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Target Curves (FAM) Corresponding competitive Internal Control curves (TxRed) [40 copies/qPCR] No Input Control (NIC) DNA polymerase extension reagents.

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Presentation on theme: "Target Curves (FAM) Corresponding competitive Internal Control curves (TxRed) [40 copies/qPCR] No Input Control (NIC) DNA polymerase extension reagents."— Presentation transcript:

1 Target Curves (FAM) Corresponding competitive Internal Control curves (TxRed) [40 copies/qPCR] No Input Control (NIC) DNA polymerase extension reagents without DNA polymerase added. PCR blank Contains qPCR reagents only. Does not contain DNA polymerase extension reagents. There is no DNA polymerase extension substrate present here. Signal A Signal A and B Signal D No Input Control (NIC) PCR blank Signal B Signal C Signal D Signal C Supplemental Figure 1 – Example of a typical DPE-PCR assay readout and brief description of routine controls

2 Supplemental Figure 2 (A) Example of “contaminant” DNA polymerase activity detected in DNA polymerase extension stock reagents and its elimination/reduction after reagent pre-heat treatment. (B) UDG within the qPCR mastermix is essential for elimination of Taq-dependent background noise. A dilution of UDG within the qPCR mastermix is also presented. A No Input Control DPE-PCR curves from duplicate DNA polymerase extension reactions containing 3 separate lots of BSA +/- pre-heat treatment Lot 1 (-) Lot 1 and 2 ( + ) Lot 3 (-) Lot 2 (-) Lot 3 ( + ) No Input Control DPE-PCR curves from qPCR reactions containing the indicated amounts of UDG No UDG 1.2 Units UDG (standard) 0.012 Units UDG (1:100) 0.00012 Units UDG (1:10,000) B

3 Units of DNA pol I per reaction Run 1a Target-Ct (FAM)Run 1b Target-Ct (FAM)Run 2a Target-Ct (FAM)Run 2b Target-Ct (FAM)Avg Target-Ct (FAM)StdDev Target-Ct (FAM) 2e-516.216.417.417.516.8750.67 2e-62020.120.8 20.4250.43 2e-723.523.924.824.924.2750.68 2e-827.9 28.6 28.250.40 2e-931.831.132.232.831.9750.71 2e-1034.335.135.835.335.1250.62 2e-1136.636.737.836.736.950.57 NIC38.1ND 37.5NA PCR blankND NA Supplemental Figure 3 (A)Raw data used to generate linearity graphs for DNA Pol I LOD depicted in Figure 2B (B)Raw data from triplicate reactions of Figure 2C A Sample AssayedReaction 1-Target Ct (FAM)Reaction 2-Target Ct (FAM)Reaction 3-Target Ct (FAM)Avg CtStdDev-Ct Pol I25.525.125.825.470.35 Klenow23.726.323.924.631.45 Klenow exo-25.123.823.324.070.93 LigaseND NA NIC36.937.9ND37.40NA B

4 (A) Raw data from triplicate DPE-PCR reactions containing DNA pol I reactions with dCTP or ddCTP shown in Figure 2D. PCR blank controls are included to demonstrate that the minor amounts of ddCTP carried from the DNA polymerase extension reaction into the qPCR reaction are not inhibitory for Taq. See Supplemental Figure 1 for an example of a typical DPE-PCR readout. (B) Corresponding Target (FAM) curves (C) Corresponding competitive Internal Control (TxRed) curves Sample IDTarget-CtInternal Control - Ct Pol-dCTP31.232.2 Pol-dCTP31.732.8 Pol-dCTP31.432.7 Pol-ddCTP3736.6 Pol-ddCTPND35.6 Pol-ddCTPND36.5 PCR blankND36.6 PCR blankND36.3 PCR blankND36.7 Target (FAM) curves Competitive Internal Control curves (TxRed) Pol-dCTP Pol-ddCTP and PCR blanks Pol-dCTP Pol-ddCTP and PCR blanks 40 copies of competitive Internal Control DNA is still detected in the presence of ddCTP carryover “Flattened” competitive Internal control curves derived from Pol-dCTP are given a Ct of ≈ 32.5 by SMART Cycler software Supplemental Figure 4 A B C

