Bookmark and Share
BioAssay: AID 624018

Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa (absorbance 405nm) Measured in Whole Organism System Using Plate Reader - 2091-05_Inhibitor_Dose_DryPowder_Activity

Assay Overview: Pseudomonas Aeruginosa growth delay assay (absorbance) in presence of metal chelator ..more
_
   
 Tested Compounds
 Tested Compounds
All(41)
 
 
Active(9)
 
 
Inactive(32)
 
 
 Tested Substances
 Tested Substances
All(41)
 
 
Active(9)
 
 
Inactive(32)
 
 
AID: 624018
Data Source: Broad Institute (2091-05_Inhibitor_Dose_DryPowder_Activity)
BioAssay Type: Confirmatory, Concentration-Response Relationship Observed
Depositor Category: NIH Molecular Libraries Probe Production Network
Deposit Date: 2012-04-05
Hold-until Date: 2013-04-05
Modify Date: 2013-04-05

Data Table ( Complete ):           View Active Data    View All Data
Target
BioActive Compounds: 9
Related Experiments
Show more
AIDNameTypeComment
488968Broad Institute Inhibitors of Pyoverdine Production ProjectSummarydepositor-specified cross reference: Summary assay
488965Fluorescent Biochemical Primary HTS to Identify Inhibitors of P. aeruginosa PvdQ acylase Measured in Biochemical System Using Plate Reader and Imaging Combination - 2091-01_Inhibitor_SinglePoint_HTS_ActivityScreeningsame project related to Summary assay
493231Fluorescent Biochemical Primary HTS to Identify Inhibitors of P. aeruginosa PvdQ acylase Measured in Biochemical System Using Plate Reader and Imaging Combination - 2091-01_Inhibitor_Dose_CherryPick_ActivityConfirmatorysame project related to Summary assay
504942Mammalian cell toxicity screen in HeLa cells 48h Measured in Cell-Based System Using Plate Reader - 2091-03_Inhibitor_Dose_CherryPick_ActivityConfirmatorysame project related to Summary assay
504944Mammalian cell toxicity screen in HeLa cells 48h Measured in Cell-Based System Using Plate Reader - 2091-03_Inhibitor_Dose_CherryPick_Activity_Set2Confirmatorysame project related to Summary assay
602389Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa Measured in Whole Organism System Using Plate Reader - 2091-05_Inhibitor_Dose_CherryPick_ActivityConfirmatorysame project related to Summary assay
623950Counterscreen measuring mammalian cell toxicity screen in HeLa cells of pyoverdine inhibitors Measured in Cell-Based System Using Plate Reader - 2091-03_Inhibitor_Dose_DryPowder_ActivityConfirmatorysame project related to Summary assay
623951Fluorescent Biochemical Primary HTS to Identify Inhibitors of P. aeruginosa PvdQ acylase Measured in Biochemical System Using Plate Reader - 2091-02_Inhibitor_Dose_DryPowder_ActivityConfirmatorysame project related to Summary assay
623985Fluorescent Biochemical Primary HTS to Identify Inhibitors of P. aeruginosa PvdQ acylase Measured in Biochemical System Using Plate Reader - 2091-02_Inhibitor_Dose_DryPowder_Activity_Set2Confirmatorysame project related to Summary assay
623987Counterscreen measuring mammalian cell toxicity screen in HeLa cells of pyoverdine inhibitors Measured in Cell-Based System Using Plate Reader - 2091-03_Inhibitor_Dose_DryPowder_Activity_Set3Confirmatorysame project related to Summary assay
623990Counterscreen measuring mammalian cell toxicity screen in HeLa cells of pyoverdine inhibitors Measured in Cell-Based System Using Plate Reader - 2091-03_Inhibitor_Dose_DryPowder_Activity_Set2Confirmatorysame project related to Summary assay
623991Fluorescent Biochemical Primary HTS to Identify Inhibitors of P. aeruginosa PvdQ acylase Measured in Biochemical System Using Plate Reader - 2091-02_Inhibitor_Dose_DryPowder_Activity_Set3Confirmatorysame project related to Summary assay
623993Fluorescent Biochemical Primary HTS to Identify Inhibitors of P. aeruginosa PvdQ acylase Measured in Biochemical System Using Plate Reader - 2091-02_Inhibitor_Dose_DryPowder_Activity_Set4Confirmatorysame project related to Summary assay
624011Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa (absorbance 405nm) Measured in Whole Organism System Using Plate Reader - 2091-05_Inhibitor_Dose_DryPowder_Activity_Set2Confirmatorysame project related to Summary assay
