DNA Technology and Genomics
description
Transcript of DNA Technology and Genomics
DNA Technology and Genomics
What is biotechnology?• Manipulation of organisms or their components to make
useful products
• Which of these are “biotechnology”?• Use of microbes to make red wine or cheese• Selective breeding of livestock• Modify specific genes and move them between organisms
KWLWrite either something you know or something you want to know about
biotechnology on your sticky notes (with your initials) and place them on the board
• Know • Want to Know
How does DNA control the cell??
You Must Know• The terminology of biotechnology
• The steps in gene cloning with special attention to the biotechnology tools that make cloning possible
• The key ideas that make PCR possible
• How gel electrophoresis can be used to separate DNA fragments or protein molecules
Key Questions1. What is biotechnology (or DNA technology), and what are some
practical applications that affect our lives?2. How are restriction enzymes used to create recombinant DNA?3. How are genes cloned? (hint: there are generally 5 steps)4. What is PCR, what is it used for, and what are the steps of the
process?5. What is gel electrophoresis, what is it used for, and what are the
steps of the process?6. What are microarrays and what are they used for?7. How is DNA technology used in diagnosis of disease, gene therapy,
pharmaceuticals, forensics, environmental work, and agriculture?8. What important safety and ethical questions does DNA technology
raise?
Commonly Used Terms
o Genetic engineering – the process of manipulating genes and genomes
o Biotechnology – the process of manipulating organisms or their components for the purpose of making useful products
o Recombinant DNA – DNA that has been artificially made, using DNA from different sources and often different species. Example: introducing a human gene (like the insulin gene) into an E. coli bacterium
o Gene cloning – the process by which scientists can produce multiple copies of specific segments of DNA that they can then work with in the lab
What is biotechnology?
•Manipulation of organisms or their components to make useful products
•Modify specific genes and move them between organisms
•We need to be able to cut out specific genes and reinsert them somewhere else!
Restriction Enzymeso Restriction enzymes – used to
cut strands of DNA at specific locations called restriction sites; derived from bacteria When DNA is cut by restriction
enzymes, the result will be a set of restriction fragments which will have at least one single stranded end called a sticky end
Sticky ends can form H-bonds with complementary single-stranded pieces of DNA which are sealed with DNA ligase
What is biotechnology?•Manipulation of organisms or their
components to make useful products• Modify specific genes and move them between
organisms
• Why would we want to modify, move, and clone genes?• Engineer bacteria to produce medicine or clean
oil spills; investigate the function of a gene (super important in cancer research!); identify criminal at crime scene; etc
Cloning GenesGenerally occurs in 5 steps
1. Isolate the vector (plasmid) and gene-source DNA (ex: human gene). The plasmid should include a gene for antibiotic resistance (for example, ampicillin resistance denoted ampR).
Cloning Genes
2. Insert the DNA (human gene) into the vector.
a) Digest plasmid and human DNA with same restriction enzyme (this creates compatible sticky ends on both the human DNA and the plasmid)
b) Mix the fragments of human DNA with the clipped plasmids; the sticky ends of a plasmid base-pair with the sticky ends of the human DNA fragment
c) Join the DNA molecules using DNA ligase
Cloning Genes
3. Introduce the cloning vector (recombinant plasmid) into the cells. Plasmids are taken up by bacteria by transformation
Cloning Genes4. Clone the cells (and foreign genes)
and select for cells that have been transformed. • Transformed bacteria are plated on
solid nutrient medium containing the antibiotic for which the plasmid confers resistance (for example, ampicillin) so that only bacteria that have been transformed (those that have taken up the plasmid with ampR) can survive and reproduce.
• A reporter gene, such as green fluorescent protein, may also be linked to the plasmid to help identify colonies of transformed bacteria.
• Each reproducing bacterium forms a colony and in the process, the human genes are also cloned.