5 Supplemental Figure 5 (A)Raw data from triplicate reactions used to generate linearity graphs for E. coli in Figure 4B (B)Results from triplicate cfu plating (C) Raw data from triplicate reactions of E. coli gene specific PCR. Data was generated from the same lysates used to determine DNA polymerase activity Polymerase Activity Detection - FAM Ct Value Targeted cfu inputReaction-1Reaction-2Reaction-3Avg CtStdDev Ct e520.319.919.719.970.31 e422.923.123.323.100.20 e326.126.327.726.700.87 e230.629.8 30.070.46 e134.833.23434.000.80 e0ND36.8NDNA NICND37.23737.100.14 Colony Count Plating - cfu observed Targeted cfu inputPlate 1Plate 2Plate 3AvgStdDev e5TNTC NA e4TNTC NA e3TNTC NA e29592152113.0033.81 e1861911.007.00 e01101.00NA Gene Specific PCR - FAM Ct value Targeted cfu inputReaction-1Reaction-2Reaction-3Avg CtStdDev Ct e526.3126.5726.9426.610.32 e429.8730.0430.2530.050.19 e333.533.3333.8233.550.25 e236.483737.9537.140.75 e1ND38.59NDNA e0ND NA NICND NA ND = None Detected NA = Not Applicable TNTC = Too Numerous To Count A B C

6 Polymerase Activity Detection - FAM Ct Value Targeted cfu inputReaction-1Reaction-2Reaction-3Avg CtStdDev Ct e519.819.419.819.670.23 e422.123.823.723.200.95 e326 26.626.200.35 e229.329.629.529.470.15 e132.33332.832.700.36 e034.635.535.635.230.55 NICND NA Colony Count Plating - cfu Observed Targeted cfu inputPlate 1Plate 2Plate 3AvgStdDev e5TNTC NA e4TNTC NA e3TNTC NA e2304374348342.0035.38 e121424134.6711.85 e042105.334.16 Gene Specific PCR - FAM Ct Value Targeted cfu inputReaction-1Reaction-2Reaction-3Avg CtStdDev Ct e523.1522.723.423.080.35 e427.6726.5227.9127.370.74 e330.6321.5131.0227.725.38 e233.9235.3634.1634.480.77 e136.9436.4136.7536.700.27 e0ND NA NICND NA ND = None Detected NA = Not Applicable TNTC = Too Numerous To Count A B C Supplemental Figure 6 (A)Raw data from triplicate reactions used to generate linearity graphs for S. aureus in Figure 4D (B)Results from triplicate cfu plating (C) Raw data from triplicate reactions of S. aureus gene specific PCR. Data was generated from the same lysates used to determine DNA polymerase activity

7 Supplemental Figure 7 (A)Raw data from triplicate reactions used to generate dCTP rescue graphs for E. coli in Figure 5C (B)Raw data from triplicate reactions of E. coli gene specific PCR. Data was generated from the same lysates used to determine DNA polymerase activity E coli DPE-PCR data Sample IDTarget-Ct (FAM)Internal Control-Ct (TxRed)Avg Target-Ct (FAM)StdDev Target-Ct (FAM) dCTP25.1ND25.630.46 dCTP25.9ND―― dCTP25.9ND―― ddCTPND34.8NA *NA ddCTPND37―― ddCTPND37.3―― ddCTP +50uM dCTP26.2ND26.030.29 ddCTP +50uM dCTP25.7ND―― ddCTP +50uM dCTP26.2ND―― ddCTP +5uM dCTP27ND27.000.10 ddCTP +5uM dCTP26.9ND―― ddCTP +5uM dCTP27.1ND―― ddCTP +0.5uM dCTP30.1ND29.900.26 ddCTP +0.5uM dCTP29.6ND―― ddCTP +0.5uM dCTP30ND―― ddCTP +0.05uM dCTP35.7 35.730.35 ddCTP +0.05uM dCTP35.435.8―― ddCTP +0.05uM dCTP36.136.4―― NICND36.1NA NICND36.6―― NIC37.536.3―― E coli-gsPCR Data Sample IDTarget-Ct (FAM)Avg Target-Ct (FAM)StdDev Target-Ct (FAM) dCTP34.334.000.89 dCTP34.7―― dCTP33―― ddCTP33.634.430.72 ddCTP34.8―― ddCTP34.9―― ddCTP +50uM dCTP34.334.800.44 ddCTP +50uM dCTP35.1―― ddCTP +50uM dCTP35―― ddCTP +5uM dCTP33.834.300.50 ddCTP +5uM dCTP34.8―― ddCTP +5uM dCTP34.3―― ddCTP +0.5uM dCTP35.334.900.36 ddCTP +0.5uM dCTP34.6―― ddCTP +0.5uM dCTP34.8―― ddCTP +0.05uM dCTP35.234.370.72 ddCTP +0.05uM dCTP33.9―― ddCTP +0.05uM dCTP34―― NICNDNA NICND―― NICND―― A B * Depicted as 45 Ct in graph to provide baseline for dCTP rescue curves. No actual Ct was calculated by the SmartCycler ND = None Detected No inhibition of competitive qPCR internal control due to ddCTP carryover

