The generated databases (GDBs) list billions of possible molecules from systematic enumeration following simple rules of chemical stability and synthetic feasibility. To assess the originality of GDB molecules, we compared their Bemis and Murcko molecular frameworks (MFs) with those in public databases. MFs result from molecules by converting all atoms to carbons, all bonds to single bonds, and removing terminal atoms iteratively until none remain. We compared GDB-13s (99,394,177 molecules up to 13 atoms containing simplified functional groups, 22,130 MFs) with ZINC (885,905,524 screening compounds, 1,016,597 MFs), PubChem50 (100,852,694 molecules up to 50 atoms, 1,530,189 MFs), and COCONUT (401,624 natural products, 42,734 MFs). While MFs ...
Motivation: The development of chemoinformatics has been hampered by the lack of large, publicly ava...
The chemical universe database GDB-17 contains 166.4 billion molecules of up to 17 atoms of C, N, O,...
© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim This is, to our knowledge, the most comprehensiv...
About GDB-11 enumerates small organic molecules up to 11 atoms of C, N, O and F following simple ch...
One of the most important chemical issues in drug discovery is innovation, in particular at the leve...
Identifying innovative fragments for drug design can help medicinal chemistry address new targets an...
All molecules of up to 11 atoms of C, N, O, and F possible under consideration of simple valency, ch...
The generated database GDB17 enumerates 166.4 billion possible molecules up to 17 atoms of C, N, O, ...
The chemical universe database GDB-13, which enumerates 977million organic molecules up to 13 atoms ...
Here, we explore the chemical space of all virtually possible organic molecules focusing on ring sys...
Experimentally refined crystal structures for metal–organic frameworks (MOFs) often include solvent ...
By combining metal nodes and organic linkers, an infinite number of metal organic frameworks (MOFs) ...
Drug, molecules consist of a few tens of atoms connected by covalent bonds. Haw many such molecules ...
Drug discovery is in constant need of new molecules to develop drugs addressing unmet medical needs....
Motivation: The development of chemoinformatics has been hampered by the lack of large, publicly ava...
Motivation: The development of chemoinformatics has been hampered by the lack of large, publicly ava...
The chemical universe database GDB-17 contains 166.4 billion molecules of up to 17 atoms of C, N, O,...
© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim This is, to our knowledge, the most comprehensiv...
About GDB-11 enumerates small organic molecules up to 11 atoms of C, N, O and F following simple ch...
One of the most important chemical issues in drug discovery is innovation, in particular at the leve...
Identifying innovative fragments for drug design can help medicinal chemistry address new targets an...
All molecules of up to 11 atoms of C, N, O, and F possible under consideration of simple valency, ch...
The generated database GDB17 enumerates 166.4 billion possible molecules up to 17 atoms of C, N, O, ...
The chemical universe database GDB-13, which enumerates 977million organic molecules up to 13 atoms ...
Here, we explore the chemical space of all virtually possible organic molecules focusing on ring sys...
Experimentally refined crystal structures for metal–organic frameworks (MOFs) often include solvent ...
By combining metal nodes and organic linkers, an infinite number of metal organic frameworks (MOFs) ...
Drug, molecules consist of a few tens of atoms connected by covalent bonds. Haw many such molecules ...
Drug discovery is in constant need of new molecules to develop drugs addressing unmet medical needs....
Motivation: The development of chemoinformatics has been hampered by the lack of large, publicly ava...
Motivation: The development of chemoinformatics has been hampered by the lack of large, publicly ava...
The chemical universe database GDB-17 contains 166.4 billion molecules of up to 17 atoms of C, N, O,...
© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim This is, to our knowledge, the most comprehensiv...