Sanger or Dideoxy DNA Sequencing

Slides:

Advertisements

Similar presentations

This presentation was originally prepared by C. William Birky, Jr. Department of Ecology and Evolutionary Biology The University of Arizona It may be used.

Advertisements

Manipulating DNA: tools and techniques

Detection and Measurement of Genetic Variation

Recombinant DNA technology

Basic methods in genetics PCR; Polymerase Chain Reaction Restriction enzyme digestions Gel electrophoresis.

Recombinant DNA Introduction to Recombinant DNA technology

Recombinant DNA Technology

Lecture ONE: Foundation Course Genetics Tools of Human Molecular Genetics I.

3 September, 2004 Chapter 20 Methods: Nucleic Acids.

MCB 130L Lecture 1: DNA.

MCB 130L Lecture 1 1. How to get the most from your time in lab 2. Recombinant DNA 3. Tips on giving a Powerpoint talk.

Restriction Enzymes.

Molecular Genetics Introduction to The Structures of DNA and RNA

Updated Summer 2015 Jerald D. Hendrix. A. Recombinant DNA Technology 1. Restriction Endonucleases 2. Creating a Recombinant DNA Library 3. Properties.

7.1 Techniques for Producing and Analyzing DNA SBI4UP MRS. FRANKLIN.

MCB 7200: Molecular Biology

CULTURE INDEPENDENT ANALYSIS OF MICROBIAL COMMUNITIES IN SOIL

Analyzing your clone 1) FISH 2) “Restriction mapping” 3) Southern analysis : DNA 4) Northern analysis: RNA tells size tells which tissues or conditions.

6.3 Advanced Molecular Biological Techniques 1. Polymerase chain reaction (PCR) 2. Restriction fragment length polymorphism (RFLP) 3. DNA sequencing.

AP Biology: Chapter 14 DNA Technologies

Chapter 19 – Molecular Genetic Analysis and Biotechnology

 It is the methods scientist use to study and manipulate DNA.  It made it possible for researchers to genetically alter organisms to give them more.

-The methods section of the course covers chapters 21 and 22, not chapters 20 and 21 -Paper discussion on Tuesday - assignment due at the start of class.

Molecular Biology (MLMB-201) Lecturer: Dr. Mohamed Salah El-Din Department of Medical Laboratory Technology Faculty of Allied Medical Science.

1 Genetics Faculty of Agriculture Instructor: Dr. Jihad Abdallah Topic 13:Recombinant DNA Technology.

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

Basic methods in genetics PCR; Polymerase Chain Reaction Restriction enzyme digestions Gel electrophoresis.

DNA Cloning and PCR.

Restriction Nucleases Cut at specific recognition sequence Fragments with same cohesive ends can be joined.

Pyromania USAFSAM “EPI Lab” MSgt Stephen Christian, USAF, MSgt, MT (ASCP) Lucinda Sinclair, GS-11 1 Distribution Statement A: Approved for Public release;

Recombinant Technololgy

Answers in Studying Molecular Biology How does human genetic information differ from our closest relative? FOXP2 that encodes for a speech/language development.

Remember the limitations? –You must know the sequence of the primer sites to use PCR –How do you go about sequencing regions of a genome about which you.

DNA Technology. 1.Isolation – of the DNA containing the required gene 2.Insertion – of the DNA into a vector 3.Transformation – Transfer of DNA into a.

Chapter 14 The Techniques of Molecular Genetics

19.1 Techniques of Molecular Genetics Have Revolutionized Biology

Chapter 5: Exploring Genes and Genomes Copyright © 2007 by W. H. Freeman and Company Berg Tymoczko Stryer Biochemistry Sixth Edition.

Biotechnology Chapter 17.

PHARMACOBIOTECHNOLOGY.  Recombinant DNA (rDNA) is constructed outside the living cell using enzymes called “restriction enzymes” to cut DNA at specific.

PPT-1. Experiment Objective: The objective of this experiment is to amplify a DNA fragment by Polymerase Chain Reaction (PCR) and to clone the amplified.

DNA Amplification and PCR Technology

6.3 Advanced Molecular Biological Techniques 1. Polymerase chain reaction (PCR) 2. Restriction fragment length polymorphism (RFLP) 3. DNA sequencing.

Chapter 10: Genetic Engineering- A Revolution in Molecular Biology.

Chapter 20: DNA Technology and Genomics - Lots of different techniques - Many used in combination with each other - Uses information from every chapter.

1 SURVEY OF BIOCHEMISTRY Nucleic Acids continued… Amino Acids.

Lecture 18 DNA Technology.

