How Helicase Unwinds the DNA Double Helix in Preparation for Replication
Watch the two short tutorials above and reflect on what was learned. Education portal (education-portal.com) is a great resource for Biology and other classes!! :)
Wednesday, March 26, 2014
Monday, March 24, 2014
DNA Replication, Transcription & Translation
By the end of the block, you should be able to describe
As always, you can demonstrate your learning in a multitude of ways. You can do a scavenger hunt through the on-line resources you have at your disposal and put together a few paragraphs, a presentation or something else to show that you understand these concepts. You can also go to the Mader website, go to Chapter 12, and go through ALL of the BioTutorial Animation Quizzes & the ScieCentral Video quizzes (on the left side of the window) and e-mail the results to yourself as well as to me. You can do this work in pairs.
If you happen to complete that, then please go to the on-line textbook (Cengage) and complete the Review Quiz for Chapter 9 "From DNA to Protein" (you should also be able to complete the review quiz for Chapter 8)
- DNA Replication
- Transcription
- Translation
As always, you can demonstrate your learning in a multitude of ways. You can do a scavenger hunt through the on-line resources you have at your disposal and put together a few paragraphs, a presentation or something else to show that you understand these concepts. You can also go to the Mader website, go to Chapter 12, and go through ALL of the BioTutorial Animation Quizzes & the ScieCentral Video quizzes (on the left side of the window) and e-mail the results to yourself as well as to me. You can do this work in pairs.
If you happen to complete that, then please go to the on-line textbook (Cengage) and complete the Review Quiz for Chapter 9 "From DNA to Protein" (you should also be able to complete the review quiz for Chapter 8)
Monday, March 10, 2014
From Gene to Protein: A Historical Perspective "Replication of DNA"
What were the three models of DNA replication under investigation in the 1950's?
You should be able to describe and define:
Conservative
Semiconservative
Dispersive
Watch the animation from the DNA learning center to learn more about the three models
http://www.dnalc.org/view/15880-Models-of-DNA-replication.html
How might you test to determine which model is the correct one?
Assume you have the following materials in your laboratory. Design an experiment using these materials. You must justify your choice of organism and isotopes. You will share your information on a whiteboard with the group.
Meselson & Stahl did an experiment to determine which of the
models for DNA replication was actually correct
Short animation (from McGrawHill)
DNA from the beginning, Module 20 all about DNA replication and the Meselson Stahl experiment.
You should be able to describe and define:
Conservative
Semiconservative
Dispersive
Watch the animation from the DNA learning center to learn more about the three models
http://www.dnalc.org/view/15880-Models-of-DNA-replication.html
How might you test to determine which model is the correct one?
Assume you have the following materials in your laboratory. Design an experiment using these materials. You must justify your choice of organism and isotopes. You will share your information on a whiteboard with the group.
- An experimental organism of your choice
- Your choice of radioactive isotopes (e.g. 14C, 14N, 15N, 32P)
- Test Tubes
- Food/Growth media for organisms
- A Centrifuge
Meselson & Stahl did an experiment to determine which of the
models for DNA replication was actually correct
Short animation (from McGrawHill)
DNA from the beginning, Module 20 all about DNA replication and the Meselson Stahl experiment.
Thursday, March 6, 2014
Bill Nye Cloning
Today we are going to watch two episodes of Bill Nye "the eyes of science"
Clones
As you watch, please think about how the knowledge you gain might be useful in your "Genetic Screening of Newborns" project.
Take notes
On the Block day we are going to focus on DNA replication and talk about the debate on Wed/Thurs.
Clones
As you watch, please think about how the knowledge you gain might be useful in your "Genetic Screening of Newborns" project.
Take notes
On the Block day we are going to focus on DNA replication and talk about the debate on Wed/Thurs.
DNA Extraction
DNA
Today you will
extract DNA from some of your cells and learn more about DNA.
Extracting DNA from Your Cells
Cells from the lining
of your mouth come loose easily, so you will be able to collect cells
containing your DNA by swishing a liquid around in your mouth.
