CHAPTER 13 Genetic Engineering.

Slides:



Advertisements
Similar presentations
Recombinant DNA & Biotechnology
Advertisements

Chapter 13 Genetic Engineering
Chapter 13 Genetic Engineering
CHAPTER 13 Genetic Engineering Changing the Living World ● Selective Breeding Choosing the “best” traits for breeding. Takes advantage of naturally.
Chapter 13 – Genetic Engineering L2 Biology Has Bonnie been bred by selective breeding?
Genetic Engineering Chapter 13 (Sections 1, 2 and 4)
Gene Regulation, Genetic Testing and Engineering.
Ch. 13 Genetic Engineering
Chapter 13 Genetic Engineering.
CHAPTER 13 Genetic Engineering Changing the Living World Selective Breeding Choosing the “best” traits for breeding Most domestic animals are products.
Ch 13 Genetic Engineering
Chapter 13 Genetic Engineering Selective Breeding- choosing what parents you want to produce offspring for the next generation. What do get when you cross.
Genetic Engineering. Selective Breeding Have you ever seen a dog show on tv? How many different types of dogs were there?!
Chapter 13 GENETIC ENGINEERING.
CHAPTER 13 – GENETIC ENGINEERING TEST REVIEW
Biotechnology. Early Biotechnology = using organisms or their cellular processes to improve the lives and health of people and the planet Has evolved.
Chapter 13 Genetic Engineering. This genetically engineered plant Glows-in-the-Dark!
Genetic Engineering Chapter 13 Selective Breeding Choosing the BEST traits for breeding. Most domesticated animals are products of SB. Also known as:
Genetic Engineering Regular Biology. Selective Breeding  This is the process of allowing those organisms with specific characteristics to reproduce 
Copyright Pearson Prentice Hall DNA Technology. Copyright Pearson Prentice Hall Selective Breeding Selective breeding allows only those organisms with.
GENETIC ENGINEERING.  Scientist use their knowledge of the chemical composition and structure of DNA to study and change DNA  This process is known.
Chapter 13.  Breeding organisms for specific characteristics  Ex: Pedigree Dogs, livestock, horses, plants  Two Types of Selective Breeding: 1) Hybridization.
Artificial Selection and Genetic Engineering Selective Breeding Choosing the BEST traits for breeding. Most domesticated animals are products of selective.
Genetic Engineering Chapter 13.
CHANGING THE LIVING WORLD OBJECTIVES: 13.1 Explain the purpose of selective breeding. Describe two techniques used in selective breeding. Tell why breeders.
Chapter 13 Genetic Engineering.
Frontiers of Biotechnology Changing the Living World These dogs are all of the same species Where do their striking differences in appearance come from?
Genetic Engineering and The Human Genome. Selective Breeding Humans use selective breeding to pass desired traits on to the next generation. Humans use.
Genetic Engineering. I. Changing the Living World A. Humans are the ones responsible for directing the change among domestic animals and plants. B. The.
Objective: to intro selective breeding and genetic engineering 13.1 and 13.2.
Genetic Engineering. Selective Breeding Humans use selective breeding to pass desired traits on to the next generation of organisms Hybridization – The.
Human Genome Project - established to determine DNA sequence of humans. - useful in locating genes and curing disorders. Example Gene Therapy- replacing.
CHAPTER 13 Standard 4.9 Genetic Engineering How can humans manipulate DNA?
Chapter 16 - Biotechnology Gene causes these mice to glow in the dark. Normally, the gene is found in jellyfish.
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.
13.1 CHANGING THE LIVING WORLD 13.2 MANIPULATING DNA 13.3 CELL TRANSFORMATION 13.4 APPLICATION OF GENETIC ENGINEERING CH 13 GENETIC ENGINEERING.
GENETIC ENGINEERING. What does something that has been genetically engineered mean?
Genetic Engineering Changing the Living World Selective Breeding Choosing the “best” traits for breeding Most domestic animals are products of SB.
CHAPTER 13 Genetic Engineering. Mutations produce new kinds of bacteria ex. oil-eating bacteria.
Chapter 13 Genetic Engineering Changing the Living World Humans use selective breeding, which takes advantage of naturally occurring genetic variation.
Genetic Engineering.
Genetic Engineering and Biotechnology
Biotechnology and Genetic Engineering
CHAPTER 13 Genetic Engineering.
Chapter 13 Genetic Engineering
GENETIC ENGINEERING Chapter 13.
13-1 Genetic Engineering.
CHAPTER 13 Genetic Engineering.
the manipulation of living organisms for human use Chapter 13
Do Now.
Genetic Engineering and Biotechnology
Chapter 16 - Biotechnology
Chapter 13 Genetic Engineering
Biotechnology and Genetic Engineering The Supercow (A PRIME Example ;)
Genetic Engineering Chapter 15.
Genetic Engineering How can humans manipulate DNA?
Chapter 13 – Genetic Engineering
Genetic Engineering Study Guide Review.
Genetic Engineering.
Changing the Living World & Manipulating DNA
Manipulating DNA.
Chapter 13 Genetic Engineering.
Presented modified from biologycorner.com
Ch. 13 Genetic Engineering
Changing the Living World
13.1 Changing the Living World
Chapter 13 Genetic Engineering
Genetic Engineering.
Frontiers of Biotechnology
Presentation transcript:

CHAPTER 13 Genetic Engineering

13-1 Changing the Living World Selective Breeding Choosing the “best” traits for breeding Most domestic animals are products of SB

HORSES

Even Cows, Sheep, & Pigs All Products of Selective Breeding (Artificial Selection)

Hybridization Crossing dissimilar individuals to bring together the best traits of both organisms produces hybrids * Hybrids can be different species crossed together or different types within the same species.

