Novel Algorithms for the Identification of Biologically Informative Chemical Diversity Metrics

Lushington, Gerald H.; Theertham, Bhargav; Wang, Jenna L.; Fang, Jianwen

doi:10.2174/157340908783769292

Cited by 3 publications

(1 citation statement)

References 23 publications

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“…Molecular fingerprints are used for searching chemical databases and assessing chemical similarity [1]. They consist of strings of binary bits of fixed length that are assigned to each compound.…”

Section: Introductionmentioning

confidence: 99%

Uniqueness: skews bit occurrence frequencies in randomly generated fingerprint libraries

Chen

2016

Mol Divers

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Requiring that randomly generated chemical fingerprint libraries have unique fingerprints such that no two fingerprints are identical causes a systematic skew in bit occurrence frequencies, the proportion at which specified bits are set. Observed frequencies (O) at which each bit is set within the resulting libraries systematically differ from frequencies at which bits are set at fingerprint generation (E). Observed frequencies systematically skew toward 0.5, with the effect being more pronounced as library size approaches the compound space, which is the total number of unique possible fingerprints given the number of bit positions each fingerprint contains. The effect is quantified for varying library sizes as a fraction of the overall compound space, and for changes in the specified frequency E. The cause and implications for this systematic skew are subsequently discussed. When generating random libraries of chemical fingerprints, the imposition of a uniqueness requirement should either be avoided or taken into account.

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Section: Introductionmentioning

confidence: 99%

Uniqueness: skews bit occurrence frequencies in randomly generated fingerprint libraries

Chen

2016

Mol Divers

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Structural Key Bit Occurrence Frequencies and Dependencies in PubChem and Their Effect on Similarity Searches

Chen

Golovlev

2013

Molecular Informatics

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Little published literature exists on the 881 bit structural keys used by PubChem for categorizing and comparing the compounds present in its database. We characterized these structural keys by examining their frequencies of occurrence within the PubChem compound database. In addition, bit dependencies, defined as the universal presence of a bit given the presence of another, were determined. We show that the vast majority of bits are rarely set and that substantial numbers of dependencies exist. A comparison of similarity searches with five United States Food and Drug Administration approved drugs as reference compounds using the full structural keys versus a variant in which all dependent bits were removed was performed using the Tanimoto coefficient. These bit dependencies not only affect similarity scores, but also alter the compounds returned in similarity searching. Judicious selection of bits is needed to maintain sufficient ability to differentiate related compounds.

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Design and Synthesis of Medium-Ring Lactam Libraries Inspired by Octalactin A. A Convergent−Divergent Approach

et al. 2008

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Small molecule compound libraries based on medium rings 1 are virtually unknown. 2 This critical gap in the literature is probably caused by two main factors. First, medium ring natural products are themselves uncommon and therefore less likely to be the object of total synthesis efforts. 3 Second, there is a widely held view that medium rings remain the most challenging and difficult systems to synthesize. 4 As part of a program to identify interesting chemotypes for library development, we examined several medium-ring natural products. One system in particular, namely, octalactin A (1) (Figure 1), 5 continues to attract intense interest because of its fascinating architecture and potent antitumor profile. 6 The rare, saturated eight-membered lactone core appeared to be an attractive feature on which to base a new library template. Our previous experience with the total synthesis of the octalactins7 and of other eight-membered lactone natural products 8 by means of a facile direct lactonization from the saturated seco acid ("zip-up" approach) and via an equally efficient ringclosing metathesis to afford oxocenes from the diene ester ("zip-down" approach), 9 provided the enabling technology for this project and prompted us to proceed with this scaffold.Because it was desirable for us to have the flexibility to introduce additional functionality that could later be easily modified, we settled on a convergent-divergent strategy of constructing lactam rather than lactone libraries via RCM (Scheme 1).In the convergent phase, three simple, commercially available building blocks served as sources of diversity for the scaffold: protected L-amino acids, benzaldehydes, and benzyl amines. Once the desired frameworks were in hand, diversification at the secondary amine R 2 N was carried out in parallel fashion (divergent phase) to afford compound libraries of amines, amides, sulfonamides, carbamates, and ureas. As a guiding principle for the creation of molecules most likely to have druglike properties, all of the entries were screened in silico prior to synthesis to comport with Lipinski's Rules. 10 We are now pleased to report a 163-member demonstration library, the first based on a monocyclic medium-ring platform. The synthesis of the scaffold began with the commercially available t-butyl ester hydrochloride salts of the amino acids glycine, alanine, and phenylalanine (Scheme 2). The salts were allylated by a modified one-pot literature procedure (CH 2 =CHCH 2 Br, NaHCO 3 , LiI), 11 and then protected with the Fmoc group to afford the Nallyl esters 12-14 in 53-81% yield. Attempts at unmasking the carboxylic acid using conventional ester hydrolysis protocols proved unsuccessful and resulted in significant racemization with the two chiral amino acids. However, the use of Et 3 SiH in TFA/CH 2 Cl 2 (1:1) 12 produced the desired acids 15-17.To maximize the number compounds available for biological screening with a minimum of synthetic effort, we decided to employ a single racemic coupling partner. The secondary allylic amin...

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Novel Algorithms for the Identification of Biologically Informative Chemical Diversity Metrics

Cited by 3 publications

References 23 publications

Uniqueness: skews bit occurrence frequencies in randomly generated fingerprint libraries

Uniqueness: skews bit occurrence frequencies in randomly generated fingerprint libraries

Structural Key Bit Occurrence Frequencies and Dependencies in PubChem and Their Effect on Similarity Searches

Design and Synthesis of Medium-Ring Lactam Libraries Inspired by Octalactin A. A Convergent−Divergent Approach

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