BLAST+files

Here are the gene sequences you need for the BLAST lab



In this laboratory investigation, you will use BLAST to compare several genes, and then use the information to construct a cladogram. A cladogram is treelike, with the endpoints of each branch representing a specific species. The closer two species are located to each other, the more recently they share a common ancestor. In the cladogram below, you will also see the shared derived characters. Note that the placement of the shared derived character corresponds to when (in a general, not a specific sense) that character evolved; every species above the character label possesses that structure.

Figure 1. Cladogram Procedure  1) Download these pre-lab questions and include them in your laboratory notebook.   |||| **blast__pre-lab_questions.docx** [|Download File]
 * File Size: || 15 kb ||
 * File Type: || docx ||
 * File Type: || docx ||

2) A team of scientists has uncovered the fossil specimen shown below in Figure 2 near Liaoning Province, China. Make some general observations about the morphology of the fossil, and then record your observations in your notebook.  3) Little is known about the fossil. It appears to be a new species. Upon careful examination of the fossil, small amounts of soft tissue have been discovered. Normally soft tissue does not survive fossilization; however, rare situations of such preservation do occur Scientists were able to extract DNA nucleotides from the tissue and use the information to sequence several genes. Your task is to use BLAST to analyze these genes and determine the most likely placement of the fossil species on the cladogram shown below in Figure 3. Form an initial hypothesis as to where you believe the fossil specimen should be placed on the cladogram based on the morphological observations you made. Draw your hypothesis in your notebook.

Figure 2. Sample measures 4 x 6 cm. Figure 3

4) Click on the files above to download genes 1, 2, and 3 on your computer. DO NOT attempt to open these files, only the BLAST tool can read them.
5) Upload the gene sequence into BLAST by doing the following. a. Click on this link to open the BLAST homepage.

b. Click on "Saved Strategies" from the menu at the top of the page. c. Under "Upload Search Strategy," click on "Upload File" and locate one of the gene files you saved onto your computer. d. Click "View."

e. A screen will appear with the parameters for your query already configured. NOTE: Do not alter any of the parameters. Scroll down the page and click on the "BLAST" button at the bottom

f. After collecting and analyzing all of the data for that particular gene (see instructions below), repeat this procedure for the other two gene sequences. 6) The results page has two sections. The first section is a graphical display of the matching sequences.

Scroll down to the section titled "Sequence producing significant alignments." The species in the list that appears below this section are those with the sequences identical or most similar to the gene of interest. The most similar sequences are listed first, and as you move down the list, the sequences become less similar to your gene of interest. If you click on a particular species listed, you will get a full report that includes the classification scheme of the species, the research journal in which the gene was first reported, and the sequence of the bases that appear to align with your gene of interest. If you check the box by a species and then click on the link titled "Distance tree of results," you will see a cladogram with the species with similar sequences to your gene of interest placed on the cladogram according to how closely their matched gene aligns with your gene of interest. Analyzing Results Recall that species with common ancestry will share similar genes. The more similar genes two species have in common, the more recent their common ancestor and the closer the two species will be located on a cladogram. As you collect information from BLAST for each of the gene files, you should be thinking about your original hypothesis and whether the data support or cause you to reject your original placement of the fossil species on the cladogram. For each BLAST query, consider the following:
 * The higher the score, the closer the alignment (see the "Max score" value) * The lower the e value, the closer the alignment--the e value ( or "expect" value) reflects the expected number of random matches in the database. So for an e value of less than 1e-04, you can expect an error rate of less than 0.01%.

1. What species in the BLAST result has the most similar gene sequence to the gene of interest? 2. Where is that species located on your cladogram? 3. How similar is that gene sequence? 4. What species has the next most similar gene sequence to the gene of interest? 5. Based on what you have learned from the sequence analysis and what you know from the structure, decide where the new fossil species belongs on the cladogram with the other organisms. If necessary, redraw the cladogram in your lab notebook. 6. What other data could be collected from the fossil specimen to help properly identify its evolutionary history?
 * Questions for your lab notebook: