Difference between revisions of "Nanguiano Week 4"
From LMU BioDB 2015
(edited answer to problem 1 part 1, and put down theory for part 2) |
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aaaggtcggtttaaccggcctttttattttat | aaaggtcggtttaaccggcctttttattttat | ||
* -10 box of the promoter <pre>... <minus10box>...</minus10box> ...</pre> | * -10 box of the promoter <pre>... <minus10box>...</minus10box> ...</pre> | ||
| − | ** Using what I had learned from the previous problem, as well as the hint from the week 4 assignment that indicated that the -10 box was located at <code>[ct]at[at]at</code>, I began to formulate the command. Upon running the command to test to make sure that the sequence was being found correctly (<code>cat infA-E.coli-K12.txt | sed "s/[ct]at[at]at/ & /g"</code>, I was surprised to find that there was a match both before and after the location that had been found for the minus 35 box. Knowing that that -10 box comes after the -35 box, and there should be around 17 nucleotides between them, I knew that this time I could not simply change the first match, since the first match would not be correct. It would be the second match that would be correct. | + | ** Using what I had learned from the previous problem, as well as the hint from the week 4 assignment that indicated that the -10 box was located at <code>[ct]at[at]at</code>, I began to formulate the command. Upon running the command to test to make sure that the sequence was being found correctly (<code>cat infA-E.coli-K12.txt | sed "s/[ct]at[at]at/ & /g"</code>, I was surprised to find that there was a match both before and after the location that had been found for the minus 35 box. Knowing that that -10 box comes after the -35 box, and there should be around 17 nucleotides between them, I knew that this time I could not simply change the first match, since the first match would not be correct. It would be the second match that would be correct. The final command and output to display the -10 box was as follows: |
| + | cat infA-E.coli-K12.txt | sed "s/[ct]at[at]at/ <minus10box>&<\/minus10box> /2" | ||
| + | |||
| + | ttttcaccacaagaatgaatgttttcggcacatttctccccagagtgttataattgcggtcgcagagttggttacgctcattaccccgctgccgataagg | ||
| + | aatttttcgcgtcaggtaacgcccatcgtttatctcaccgctcccttatacgttgcgcttttggtgcggcttagccgtgtgttttcggagtaatgtgccgaa | ||
| + | cctgtttgttgcgatttagcgcgcaaatctttacttatttacagaacttcgg <minus10box>cattat</minus10box> cttgccggttcaa | ||
| + | attacggtagtgataccccagaggattagatggccaaagaagacaatattgaaatgcaaggtaccgttcttgaaacgttgcctaataccatgttccgc | ||
| + | gtagagttagaaaacggtcacgtggttactgcacacatctccggtaaaatgcgcaaaaactacatccgcatcctgacgggcgacaaagtgactgttg | ||
| + | aactgaccccgtacgacctgagcaaaggccgcattgtcttccgtagtcgctgattgttttaccgcctgatgggcgaagagaaagaacgagtaaaagg | ||
| + | tcggtttaaccggcctttttattttat | ||
| + | ** Combined with the code for the minus 35 box, the output is as follows: | ||
| + | cat infA-E.coli-K12.txt | sed "s/tt[gt]ac[at]/ <minus35box>&<\/minus35box> /1" | sed "s/[ct]at[at]at/ <minus10box>&<\/minus10box> /2" | ||
| + | |||
| + | ttttcaccacaagaatgaatgttttcggcacatttctccccagagtgttataattgcggtcgcagagttggttacgctcattaccccgctgccgataaggaa | ||
| + | tttttcgcgtcaggtaacgcccatcgtttatctcaccgctcccttatacgttgcgcttttggtgcggcttagccgtgtgttttcggagtaatgtgccgaacctg | ||
| + | tttgttgcgatttagcgcgcaaatc <minus35box>tttact</minus35box> tatttacagaacttcgg <minus10box>cattat</ | ||
| + | minus10box> cttgccggttcaaattacggtagtgataccccagaggattagatggccaaagaagacaatattgaaatgcaaggtaccgttcttg | ||
| + | aaacgttgcctaataccatgttccgcgtagagttagaaaacggtcacgtggttactgcacacatctccggtaaaatgcgcaaaaactacatccgcatcct | ||
| + | gacgggcgacaaagtgactgttgaactgaccccgtacgacctgagcaaaggccgcattgtcttccgtagtcgctgattgttttaccgcctgatgggcga | ||
| + | agagaaagaacgagtaaaaggtcggtttaaccggcctttttattttat | ||
* transcription start site <pre>... <tss>...</tss> ...</pre> | * transcription start site <pre>... <tss>...</tss> ...</pre> | ||
* ribosome binding site <pre>... <rbs>...</rbs> ...</pre> | * ribosome binding site <pre>... <rbs>...</rbs> ...</pre> | ||
Revision as of 00:14, 23 September 2015
Transcription and Translation “Taken to the Next Level”
- First, I needed to log in to my LMU CS account to access the data used in this weeks assignment.
