Lab 5/5a Transformation of E. coli with a Recombinant Plasmid

Similar documents
Bacterial Transformation Lab - pglo

Transforming E. Coli with pglo Plasmids

ONTARIO SCIENCE CENTRE. Teacher Guide. Way to Glow Program

This lab also contributes to the attainment of the following elements of the 00UK objective:

GeNei TM Transformation Teaching Kit Manual

Student Manual. pglo Transformation

LAB #14: Rapid Colony Transformation of E. coli with Plasmid DNA

Biology Lab Activity 4-5 DNA Transformation

Bacterial Transformation and Protein Purification

Lab 1 Flow Chart : Learning basic laboratory skills

Bacterial genetic exchange : Bacterial Transformation

HiPer Transformation Teaching Kit

In order to do transformation, the gene to be transferred is placed into a plasmid. This is done with the help of restriction enzymes, 7

MOLECULAR GENETICS: TRANSFORMATION AND CLONING adapted by Dr. D. L. Vogelien

HiPer Plasmid DNA Cloning Teaching Kit

Student Manual. pglo Transformation

Biology 2180 Laboratory #7. Bacterial Growth and Transformation

1. What is the structure and function of DNA? Describe in words or a drawing the structure of a DNA molecule. Be as detailed as possible.

Amgen Protocol: Introduction and a few comments:

BIOLOGY 101. CHAPTER 18: Gene Expression: Turning genes on and off

BCH 462 Competent Cells Formation and Transformation of Competent Cells with plasmid DNA.

Lesson 1 Focus Questions Consideration 1: Can I Genetically Transform an Organism? Which Organism?

Purification of mfp. from an Overnight Culture. Laboratory 17

About Transformation

Recombinants and Transformation

Green Fluorescent Protein (GFP) Purification. Hydrophobic Interaction Chromatography

Genetic Engineering: Transforming Bacteria

Purification and Characterization of a DNA Plasmid Part A CHEM 4581: Biochemistry Laboratory I Version: January 18, 2008

CHAPTER 20 DNA TECHNOLOGY AND GENOMICS. Section A: DNA Cloning

LAB 1: Eau that smell

AP Biology. Chapter 20. Biotechnology: DNA Technology & Genomics. Biotechnology. The BIG Questions. Evolution & breeding of food plants

CHAPTER 2A HOW DO YOU BEGIN TO CLONE A GENE? CHAPTER 2A STUDENT GUIDE 2013 Amgen Foundation. All rights reserved.

Biotechnology. Chapter 20. Biology Eighth Edition Neil Campbell and Jane Reece. PowerPoint Lecture Presentations for

Transformation: Theory. Day 2: Transformation Relevant Book Sections

Transduction of an Antibiotic Resistance Gene. Background

Labs 10 and 11: Bacterial Transformation and DNA Purification

Prepared by the Office of Biotechnology, Iowa State University DRAFT 4/03

Dolan DNA Learning Center Glowing Genes

Section A: Prokaryotes Types and Structure 1. What is microbiology?

Reading Lecture 3: 24-25, 45, Lecture 4: 66-71, Lecture 3. Vectors. Definition Properties Types. Transformation

21.4 Recombinant DNA technology Calculation worksheet. AQA Biology. Calculating the efficiency of DNA transfer during genetic engineering

Total Test Questions: 66 Levels: Grades Units of Credit: 1.0 STANDARD 2. Demonstrate appropriate use of personal protective devices.

Microbial Biotechnology agustin krisna wardani

Entry Level Assessment Blueprint Biotechnology

How can we use genetic engineering techniques to manipulate heritable information?

Aseptic Techniques. A. Objectives. B. Before coming to lab

Bio 101 Sample questions: Chapter 10

Molecular Genetics Techniques. BIT 220 Chapter 20

NOTES - CH 15 (and 14.3): DNA Technology ( Biotech )

Name Per AP: CHAPTER 27: PROKARYOTES (Bacteria) p559,

Procedure: GFP cloning project Day 1. Bioinformatics and cloning workshop. Agar plate prep.

BIOLOGY LTF DIAGNOSTIC TEST DNA to PROTEIN & BIOTECHNOLOGY

Cell Growth and DNA Extraction- Technion igem HS

PRODUCT INFORMATION. Composition of SOC medium supplied :

Molecular Cell Biology - Problem Drill 11: Recombinant DNA

Chapter 9 Genetic Engineering

The Biotechnology Education Company. Transformation with Green Fluorescent Protein (GFP) Storage: See Page 3 for specific storage instructions

AP Biology Gene Expression/Biotechnology REVIEW

Synthetic Biology for

Lecture Four. Molecular Approaches I: Nucleic Acids

Total Test Questions: 71 Levels: Grades Units of Credit: 1.0 STANDARD 1 STUDENTS WILL INVESTIGATE THE PAST, PRESENT, AND FUTURE APPLICATIONS OF

VDL100.2 CLONING TRANSGENE INTO padenox

The Biotechnology Education Company. Transformation with Green Fluorescent Protein (GFP) Storage: See Page 3 for specific storage instructions

NCERT. 2. An enzyme catalysing the removal of nucleotides from the ends of DNA is: a. endonuclease b. exonuclease c. DNA ligase d.

