Gene Therapy ...
During the past 20 years, polyamides have evolved from the natural product distamycin to a new class...
The development of Py–Im polyamides as potential therapeutic agents is an example of the application...
Pyrrole-imidazole polyamides are synthetic mols. programmed to read the DNA double helix by a set of...
Many human diseases are caused by dysregulated gene expression. The oversupply or overactivity of on...
DNA-minor groove binding small molecules have been extensively developed to achieve higher binding a...
DNA-binding polyamides can be programmed to target critical genomic sequences to inhibit specific pr...
THESIS 8785This thesis entitled "Biological Investigations of Novel 1,8-Naphthalimide Compounds and ...
The antiproliferative effects of Py-Im polyamides have been evaluated in several cancer models. The ...
Pyrrole−imidazole (Py-Im) hairpin polyamides are a class of small molecule DNA minor groove binding ...
Pyrrole-imidazole (Py-Im) polyamides are high affinity DNA-binding small molecules that can inhibit ...
Non-genotoxic small molecules of low systemic toxicity that can potentiate the effects of radiation ...
The natural product distamycin contains three N-methylpyrrole amino acids and binds in the minor gro...
This chapter provides an overview of how the polyamine pathway has been exploited as a target for th...
Pyrrole (Py)—Imidazole (Im) polyamides are a class of non-genotoxic DNA-binding small molecules with...
abstract: Abstract Molecular Engineering of Novel Polymeric Agents for Targeted Cancer Gene Therapy ...
During the past 20 years, polyamides have evolved from the natural product distamycin to a new class...