Genome 540 Homework Assignment 6

Due Sunday Feb. 23, 11:59pm

Write a program that does the following, for the DNA sequence of chromosome 26 of Gallus gallus (the red junglefowl/chicken). (At the bottom of this page there are links to two other sequences, and their results, which you can use to test your program.)
  1. Read the Genbank file (with suffix .gbff), and from the CDS FEATURES entries infers the locations of the starts of the coding sequences on both strands. CDS coordinates containing a '<' or '>' should be ignored (these symbols indicate that the precise start or end of the coding sequence is uncertain).
  2. Use the information in 1) to compute count and frequency matrices (of the type presented in lecture 9 for C. elegans splice sites) for the translation start sites. These should extend from position -10 (i.e. 10 bases upstream of the first base of the start codon) to position +10 (i.e. 10 bases downstream of that base) -- 21 bases in all. To generate this you will need to read in the genome sequence (which appears later in the Genbank file), and to complement it in order to handle genes on the opposite strand correctly. Ns in the sequence (unknown bases) should be ignored when computing these matrices. CDS entries marked with 'join' indicate non-contiguous sections of coding sequence, and should be processed as such when determining the base composition at the first 10 positions. Thus, for an entry marked as join(1000..1008,1200..1500), position +10 would correspond to coordinate 1201.
  3. Compute a site weight matrix using the frequency table for the translation start sites, together with the genome nucleotide frequencies (based on the forward and reverse strands). Entries in the weight matrix should be the log, to the base 2, of the ratio of the appropriate frequencies. Use -99.0 as the weight for any cells that have frequency 0 in the translation start sites.
  4. Using the weight matrix from (3), generate two score histograms:
    1. a histogram of the scores of all "true" translation start sites (i.e. the ones used to construct the site frequency table)
    2. a histogram of the scores of all positions in the actual genome sequence (and its complement).
    When calculating scores, sequence positions that are N should be given a score of 0. For scores greater than or equal to -50, use a bin size of 1 for the score histograms; if there are scores less than -50, aggregate the counts for all such scores into a single bin called "lt-50" (see solution to Test sequence 2 for an example).
  5. Generate a list of all positions in the genome and its complement that have scores >= 10.0 but which do NOT correspond to annotated translation start sites.
Your output should conform to the template used in the examples - further details are provided below. You must turn in your results and your computer program. Please put everything into ONE plain text file - do not send an archive of files or a tar file, or a word processing document file. Compress it (using either Unix compress, or gzip -- if you don't have access to either of these programs let us know), and send it as an attachment to both Phil (phg (at) u.washington.edu) and Mitchell (mvollger (at) uw.edu).

Example sequences & solutions:

Test sequence 1

Answer for test sequence 1

Test sequence 2

Answer for test sequence 2

Template Details: