Alex A. Cardenas Week 8: Difference between revisions

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[[image:Picture 5.png]]
[[image:Picture 5.png]]
*Finding transmembrane regions using link www.cbs.dtu.dk/services/TMHMM-2.0. Entered FASTA format of sequence into the corresponding box.
*Finding transmembrane regions using link www.cbs.dtu.dk/services/TMHMM-2.0. Entered FASTA format of sequence into the corresponding box.
**Highest probability of transmembrane region being found is amino acids 21-43,523-545, 604-626, and 690-712 --> as seen in the picture below.
[[image:TMHMM 6.png]]


==Links==
==Links==

Revision as of 22:40, 25 October 2011

Chapter 2

  • Retreiving protein sequences for envelope glycoprotein gp160 (pp. 42-51)
  • Went to www.expasy.org/sprot/.
  • Envelope glycoprotein gp160 was typed into search box and retreived. The description of envelope glycoprotein gp160 can be found [here].
    • Entry Name - ENV_HV1C4
    • Primary Accession Number - P05879
  • FASTA format was viewed (FATSA - a sequence alignment-and-database-scanning program). New window appeared with all amino acids in the protein sequence.

  • Protein sequences retrieved by advanced search methods. Clicked on advance search tab and typed in envelope glycoprotein gp160.

Chapter 4

  • Reading a SWISS-PROT entry (pp. 110-123). The link can be found [here].
  • Went through steps in deciphering the envelope glycoprotein gp160 swiss-prot entry. Information on entry name, primary accession number, protein name, gene name, etc., can be found in the link above.
  • 8 References were found in the article.
  • The Cross references - not all cross references were displayed online as they were in the book as seen below in the picture:

Chapter 5

  • ORFing DNA sequence. Retrieved sequence from clicking on FASTA in UniProtKB and posted it in open reading frame finder. DNA sequence is displayd as 6 parallel horizontal. There are 6 possible translation frames: +1, +2, +3 on on reverse --> -1, -2, -3.
  • ORF displayed the following

Chapter 6

  • Working with a single protein sequence.
  • Followed link www.expasy.org/tools/#primary and clicked on the ProtParam link.
    • Accession number was entered for gp120 sequence. N and C terminus boxes left blank in order to analyze the whole sequence.
    • Submitted amino acids 266-288 in order to show molecular weight, extinction coefficient, and estimated half-life.
      • Molecular weight - 2547.8
      • Extinction coefficient - As there are no Trp, Tyr or Cys in the region considered, your protein should not be visible by UV spectrophotometry.
      • Estimated half-life - 100 hours.
  • Looking for transmembrane segments in the next sectional exercise. Followed www.expasy.org/cgi-bin/protscale.pl and entered accession number into the search box, selecting the appropriate boxes for properties and widow size. Transmembrane protein gp41 (TM) (Glycoprotein 41) (gp41). Shown below in the picture taken from the webpage.

  • Interpretation of the graph below was taken into account. Followed the steps it gave in order to find the threshold value, which was found to be around a score of 1.

  • Finding transmembrane regions using link www.cbs.dtu.dk/services/TMHMM-2.0. Entered FASTA format of sequence into the corresponding box.
    • Highest probability of transmembrane region being found is amino acids 21-43,523-545, 604-626, and 690-712 --> as seen in the picture below.

Links

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