GenBuilder TM Plus Cloning Kit User Manual

Biology 201 (Genetics) Exam #3 120 points 20 November Read the question carefully before answering. Think before you write.

In other words there are 4.0 x10 5 phosphodiester groups in the basic form to one in the acidic form at ph 7.0.

Chapter 13: Biotechnology

The Biotechnology Education Company. Transformation with Green and Blue Fluorescent Proteins. Storage: See Page 3 for specific storage instructions

Transformation with Green Fluorescent Protein (GFP)

ASEPTIC TRANSFER & PURE CULTURE TECHNIQUES

Name Class Date. Practice Test

PURE CULTURE TECHNIQUES

Cloning in bacteria. Presenter: Vito Baraka (BSc,MSc Cand.)

Lab 8: Bacterial Transformation with pglo for Protein Production

CopyCutter EPI400 Electrocompetent E. coli CopyCutter EPI400 Chemically Competent E. coli CopyCutter Induction Solution

Recombinant DNA Technology. The Role of Recombinant DNA Technology in Biotechnology. yeast. Biotechnology. Recombinant DNA technology.

AP Laboratory: Microbes in Action Bacterial Transformation & Gel Electrophoresis

AQA Biology A-level Topic 8: The control of gene expression

Vectors for Gene Cloning: Plasmids and Bacteriophages

BACTERIAL CONJUGATION. To demonstrate the technical procedure to monitor the conjugational transfer of genetic material from one cell to another.

TRANSFER OF BACTERIA USING ASEPTIC TECHNIQUE

Job Ready Assessment Blueprint. Biotechnology. Test Code: 4075 / Version: 01. Copyright 2014 NOCTI. All Rights Reserved.

Genetic Engineering: Way to Grow

Cat # Box1 Box2. DH5a Competent E. coli cells CCK-20 (20 rxns) 40 µl 40 µl 50 µl x 20 tubes. Choo-Choo Cloning TM Enzyme Mix

Lab Exercise #4 Microbial Control Lab Exercise #4 Control of Microorganisms: Physical, Chemical and Chemotherapeutic

Chapter 9. Biotechnology and DNA Technology

1. Why do DNA restriction fragments and plasmids separate when analyzed by gel electrophoresis?

2054, Chap. 14, page 1

How Do You Clone a Gene?

Suggest a technique that could be used to provide molecular evidence that all English Elm trees form a clone. ... [1]

BACTERIAL GENETICS: Labs I & II

The plasmid shown to the right has an oriv and orit at the positions indicated, and is known to replicate bidirectionally.

Why are we determining the frequency of antibiotic-resistant mutants rather than some other type of mutant?

Review Chapter 3 and 4

Site-directed mutagenesis of proteins

CHAPTER 4A MAKING SURE YOU VE GOT A RECOMBINANT PLASMID. CHAPTER 4A STUDENT GUIDE 2013 Amgen Foundation. All rights reserved.

INTRODUCTION Sanitization sterilization Antibiotics Bactericidal Bacteriostatic Antiseptics disinfectants

Genlantis A division of Gene Therapy Systems, Inc Telesis Court San Diego, CA USA Telephone: or (US toll free)

Confirming the Phenotypes of E. coli Strains

Transcription:

Lab 5/5a Transformation of E. coli with a Recombinant Plasmid Lab 2

Pre Lab Readiness Familiarity and Proper use of micropipettes Remember the 1 st and 2 nd stops Aseptic Technique Antibiotic Resistance Selection markers

Why are we doing this? Make cells that are genetic factories for a recombinant protein Why make recombinant protein? (think insulin)

What is Genetic Transformation? Genetic Transformation is a process in which the DNA of one organism is manipulated to incorporate the DNA of another organism into its genome. You will be transforming E.Coli bacteria with a plasmid that contains a gene for Red Fluorescent Protein (RFP).

Lab 5/5a terms What is a Plasmid? Small circular DNA molecule Capable of self replication May contain an antibiotic resistant gene(s) and/or other gene(s)

Lab 5/5a terms What are E. coli? E. coli are single cell organisms E. coli have a single chromosome which is a circular DNA molecule E. coli live in the human intestine They reproduce in about 20 minutes at 37 0 C

Lab 5/5a terms Aseptic technique is the effort taken to prevent microbial contamination of oneself, which may result in infection, contamination of the environment you are working in, and contamination of the samples you are working on. Antibiotic Resistance the ability of a microorganism (E. coli) to produce a protein that disables or disrupts the effect of an antibiotic. Transforming E.coli with the plasmid para-r which carries the ampr gene (ampicillin resistant gene) renders the transformed E.coli resistant to ampicillin. Selection markers are often antibiotic resistance genes whose expression allows for the identification of cells that have been transformed or transfected with a plasmid or vector containing the marker gene. The ampr gene for ampicillin resistance is the selection marker in our transformation lab. Ampicillin is an antibiotic that prevents bacteria from fully forming it s cell wall.

