Computationally Comparing Different Genomes: Difference between revisions

Background Information

Objective:  To have the user select a gene in one organism and find where that gene has moved to in another organism and how much the gene has changed. 

Difficulty:  Easy

Estimated Time:  10 minutes

Lesson

Introduction

     A human genome contains over 3 billion base pairs.  Now, if a scientist wants to compare portions of human DNA to a chimpanzee's DNA, which is also over 3 billion base pairs long, the scientist would need to use a computer program or the task would take hundreds of years.  This is where CoGe comes in.  CoGe can be used to quickly take a segment of a 3 billion base pair genome and find where that segment closely matches another genome.   This process is referred to as running a BLAST (Basic Local Alignment Search Tool) and is a very commonly used algorithm in genetics.  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 when different 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 organism you want to have compared and select it.  For now search "Escherichia coli strain" and select the first result

          - Note:  Escherichia coli is the unabbreviated name for E. coli, a very well studied bacteria.

     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 select a random gene (Note: you'll probably want to zoom in to do this). 

          - A small window titled features should pop up containing information on this gene

     4.  Click on the link to the right of Location: in the Features window to open a new window that contains the DNA sequence of the gene (quicklink)

     5.  Click CoGe Blast to open a new web page and to begin the blasting process (quicklink)

Part 2 - Blasting the gene to another genome

     You should now be looking at a web page titled CoGeBlast.  The large box containing many A's, T's, C's, G's and N's shows the DNA sequence for the gene you previously selected (Note: the N's signify unsequenced DNA).  Now you need to find the entire genome of the other organism you want to compare this gene with.  To do this:

     1.  Search for the organism you want to compare your gene with in the Organism Name search box and select it, for now search again for "Escherichia coli strain"

     2.  Now you are going to compare your orginal gene with all of E. coli strains in the results screen.  Click the + Add all selected button under the search results screen

          - Note:  you just added the original organism you chose to the list of genomes that will be blasted.  To remove it, select it in the Genomes to BLAST box then click - Remove

     3.  Click Run CoGe Blast to compare the gene in the first organism you selected to the entire genome of all the other organisms you selected (quicklink)

     4.  You just completed the blasting process

Part 3 - Analyzing the BLAST results

     The results page contains a lot of information and one of the first things you'll notice is a picture like the one to the right. This picture shows the location of the similar genes that were found through the blast search by marking them with a green arrow.  In the picture to the right four similar genes were found on four different chromosomes and/or organisms.  The following steps will show you how to compare the locations of these genes to the location of the original gene you chose.

     1.  Select the top box and any other box in the HSP Table (shown on the right) which has a quality near 97%

          Notes:

          - The top box is the original gene you selected and the second box you chose is the gene you are comparing it to

          - Each row is a gene that was found to be similar by the BLAST and the quality tells us how closely the genes match.

     2.  Click Go, located right underneath the table.  This will open a new window which displays information on the genes you just selected, ignore this information for now and click Run GEvo Analysis!

     3.  The new window that opened displays your final result, two genomes one on top of the other with red bars to mark the genes you chose.  Though this result may not seem amazing, the information you just acquired is extremely useful for biologists.  Biologists now know where the gene has moved to in the second organism, as signified by the location of the red bar, and how much the gene has changed, as noted by the quality.

Conclusion

What you just did

     Part 1

     1.  select an organism

     2.  select a gene in this organism

     Part 2

     2.  choose other organisms to compare that gene with

     Part 3

     3.  use an algorithm called BLAST to find the most similar genes in the original organism to genes in organisms you just selected

     4.  select the orginal gene and a blasted gene

     5.  visually compare the locations of the two genes

What you should learn from this

See Also

Previous Lecture: Visually comparing bacteria and mammal genomes

Next Lecture:

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