624016Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa (absorbance 405nm) Measured in Whole Organism System Using Plate Reader - 2091-05_Inhibitor_Dose_DryPowder_Activity_Set4Confirmatorysame project related to Summary assay
624020Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa (absorbance 405nm) Measured in Whole Organism System Using Plate Reader - 2091-05_Inhibitor_Dose_DryPowder_Activity_Set3Confirmatorysame project related to Summary assay
624033Whole cell secondary assay to identify compounds reducing the production of iron chelator pyoverdine using Chromeazurol S dye in Pseudomonas Aeruginosa Measured in Whole Organism System Using Imaging - 2091-11_Inhibitor_Dose_DryPowder_ActivityConfirmatorysame project related to Summary assay
624058Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa (absorbance 600 nm) Measured in Whole Organism System Using Plate Reader - 2091-05_Inhibitor_Dose_CherryPick_Activity_Set2Confirmatorysame project related to Summary assay
624064Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa (absorbance 600 nm) Measured in Whole Organism System Using Plate Reader - 2091-05_Inhibitor_Dose_DryPowder_Activity_Set7Confirmatorysame project related to Summary assay
624070Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa (absorbance 405 nm) Measured in Whole Organism System Using Plate Reader - 2091-05_Inhibitor_Dose_DryPowder_Activity_Set5Confirmatorysame project related to Summary assay
624072Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa PAK pump mutant mexAB-OprM strain (absorbance 600nm) Measured in Whole Organism System Using Plate Reader - 2091-10_Inhibitor_Dose_DryPowder_Activity_Set3Confirmatorysame project related to Summary assay
624073Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa PAK strain (absorbance 600nm) Measured in Whole Organism System Using Plate Reader - 2091-08_Inhibitor_Dose_DryPowder_Activity_Set3Confirmatorysame project related to Summary assay
624074Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa PAK pump mutant mexAB-OprM strain (absorbance 600nm) Measured in Whole Organism System Using Plate Reader - 2091-10_Inhibitor_Dose_DryPowder_Activity_Set4Confirmatorysame project related to Summary assay
624075Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa PAK strain (absorbance 600nm) Measured in Whole Organism System Using Plate Reader - 2091-08_Inhibitor_Dose_DryPowder_Activity_Set4Confirmatorysame project related to Summary assay
624102Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa (absorbance 405 nm) Measured in Whole Organism System Using Plate Reader - 2091-05_Inhibitor_Dose_DryPowder_Activity_Set8Confirmatorysame project related to Summary assay
624104Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa PAK pump mutant mexAB-OprM strain (absorbance 600nm) Measured in Whole Organism System Using Plate Reader - 2091-10_Inhibitor_Dose_DryPowder_Activity_Set2Confirmatorysame project related to Summary assay
624105Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa PAK pump mutant mexAB-OprM strain (absorbance 600nm) Measured in Whole Organism System Using Plate Reader - 2091-10_Inhibitor_Dose_DryPowder_ActivityConfirmatorysame project related to Summary assay
624106Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa PAK strain (absorbance 405nm) Measured in Whole Organism System Using Plate Reader - 2091-08_Inhibitor_Dose_DryPowder_Activity_Set2Confirmatorysame project related to Summary assay
624107Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa PAK strain (absorbance 405nm) Measured in Whole Organism System Using Plate Reader - 2091-08_Inhibitor_Dose_DryPowder_ActivityConfirmatorysame project related to Summary assay
624109Whole cell secondary assay to determine compounds inducing growth delay in presence of metal chelator in Pseudomonas Aeruginosa (absorbance 405 nm) Measured in Whole Organism System Using Plate Reader - 2091-05_Inhibitor_Dose_DryPowder_Activity_Set6Confirmatorysame project related to Summary assay
Description:
Keywords: pyoverdine, PvdQ, iron, metal chelator