To extract DNA from
your cells, you will need to separate the DNA from the other types of
biological molecules in your cells. You
will be using the same basic steps that biologists use when they extract DNA
(e.g. to clone DNA or to make a DNA fingerprint). You will follow these 3 easy steps to extract
the DNA:
Detergent
eNzymes (meat tenderizer)
Alcohol
Getting
Your Sample of Cells
Obtain
a cup with sports drink. You will need
to get thousands of your cheek cells in the sports drink in order to extract
enough DNA to see. Therefore you should swish
the sports drink around in your mouth vigorously for at least one minute. Then
spit the drink back into the cup.
Step 1: Detergent
Open
the centrifuge tube (place the lid on a paper towel. Why is this important?) Add a small amount of
detergent to a centrifuge tube (about 0.25 mL).
Now carefully pour the drink containing your cheek cells into the test
tube with detergent until the tube is half
full.
Step 2: Enzymes
Add a pinch of enzyme
(meat tenderizer) to your centrifuge tube.
Replace the lid on the tube; gently invert the tube five times to
mix. Place the tube in the test tube
rack. Let the mixture sit for at least
10 minutes. While you are waiting, answer the questions on the following pages.
Why am I adding
detergent?
Why am I adding
enzymes?
The protease in meat
tenderizer comes from plants, but animals also make proteases. What is one reason why humans and other animals
need to have protein-cutting enzymes?
DNA
Structure
DNA consists of two
strands of nucleotides wound
together in a spiral called a double
helix. Read the explanation in the
figure before answering questions 1 and 2.
(Figure from Biology
-- A Guide to the Natural World by Krogh)
1. The three components of each nucleotide are:
______________________
______________________
______________________
Draw a rectangle
around a single nucleotide in the double helix.
2. The complete name for DNA is deoxyribonucleic acid. Which component of each nucleotide accounts
for the "deoxyribo” part of this name?
3. DNA has the same double helix structure in
all living organisms. However, we know
that a plant, mammal and bacterium must have different genes in their DNA to
result in the very different characteristics of these different organisms. So,
the question is: What is different in the DNA of these different
organisms? Complete the
following table to identify what is different between the DNA of the plant,
mammal and bacterium.
|
|
Compare the plant
and mammal DNA.
|
Compare the mammal
and bacterium DNA.
|
|
|
|
|
|
|
|
|
|
|
|
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In your attempt to
analyze DNA samples from three different species, what claims can you make
about the similarities and differences of the DNA samples?
Step 3: Alcohol
Using a pipette,
slowly add cold rubbing alcohol into the test tube; let the alcohol run down
the side of the test tube so it forms a layer on top of the soapy liquid. Add
alcohol until you have about 2 cm of alcohol in the tube. Alcohol is less dense than water, so it
floats on top. Do not mix or bump the test tube for 10 minutes. DNA molecules will clump together where
the soapy water below meets the cold alcohol above, and you will be able to see
these clumps of DNA as white strands.
Why doesn’t the
alcohol mix with the water?
Mid semester reflection
Please fill out the following form. The responses are anonymous. I look forward to your responses.
Thanks!! :)
Thanks!! :)
Wednesday, March 5, 2014
Wednesday 3/5/14
Hi guys! Sorry I am stuck in Kansas :( I should be back late this evening, so I will be back in class tomorrow!
Please continue to work on the article from the block day. You need to write a summary and reflection and post it to Canvas. Also, the selective permeability lab is available for submission on Canvas. Use the remainder of your time to work on your Genetic testing policy project.
See you tomorrow!
Monday, March 3, 2014
Summary/Reflection of Watson & Crick article
Write a paragraph describing what you learned and what you thought about reading the journal article from Watson & Crick (as well as anything you want to add from the "Secret of Photo 51" video).
Be honest (but nice) about what you really thought about reading the article as well as what you learned from the reading. You can write the reflection in pairs or individually, but everyone needs to submit the assignment on Canvas individually (it is there now, as well as the selectively permeable membrane lab)
Also, check out a more recently published article and we will discuss the similarities and differences on Wednesday
http://www.plosone.org/article/info:doi/10.1371/journal.pone.0035159
Be honest (but nice) about what you really thought about reading the article as well as what you learned from the reading. You can write the reflection in pairs or individually, but everyone needs to submit the assignment on Canvas individually (it is there now, as well as the selectively permeable membrane lab)
Also, check out a more recently published article and we will discuss the similarities and differences on Wednesday
http://www.plosone.org/article/info:doi/10.1371/journal.pone.0035159
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