qpcr Symposium 2007 - Weihenstephan Speed Matters - Fast ways from template to result March 28, 2007 Dr. Thorsten Traeger Senior Scientist, Research and Development - 1 -
Overview Ạgenda Fast PCR The Challenges The Solutions Application Data From cells to results The principle Proof Data Summary - 2 -
Benefits of Fast PCR Ạdvantages Faster generation of results Increased sample throughput No need for investment in additional instrumentation Efficient sharing of cyclers Flexible planning of experiments - 3 -
Strategies to achieve fast cycling PCR cycling Dedicated instrument Rapid ramping rates Short detection time Fast protocol Reduced time for all cycling steps Combination of primer annealing and extension Shortened RT step in one-step RT-PCR 1. Kit chemistry Dedicated for fast-cycling conditions Reduced DNA polymerase activation time Rapid primer and probe hybridization - 4 -
Fast Cycling with standard chemistry Ḷoss of performance Higher C T values Reduced sensitivity Lower amplification efficiency Faster quantitative real-time PCR protocols may loose sensitivity and show increased variability Hilscher et al. NAR, 2005, 33, e183-5 -
Key Elements for accelerated PCR The Reaction Buffer The Enzyme - 6 -
Standard Cycling 3-step procedure Step 1 Hybridization of primer to single stranded template (binary complex) Step 2 Assembly of polymerase and primer-template complex (ternary complex) Step 3 Extension - 7 -
QIAGEN s Fast Cycling 2-step procedure Step 1 Hybridization of primer / polymerase complex to single stranded template (ternary complex) Step 2 Extension - 8 -
Q-Bond makes the difference Features of Q-Bond Novel, non-proteinaceous buffer additive Patent-pending technology Increases binding affinity of DNA polymerase to short, single-stranded DNA Turns 3-step process of (1) template denaturation, (2) primer annealing, and (3) DNA polymerase binding in standard-cycling PCR into a faster 2-step process Decreases significantly time required for primer annealing and subsequent elongation Perfect completion of QIAGEN s unique PCR buffer system containing a balanced combination of KCl and NH 4 Cl promoting fast and specific primer annealing - 9 -
Key elements for accelerated PCR The Reaction Buffer Specialized reaction buffer chemistry The Enzyme HotStarTaq Plus DNA Polymerase Unique chemical modification of recombinant Taq DNA Polymerase becomes rapidly active by initial 5 minutes heat incubation step Robust reactivation independent from PCR environment (ph, salts) - 10 -
Fast cycling versus standard cycling S = HotStarTaq Plus / Standard cycler F = QIAGEN Fast Cycling PCR Kit / Fast cycler Fast Cycling Activation step: 95 C 5 min Denaturation step: 96 C 5 sec Annealing step: 60 C 5 sec Extension step: 68 C 3 sec / 100 bp - 11 -
Not all fast cycling kits are created equal - 12 -
Significant time savings in real-time PCR LC2.0 ABI7900 Time savings 32% 38% SYBR Green detection 2-step 40 cycles ABI7500Fast ABI7000 0 20 40 60 80 100 120 min 57% 28% QuantiFast SYBR Green PCR QuantiTect SYBR Green PCR Fast Cycling Activation: Denaturation: Annealing/ Extension: 95 C - 5 min 95 C - 10 sec 60 C - 30 sec LC2.0 7900 Time savings 46% 41% Probe detection 2-step 40 cycles 7500Fast 58% 7000 0 20 40 60 80 100 min 40% QuantiFast Probe PCR QuantiTect Probe PCR Fast Cycling Activation: Denaturation: Annealing/ Extension: 95 C - 3 min 95 C - 3 sec 60 C - 30 sec - 13 -
Faster results without compromising sensitivity Supplier A, standard cycling mode Fast cycling mode cdna C T 10 ng 24.06 1 ng 26.97 0.1 ng 30.88 10 pg 34.36 NTC 45.00 QuantiFast SYBR Green PCR Kit, fast cycling mode cdna C T 10 ng 22.25 1 ng 25.41 0.1 ng 28.87 10 pg 32.41 NTC 45.00 Gene: Template: Primers: Cycler: MYC (proto-oncogene) cdna from human leukocytes QuantiTect Primer Assay ABI7500 Fast System - 14 -