ssh nanguia1@lion.lmu.edu
- Next, I needed to enter the folder that I'd created for the class, and create a new folder for this week's assignment.
cd biodb mkdir week4
- Next, I moved into Dondi's directory so I could obtain the file required for the assignment - infA-E.coli-K12.txt.
cd ~dondi/xmlpipedb/data cp infA-E.coli-K12.txt ~nanguia1/biodb/week4
- Then, I moved into my directory to prepare to do the assignment.
cd ~nanguia1/biodb/week4
For each of the following questions pertaining to this gene, provide (a) the actual answer, and (b) the sequence of text-processing commands that calculates this answer. Specific information about how these sequences can be identified is included after the list of questions.
Modify the gene sequence string so that it highlights or “tags” the special sequences within this gene, as follows (ellipses indicate bases in the sequence; note the spaces before the start tag and after the end tag):
- -35 box of the promoter
... <minus35box>...</minus35box> ...
- First, I knew I needed to identify the sequence that I'd be looking for within the file. The week 4 assignment indicated that the consensus sequence for the -35 promoter sequence is
tt[gt]ac[at]. In thus, I knew I needed to plug this sequence intosedin order to filter for this sequence. Because I wanted a single replacement of one sequence, I knew thatsed s//gwould be the best option. My first theory was to try forsed s/tt[gt]ac[at]/ & /g, to put a space on either side of the sequence. This would test whether or not it was finding the sequence correctly, before I put in the tag. - I tested using the command
cat infA-E.coli-K12.txt | sed "s/tt[gt]ac[at]/ & /g". However, this command did not work, since it changed every single one that appeared, not just the first! Since I only wanted the first one to be changed, I did some research to find out how to change the first iteration using sed. Using this link from Stack Overflow, I learned that the /g in the command was indicating to change every single iteration. Changing it to /1 would cause it to change only the first iteration! Runningcat infA-E.coli-K12.txt | sed "s/tt[gt]ac[at]/ & /1"resulted in the output I expected. As a result, all that was left was to find the first and last space and replace then with the starting and ending tags. - However, this ended up being harder than expected. Because </minus35box> had a / key, sed interpreted that as the end of the input. The forward slash would need to be escaped in order for sed to treat it not as a part of the command, but rather as a string. I knew that in other command line arguments, a backslash placed before the offending character would escape the character, allowing it to be read as a character. This held true for the sed command as well. The final command and output was as follows:
- First, I knew I needed to identify the sequence that I'd be looking for within the file. The week 4 assignment indicated that the consensus sequence for the -35 promoter sequence is
cat infA-E.coli-K12.txt | sed "s/tt[gt]ac[at]/ <minus35box>&<\/minus35box> /1" ttttcaccacaagaatgaatgttttcggcacatttctccccagagtgttataattgcggtcgcagagttggttacgctcattaccccgctgccgataagg aatttttcgcgtcaggtaacgcccatcgtttatctcaccgctcccttatacgttgcgcttttggtgcggcttagccgtgtgttttcggagtaatgtgccga acctgtttgttgcgatttagcgcgcaaatc <minus35box>tttact</minus35box> tatttacagaacttcggcattatcttgccggtt caaattacggtagtgataccccagaggattagatggccaaagaagacaatattgaaatgcaaggtaccgttcttgaaacgttgcctaataccatgttc cgcgtagagttagaaaacggtcacgtggttactgcacacatctccggtaaaatgcgcaaaaactacatccgcatcctgacgggcgacaaagtgact gttgaactgaccccgtacgacctgagcaaaggccgcattgtcttccgtagtcgctgattgttttaccgcctgatgggcgaagagaaagaacgagta aaaggtcggtttaaccggcctttttattttat
- -10 box of the promoter
... <minus10box>...</minus10box> ...
