Genetic Engineering Some diabetics need to inject insulin. We used to get insulin from cows or pigs, but that took time and money. We now use bacteria.

Slides:

Advertisements

Similar presentations

Recombinant DNA and Genetic Engineering

Advertisements

Chapter 13 Genetic Engineering

15.2 Recombinant DNA.

DNA / Protein Synthesis

VOCABULARY for GENETIC TECHNOLOGY. CLONING Produces an EXACT COPY of organism; Obtained through ASEXUAL reproduction- Occurs Naturally- Ex: spider plants,

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

1 Review Describe the process scientists use to copy DNA Use Analogies How is genetic engineering like computer programming 2 Review What is a transgenic.

Chapter 13 Genetic Engineering

Genetic Engineering II

Genetic Engineering and The Human Genome

Chapter 15 – Genetic Engineering

Modern Genetics.

Genetic Engineering Some diabetics need to inject insulin. We used to get insulin from cows or pigs, but that took time and money. We now use bacteria.

Chapter 13 It is the stuff of cartoons 1. Genetic engineering is the stuff of movies. Can you name a recent movie? 2.

Genetic Engineering. Tools of Molecular Biology DNA Extraction Cutting DNA Restriction Enzymes Recognize certain sequences of DNA and cut the hydrogen.

Biotechnology. Early Biotechnology = using organisms or their cellular processes to improve the lives and health of people and the planet Has evolved.

Objective: You will be able to list the positives and negatives of genetic engineering Do Now: Read “Increasing variation” which starts on p. 320 and ends.

Objective: Chapter 13- Biotechnology

Genetic Engineering Regular Biology. Selective Breeding  This is the process of allowing those organisms with specific characteristics to reproduce 

Ch. 13 Genetic Engineering

Genetic Engineering. Genetic Engineering: Genetic Engineering: process of altering biological systems by the purposeful manipulation of DNA Applications:

Restriction Enzymes Enzymes that CUT

Copyright Pearson Prentice Hall DNA Technology. Copyright Pearson Prentice Hall Selective Breeding Selective breeding allows only those organisms with.

End Show Slide 1 of 32 Copyright Pearson Prentice Hall Manipulating DNA.

Chapter 15: Genetic Engineering

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

Genetic Engineering. What is genetic engineering? Definition: process of changing an organism’s genetic material to produce a new and useful result This.

Genetic Engineering Chapter 13 Recombinant DNA Transformation Biotechnology Gel Electrophoresis PCR.

Cell Transformation, Transgenic Organisms & Cloning

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.

DNA Biotechnology. Cloning A clone is a group of living organisms that come from one parent and are genetically identical Can occur naturally or artificially.

Chapter 13.  Breeding organisms for specific characteristics  Ex: Pedigree Dogs, livestock, horses, plants  Two Types of Selective Breeding: 1) Hybridization.

Genetic Engineering Genetic Engineering is the process of making changes in the DNA code of living organisms. Genetic Engineering and DNA Technology can.

Genetic Engineering Chapter 13.

Albinism. Genetic Engineering Altering the DNA of a cell or organism.

Biotechnology. Breeding The first biotechnology Selective Breeding The breeding of organisms to produce certain desired traits in their offspring.

Manipulating and Cloning DNA. Being Healthy Type 1 diabetes Type 2 diabetes How can you help these individuals?

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

Genetic Engineering. I. Changing the Living World A. Humans are the ones responsible for directing the change among domestic animals and plants. B. The.

Two types of Cloning:.

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

SBI 4U December 2012 Manipulating & Cloning DNA. Introduction Insulin, diabetes and genetic engineering Genetic engineering: the intentional production.

Selective Breeding. GEL ELECTROPHORESIS AKA: DNA FINGERPRINTING.

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

Genetic Engineering Chapter 15 in Textbook. Selective Breeding Selective Breeding: allowing only those organisms with desired characteristics to reproduce.

Chapter 13 Changing the Living World. Selective Breeding and Hybridization  Selective Breeding  Allowing only those organisms with desired characteristics.

