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BioAssay: AID 540355

Gel-Based Assay for Inhibitos of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Chemistry Optimization Followup

The covalent attachment of a phosphopantetheinyl (4'-PP) arm to a variety of synthases and other proteins is a key posttranslational protein modification. The 4'-PP is installed on the proteins post-translationally from coenzyme A (CoA) on a conserved serine residue by action of phosphopantetheinyl transferase (PPTase) enzymes. Phosphopantetheinylation is essential for synthase activity, and more ..
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 Tested Compounds
 Tested Compounds
All(204)
 
 
Active(112)
 
 
Inactive(54)
 
 
Inconclusive(46)
 
 
 Tested Substances
 Tested Substances
All(219)
 
 
Active(118)
 
 
Inactive(55)
 
 
Inconclusive(46)
 
 
AID: 540355
Data Source: NCGC (PPT802)
BioAssay Type: Confirmatory, Concentration-Response Relationship Observed
Depositor Category: NIH Molecular Libraries Probe Production Network
BioAssay Version:
Deposit Date: 2011-08-16
Hold-until Date: 2012-08-15
Modify Date: 2013-01-04

Data Table ( Complete ):           View Active Data    View All Data
Target
BioActive Compounds: 112
Related Experiments
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AIDNameTypeComment
1490qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase)Confirmatorydepositor-specified cross reference: qHTS
1819Probe Development Summary of Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase)Summarydepositor-specified cross reference: Summary AID
2707Gel-Based Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase)Confirmatorydepositor-specified cross reference: Hit Validation Assay
2701Confirmation qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase)Confirmatorysame project related to Summary assay
493214Inhibitos of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Dry Powder FollowupConfirmatorysame project related to Summary assay
540350qHTS Assay for Inhibitos of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Chemistry Optimization FollowupConfirmatorysame project related to Summary assay
540352qHTS for Inhibitos of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Chemistry Optimization Followup in B. Subtilis 168Confirmatorysame project related to Summary assay
540353qHTS for Inhibitos of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Chemistry Optimization Followup in B. Subtilis HM489Confirmatorysame project related to Summary assay
602360qHTS Assay for Inhibitors of Bacillus subtilis AcpS phosphopantetheinyl transferase (PPTase): SARConfirmatorysame project related to Summary assay
602362qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Gel Based AssayConfirmatorysame project related to Summary assay
602366qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): SAR in B subtilis HM489Confirmatorysame project related to Summary assay
602370qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): SAR Round 2Confirmatorysame project related to Summary assay
602371qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): SAR in B subtilis 168Confirmatorysame project related to Summary assay
602373qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Hepg2 AssayConfirmatorysame project related to Summary assay
602391qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): SAR in hGST A1-1Confirmatorysame project related to Summary assay
602392qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Label Free Assay for SAROthersame project related to Summary assay
602479qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Mouse Liver Microsome Stability (Half Time)Othersame project related to Summary assay
602480qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Aqueous Solubility in PBSOthersame project related to Summary assay
624112qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Aqueous Solubility in PBSOthersame project related to Summary assay
624113qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): Mouse Plasma StabilityOthersame project related to Summary assay
624118qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): CYP 3A4Othersame project related to Summary assay
624119qHTS Assay for Inhibitors of Bacillus subtilis Sfp phosphopantetheinyl transferase (PPTase): CYP 2D6Othersame project related to Summary assay
Description:
The covalent attachment of a phosphopantetheinyl (4'-PP) arm to a variety of synthases and other proteins is a key posttranslational protein modification. The 4'-PP is installed on the proteins post-translationally from coenzyme A (CoA) on a conserved serine residue by action of phosphopantetheinyl transferase (PPTase) enzymes. Phosphopantetheinylation is essential for synthase activity, and removal of the PPTase gene precludes natural product synthesis in microorganisms, or in the case of fatty acid biosynthesis, renders the organism unviable. PPTase enzymes belong to a distinct structural superfamily. Within bacteria, these enzymes are grouped into two classes based upon primary structure, the AcpS-Type and Sfp-Type PPTases.

Sfp-type PPTases, corresponding to an activator of surfactin production in Bacillus subtilis, are responsible for modifying type I polyketide and nonribosomal peptide synthases of prokaryotes. Sfp-type PPTases are responsible for the activation of a variety of pathogen-associated virulence factors. Among these compounds are toxins such as mycolactone from Mycobacterium ulcerans, siderophores such as vibriobactin from Vibrio cholerae or mycobactin from Mycobacterium tuberculosis, as well as the mycolic acids which form the waxy cell wall of Mycobacteria. The biosyntheses of these natural products are considered attractive targets for drug design.

In this assay, compounds were evaluated by monitoring of fluorescence transfer to whole carrier protein substrates via polyacrylamide gel electrophoresis. See Yasgar, et al. (PMID: 20094656) for further details on assay. This assay was used to evaluate follow-up compounds from the primary screen (AID: 1490).

