Computationally Comparing Different Genomes: Difference between revisions
m →Lesson |
mNo edit summary |
||
| Line 11: | Line 11: | ||
Introduction | Introduction | ||
A human genome contains over 3 billion base pairs. Now, if a scientist wants to identify similar portions of DNA in a human genome to a chimpanzee genome, which is also over 3 billion base pairs long, the scientist would need to use a computer program. This is where CoGe comes in. CoGe can be used to quickly take a section of a 3 billion base pair genome and find where that section closely matches another genome. As you finish this lesson you will not only begin to understand how genetics may be used to determine ancestry but also understand how scientists can estimate the when separate species shared a common ancestor.<br> | A human genome contains over 3 billion base pairs. Now, if a scientist wants to identify similar portions of DNA in a human genome to a chimpanzee genome, which is also over 3 billion base pairs long, the scientist would need to use a computer program. This is where CoGe comes in. [[CoGe]] can be used to quickly take a section of a 3 billion base pair genome and find where that section closely matches another genome. As you finish this lesson you will not only begin to understand how genetics may be used to determine ancestry but also understand how scientists can estimate the when separate species shared a common ancestor.<br> | ||
<br> | <br> | ||
Revision as of 16:04, 16 June 2010
Background Information
Objective: To have the user compare two very similar organisms to familiarize themself with CoGe while also learning about evolution and ancestry.
Difficulty: Easy
Estimated Time: 10 minutes
Lesson
Introduction
A human genome contains over 3 billion base pairs. Now, if a scientist wants to identify similar portions of DNA in a human genome to a chimpanzee genome, which is also over 3 billion base pairs long, the scientist would need to use a computer program. This is where CoGe comes in. CoGe can be used to quickly take a section of a 3 billion base pair genome and find where that section closely matches another genome. As you finish this lesson you will not only begin to understand how genetics may be used to determine ancestry but also understand how scientists can estimate the when separate species shared a common ancestor.
Part 1 - Finding the DNA sequence of the gene you want to compare
1. Open OrganismView (quicklink) and search for the animal you want to have compared and select it, for now use chimpanzee.
2. Click "Launch Genome Viewer" in the bottom left corner to open a new window that visually depicts the genome
3. Click the gene you want to have compared, for now just select a random gene. A small window titled features should pop up containing information about this gene.
4. Click on the information to the right of "Location:" in the small window to open a new window that contains the DNA sequence of the gene.
5. Click "CoGe Blast"
Part 2 - Blasting the gene to another genome