Assay Overview: Pseudomonas Aeruginosa growth delay assay (absorbance) in presence of metal chelator
Bacteria typically require total iron concentrations in the micromolar range to support growth. Many pathogens such as P. aeruginosa produce siderophores (e.g. pyoverdine) with molecular weights below 1500 Da that bind to iron with remarkably high affinities. The PvdQ acylase is responsible for removal of the fatty acid on pyoverdine. Interestingly, mutant strains of P. aeruginosa with a deletion in the PvdQ gene do not make pyoverdine and cannot grow on iron limiting media. This secondary assay aims to selectively identify small molecules delaying the growth of Pseudomonas Aeruginosa in presence of iron chelator ethylenediamine-di (o-hydroxyphenulacetic acid) EDDHA . The small molecules will reduce the absorbance signal observed at a wavelength of 600nm mediated by the growth or absorbance signal observed at a wavelength of 405nm (pyoverdine production) of Pseudomonas Aeruginosa in presence of EDDHA.

Expected outcome: Identification of probe(s) delaying growth of Pseudomonas Aeruginosa in presence of iron chelator EDDHA. Compounds reducing the absobance by 35% at 405nm and 600nm in duplicate will be considered hits.
Protocol
Protocol Whole cell Pseudomonas Aeruginosa growth delay assay in presence of metal chelator
Day 1 (Thaw bacteria):
1.Thaw frozen vial Pseudomonas aeruginosa ((Schroter), Migula)(ATCC), 15692) and grow overnight bacteria in Succinate M9 media at 37degreeC with shaking.
Day 2 (Pinning compound in assay plate and dispense bacteria):
2#Dispense 30 ul of Succinate M9 media with 2 uM (final concentration) of ethylenediamine-di (o-hydroxyphenulacetic acid) EDDHA (Complete Green Company) in 384-well black clear bottom assay plates (Aurora Biotechnologies, 32441) using MultiDrop Combi/Standard tube dispensing cassette (Thermo Scientific). The dose response compound plate (8 concentrations, 3 fold dilution, starting concentration 10 mM) are pinned twice using 384 well pin tool (100 nl) on pin table (Walkup Cybi Well) and transferred to assay plate. Pins are washed with methanol and DMSO between each pinning. Then, 10 ul of Pseudomonas aeruginosa with 2uM EDDHA (starting OD (600nm) of 0.000002 to a final OD (600 nm) of 0.0000005) is dispensed with MultiDrop Combi/Standard tube dispensing cassette (Thermo Scientific) in the same assay plates.
3#Incubate bacteria in humidified environment at 37degreeC for 24-30h (Cytomat, High res).
Day 3 (Read on Envision)
4. Read absorbance (405 nm) on Envision (Perkin Elmer).
Succinate M9 media recipe:
6g Potassium phosphate dibasic (34.5 mM)(KH2PO4)(Sigma, P3786)
3g Potassium phosphate monobasic (22 mM)(KH2PO4)(Fisher Scientific, M-10522)
1g Ammonium sulfate (7.5 mM)((NH4)2SO4)(Sigma, A4418)
4g Succinic acid (34 mM)(Sigma, S3674)
Adjust pH at 7.0 with Potassium hydroxide (KOH)(VWR,BDH0262)
Per liter
After autoclaving media, add 0.25g Magnesium sulfate (MgSO4)(Sigma, M2643)
Comment
PRESENCE OF CONTROLS: Neutral control wells (NC; n=150) were included on every plate.
EXPECTED OUTCOME: Active compounds result in decreasing readout signal.
ACTIVE CONCENTRATION LIMIT:
For each sample, the highest valid tested concentration (Max_Concentration) was determined and the active concentration limit (AC_limit) was set to equal (2)(Max_Concentration).
NORMALIZATION:
The raw signals of the plate wells were normalized using the 'Neutral Controls' method in Genedata Assay Analyzer (v7.0.3):
The median raw signal of the intraplate neutral controls (NC) is set to a normalized activity value of 0.
A normalized activity value of 100 is defined as (2)(NC).
A normalized activity value of -50 is defined as (0.5)(NC).
Experimental wells values were scaled to this range.
PATTERN CORRECTION: No plate pattern correction algorithm from Genedata Condoseo (v.7.0.3) was applied.
MEASUREMENT USED TO DETERMINE ACTIVE CONCENTRATION (AC): absACnn, the concentration at which the curve crosses threshold -35.0
AC values were calculated using the curve fitting strategies in Genedata Screener Condoseo (7.0.3).
AC values were calculated up to the active concentration limit described for each sample.