Molecular Genetic Technologies Gel Electrophoresis PCR Restriction & ligation Enzymes Recombinant plasmids and transformation DNA microarrays DNA profiling.

Molecular Tools. Recombinant DNA Restriction enzymes Vectors Ligase and other enzymes.

Biotechnology and Genetic Engineering PBIO 450/550 Characterization of DNA clones including: Restriction Enzyme (RE) mapping Subcloning Southerns Northerns*

Genomics I: The Transcriptome RNA Expression Analysis Determining genomewide RNA expression levels.

710.LC GRADUATE MOLECULAR BIOLOGY 10/31/2011. Lecture 4 Competency Test.

Recombinant DNA Reverse genetics Synthesis of DNA probes Restriction enzymes, plasmids and recombinant DNA Genomic and cDNA libraries Applications.

Chapter 14 GENETIC TECHNOLOGY. A. Manipulation and Modification of DNA 1. Restriction Enzymes Recognize specific sequences of DNA (usually palindromes)

Green with envy?? Jelly fish “GFP” Transformed vertebrates.

Genetics: Analysis and Principles Robert J. Brooker CHAPTER 18 RECOMBINANT DNA TECHNOLOGY.

Chapter 13 Nucleic Acid Biotechnology Techniques Mary K. Campbell Shawn O. Farrell Paul D. Adams University.

Topic Cloning and analyzing oxalate degrading enzymes to see if they dissolve kidney stones with Dr. VanWert.

6.3 – Manipulating genomes

DNA Technologies (Introduction)

PCR Polymerase Chain Reaction

Chapter 20: DNA Technology and Genomics

Gene Isolation and Manipulation

Material for Quiz 5: Chapter 8

Chapter 20 – DNA Technology and Genomics

Recombinant DNA Technology

Bioinformatics Lecture By: Ms AQSAD RASHDA

Producing DNA fragments eg for manufacturing insulin

Chapter 20: DNA Technology and Genomics

Tools for Molecular Biology

Presentation transcript:

Sanger or Dideoxy DNA Sequencing Components for the Chain Termination Method: DNA fragment for sequencing Primers dNTPs ddNTPs

Sanger or Dideoxy DNA Sequencing What direction does the DNA polymerase elongate the DNA fragment?

Sanger or Dideoxy DNA Sequencing Migration smaller is faster through the gel (bottom smallest) Each peak represents 1 base

Pyrosequencing Based on DNA synthesis Template DNA is immobilized Peak area represents base number http://www.pyrosequencing.com/DynPage.aspx?id=7454

Pyrosequencing Potential Problem: DNA polymerase and luciferase compete for the same dATP substrate Solution: Deoxyadenosine alpha-thio triphosphate (dATPαS) is efficiently used by DNA polymerase but not recognized by luciferase

Pyrosequencing Requirement: Generate ATP from polymerase generated pyrophosphate Solution: ATP sulfurylase quantitatively converts PPi to ATP in the presence of adenosine 5´ phosphosulfate

Pyrosequencing Potential Problem: Unincorporated dNTPs can react in the next cycle producing false positives Solution: The nucleotide degrading enzyme apyrase degrades unincorporated dNTPs between cycles

Gene Amplification by Polymerase Chain Reaction (PCR) Gene specific amplification without purification Amplification via temperature cycling Special Taq (Thermus aquaticus) DNA polymerase Detection of Helicobacter pylori, Borrelia burgdorferi, as well as hepatitis, HIV, and West Nile virus

Restriction Enzyme Recognition Sites Restrictive endonucleases recognize 4-8 bp sequences within the DNA and cleave at a specific site DNA strands that are cut in a symmetric fashion are palindromic Blunt and Sticky DNA Cuts

Molecular Cloning by Recombinant DNA Technology Cut by restriction enzymes Anneal an uncatalyzed reaction Re-close by DNA ligase

Screening for Colonies Containing the Plasmid with the Insert

Size-Specific Cloning Vectors

Recombinant Protein Products

Generating a Restriction Map Where are the restriction sites located on the 20 kb fragment that would generate this map? . . .

cDNA fluorecent labeling cDNA/oligonucleotide Transcript Analysis via Microarray/DNA Chip How to examine gene expression changes with a given treatment mRNA ↓ cDNA fluorecent labeling cDNA/oligonucleotide Hybridization Slide scanning Data analysis

Differential Arabidopsis Gene Expression with GB03 Exposure RNA Extraction cDNA Synthesis Label Hybridize Wash Scan Block 8 Full Image

cDNA Synthesis and Labeling Amino Allyl-dUTP Cy5 Dye

Microarray Data Analysis