Golden Doodle Puggle Designer breeds or mutts?

INBREEDING Inbreeding = continued breeding of similar individuals (ex. pure breed dogs) Has risks… increases breed’s susceptibility to disease & deformities Golden retrievers - epilepsy Dalmations - hereditary deafness

Increasing Variation Breeders can increase variation in a population by inducing mutations    Mutation = any change in DNA     Mutations can happen randomly, as in this Scottish fold cat. Cat enthusiasts bred these cats from a single cat with a mutation for the ears.

Mutations produce new kinds of bacteria ex. oil-eating bacteria

Mutations produce new kinds of plants Ex. day lilies, bananas, citrus fruits   Polyploid plants have multiple sets of chromosomes. 

1.  Dogs and other domestic animals were produced through many years of  _______   breeding. 2.  Two dissimilar organisms crossed together is called  ___________________ 3.  Purebred dogs can sometimes have poor health due to __________ 4.  Any change in DNA is a ________ 5.  Designer dogs, such as the puggle are also called _______________

13-2 Manipulating DNA How are changes made to DNA? Scientists use their knowledge of the structure of DNA & its chemical properties to study & change DNA molecules   *This is GENETIC ENGINEERING

Different techniques are used… to extract DNA from cells to cut DNA into smaller pieces to identify the sequence of bases in a DNA molecule to make unlimited copies of DNA

= making changes in the DNA code of a living organism Genetic engineering = making changes in the DNA code of a living organism

a.)  DNA extraction – simple chemical process to get DNA out of cell;  cells are opened & DNA is separated from other cell parts b.)  cutting DNA – restriction enzymes are used to cut DNA at specific sequences of nucleotides

c.) separating & analyzing DNA Scientist use gel electrophoresis = -DNA fragments are put at one end of a gel electric current is applied to gel DNA molecules move

DNA SEQUENCE - can be used to solve crimes or determine paternity - requires restriction enzyme to cut the DNA , and electrophoresis to separate it

d.) recombinant DNA – DNA produced by combining DNA from different sources e.)  making copies Polymerase chain reaction (PCR) used to make multiple copies of genes

1. Making changes to DNA is called _________________ _______________ 2 1.  Making changes to DNA is called _________________     _______________ 2. A ________________ enzyme is used to cut DNA into pieces. 3.  Gel  __________________________ is used to separate DNA fragments 4. The polymerase chain reaction (PCR) is used to make ______________ of DNA 5. Scientists can _________ DNA from any cell or body tissue. 6. When DNA from two different organisms is combined, it is called _______________ DNA 7.  A DNA _____________ can be read to determine paternity or solve crimes

Transgenic Organisms Contains genes from other species Microorganisms (bacteria) Animals (mouse; medical uses) Plants (agricultural uses) *GM Crops

Gene causes these mice to glow in the dark Gene causes these mice to glow in the dark. Normally, the gene is found in jellyfish.

Cloning member of a population of genetically identical cells produced from a single cell easy to clone single cell organisms multicellular organisms more difficult to clone a twin is a natural clone 1997  Dolly the sheep cloned, 1st mammal

How to Clone a Sheep

Cloning a Human

CC was the first cloned cat (Rainbow is the original) CC was the first cloned cat (Rainbow is the original).  CC is short for "Carbon Copy".  What is interesting is the color pattern for the clone is different from the original. The reason is that the genes for color randomly turn on or off for the skin cells, creating random coloration even on the cloned cat.

How Can Cloning Be Useful? 1.  Save endangered species by storing DNA and cloning 2.  Make multiple copies of a useful gene (insulin for diabetics) 3.  Clone spare parts, like organs or bone marrow 4.  Create experimental groups for studying (animals) 5.  Clone "special" animals, pets or horses

1. An animal that contains the genes of another species, like the glow-in-the-dark mice, is called a __________ organism. 2.  A _______ is a genetically identical organism. 3.  In humans, a naturally occurring clone is a ________ 4. The first mammal that was cloned from a skin cell was a _______

5.  With regard to cloning...it is necessary to have which of the following?   Check all that apply...   ___Cell from the adult to be cloned ___Egg with nucleus intact ___Embryo ___Surrogate mother ___ Sperm ___ Stem cells ___ Egg with nucleus removed

BIOETHICS 1. I would use genetic engineering to remove a harmful gene from my unborn child, such as the gene that causes cystic fibrosis. 2. I would use genetic engineering to remove an abnormal (but not necessarily harmful) gene from my unborn child; such as the gene that causes dwarfism.

3.  I would use genetic engineering to remove a gene that is not desirable, such as the gene that causes baldness. 4.  I would use genetic engineering to change a gene in my unborn child, such as their hair color or eye color. 5. I would use genetic engineering to add a gene to my child that is not human – such as a gene from another organism that could improve sight or running ability.