Drug, molecules consist of a few tens of atoms connected by covalent bonds. Haw many such molecules are possible in total and what is their structure? This question is of pressing interest in: medicinal. chemistry to help solve the problems of drug potency, selectivity, and toxicity and reduce attrition rates by pointing to new molecular series. To better define the unknown chemical space, we have enumerated 166.4 billion molecules of up to 17 atoms of C, N, O, S, and halogens forming the Chemical-universe. database GDB-17, covering a size range containing many drugs and typical for lead compounds. GDB-17 contains Millions of isomers of known drugs,. including analogs: with high, shape : similarity to the parent drug. Compared to known mole...
The chemical space is the ensemble of all possible molecules, which is believed to contain at least ...
Motivation: The development of chemoinformatics has been hampered by the lack of large, publicly ava...
© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim This is, to our knowledge, the most comprehensiv...
One of the most important chemical issues in drug discovery is innovation, in particular at the leve...
The goal of this paper is to estimate the number of realistic drug-like molecules which could ever b...
The generated database GDB17 enumerates 166.4 billion possible molecules up to 17 atoms of C, N, O, ...
Organic small molecules are of particular interest for medicinal chemistry since they comprise many ...
The chemical universe database GDB-17 contains 166.4 billion molecules of up to 17 atoms of C, N, O,...
All molecules of up to 11 atoms of C, N, O, and F possible under consideration of simple valency, ch...
Drug discovery is in constant need of new molecules to develop drugs addressing unmet medical needs....
About GDB-11 enumerates small organic molecules up to 11 atoms of C, N, O and F following simple ch...
Over the past decade one can observe a scientific revolution taking place resulting in an explosion ...
Computational de novo design of new drugs and materials requires rigorous and unbiased exploration o...
Here, we explore the chemical space of all virtually possible organic molecules focusing on ring sys...
Motivation: The development of chemoinformatics has been hampered by the lack of large, publicly ava...
The chemical space is the ensemble of all possible molecules, which is believed to contain at least ...
Motivation: The development of chemoinformatics has been hampered by the lack of large, publicly ava...
© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim This is, to our knowledge, the most comprehensiv...
One of the most important chemical issues in drug discovery is innovation, in particular at the leve...
The goal of this paper is to estimate the number of realistic drug-like molecules which could ever b...
The generated database GDB17 enumerates 166.4 billion possible molecules up to 17 atoms of C, N, O, ...
Organic small molecules are of particular interest for medicinal chemistry since they comprise many ...
The chemical universe database GDB-17 contains 166.4 billion molecules of up to 17 atoms of C, N, O,...
All molecules of up to 11 atoms of C, N, O, and F possible under consideration of simple valency, ch...
Drug discovery is in constant need of new molecules to develop drugs addressing unmet medical needs....
About GDB-11 enumerates small organic molecules up to 11 atoms of C, N, O and F following simple ch...
Over the past decade one can observe a scientific revolution taking place resulting in an explosion ...
Computational de novo design of new drugs and materials requires rigorous and unbiased exploration o...
Here, we explore the chemical space of all virtually possible organic molecules focusing on ring sys...
Motivation: The development of chemoinformatics has been hampered by the lack of large, publicly ava...
The chemical space is the ensemble of all possible molecules, which is believed to contain at least ...
Motivation: The development of chemoinformatics has been hampered by the lack of large, publicly ava...
© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim This is, to our knowledge, the most comprehensiv...