8 Supplemental Figure 8 (A)Raw data from triplicate reactions used to generate dCTP rescue graphs for S. aureus in Figure 5F (B)Raw data from triplicate reactions of S. aureus gene specific PCR. Data was generated from the same lysates used to determine DNA polymerase activity S. aureus DPE-PCR data Sample IDTarget-Ct (FAM)Internal Control-Ct (TxRed)Avg Target-Ct (FAM)StdDev Target-Ct (FAM) dCTP24.8ND24.830.15 dCTP24.7ND―― dCTP25ND―― ddCTPND36.2NA *NA ddCTPND36.4―― ddCTPND36.6―― ddCTP +50uM dCTP24.7ND24.670.15 ddCTP +50uM dCTP24.5ND―― ddCTP +50uM dCTP24.8ND―― ddCTP +5uM dCTP24.6ND26.002.69 ddCTP +5uM dCTP29.1ND―― ddCTP +5uM dCTP24.3ND―― ddCTP +0.5uM dCTP25.9ND25.900.00 ddCTP +0.5uM dCTP25.9ND―― ddCTP +0.5uM dCTP25.9ND―― ddCTP +0.05uM dCTP303230.700.62 ddCTP +0.05uM dCTP31.231.8―― ddCTP +0.05uM dCTP30.933.7―― NIC-dCTPND36.5NA NIC-dCTPND36.8―― NIC-dCTP37.836.3―― S. aureus-gsPCR Data Sample IDTarget-Ct (FAM)Avg Target-Ct (FAM)StdDev Target-Ct (FAM) dCTP31.131.200.10 dCTP31.3―― dCTP31.2―― ddCTP31.431.400.20 ddCTP31.2―― ddCTP31.6―― ddCTP +50uM dCTP31.231.400.20 ddCTP +50uM dCTP31.4―― ddCTP +50uM dCTP31.6―― ddCTP +5uM dCTP31.432.171.69 ddCTP +5uM dCTP34.1―― ddCTP +5uM dCTP31―― ddCTP +0.5uM dCTP31.130.930.15 ddCTP +0.5uM dCTP30.8―― ddCTP +0.5uM dCTP30.9―― ddCTP +0.05uM dCTP31.131.900.75 ddCTP +0.05uM dCTP32.6―― ddCTP +0.05uM dCTP32―― NICNDNA NICND―― NICND―― * Depicted as 45 Ct in graph to provide baseline for dCTP rescue curves. No actual Ct was calculated by the SmartCycler ND = None Detected A B No inhibition of competitive qPCR internal control due to ddCTP carryover

9 Supplemental Figure 9 (A)Source and growth media for the 17 additional microorganisms tested by DPE-PCR A MicroorganismATCC #Liquid Growth MediaSolid Growth Media Klebsiella pneumoniae700721Brain Heart Infusion Pseudomonas aeruginosa10145Brain Heart Infusion Enterobacter cloacae13047Brain Heart Infusion Acinetobacter baumannii15308Brain Heart Infusion Haemophilus influenzae35039Resuspended Colony814GC Serratia marcescens13880Brain Heart Infusion Enterococcus faecalis51299Brain Heart Infusion Enterococcus faecium19434Brain Heart Infusion Streptococcus pyogenes19615Brain Heart Infusion Streptococcus agalactiae13813Brain Heart Infusion Streptococcus pneumoniae6303Resuspended ColonyBlood Agar Staphylococcus epidermidis12228Brain Heart Infusion Candida albicans11006YM Candida tropicalis750YM Candida glabrata66032YM Candida parapsilosis22019YM Candida krusei14243YM

10 MicroorganismTarget cfu assayed by DPE-PCR cfu counted after parallel plating of 100 target cfu counted after parallel plating of 10 target (A) cfu counted parallel plating of 10 target (B) cfu counted after parallel plating of 10 target (C) cfu counted after parallel plating of 1 target (A) cfu counted after parallel plating of 1 target (B) cfu counted after parallel plating of 1 target (C) Klebsiella pneumoniae[10,000] [1,000] [100] [10] [1]10516136130 Pseudomonas aeruginosa[10,000] [1,000] [100] [10] [1]188212928345 Enterobacter cloacae[10,000] [1,000] [100] [10] [1]290394941840 Acinetobacter baumannii[10,000] [1,000] [100] [10] [1]111171614211 Haemophilus influenzae[10,000] [1,000] [100] [10] [1]≈ 500105101 4106 Serratia marcescens[10,000] [1,000] [100] [10] [1]160122511312 Enterococcus faecalis[10,000] [1,000] [100] [10] [1]170231716633 Enterococcus faecium[10,000] [1,000] [100] [10] [1]53358000 Streptococcus pyogenes[10,000] [1,000] [100] [10] [1]8513159070 Streptococcus agalactiae[10,000] [1,000] [100] [10] [1]235413625912 Streptococcus pneumoniae[10,000] [1,000] [100] [10] [1]41757010 Staphylococcus epidermidis[10,000] [1,000] [100] [10] [1]195252427445 Candida albicans[100,000] [10,000] [1,000] [100] [10]≈ 20018 Candida tropicalis[100,000] [10,000] [1,000] [100] [10]9018 Candida glabrata[100,000] [10,000] [1,000] [100] [10]≈ 30036 Candida parapsilosis[100,000] [10,000] [1,000] [100] [10]≈ 20020 Candida krusei[100,000] [10,000] [1,000] [100] [10]6513 Supplemental Figure 10 - Parallel plating results for 17 additional microorganisms tested

