Concept 4
inbreeding
crossing individuals who are closely related
GMO
genetically modified organism; these are organisms that are altered by recombinant DNA technology for desired traits
gene therapy
inserting a normal gene to fix or replace an abnormal or absent gene
transformation
inserting recombinant DNA into host cells
selective breeding
Artificially breeding for a desired trait
CRISPR
a gene editing technique that helps us to understand the genetics behind many diseases. It repairs genes that are already there.
gel electrophoresis
a labratory method that uses an electric current to separate DNA fragments based on their molecular size
Genome
an organism's complete set of DNA; all of its genes
gene cloning
produces multiple identical copies of a gene
pharming
production of pharmaceuticals in farm animals or plants
Biotechnology
refers to any technology used to change the genetic makeup of living things to make products
gene map
show the location of genes on a chromsome
Genetic engineering
the direct manipulation of an organism's genome using biotechnology
Stem cells
undifferentiated cells that have the potential to become anything
restriction enzymes
used to cut strands of DNA at specific locations
Describe two examples of genetic engineering. Include your description examples of societal implications.
One example of genetic engineering is personal genome sequencing which is using DNA sequencing technologies to have your personal genome sequenced. Societal implications include that you could become more susceptible to diseases, and whatever trait you change could be passed on to your offspring. Another example is genetically modified organisms. These are organisms that are altered by recombinant DNA technology for desired traits. Societal implications: This can cause health problems.
Describe the overall goal of genetic engineering and how we are able to accomplish it.
The goal of genetic engineering is to ensure that an organism expresses a desired trait. We can accomplish this by looking at the body's genome and figuring out what part of the body we are going to change. From there, we can use DNA amplification or gel electrophoresis to change or replace the DNA.
polymerase chain reaction
a technique that allows you to copy a piece of DNA without a cell
hybridization
a type of selective breeding between unrelated organisms
Recombinant DNA
artificially made DNA from 2 or more different sources