Cloning Genes5. Identification of cell clones carrying
the gene of interest (human gene). The gene itself or the protein it produces can be identified.• Nucleic acid hybridization • Nucleic acid probe
Cloning Genes5. Identification of cell clones carrying
the gene of interest (human gene). • Nucleic acid hybridization – the
method for detecting the DNA of a gene directly using base pairing between the gene and a complementary sequence n another nucleic acid molecule
• Nucleic acid probe – the short, single stranded molecule of DNA or RNA that is complementary to a portion of the gene; making the probe radioactive or fluorescent makes the gene easier to track
Check for Understanding
Place the events involved in gene cloning in the correct order
A. Add DNA ligase to bond sticky endsB. Isolate plasmid (vector) DNA and human DNAC. Plate cells onto medium with antibioticD. Put plasmids into bacteria by transformationE. Mix DNAs (plasmid and human gene)F. Identify clone/colony containing gene of interestG. Cut both DNAs with same restriction enzyme
Check for Understanding
The correct order is…
B. Isolate plasmid (vector) DNA and human DNAG. Cut both DNAs with same restriction enzymeE. Mix DNAs (plasmid and human gene)A. Add DNA ligase to bond sticky endsD. Put plasmids into bacteria by transformationC. Plate cells onto medium with antibioticF. Identify clone/colony containing gene of interest
Key Questions
Working with your partner, discuss and write down answers to the following questions:
1.What is biotechnology (or DNA technology), and what are some practical applications that affect our lives?2.How are restriction enzymes used to create recombinant DNA?3.How are genes cloned? (hint: there are generally 5 steps)
E. Coli Insulin Factory• In this activity we will simulate the process of inserting a
human gene (insulin) into a bacterial plasmid which can then be taken up by a bacteria, causing the bacteria to produce the human gene product
Key Questions1. What is biotechnology (or DNA technology), and what are some
practical applications that affect our lives?2. How are restriction enzymes used to create recombinant DNA?3. How are genes cloned? (hint: there are generally 5 steps)4. What is PCR, what is it used for, and what are the steps of the
process?5. What is gel electrophoresis, what is it used for, and what are the
steps of the process?6. What are microarrays and what are they used for?7. How is DNA technology used in diagnosis of disease, gene therapy,
pharmaceuticals, forensics, environmental work, and agriculture?8. What important safety and ethical questions does DNA technology
raise?
PCR
• PCR (or polymerase chain reaction) is a method used to greatly amplify a particular piece of DNA in vitro without the use of cells
• PCR is used when the source of DNA is scanty or impure • crime scene • ancient artifacts
PCR• Starting material
• double stranded DNA containing sequence that is “targeted” for copying
• heat-resistant DNA polymerase• supply of all 4 nucleotides• supply of primers specific to
target sequences
PCR1. Heat solution briefly to separate DNA strands
PCR2. Cool to allow specific primers to H-bond
PCR3. DNA polymerase adds nucleotides to 3’ of each primer
• Repeat – solution is again heated, cooled to allow primer binding, and DNA polymerase adds nucleotides to 3’ of each primer…
PCR
Key Questions
Working with your partner, discuss and write down answers to the following question:
4.What is PCR, what is it used for, and what are the steps of the process?
20.2 – DNA technology allows us to study the sequence, expression, and function of a gene• Genomics – the study of whole sets of genes and their
interactions
• Gel electrophoresis
• Southern blotting
• DNA microarray assays
Gel Electrophoresis• Gel electrophoresis – a lab technique that is used to separate
macromolecules, primarily DNA and proteins, on the basis of their size and charge with the use of an electric current
Gel Electrophoresis• In separating DNA, the negative charges on the phosphates in the
molecule cause DNA to move toward the positive pole of the electrophoresis set-up
• The gel allows smaller molecules to move more easily than larger fragments of DNA, thus the fragments are separated by size
Gel Electrophoresis1. Samples containing a mixture of DNA molecules of different sizes
are placed in wells near one end of the gel; electrodes are attached to both ends and voltage is applied
2. The negatively charged DNA molecules migrate toward the positive electrode (the anode); longer molecules travel slower, shorter molecules travel more quickly and thus farther
3. When the current is turned off, the DNA molecules are arrayed in “bands” along a “lane” according to their size
Southern Blotting• Southern blotting – combines gel electrophoresis and
nucleic acid hybridization to allow researchers to find a specific human gene; specific enough to differentiate between alleles• Ex: southern blotting can distinguish between a normal hemoglobin
allele and a sickle-cell allele
Southern Blotting
DNA Microarray Assays
• DNA microarray assays – used to detect and study the expression of thousands of genes at one time• ex – used to see differences in gene expression of a breast cancer
tumor cell and a noncancerous breast cell
DNA Microarray Assays1. Small amounts of single-stranded DNA fragments representing
different genes are fixed to a glass slide in a tight grid which is termed a DNA chip
DNA Microarray Assays
2. All mRNA molecules from the cell being tested are isolated and converted to cDNA by reverse transcriptase, then tagged with a fluorescent dye
3. The cDNA bonds to the ssDNA (single-stranded DNA) on the chip, indicating which genes are “on” in the cell (actively producing mRNA); the dye alerts the researcher
DNA Microarray Assays
20.3 – The practical applications of DNA technology affect our lives in many ways
For the following applications, give at least one example of how the technology is being used.1.Diagnosis of disease2.Gene therapy3.Pharmaceuticals4.Forensic applications5.Environmental cleanup6.Agricultural applications Safety and Ethical Concerns•List at least 3 major safety measures and concerns and at least 3 major ethical questions that arise from use of DNA technology.