1. 13.1 Applied Genetics Selective Breeding
Chapter 13
Genetics and Biotechnology
13.1 Applied Genetics
Selective Breeding
The process by which desired traits of certain plants and animals are selected and passed on to their future generations is called selective breeding.
Saint Bernard
Rescue dog
Husky
Sled dog
German shepherd
Service dog

2. Chapter 13
Genetics and Biotechnology
13.1 Applied Genetics
Hybridization
Hybrid organisms can be bred to be more disease-resistant, to produce more offspring, or to grow faster.
A disadvantage of hybridization is that it is time consuming and expensive.

3. Pure breeds are maintained by inbreeding.
Chapter 13
Genetics and Biotechnology
13.1 Applied Genetics
Inbreeding
The process in which two closely related organisms are bred to have the desired traits and to eliminate the undesired ones in future generations
Pure breeds are maintained by inbreeding.
A disadvantage of inbreeding is that harmful recessive traits also can be passed on to future generations.

4. Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
Genetic Engineering
Technology that involves manipulating the DNA of one organism in order to insert the DNA of another organism, called exogenous DNA.

5. Genetically engineered organisms are used
Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
Genetically engineered organisms are used
to study the expression of a particular gene.
to investigate cellular processes.
to study the development of a certain disease.
Genetically engineered bollworm
to select traits that might be beneficial to humans.

6. An organism’s genome is the total DNA in the nucleus of each cell.
Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
DNA Tools
An organism’s genome is the total DNA in the nucleus of each cell.
DNA tools can be used to manipulate DNA and to isolate genes from the rest of the genome.

7. Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
Restriction enzymes recognize and bind to specific DNA sequences and cleave the DNA within the sequence.
Scientists use restriction enzymes as powerful tools for isolating specific genes or regions of the genome.

8. EcoRI specifically cuts DNA containing the sequence GAATTC.
Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
EcoRI specifically cuts DNA containing the sequence GAATTC.
The ends of the DNA fragments, called sticky ends, contain single-stranded DNA that is complementary.

9. The smaller fragments move farther faster than the larger ones.
Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
An electric current is used to separate DNA fragments according to the size of the fragments in a process called gel electrophoresis.
When an electric current is applied, the DNA fragments move toward the positive end of the gel.
The smaller fragments move farther faster than the larger ones.

10. Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
Gel electrophoresis
The unique pattern created based on the size of the DNA fragment can be compared to known DNA fragments for identification.

11. Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
The newly generated DNA molecule with DNA from different sources is called recombinant DNA.

12. Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
To make a large quantity of recombinant plasmid DNA, bacterial cells are mixed with recombinant plasmid DNA.
Some of the bacterial cells take up the recombinant plasmid DNA through a process called transformation.

13. Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
Large numbers of identical bacteria, each containing the inserted DNA molecules, can be produced through a process called cloning.

14. Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
A technique called the polymerase chain reaction (PCR) can be used to make millions of copies of a specific region of a DNA fragment.

15. Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
Biotechnology
Organisms, genetically engineered by inserting a gene from another organism, are called transgenic organisms.

16. Mice, fruit flies, and the roundworm
Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
Transgenic Animals
Scientists produce most transgenic animals in laboratories for biological research.
Mice, fruit flies, and the roundworm

17. Genetically engineered cotton resists insect infestation of the bolls.
Chapter 13
Genetics and Biotechnology
13.2 DNA Technology
Transgenic Plants
Genetically engineered cotton resists insect infestation of the bolls.
Sweet-potato plants are resistant to a virus that could kill most of the African harvest.
Rice plants with increased iron and vitamins could decrease malnutrition.

18. The Human Genome Project
Chapter 13
Genetics and Biotechnology
13.3 The Human Genome
The Human Genome Project
The goal of the Human Genome Project (HGP) was to determine the sequence of the approximately three billion nucleotides that make up human DNA and to identify all of the approximately 20,000–25,000 human genes.

19. These regions are called noncoding sequences.
Chapter 13
Genetics and Biotechnology
13.3 The Human Genome
Less than two percent of all of the nucleotides in the human genome code for all the proteins in the body.
The genome is filled with long stretches of repeated sequences that have no direct function.
These regions are called noncoding sequences.

20. Protein-coding regions of DNA are almost identical among individuals.
Chapter 13
Genetics and Biotechnology
13.3 The Human Genome
DNA Fingerprinting
Protein-coding regions of DNA are almost identical among individuals.
The long stretches of noncoding regions of DNA are unique to each individual.
DNA fingerprinting involves separating these DNA fragments to observe the distinct banding patterns that are unique to every individual.

21. Creating and maintaining databases of biological information
Chapter 13
Genetics and Biotechnology
13.3 The Human Genome
Bioinformatics
Creating and maintaining databases of biological information
Finding genes in DNA sequences of various organisms and developing methods to predict the structure and function of newly discovered proteins

22. Chapter 13
Genetics and Biotechnology
13.3 The Human Genome
The study of how genetic inheritance affects the body’s response to drugs is called pharmacogenomics.
The benefits of pharmacogenomics include more accurate dosing of drugs that are safer and more specific.

23. A technique aimed at correcting mutated genes
Chapter 13
Genetics and Biotechnology
13.3 The Human Genome
A technique aimed at correcting mutated genes
that cause human diseases
is called gene therapy.
Scientists insert a normal gene into a chromosome to replace a dysfunctional gene.
Genomics is the study of an organism’s genome.