11 Microorganism DPE-PCR Result at 100,000 cfu target level DPE-PCR Result at 10,000 cfu target level DPE-PCR Result at 1,000 cfu target level DPE-PCR Result at 100 cfu target level DPE-PCR Result at 10 cfu target level DPE-PCR Result at 1 cfu target level Klebsiella pneumoniae Positive 3 of 31 of 3 Pseudomonas aeruginosa Positive 3 of 32 of 3 Enterobacter cloacae Positive 3 of 32 of 3 Acinetobacter baumannii Positive 3 of 3 Haemophilus influenzae Positive 3 of 3 Serratia marcescens Positive 3 of 3 Enterococcus faecalis Positive 3 of 32 of 3 Enterococcus faecium Positive 3 of 32 of 3 Streptococcus pyogenes Positive 3 of 31 of 3 Streptococcus agalactiae Positive 3 of 31 of 3 Streptococcus pneumoniae Positive 3 of 31 of 3 Staphylococcus epidermidis Positive 3 of 3 Candida albicansPositive 2 of 2 * Candida tropicalisPositive 2 of 2 * Candida glabrataPositive 1 of 2 * Candida parapsilosisPositive 2 of 2 *1 of 2 * Candida kruseiPositive 2 of 2 * * Detection of Candida species becomes non-linear below 1000 cfu and positivity is dependent upon the weak background noise associated with each specific DPE-PCR run. Supplemental Figure 11 - DPE-PCR results for 17 additional microorganisms tested

12 E. cloacae e4e3 e2 e1e0 NIC A. baumannii e4e3 e2 e1e0 NIC K. pneumoniae e4e3 e2 e1 e0 NIC P. aeruginosa e4e3 e2 e1e0 NIC H. influenzae e4e3 e2 e1e0 NIC S. marcescens e4e3 e2 e1e0 NIC Dan Z. 12-23-11 Supplemental Figure 12 - Selected DPE-PCR curves for 6 additional gram negative bacteria

13 E. faecium e4e3 e2 e1e0 NIC E. faecalis e4e3 e2 e1e0 NIC S. agalactiae e4e3 e2 e1e0 NIC S. pyogenes e4e3 e2 e1e0 NIC S. pneumoniae e4e3 e2 e1e0 NIC S. epidermidis e4e3 e2 e1e0 NIC Supplemental Figure 13 - Selected DPE-PCR curves for 6 additional gram positive bacteria

14 C. glabrata e4 e3 e2 e1 e5 NIC C. albicans e4 e3 e2 e1 e5 NIC C. tropicalis e4 e3 e2 e1 e5 NIC C. krusei e4 e3 e2 e1 e5 NIC C. parapsilosis e4 e3 e2 e1 e5 NIC Dan Z. 12-23-11 Supplemental Figure 14 - Selected DPE-PCR curves for 5 Candida species

15 (A)Primer and probe sequences used for gene specific PCR-mediated detection of E. coli genomic DNA (B)Primer and probe sequences used for gene specific PCR-mediated detection of S. aureus genomic DNA (C)Thermoprofile for both gene specific PCR assays A uidA gene of E. coli Forward Primer: 5’ caccgacatgtggagtgaag 3’ Reverse Primer: 5’ cgggtgaagatccctttctt 3’ Probe (5’ FAM labeled): 5’ ccgcgtctttgatcgcgtca 3’ B nuc gene of S. aureus Forward Primer: 5’ ctgaagcaagtgcatttacgaa 3’ Reverse Primer: 5’ agccaagccttgacgaactaa 3’ Probe (5’ FAM labeled): 5’ tatgctgatggaaaaatggtaaacaaagc 3’ Supplemental Figure 15 C Pre PCR 45 cycles 95 ° C 5 min. 5 sec. 60 ° C 1 min.


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