Protein Evolution: Difference between revisions

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40 - gi|119609672       
40 - gi|119609672       


41 - gi|119609671  
41 - gi|119609671
 
47 - gi|119609669


39 - kept the same
39 - kept the same
Line 86: Line 88:


41 - changed to gi|1196epj
41 - changed to gi|1196epj
47 - changed to gi|1196pje





Revision as of 05:41, 22 May 2007

Conservation of MIF4GD in Eutheria (Placental Mammals)

http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=homologene&dopt=HomoloGene&list_uids=41389


Conservation of the protein structure in many organisms, including Pan troglodytes (chimpanzee), Mus musculus (house mouse), Rattus norvegicus (brown rat), Bos taurus (domestic cow) and Danio rerio (zebrafish).


SUMMARY

08/05/2007

The protein sequence was transformed into FASTA format

File:FASTA2.txt

Using Command Prompt and the CD, BLASTed the protein sequence. First used a vertebrate_other database (which produced only 12 significant results), before was finally able to access the nonredundant database with 57 homologous matching sequences and several different species including Homo sapiens, Danio rerio (zebra fish),Mus musculus (house mouse), Bos taurus (domesticate cow), Xenopus tropicalis (pipid frog), Rattus norvegicus (brown rat), Xenopus laevis (African clawed frog), Canis familiaris (domesticate dog), Pan troglodytes (chimpanzee), Drosophila melangaster (fruit fly), Drosophila pseudoobscura, Aedes aegypti (mosquito) and Tetraodon nigroviridis (green spotted pufferfish).

The protein seems to be conserved throughout the animal kingdom. Must have a quite important function. Hopefully when the phylogenetic tree is constructed, will get more insight into the evolution of MIF46 domain containing protein.


File that shows the significant sequences obtained from the non-redundant database.

File:Sequences.txt


File that shows the id numbers of the significant sequences found from the non-redundant database.

File:Ids.txt


File that shows protein results

File:Protein-results.txt


15/5/2007

Used the program ClustalX to perform a multiple alignment sequence on the 55 Id numbers (1 sequence had no Id number and 1 Id number could not be read.) When the sequences were uploaded into the ClustalX programme, performed a full alignment on the sequences. Are ready to now construct a phylogenetic tree for our protein.

Phylogenetic Tree

The first step was to perform a distance matrix calculation on the sequences. This was done by using the Phylip program on the CD. Because the program only scans the first ten characters of the Id numbers of the sequences, several sequences had to be change because they appeared to be the same. These sequences were sequences 21 & 22, 23 & 24, 32 & 33, 39 & 40 & 41, and to be on the safe side 42 & 43 need to be changed also.


22/05/2007

Original sequences and change to the sequences

21 - gi|114673074

22 - gi|114673072

21 - kept the same

22 - changed to gi|1146jpe


23 - gi|109122125

24 - gi|109122123

23 - kept the same

24 - changed to gi|1091jpe


32 - gi|123258675

33 - gi|123258677

32 - kept the same

33 - changed to gi|1232jpe


39 - gi|119609670

40 - gi|119609672

41 - gi|119609671

47 - gi|119609669

39 - kept the same

40 - changed to gi|1196jpe

41 - changed to gi|1196epj

47 - changed to gi|1196pje


42 - gi|73964908

43 - gi|73964910

42 - kept the same

43 - changed to gi|7396jpe