Protein Structure: Difference between revisions
No edit summary |
No edit summary |
||
Line 61: | Line 61: | ||
*1uw4 nonsense mediated mRNA decay protein | *1uw4 nonsense mediated mRNA decay protein | ||
*1h6k Nuclear Protein | *1h6k Nuclear Protein | ||
To view results, click here [http://www.ebi.ac.uk/thornton-srv/databases/cgi-bin/valdar/scorecons_server.pl] | |||
'''Scorecons results (Analysis 2)''' | |||
Gives a score to the conserved residue of the msa. The sequences used were: | |||
*2i2o Structural Genomics, unknown function | |||
*1hu3 Translation eif4gii fragment | |||
*1uw4 nonsense mediated mRNA decay protein | |||
*2db0 hypothetical Protein | |||
To view results, click here [http://www.ebi.ac.uk/thornton-srv/databases/cgi-bin/valdar/scorecons_server.pl] | To view results, click here [http://www.ebi.ac.uk/thornton-srv/databases/cgi-bin/valdar/scorecons_server.pl] |
Revision as of 06:46, 15 May 2007
The so-called MIF4G domain found in several other proteins involved in RNA metabolism. (Mazza et al.)(PDB no: 1H6K)
- Coordinates assembly of translational machinery
DALI results
- SUMMARY: PDB/chain identifiers and structural alignment statistics
NR. STRID1 STRID2 Z RMSD LALI LSEQ2 %IDE REVERS PERMUT NFRAG TOPO PROTEIN 1: 3028-A 2i2o-A 37.1 0.0 206 206 100 0 0 1 S STRUCTURAL GENOMICS, UNKNOWN FUNCTION eif4g-like prote 2: 3028-A 1hu3-A 15.2 2.7 164 204 23 0 0 12 S TRANSLATION eif4gii fragment (eukaryotic initiation f 3: 3028-A 1uw4-B 10.9 3.6 164 247 9 0 0 12 S NONSENSE MEDIATED MRNA DECAY PROTEIN regulator of nons 4: 3028-A 1h6k-A 10.6 3.9 175 728 11 0 0 11 S NUCLEAR PROTEIN cbp80 fragment (ncbp 80 kda subunit, 5: 3028-A 2db0-A 8.1 3.3 148 239 14 0 0 13 S PROTEIN BINDING 253aa long hypothetical protein (hypot 6: 3028-A 1b3u-A 8.0 27.7 150 588 13 0 0 13 S SCAFFOLD PROTEIN protein phosphatase pp2a fragment
ClustalW Results
Using the scores and results from DALI, a multiple sequence alignment was created with ClustalW. The sequences used were:
- 2i2o Structural Genomics, unknown function
- 1hu3 Translation eif4gii fragment
- 1uw4 nonsense mediated mRNA decay protein
- 1h6k Nuclear Protein
(refer to DALI table if unsure)
Generally, the alignment shows PATHETIC HOMOLOGY between these 4 sequences, which were already the best sequences that DALI could give. To view results, click here [1]
3D structural results using SSM (Analysis 1)
Not too sure what the results mean. to view results, click here [2]
The sequences used were:
- 2i2o Structural Genomics, unknown function
- 1hu3 Translation eif4gii fragment
- 1uw4 nonsense mediated mRNA decay protein
- 1h6k Nuclear Protein
(refer to DALI table if unsure)
3D structural results using SSM (Analysis 2)
There is a slight difference compared to the resu;ts above. The sequences used in this analysis are different from the one above. To view results, click here [3]
The sequences used were:
- 2i2o Structural Genomics, unknown function
- 1hu3 Translation eif4gii fragment
- 1uw4 nonsense mediated mRNA decay protein
- 2db0 hypothetical Protein
(refer to DALI table if unsure)
Scorecons results (Analysis 1)
Gives a score to the conserved residue of the msa. The sequences used were:
- 2i2o Structural Genomics, unknown function
- 1hu3 Translation eif4gii fragment
- 1uw4 nonsense mediated mRNA decay protein
- 1h6k Nuclear Protein
To view results, click here [4]
Scorecons results (Analysis 2)
Gives a score to the conserved residue of the msa. The sequences used were:
- 2i2o Structural Genomics, unknown function
- 1hu3 Translation eif4gii fragment
- 1uw4 nonsense mediated mRNA decay protein
- 2db0 hypothetical Protein
To view results, click here [5]
CATH results
CATH is a hierarchical classification of protein domain structures, which clusters proteins at four major levels, Class(C), Architecture(A), Topology(T) and Homologous superfamily (H).
To view results, click here [6]
Profunc results
The Profunc results are quite cool. Scroll down to the "cleft analysis" section, there is a good picture of how our protein can potentially bind to other proteins. to view, click here [7]
Articles
A conserved HEAT domain within eIF4G directs assembly of the translation initiation machinery. (PDB no:1HU3) [8]
Crystal structure of the human nuclear cap binding complex. (PDB no: 1H6K) [9]
Novel eIF4G domain homologues linking mRNA translation with nonsensemediated mRNA decay [10]
- This article is quite relevant to protein function