In drug discovery, one uses chemical space as a concept to organize molecules according to their structures and properties. One often would like to generate new possible molecules at a specific location in the chemical space marked by a molecule of interest. Herein, we report the peptide design genetic algorithm (PDGA, code available at https://github.com/reymond-group/PeptideDesignGA), a computational tool capable of producing peptide sequences of various topologies (linear, cyclic/polycyclic, or dendritic) in proximity of any molecule of interest in a chemical space defined by macromolecule extended atom-pair fingerprint (MXFP), an atom-pair fingerprint describing molecular shape and pharmacophores. We show that the PDGA generates high-si...
We present a new representation for a genetic algorithm to evolve molecular structures representing ...
This article describes a program for pharmacophore mapping, called MPHIL (Mapping PHarmacophores In ...
The biol. functions of proteins, from mol. recognition to enzymic activity, depend on the thermodn. ...
Peptides, defined as sequences of amino acids up to approximately 50 residues in length, represent a...
From their early roots in natural products, peptides now represent an expanding class of novel drugs...
The ?Chemical space? describes the ensemble of all possible chemical compounds, in particular those ...
In the last two decades many reports have addressed the application of artificial intelligence (AI) ...
Screening phage-displayed combinatorial peptide library is an effective approach for discovery of pe...
We present a proof-of-concept methodology for efficiently optimizing a chemical trait by using an ar...
A step by step search of polypeptide structure, first for folds over L and D structures, then assemb...
The evolution of life on earth eventually leads to the emergence of species with increased complexit...
Many actively pursued pharmacological targets are difficult to drug using conventional small molecul...
We describe a computer algorithm to predict native structures of proteins and peptides from their pr...
<div><p>The discovery of peptides possessing high biological activity is very challenging due to the...
Cyclic peptides are a promising class of bioactive molecules potentially capable of modulating 'diff...
We present a new representation for a genetic algorithm to evolve molecular structures representing ...
This article describes a program for pharmacophore mapping, called MPHIL (Mapping PHarmacophores In ...
The biol. functions of proteins, from mol. recognition to enzymic activity, depend on the thermodn. ...
Peptides, defined as sequences of amino acids up to approximately 50 residues in length, represent a...
From their early roots in natural products, peptides now represent an expanding class of novel drugs...
The ?Chemical space? describes the ensemble of all possible chemical compounds, in particular those ...
In the last two decades many reports have addressed the application of artificial intelligence (AI) ...
Screening phage-displayed combinatorial peptide library is an effective approach for discovery of pe...
We present a proof-of-concept methodology for efficiently optimizing a chemical trait by using an ar...
A step by step search of polypeptide structure, first for folds over L and D structures, then assemb...
The evolution of life on earth eventually leads to the emergence of species with increased complexit...
Many actively pursued pharmacological targets are difficult to drug using conventional small molecul...
We describe a computer algorithm to predict native structures of proteins and peptides from their pr...
<div><p>The discovery of peptides possessing high biological activity is very challenging due to the...
Cyclic peptides are a promising class of bioactive molecules potentially capable of modulating 'diff...
We present a new representation for a genetic algorithm to evolve molecular structures representing ...
This article describes a program for pharmacophore mapping, called MPHIL (Mapping PHarmacophores In ...
The biol. functions of proteins, from mol. recognition to enzymic activity, depend on the thermodn. ...