Mini-Tutorals: Difference between revisions

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==bp-utils: bioaln==
==bp-utils: bioaln==
*Go to /home/shared/LabMeetingReadings/Test-Data and find the sequence alignment file “bioaln_tutorial.aln”. Name the format of the alignment file. Use it to answer all the questions below.
*Find the length of the alignment.
*Count the number of the sequences present in the alignment.
*How do you convert this alignment in phylip format? Save your output.
*Pick “seq2, seq5, seq7, seq10” from the alignment and calculate their average percent identity.
*Get an alignment slice from “50-140” and find the average identities of the slice for sliding windows of 25.
*Extract conserved blocks from the alignment.
*Extract third sites from the alignment and show only variable sites in match view.
*Remove the gaps and show the final alignment in codon view for an alignment slice “1-100”.
*Add a 90% consensus sequence and then show the final alignment in match plus codon view for an alignment slice “20-80”. (Hint: First try match view followed by codon view)

Revision as of 04:26, 26 June 2015

bp-utils: bioseq

  • Use accession "CP002316.1" to retrieve the Genbank file from NCBI. Save the output (in genbank format) to a file named as "cp002316.gb".
bioseq -f "CP002316.1" -o'genbank' > cp002316.gb
  • Use the above file as input, extract FASTA sequences for each genes and save the output to a new file called "cp002316.nuc". Use this file for the following questions.
bioseq -i "genbank" -F cp002316.gb > cp002316.fas
  • Count the number of sequences.
bioseq -n cp002316.fas
  • In a single command, pick the first 10 sequences and find their length
bioseq -p "order:1-10" cp002316.fas | bioseq –l
  • In a single command, pick the third and seventh sequences from the file and do the 3-frame translation. Which reading frame is the correct on both? Specify
bioseq -p "order:3,7" cp002316.fas | bioseq -t3
  • Find the base composition of the last two sequences
bioseq -p "order:25-26" cp002316.fas| bioseq –c
  • Pick the sequence with id "Bbu|D1_B11|8784|9302|1" and count the number of codons present in this sequence
bioseq -p "id:BbuJD1_B11|8784|9302|1" cp002316.fas | bioseq –C
  • Delete the last 10 sequences from the file and save the output to cp002316-v2.nuc
bioseq -d "order:17-26" cp002316.fas > cp002316-v2.nuc
  • In a single command, pick the first sequence, then get the 50-110 nucleotides and make reverse complement of the sub-sequences
bioseq -p "order:1" cp002316.fas | bioseq -s "50,110" | bioseq –r
  • In a single command, get the first 100 nucleotides of all the sequences present in the file and do 1-frame translation of all sub-sequences.
bioseq -s "1,100" cp002316.fas | bioseq -t1

bp-utils: bioaln

  • Go to /home/shared/LabMeetingReadings/Test-Data and find the sequence alignment file “bioaln_tutorial.aln”. Name the format of the alignment file. Use it to answer all the questions below.
  • Find the length of the alignment.
  • Count the number of the sequences present in the alignment.
  • How do you convert this alignment in phylip format? Save your output.
  • Pick “seq2, seq5, seq7, seq10” from the alignment and calculate their average percent identity.
  • Get an alignment slice from “50-140” and find the average identities of the slice for sliding windows of 25.
  • Extract conserved blocks from the alignment.
  • Extract third sites from the alignment and show only variable sites in match view.
  • Remove the gaps and show the final alignment in codon view for an alignment slice “1-100”.
  • Add a 90% consensus sequence and then show the final alignment in match plus codon view for an alignment slice “20-80”. (Hint: First try match view followed by codon view)