Chapter 13: DNA Quantitation.  Quantitation determines the amount of human DNA present in an extract  A narrow concentration range is required to “seed”

Slides:

Advertisements

Similar presentations

Detecting Degradation in DNA samples

Advertisements

Polymerase Chain Reaction (PCR)

REAL TIME PCR ………A step forward in medicine

National Center for Environmental Health Centers for Disease Control and Prevention DBS DNA Extraction, Validation & Quantitation NBS Molecular Training.

Tools for Molecular Biology Amplification. The PCR reaction is a way to quickly drive the exponential amplification of a small piece of DNA. PCR is a.

RNA Lab (Isolation, quantification and qPCR analysis) MCB7300.

Analysis of gene expression by real-time PCR RBCS3 and Cab-1b transcript quantitation by real time PCR.

Allele specific PCR or ARMS test Amplification Refractory Mutation System Used to detect point-mutations and small deletions, differentiates between DNA-sequences.

Dr. Chaim Wachtel Introduction to PCR and qPCR Part II: PCR!!

What Can You Do With qPCR?

Lecture 10: DNA Quantitation.  Purpose of DNA quantitation  Quantitation Methods  Interchelating dyes  Slot blot  qPCR ▪ Taqman (Life Technologies.

Q-PCR Bige Vardar

Fundamentals of Forensic DNA Typing

The polymerase chain reaction (PCR) rapidly

Real-Time PCR (Quantitative PCR)

Quantitative PCR Session 2: Overview of qPCR

COBAS AmpliPrep/Cobas TaqMan HIV-1 Test

Real-Time Quantitative RT-PCR

Quantitative Real-Time PCR Adrien Six Sophie Dulauroy Institut Pasteur & Université Pierre et Marie.

Dr. Sumbul Fatma Department of Medical Biochemistry.

Quantification of RNA by real-time PCR

How do you identify and clone a gene of interest? Shotgun approach? Is there a better way?

DNA Methodologies Sterilization –Clean the workstation with alcohol and bleach. –Autoclaving and ultraviolet light (UV radiation). Consumables and reagents.

qPCR SNAPSHOTS LIVE MAY 13, 2003.

Strand Displacement Amplification Presented by Lisa Smith & Apollo Kacsinta.

Amplification of Genomic DNA Fragments OrR. Amplification To get particular DNA in large amount Fragment size shouldn’t be too long The nucleotide sequence.

Real-Time Quantitative PCR Basis

Chapter : DQA1/PM Chapter 18: Autosomal STR Profiling.

Chapter 14: DNA Amplification by Polymerase Chain Reaction.

Polymerase Chain Reaction PCR. PCR allows for amplification of a small piece of DNA. Some applications of PCR are in: –forensics (paternity testing, crimes)

Quantitative PCR Session 1: Introduction to Quantitation Methods Presented by: Robert O'Brien Training Specialist – Forensic Biology.

National Center for Environmental Health Centers for Disease Control and Prevention DNA Quantitation NBS Molecular Training Class June 28 – 30, 2011 Suzanne.

HCV PCR By Henrietta Orji July 31 st, 2010 Hepatitis C Virus by Polymerase Chain Reaction.

CHMI W20091 Recombinant DNA Technology CHMI 4226 E Week of Jan 23, 2009 Qualitative and quantitative methods for the analysis of gene expression.

Figure 1: Basic Principle Of PCR * Poor precision * Low sensitivity * Short dynamic range < 2 logs * Low resolution * Non-automated * Size-based discrimination.

Molecular Testing and Clinical Diagnosis

Polymerase Chain Reaction (PCR)

INTRODUCTION. INTRODUCTION Introduction In the past, amplifying (replication) of DNA was done in bacteria and took weeks. In 1971, paper in the.

Chapter 14: DNA Amplification by Polymerase Chain Reaction.

The Polymerase Chain Reaction (DNA Amplification)

Advantages of STR Analysis

PCR With PCR it is possible to amplify a single piece of DNA, or a very small number of pieces of DNA, over many cycles, generating millions of copies.