Lab 5/5a terms Agar plates are sterile petri dishes that contains a growth medium (typically agar plus nutrients) used to culture microorganisms or small plants. The plates you will use contain agar and Luria Broth. Agar a gelatin like material obtained from kelp; especially seaweed, used as a medium for growing bacterial cultures in the laboratory. Luria Broth (LB) a nutritionally rich medium primarily used for the growth of bacteria. Arabinose is a simple sugar that is required by the bacteria to express the rfp gene.

Lab 5/5a terms Calcium Chloride (CaCl 2 ) the aqueous form of calcium chloride is used in genetic transformation of cells by increasing the cell membrane permeability, inducing competence for DNA uptake (allowing DNA fragments to enter the cell more readily). Calcium chloride is a salt that is solid at room temperature. Competent cells are bacterial cells which are capable of accepting foreign extra chromosomal DNA. The cells we are using have been made competent by soaking them in CaCl 2. Heat Shock Transformation is a basic technique in molecular biology in which foreign plasmid DNA (para-r) is inserted into bacteria (E. coli). The procedure consists of incubating chemically competent bacteria and plasmid DNA on ice for 10 to 15 minutes. The mixture is then placed in a 42 C water bath for 45 seconds (heat shock) then placed immediately back in ice.

How does Heat Shock allow plasmids to enter bacteria cells? Remember that plasmid DNA is negatively charged AND the plasma membranes surrounding bacteria cells are also negatively charged. It is relatively impossible to get the negatively charged DNA past the negatively charged plasma membranes because like charges will repel each other. When bacteria cells are made competent the positive calcium ions of the calcium chloride solution help neutralize the negative charges of the plasmid DNA and plasma membranes. With the negative charges neutralized, the plasmid will have an easier time passing by the plasma membrane and getting inside the bacteria cell. To get the plasmid past the plasma membrane and inside the cell we need to create a pressure difference between the inside and outside of the bacteria cell. This is achieved by first getting the bacteria really cold and then quickly putting them into warm water. This is called Heat Shock and it creates a situation in which the pressure outside the cell is a tiny bit higher than the pressure inside the cell. This pressure gradient will help to move the plasmid DNA from the outside to the inside of the bacteria cell.

Lab 5/5a terms Promoter is a region of DNA that facilitates the transcription of a particular gene. -Inducible promoters are promoters whose activity is induced by the presence or absence of certain compounds, stimuli or conditions. Inducible promoters are very powerful tools in genetic engineering because the expression of genes linked to them can be turned on or off by chemical or physical properties. -Constitutive promoters are unregulated promoters that allows for continual transcription of its associated gene. Transcription is a chemical process that uses RNA polymerase to convert a DNA nucleotide sequence into mrna. Translation is a chemical process that converts mrna into an amino acid sequence (protein).

Tips for a Successful transformation! Read and follow instructions! Label plates properly Use Aseptic Technique Keep cells on ice Time the heat shock Plates go agar side up in the incubator

Overview of the Lab Procedure Bacterial cells (E.coli) and para-r plasmid are mixed E. Coli cells take up the plasmid via heat shock Bacteria is plated on nutrient agar plates +/- amp and ara Only cells which incorporate the plasmid DNA will grow

Labeling Very Important! Label two microfuge tubes P+ P- has plasmid no plasmid Experimental Control

More labeling! Label plates on bottom (side with agar) LB marked with l LB/amp marked with I I LB/amp/ara marked with I I I

What s in the agar plates? The LB plate contains agar and Luria Broth (LB) which is the bacteria s food. The LB/amp plate contains Luria Broth (LB) and ampicillin (amp) The LB/amp/ara plate contains Luria Broth (LB), ampicillin (amp) and arabinose (ara) -Ampicillin is an antibiotic that prevents bacteria from fully forming a cell wall. -Arabinose is a simple sugar that is required by the bacteria to express the rfp gene

Heat Shock Keep P+ and P- tubes on ice for best results Walk to water bath with tubes in ice bucket! Place tubes in water bath for exactly 45 seconds Place tubes immediately back on ice! (for at least one minute) 42 ºC water bath

Plating and Spreading Aliquot and plate bacteria as below Spread bacteria on P- side of LB plate first then on P- side of LB/amp plate Discard inoculating loop Spread bacteria on P+ side of LB plate first then on P+ side of LB/amp plate and finally over the entire LB/amp/ara plate Use inoculating loop to spread cells

colonies lawn Growth of E. coli Bacteria on Plates bacteria If few cells grow Incubate at 37 C If many cells grow

Expected results P+ P- LB LB/amp LB/amp/ara LB LB/amp

Standards Evaluation Biology Genetics 5 c Students know how genetic engineering is used to produce novel biomedical and agricultural products Biology Cell Biology 1 d Students know the central dogma of molecular biology outlines the flow of information from transcription of RNA to translation on ribosomes

2024 © businessdocbox.com Privacy Policy | Terms of Service | Feedback