File:DNA gyrase and topoisomerase IV identification in 4-pyridone group.pdf
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[edit]DescriptionDNA gyrase and topoisomerase IV identification in 4-pyridone group.pdf |
English: Molecule 1 contains five aromatic rings fused to the core (4-pyridone), molecule 2 contains one methyl at X8, molecule 4 doesn’t contain -COO or isothiazol-3(2H)-one fused to the core at X3, molecule 5 contains hydrogen at X1 and molecule 6 contains one methyl attached to the aromatic ring (phenyl) at X8 (here X8 means six-membered aromatic ring fused to the core at X5) in position 6. Therefore, the target of molecules 1, 2, 4, 5 and 6 is not DNA gyrase and topoisomerase IV inhibition.
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Source | Own work |
Author | SSamadi15 |
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Date/Time | Thumbnail | Dimensions | User | Comment | |
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current | 17:22, 28 August 2019 | 1,275 × 1,650 (237 KB) | SSamadi15 (talk | contribs) | Reverted to version as of 18:29, 27 August 2019 (UTC) | |
17:14, 28 August 2019 | 1,275 × 1,650 (340 KB) | SSamadi15 (talk | contribs) | Molecule 1 contains five aromatic rings fused to the core (4-pyridone), molecule 2 contains one methyl at X8, molecule 4 doesn’t contain -COO or isothiazol-3(2H)-one fused to the core at X3, molecule 5 contains hydrogen at X1 and molecule 6 contains one methyl attached to the aromatic ring (phenyl) at X8 (here X8 means six-membered aromatic ring fused to the core at X5) in position 6. Therefore, the target of molecules 1, 2, 4, 5 and 6 is not DNA gyrase and topoisomerase IV inhibition. Refe... | ||
16:58, 28 August 2019 | 1,275 × 1,650 (265 KB) | SSamadi15 (talk | contribs) | Molecule 1 contains five aromatic rings fused to the core (4-pyridone), molecule 2 contains one methyl at X<sub>8</sub>, molecule 4 doesn’t contain -COO or isothiazol-3(2''H'')-one fused to the core at X<sub>3</sub>, molecule 5 contains hydrogen at X<sub>1</sub> and molecule 6 contains one methyl attached to the aromatic ring (phenyl) at X<sub>8</sub> (here X<sub>8</sub> means six-membered aromatic ring fused to the core at X<sub>5</sub>) in position 6. Therefore, the target of molecules 1, 2... | ||
18:29, 27 August 2019 | 1,275 × 1,650 (237 KB) | SSamadi15 (talk | contribs) | User created page with UploadWizard |
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Short title | Reliable target prediction of bioactive molecules based on chemical similarity without employing statistical methods |
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Image title | The prediction of biological targets of bioactive molecules from machine-readable materials can be routinely performed by computational target prediction tools (CTPTs). However, the prediction of biological targets of bioactive molecules from non-digital materials (e.g., printed or handwritten documents) has not been possible due to the complex nature of bioactive molecules and impossibility of employing computations. Improving the target prediction accuracy is the most important challenge for computational target prediction. A minimum structure is identified for each group of neighbor molecules in the proposed method. Each group of neighbor molecules represents a distinct structural class of molecules with the same function in relation to the target. The minimum structure is employed as a query to search for molecules that perfectly satisfy the minimum structure of what is guessed crucial for the targeted activity. The proposed method is based on chemical similarity, but only molecules that perfectly satisfy the minimum structure are considered. Structurally related bioactive molecules found with the same minimum structure were considered as neighbor molecules of the query molecule. The known target of the neighbor molecule is used as a reference for predicting the target of the neighbor molecule with an unknown target. A lot of information is needed to identify the minimum structure, because it is necessary to know which part(s) of the bioactive molecule determines the precise target or targets responsible for the observed phenotype. Therefore, the predicted target based on the minimum structure without employing the statistical significance is considered as a reliable prediction. Since only molecules that perfectly (and not partly) satisfy the minimum structure are considered, the minimum structure can be used without similarity calculations in non-digital materials and with similarity calculations (perfect similarity) in machine-readable materials. Nine tools (PASS online, PPB, SEA, TargetHunter, PharmMapper, ChemProt, HitPick, SuperPred, and SPiDER), which can be used for computational target prediction, are compared with the proposed method for 550 target predictions. The proposed method, SEA, PPB, and PASS online, showed the best quality and quantity for the accurate predictions. Figure: The identification of a bioactive molecule with the target of DNA gyrase and topoisomerase IV inhibition by the minimum structure in 4-pyridone group: Molecule 1 contains five aromatic rings fused to the core (4-pyridone), molecule 2 contains one methyl at X8, molecule 4 doesn’t contain -COO or isothiazol-3(2H)-one fused to the core at X3, molecule 5 contains hydrogen at X1 and molecule 6 contains one methyl attached to the aromatic ring (phenyl) at X8 (here X8 means six-membered aromatic ring fused to the core at X5) in position 6. Therefore, the target of molecules 1, 2, 4, 5 and 6 is not DNA gyrase and topoisomerase IV inhibition. |
Author | Abed Forouzesh, Sadegh Samadi Foroushani, Fatemeh Forouzesh, Eskandar Zand |
Software used | Abed Forouzesh, Sadegh Samadi Foroushani |
Conversion program | Sadegh Samadi Foroushani |
Encrypted | yes (print:yes copy:yes change:no addNotes:no algorithm:AES-256) |
Page size | 612 x 792 pts (letter) |
Version of PDF format | 1.7 |