- Using what I had learned from the previous problem, as well as the hint from the week 4 assignment that indicated that the -10 box was located at
[ct]at[at]at, I began to formulate the command. Upon running the command to test to make sure that the sequence was being found correctly (cat infA-E.coli-K12.txt | sed "s/[ct]at[at]at/ & /g", I was surprised to find that there was a match both before and after the location that had been found for the minus 35 box. Knowing that that -10 box comes after the -35 box, and there should be around 17 nucleotides between them, I knew that this time I could not simply change the first match, since the first match would not be correct. It would be the second match that would be correct. The final command and output to display the -10 box was as follows:
- Using what I had learned from the previous problem, as well as the hint from the week 4 assignment that indicated that the -10 box was located at
cat infA-E.coli-K12.txt | sed "s/[ct]at[at]at/ <minus10box>&<\/minus10box> /2" ttttcaccacaagaatgaatgttttcggcacatttctccccagagtgttataattgcggtcgcagagttggttacgctcattaccccgctgccgataagg aatttttcgcgtcaggtaacgcccatcgtttatctcaccgctcccttatacgttgcgcttttggtgcggcttagccgtgtgttttcggagtaatgtgccgaa cctgtttgttgcgatttagcgcgcaaatctttacttatttacagaacttcgg <minus10box>cattat</minus10box> cttgccggttcaa attacggtagtgataccccagaggattagatggccaaagaagacaatattgaaatgcaaggtaccgttcttgaaacgttgcctaataccatgttccgc gtagagttagaaaacggtcacgtggttactgcacacatctccggtaaaatgcgcaaaaactacatccgcatcctgacgggcgacaaagtgactgttg aactgaccccgtacgacctgagcaaaggccgcattgtcttccgtagtcgctgattgttttaccgcctgatgggcgaagagaaagaacgagtaaaagg tcggtttaaccggcctttttattttat
- Combined with the code for the minus 35 box, the output is as follows:
cat infA-E.coli-K12.txt | sed "s/tt[gt]ac[at]/ <minus35box>&<\/minus35box> /1" | sed "s/[ct]at[at]at/ <minus10box>&<\/minus10box> /2" ttttcaccacaagaatgaatgttttcggcacatttctccccagagtgttataattgcggtcgcagagttggttacgctcattaccccgctgccgataaggaa tttttcgcgtcaggtaacgcccatcgtttatctcaccgctcccttatacgttgcgcttttggtgcggcttagccgtgtgttttcggagtaatgtgccgaacctg tttgttgcgatttagcgcgcaaatc <minus35box>tttact</minus35box> tatttacagaacttcgg <minus10box>cattat</ minus10box> cttgccggttcaaattacggtagtgataccccagaggattagatggccaaagaagacaatattgaaatgcaaggtaccgttcttg aaacgttgcctaataccatgttccgcgtagagttagaaaacggtcacgtggttactgcacacatctccggtaaaatgcgcaaaaactacatccgcatcct gacgggcgacaaagtgactgttgaactgaccccgtacgacctgagcaaaggccgcattgtcttccgtagtcgctgattgttttaccgcctgatgggcga agagaaagaacgagtaaaaggtcggtttaaccggcctttttattttat
- transcription start site
... <tss>...</tss> ...
- ribosome binding site
... <rbs>...</rbs> ...
- start codon
... <start_codon>...</start_codon> ...
- stop codon
... <stop_codon>...</stop_codon> ...
- terminator
... <terminator>...</terminator> ...
What is the exact mRNA sequence that is transcribed from this gene? What is the amino acid sequence that is translated from this mRNA?