Superior specificity in one-step RT-PCR Supplier R, fast cycling protocol Nonspecific products No clear distinction! QuantiFast SYBR Green RT-PCR Kit Gene: Template: Primers: Cycler: BCL2 (apoptosis gene) RNA from Hela cells QuantiTect Primer Assay LC2.0-15 -
Uncompromised sensitivity in probe based detection QuantiFast Probe PCR Kit cdna C T 100 ng 21.66 10 ng 25.17 1 ng 28.69 0.1 ng 32.55 10 pg 36.60 NTC 40.00 10 pg Supplier A, standard cycling mode Standard Cycling Mode cdna C T 100 ng 23.60 10 ng 27.43 1 ng 30.89 0.1 ng 34.54 10 pg -- NTC 40.00 10 pg not detected Gene: IL1RN (Interleukin receptor antagonist) Template: cdna from human leukocytes Primer/probes: TaqMan Gene Expression Assay Cycler: ABI7900-16 -
Reliable detection independent of cycler and probe -- 100 ng -- 10 ng -- 1 ng -- 0.1 ng -- 10 pg -- 1 pg -- NTC Gene: Ubiquitin (a regulatory protein) Template: cdna from human leukocytes Primer/Probes: Primer Express designed TaqMan Assay Cycler: Mastercycler ep realplex Gene: B2M (ß2-Microglobulin) Template: human leukocyte cdna Primer/probes: FRET Probes Cycler: LC2.0 100 fg - 17 -
New fast cycling chemistry For all end-point and qpcr applications Significant time savings No need to invest into dedicated fast cycling instrument Successful amplification without further optimization Versatile use on any real-time cycler No loss in sensitivity and specificity when switching to fast cycling - 18 -
Overview Ạgenda Fast PCR The Challenges The Solutions Application Data From cells to results The principle Proof Data Summary - 19 -
FastLane Cell RT-PCR - Speed up & Simplify the Workflow 1 min. Cell culture in 96 wells 1 min. Wash cells 5 min. RT Lyse cells, stabilize RNA, and eliminate DNA 5 min. 75 C Pre-treat FastLane lysates PCR template in 12 min. Real-time, one-step RT-PCR QuantiTect Probe RT-PCR * QuantiTect SYBR Green RT-PCR * QuantiTect Multiplex RT-PCR * * Included in FastLane Cell RT-PCR kits - 20 -
Effective gdna Elimination Gene: GAPDH (a housekeeping gene) Template: 1:1 mixture of RNA and genomic DNA Primer/Probes: Probe based Assay detecting RNA and DNA Chemistry: QuantiTect Probe PCR Kit +gdna removal / +RT: gdna removal followed by reverse transcription -gdna removal / -RT: no gdna removal and no reverse transcription +gdna removal / -RT: gdna removal and no reverse transcription - 21 -
FastLane Cell RT-PCR Reproducibility in all Formats SYBR-Green-Onestep (INPP5D) SYBR Green based analysis of Hela cell FastLane lysates in one-step RT-PCR 32 30 M e a n C t 28 26 24 22 Genes: INPP5D (a cell proliferation regulator) Template: Hela cell culture Primers: QuantiTect Primer Assay Technology: FastLane SYBR Green 96 sample CV: INPP5D 1,02% 20 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 81 83 85 87 89 91 Sample Probe Duplex analysis of MP Hela RT PCR cell (Duplex) FastLane from FastLane-Lysate lysates in multiplex (Hela) one-step RT-PCR 30.00 Mean Ct 25.00 20.00 15.00 10.00 5.00 0.00 NFKB1 GAPDH Genes: GAPDH (a housekeeping gene) NFKB1 (transcription regulator) Template: Hela cell culture Primer/Probes: Primer Express designed TaqMan Assays Technology: FastLane Multiplex 96 sample CV: GAPDH 0,62% NFKB1 0,43% 90 80 70 60 50 40 30 20 10 0 Sample - 22 -
FastLane Technology from Sample Direct to Result No RNA purification significantly saving time Just 3 steps from cells to real-time RT-PCR RNA detection only due to unique gdna Wipeout Buffer Sensitive detection of low-copy targets using QuantiTect Chemistry included: QuantiTect SYBR Green QuantiTect Probe QuantiTect Multiplex ROX or No ROX - 23 -
Summary - Fast ways from sample to results QuantiFast Chemistry Significant time savings with uncompromised performance Universal use on any cycler FastLane Technology Integrated gdna removal Fast and simple workflow from cells to results - 24 -