pAC was set to equal -1*log10(AC)
PUBCHEM_ACTIVITY_OUTCOME:
Activity_Outcome = 1 (inactive) when:
a) compound shows activity but in a direction opposite to the expected outcome
in these cases, values describing curve fitting parameters (Sinf, S0, Hill Slope, log_AC50, log_AC50_SE) are set to null
b) curve fit is constant where activity is > -30% and < 30% at all tested concentrations, or
c) AC > AC_limit
Activity_Outcome = 2 (active) when:
AC <= AC_limit
Activity_Outcome = 3 (inconclusive) when:
a) Curve fitting strategy resulted in a constant fit with activity >= -70% but <= -30%, or
b) The fit was deemed not valid due to poor fit quality.
PUBCHEM_ACTIVITY_SCORE:
If PUBCHEM_ACTIVITY_OUTCOME = 1 (inactive) or 3 (inconclusive),
then PUBCHEM_ACTIVITY_SCORE = 0
If PUBCHEM_ACTIVITY_OUTCOME = 2 (active)
then PUBCHEM_ACTIVITY_SCORE = (10)(pAC)
Scores relate to AC in this manner:
120 = 1 pM
90 = 1 nM
60 = 1 uM
30 = 1 mM
0 = 1 M
When the active concentration (AC) is calculated to be greater than the highest valid tested concentration (Max_Concentration), the PUBCHEM_ACTIVITY_SCORE is calculated using Max_Concentration as the basis.
When the active concentration (AC) is calculated to be less than the lowest tested concentration, the PUBCHEM_ACTIVITY_SCORE is calculated using the lowest tested concentration as the basis.
Note:
The individual dose data point columns ('Activity_at_xxuM') reported here represent the median of valid (unmasked) replicate observations at each concentration. These values are the inputs to a curve fitting algorithm.
All other data columns represent values which are derived during the curve fitting algorithm; this may sometimes include automatic further masking of some replicate data points.
Occasionally this results in perceived inconsistencies: for example, between the derived 'Maximal_Activity' and the apparent most active data point.
Categorized Comment - additional comments and annotations
From PubChem:
Assay Format: Organism-based
Assay Cell Type: Pseudomonas aeruginosa (Schroeter) Migula
Result Definitions
Show more
TIDNameDescriptionHistogramTypeUnit
OutcomeThe BioAssay activity outcomeOutcome
ScoreThe BioAssay activity ranking scoreInteger
1AbsAC35_Qualifier<, =, or >String
2AbsAC35_uM*The concentration at which the fitted curve passes activity threshold 35.FloatμM
3pAbsAC35_MEqual to -1*log10(AbsAC35).Float
4Hill_SlopeThe slope at AC50Float
5S0_(%)The fitted activity value at zero concentrationFloat%
6Sinf_(%)The fitted activity value at infinite concentrationFloat%
7Num_PointsThe number of data points used to generate the plotInteger
8Max_Activity_(%)The maximum activity value observed, based on mean of replicates per concentrationFloat%
9Max_Activity_Conc_uMThe concentration at which the maximum activity is observedFloatμM
10Max_Concentration_uMMaximum valid test concentrationFloatμM
11Activity_at_0.0075uM_(%) (0.0075μM**)The average measured activity of all accepted replicates at the specified concentrationFloat%
12Activity_at_0.0235uM_(%) (0.0235μM**)The average measured activity of all accepted replicates at the specified concentrationFloat%
13Activity_at_0.068uM_(%) (0.068μM**)The average measured activity of all accepted replicates at the specified concentrationFloat%
14Activity_at_0.21uM_(%) (0.21μM**)The average measured activity of all accepted replicates at the specified concentrationFloat%
15Activity_at_0.6uM_(%) (0.6μM**)The average measured activity of all accepted replicates at the specified concentrationFloat%
16Activity_at_1.8uM_(%) (1.8μM**)The average measured activity of all accepted replicates at the specified concentrationFloat%
17Activity_at_5.6uM_(%) (5.6μM**)The average measured activity of all accepted replicates at the specified concentrationFloat%
18Activity_at_16uM_(%) (16μM**)The average measured activity of all accepted replicates at the specified concentrationFloat%
19Activity_at_50uM_(%) (50μM**)The average measured activity of all accepted replicates at the specified concentrationFloat%

* Activity Concentration. ** Test Concentration.
Additional Information
Grant Number: 1 R03 MH092076-01

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