Biotech Lab #1 -Extraction Extract DNA from an organism’s cell to get the GOI – gene of interest.

Slides:

Advertisements

Similar presentations

Production of Human Growth Hormone in Genetically Modified Bacteria

Advertisements

Recombinant DNA & Bacterial Transformation

5 Stages involved in GE Isolation Cutting Ligation and Insertion

5 Stages involved in GE Isolation Cutting Ligation and Insertion

LO: How do scientists use recombinant DNA technology? DN: June 2013 #1-5 HW: June 2013 #44-49.

Ch. 13.1: BIOTECHNOLOGY Objectives:

Chapter 4: recombinant DNA

 We have made the gene through Recombinant DNA – how do we get lots of copies??

RECOMBINANT DNA TECHNIQUE

 DNA – Double Helix Structure  Each spiral strand is composed of a sugar phosphate backbone and attached bases  4 Bases: Adenine (A), Guanine(G), Cytosine.

Genetic Engineering changing DNA within an organism.

Introduction to Biotech Notes MANIPULATING and ANALYZING DNA.

Do Now 3/20 OBJECTIVES: Define plasmid and restriction enzyme. Identify where a restriction enzyme will cut a DNA sequence. Explain how REs and plasmids.

Biotech Lab#2 DNA Scissors Extract DNA from cell Magnify a portion of DNA & it looks like this: Double Helix Magnify a portion of Double Helix & it looks.

Unit 8 test Biotech study guide.

Chapter 20 Notes: DNA Technology. Understanding & Manipulating Genomes 1995: sequencing of the first complete genome (bacteria) 2003: sequencing of the.

Recombinant DNA.

Recombinant DNA Technology Bacterial Transformation & GFP.

Molecular Biology Part I: Restriction Enzymes AP Lab 6.

In vivo gene cloning.

Recombinant DNA and Biotechnology Gene cloning in bacterial plasmids Plasmid – extrachromosomal piece of DNA not necessary for survival can be transferred.

Restriction Enzymes Enzymes that CUT

Chapter 20 Notes: DNA Technology. Understanding & Manipulating Genomes 1995: sequencing of the first complete genome (bacteria) 2003: sequencing of the.

Yesterday: Genetic Disorders and Gene Therapy

The Plasmid Lab: Creating Recombinant DNA.  Circular piece of DNA  Replicates independently  Used as a VECTOR.

Observe the following slide and: 1) Explain what is occurring on the right side and then on the left side. 2) What might be the purpose of doing the process.

Biotechnology pp WHAT IS IT?  Biotechnology : the application of technology to better use DNA and biology.

13–2Manipulating DNA A.The Tools of Molecular Biology 1.DNA Extraction Homogenization: Cell walls, membranes, and nuclear material are broken Emulsification:

DNA Cloning. Cloning a line of genetically identical cells or individuals derived from a single ancestor produces many copies of a piece of DNA uses a.

Hypothetical Situation

Make a new entry- Entry 49:pGLO Quiz Review-5/9/12 See attached worksheet.

Genetic Engineering. What is genetic engineering? Application of molecular genetics for practical purposes Used to – identify genes for specific traits.

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.

Uses of DNA technology You will need to convince a grant committee to fund further research into your area of application of DNA technology Read your assigned.

Overview Amgen Biotech Labs In this set of labs, students will:

Making human insulin from bacteria: Use a restriction enzyme to cut out the gene for insulin a genetic scissors which cuts DNA at a specific sequence of.

Introduction to Biotechnology ~manipulating and analyzing DNA.

Genetic Engineering Genetic engineering is also referred to as recombinant DNA technology – new combinations of genetic material are produced by artificially.

Plasmids and Vectors Aims:

8.1 - Manipulating & Cloning DNA

Bacterial Transformation The Cohen - Boyer Experiment.

GENETIC TRANSFORMATION. WHAT IS GENETIC TRANSFORMATION Genetic transformation is altering a cell by adding genetic information from an outside source.

AIM: Genetic Engineering: changing the DNA of living organisms. 1. Inserting genes into other organisms 2. Selective Breeding 3. Cloning.

nome/program.html.

Steps to Recombinant DNA 1) Isolate the foreign DNA fragment 2) Attach DNA fragment to a “vehicle” called a Vector 3) Transfer the vector into a host.

Bacterial Transformation

Aim #68: What are some applications of Genetic Engineering? Genetic Engineering is a process that is used to the alter the genetic instructions in organisms.

Restriction enzymes Are found in bacteria and are used to cut up DNA from a virus that might enter and take over the bacteria. They cut at specific sequences.

Molecular Biology 3: Transformation AP Biology Lab 6.

DNA Technology. Definitions Genetic engineering - process of altering genes to combining DNA from two or more organisms. Genetic engineering - process.

BIOTECHNOLOGY DNA Technology.

Transformation Objective 4.

Aim: What are some applications of Genetic Engineering?

Date: January 26th, 2017 Aim #44: What are some applications of genetic engineering? HW: Daily Review of Class Notes Biotechnology Textbook Homework.

DO Now Identify the circled structure.

Biotech Lab Paper Plasmid with an introduction to using restriction digest and transformation.

Transformation Chapter 12.

Genetic Engineering Chapter 11 Section 1.

DNA Technology Vocab..

Recombinant DNA technology – combining genes from different sources into a single molecule. The result is a transgenic organism Bacteria, like E coli,

Recombinant DNA.

Genetic Engineering pp

CHAPTER 20 DNA TECHNOLOGY.

GENETIC ENGINEERING Human Cell DNA 1 Isolation

DO Now Identify the circled structure.

Genetically Modified Organisms

Genetic Egineering Isolation Cutting Ligation and Insertion

Bacterial Transformation

Recombinant DNA.

Presentation transcript:

Biotech Lab #1 -Extraction Extract DNA from an organism’s cell to get the GOI – gene of interest.

Biotech Lab#2 – Restriction Enzymes Send out DNA to determine the gene sequence Locate the gene. Cut out the gene using restriction enzymes.

Biotech Lab #3 – Recombinant Plasmid Remove plasmid from bacterial cell. Use restriction enzyme (RE) open up the plasmid. Use restriction enzyme to cut the gene out of on the organism’s DNA. Create sticky ends that are complementary to the plasmid’s sticky ends. Insert the gene using ligase. How does one determine which RE’s to use?

1.What is the GOI? 2.What restriction enzyme is use to cut the DNA samples? 3.Why can the human and bacterium DNA combine? 4.What types of DNA are found in the bacterial cell? 5.What other genes may be found on the plasmid? Illustration of Making a Recombinant Plasmid

The Luciferase Gene The objective of this lab is to have you create a paper recombinant plasmid. You will use colored paper, scissors and tape. If you are successful, you will have a two colored paper ring and pieces of colored paper. Bioluminescence and Fire flies Top Ten Bioluminescent Organisms

A Bacterial Plasmid: What can you tell me about the plamid? How many restriction sites? How many antibiotic resistant genes? Can this plasmid make more copies of itself? Why? When? Is this a recombinant plasmid? Explain.