Introduction to PCR Polymerase Chain Reaction

(q)PCR, SPECIFICITY AND SENSITIVITY By Krystal Charley.

R EAL TIME P CR 1. L IMITATIONS OF E ND -P OINT PCR Poor Precision Low sensitivity Low resolution Non - Automated Size-based discrimination only Results.

SYBR Green I Chemistry Detects all double stranded DNA

Kevin Chen.  A method of amplifying or copying DNA fragments.

PCR is amplification of DNA in a tube What to put in the PCR tube?? Template DNA DNA cDNA obtained by reverse transcription of mRNA Or Cell free.

Chapter 13: DNA Quantitation.  Determining the amount of DNA is a sample is essential  A narrow concentration range is required for PCR  Must use human-specific.

HRM Assay and Optimization 1. DNA Quality 2. Amplicon LengthAmplicon  lengths of 100–300 bp 3. Primer Selection 4. Dye Selection 5. MgCl2 Concentration.

Principles of Real-Time Quantitative PCR Techniques

Gel electrophoresis analysis Automated DNA analyzer.

Israel maritime college

PCR uses polymerases to copy DNA segments.

Dual detection of Legionella pneumophila and Legionella species by real-time PCR targeting the 23S-5S rRNA gene spacer region G. Yang, R. Benson, T.

Gene quantification using real-time quantitative PCR

PCR uses polymerases to copy DNA segments.

PCR uses polymerases to copy DNA segments.

DNA Fingerprinting and Forensic Analysis

Real-time PCR in the microbiology laboratory

PCR uses polymerases to copy DNA segments.

PCR uses polymerases to copy DNA segments.

PCR uses polymerases to copy DNA segments.

Principles of Quantitative PCR

PCR uses polymerases to copy DNA segments.

Presentation transcript:

Chapter 13: DNA Quantitation

 Quantitation determines the amount of human DNA present in an extract  A narrow concentration range is required to “seed” the Identifiler PCR reaction  Too much or too little DNA gives rise to artifacts (false positive or false negative alleles)  Must use human-specific DNA quantitation  Bacterial DNA may be present (e.g. saliva)  Test should measure quality as well as quantity of DNA 2

 Three common methods  Slot Blot Assay  Interchelating Dye  Quantitative PCR ▪ Method of choice in most modern crime labs ▪ We’ll use this method in lab 3

 Slot Blot Method  Detects primate DNA  Genomic DNA is denatured (made single- stranded) and small volume is spotted onto a nitrocellulose membrane  Targeted sequence revealed by a 40-nucleotide probe at the D17Z1 locus ▪ Probe is single-stranded and biotinylated ▪ Detection is colorimetric using streptavidin/horseradish peroxidase/TMB system 4

5

6 Detection range = 150 pg - 10 ng

 Interchelating Dye Method  Fluorescent dye used  Quant-iT PicoGreen dsDNA reagent  Not specific to human DNA ▪ Useful with known reference blood samples ▪ Not useful for questioned samples or buccal swab samples  Fluorescence measure by spectrofluorometer 7

8 Detection range >250 pg

 Quantitative PCR (qPCR or “real time PCR”)  1990s  More sensitive  Large range of detection  Amount of PCR product amplified during exponential phase of PCR correlates with the initial concentration  Real-time PCR most common method in forensic lab

 Exponential phase  100% efficiency (plenty of primers and dNTPs)  High degree of precision in accumulation of PCR products with time: doubling per cycle  Linear phase  One or more components fall below critical concentration; amplification efficiency drops  Precision in accumulation of PCR products drops  Plateau (“end point”)  Reaction slows to a halt; components consumed

Exponential phase Linear phase Plateau phase Threshold (Ct)

 Analyzes the cycle-to-cycle change in fluorescence signal resulting from amplification of a target sequence during PCR  TaqMan Method is most popular ▪ Two primers and one probe ▪ Probe has a fluroescent dye on 5’ end and a quencher molecule on 3’ end ▪ As long as probe in intact, fluorescence is quenched  IPC to detect inhibitors  May also detect total DNA: male DNA ratio ▪ Important for intimate sexual assault samples

13 Detection range = 30 pg – 100 ng