Genetic Engineering and Biotechnology. Genetic Engineering Genetic Engineering: a sequence of DNA (gene) from one organism is: identified, cut and removed.

Chapter 9-1: Manipulating DNA Chapter 9.4: Genetic Engineering “Miracles of genetic engineering”

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.

Gene Technology Chapter 9. “I Can” Statements I can explain how restriction enzymes can be used to make recombinant DNA. I can explain how bacteria can.

Biotechnology  Biotechnology involves human manipulation of the genetic code.  Genetic engineering is the process of manipulating genes for practical.

15.2 Recombinant DNA. Copying DNA – How do scientists copy the DNA of living organisms? –The first step in using the polymerase chain reaction method.

Genetic Engineering Biotechnology

15.1 Selective Breeding and 15.2 Recombinant DNA

Chapter 14.3 & 15 Biotechnology

Ch. 13Genetic Engineering

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

Genetic Engineering Insulin production Extra-nutrient foods

DNA Technology.

Genetic Engineering Genetic Engineering is the process of making changes in the DNA code of living organisms. Genetic Engineering and DNA Technology can.

Genetic Engineering pp

GENETIC ENGINEERING Human Cell DNA 1 Isolation

RDNA and CLONING.

CHAPTER 13 NOTES Selective breeding - only those animals with desired characteristics reproduce. Humans use it to take advantage of natural genetic variation.

Chapter 11 Gene Technology (Biotechnology)

Genetic Engineering and Cloning

Recombinant DNA and Genetic Engineering

Genetic Egineering Isolation Cutting Ligation and Insertion

Genetic Engineering.

Jeopardy Final Jeopardy Topic 1 Topic 2 Topic 3 Topic 4 Topic 5 $100

Presentation transcript:

Genetic Engineering Some diabetics need to inject insulin. We used to get insulin from cows or pigs, but that took time and money. We now use bacteria to produce insulin because they can make it quickly and cheaply. How can bacteria be used to produce insulin? – We need to isolate the DNA sequence bases for human insulin and put it into bacteria. How could we isolate and cut out a desired gene from DNA?

Making human insulin from bacteria: 1.Use a restriction enzyme to cut out the gene. a genetic scissors which cuts DNA at a specific sequence of nucleotides. Sticky ends are left over with nonpaired bases. Sticky ends can form hydrogen bonds with complementary sticky end base pairs on any other DNA molecule cut with the same enzyme

Making human insulin from bacteria: 2.Separate insulin from the rest of the DNA by gel electrophoresis. 2.Use Polymerization Chain Reaction to make many copies of the gene To insert the copies of the gene into the bacteria we use plasmids – circular DNA found in bacteria (not humans)

Making human insulin from bacteria: 4.Remove plasmids from bacteria and use the same restriction enzyme to cut insulin gene out of the plasmid – sticky ends are left over with nonpaired bases 5.Add broken plasmids to foreign DNA to make a recombinant DNA molecule (held together by convalent bonds formed with ligase) 6.Insert plasmid into the bacteria. When the bacteria reproduce by dividing, the human insulin gene is also reproduced, giving rise to offspring that are able to produce human insulin.

How can we use genetic engineering to get this cow to produce more milk?

Increasing milk production with rBGH  Using the same process to make insulin, use bacteria to make copies of the cow’s growth hormone.  This hormone is called rBGH (recombinant Bovine Growth Hormone)  By injecting it daily into a cow, you can increase a cow’s milk production by 10-15%.

How can we use genetic engineering to clone a sheep? Cloning – using a cell (except an egg or sperm cell) from a multicellular organism to make one or more genetically identical individuals

Cloning Nucleus was removed from an unfertilized egg taken from a female sheep Nucleus of a body cell taken from another sheep was then inserted into the unfertilized egg of the first sheep The resulting cell was then implanted into the uterus of donor (foster mother) sheep That sheep then gave birth to the cloned lamb

Dolly – the first cloned sheep!