NIH Chemical Genomics Center [NCGC]
NIH Molecular Libraries Probe Centers Network [MLPCN]

MLPCN Grant: MH083266-01
Assay Submitter (PI): Michael Burkart, University of California, San Diego
Protocol
A DMSO solution of confirmed hits (0.5 microL) was added to a 1.33X enzyme solution (15 microL, containing 26.6 nM Sfp, 66 mM HEPES, 13.3 mM MgCl2, 0.0133% NP-40, 0.133% BSA, pH 7.6). After a 10 minute incubation, the enzymatic reaction was initiated by the addition of 4 X substrate solution (4 microL, containing 50 microM Rhodamine CoA and 50 microM apo-Actinorhodin-ACP). The reactions were terminated after a 30 minute incubation at room temperature by the addition of 2X quench solution (20 microL, containing 4 M Urea, 25 mM EDTA, 0.004% phenol red, pH 8.0). Samples were separated under native conditions on a 20% polyacrylamide gel using standard Laemmli conditions. Following the run, gels were imaged with a Chemi-Doc Plus imager (Bio-Rad, Hercules, CA) and band intensity quantified using the ImageJ software package. Pixel density values were normalized to control wells (SCH202676) and fit with the 4-parameter Hill equation using in-house tools [1].
[1] Yasgar, et al. (PMID: 20094656)
Comment
Compound Ranking:
1. Compounds are first classified as having full titration curves, partial modulation, partial curve (weaker actives), single point activity (at highest concentration only), or inactive. See data field "Curve Description". For this assay, apparent inhibitors are ranked higher than compounds that showed apparent activation.
2. For all inactive compounds, PUBCHEM_ACTIVITY_SCORE is 0. For all active compounds, a score range was given for each curve class type given above. Active compounds have PUBCHEM_ACTIVITY_SCORE between 40 and 100. Inconclusive compounds have PUBCHEM_ACTIVITY_SCORE between 1 and 39. Fit_LogAC50 was used for determining relative score and was scaled to each curve class' score range.
Categorized Comment - additional comments and annotations
From ChEMBL:
Assay Type: Functional
Result Definitions
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TIDNameDescriptionHistogramTypeUnit
OutcomeThe BioAssay activity outcomeOutcome
ScoreThe BioAssay activity ranking scoreInteger
1PhenotypeIndicates type of activity observed: inhibitor, activator, fluorescent, cytotoxic, inactive, or inconclusive.String
2Potency*Concentration at which compound exhibits half-maximal efficacy, AC50. Extrapolated AC50s also include the highest efficacy observed and the concentration of compound at which it was observed.FloatμM
3EfficacyMaximal efficacy of compound, reported as a percentage of control. These values are estimated based on fits of the Hill equation to the dose-response curves.Float%
4Analysis CommentAnnotation/notes on a particular compound's data or its analysis.String
5Curve_DescriptionA description of dose-response curve quality. A complete curve has two observed asymptotes; a partial curve may not have attained its second asymptote at the highest concentration tested. High efficacy curves exhibit efficacy greater than 80% of control. Partial efficacies are statistically significant, but below 80% of control.String
6Fit_LogAC50The logarithm of the AC50 from a fit of the data to the Hill equation (calculated based on Molar Units).Float
7Fit_HillSlopeThe Hill slope from a fit of the data to the Hill equation.Float
8Fit_R2R^2 fit value of the curve. Closer to 1.0 equates to better Hill equation fit.Float
9Fit_InfiniteActivityThe asymptotic efficacy from a fit of the data to the Hill equation.Float%
10Fit_ZeroActivityEfficacy at zero concentration of compound from a fit of the data to the Hill equation.Float%
11Fit_CurveClassNumerical encoding of curve description for the fitted Hill equation.Float
12Excluded_PointsWhich dose-response titration points were excluded from analysis based on outlier analysis. Each number represents whether a titration point was (1) or was not (0) excluded, for the titration series going from smallest to highest compound concentrations.String
13Max_ResponseMaximum activity observed for compound (usually at highest concentration tested).Float%
14Activity at 0.00141 uM (0.00141126μM**)% Activity at given concentration.Float%
15Activity at 0.00423 uM (0.00423377μM**)% Activity at given concentration.Float%
16Activity at 0.013 uM (0.0127013μM**)% Activity at given concentration.Float%
17Activity at 0.038 uM (0.0381039μM**)% Activity at given concentration.Float%
18Activity at 0.114 uM (0.114312μM**)% Activity at given concentration.Float%
19Activity at 0.343 uM (0.342936μM**)% Activity at given concentration.Float%
20Activity at 1.029 uM (1.02881μM**)% Activity at given concentration.Float%
21Activity at 3.086 uM (3.08642μM**)% Activity at given concentration.Float%
22Activity at 9.259 uM (9.25926μM**)% Activity at given concentration.Float%
23Activity at 27.78 uM (27.7778μM**)% Activity at given concentration.Float%
24Activity at 83.33 uM (83.3333μM**)% Activity at given concentration.Float%
25Activity at 250.0 uM (250μM**)% Activity at given concentration.Float%
26Activity at 250.0 uM (250μM**)% Activity at given concentration.Float%
27Compound QCNCGC designation for data stage: 'qHTS', 'qHTS Verification', 'Secondary Profiling'String

* Activity Concentration. ** Test Concentration.
Additional Information
Grant Number: MH083266

Data Table (Concise)
Data Table ( Complete ):     View Active Data    View All Data
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