This document discusses homology-enhanced probabilistic consistency for transmembrane protein multiple sequence alignment. It describes how probabilistic consistency can be applied to alignment profiles generated from a database search to improve alignment accuracy for transmembrane proteins. Key points include: 1) Using larger databases like UniRef50 improves accuracy while reducing computation time compared to the full UniProt database; 2) The method aligns 10% more columns correctly than another leading method, PRALINETM; 3) It achieves high accuracy scores on benchmark datasets like BAliBASE.
TM-Coffee : Accurate multiple sequence alignment of transmembrane proteins with PSI-Coffee
1. “Homology-enhanced probabilistic consistency”
multiple sequence alignment :
a case study on transmembrane protein
Jia-Ming Chang
2013-July-09
Chang, J-M, P Di Tommaso, J-Fß Taly, C Notredame. 2012. Accurate multiple sequence alignment of
transmembrane proteins with PSI-Coffee. BMC Bioinformatics 13.
2. Transmembrane protein
Membrane proteins are likely to constitute 20-30% of all ORFs
contained in genomes.
Odorant receptors
Richard Benton, “Eppendorf winner. Evolution and revolution in odor detection,” Science (New York, N.Y.)
326, no. 5951 (October 16, 2009): 382-383.
3. Transmembrane protein multiple
sequence alignment
• 1994 first address alignment for transmembrane proteins
– Cserzo M, Bernassau JM, Simon I, Maigret B: New alignment strategy for
transmembrane proteins. J Mol Biol 1994, 243(3):388-396.
• Few multiple sequence alignment software till now => 3
– ShafrirY, Guy HR: STAM: simple transmembrane alignment method.
Bioinformatics 2004, 20(5):758-769.
– Forrest LR,Tang CL, Honig B: On the accuracy of homology modeling and
sequence alignment methods applied to membrane proteins. BiophysJ 2006,
91(2):508-517.
– PirovanoW, Feenstra KA, Heringa J: PRALINETM: a strategy for improved
multiple alignment of transmembrane proteins. Bioinformatics 2008, 24(4):492-
497.
4. BAliBASE 2.0 reference 7
Pirovano W, Feenstra KA, Heringa J: PRALINETM: a strategy for improved multiple
alignment of transmembrane proteins. Bioinformatics 2008, 24(4):492-497.
8. Pair-hidden Markov Model
Do CB, Mahabhashyam MS, Brudno M, Batzoglou S: ProbCons: Probabilistic consistency-
based multiple sequence alignment. Genome Res 2005, 15(2):330-340.
Emission probabilities, which correspond to traditional substitution
scores, are based on the BLOSUM62 matrix.
10. Homology-extended probabilistic
consistency
New emission probabilities are like the following.
20 20
)..,..(),('
m n
nmnmji AAAApyxp
where αm is the frequency with which residue m appears at
position i and βn is the frequency with which residue n appears
at position j; p(A.A.m, A.A.n) is the original emission
probabilities in ProbCons.
12. Homology-extended
Simossis VA, Kleinjung J, Heringa J: Homology-extended sequence alignment. Nucleic Acids
Res 2005, 33(3):816-824.
Que1: how to
build a profile?
Que2: how to
score profiles?
13. Que1: how to build a profile?
• Database Size
• Searching parameters
– E-value : most used, anything else???
1. Matrix file : -M
2. Filter the query sequence for low-complexity subsequence : -F
3. Neighborhood word threshold : -f
4. Truncates the report to number of alignments: -b
18. Performance comparison of different
database sizes for the BAliBASE2-ref7.
UniRef50-TM contains about 100 times fewer sequences than the full UniProt.
The level accuracy is comparable and even superior to that achieved with the default PSI-Coffee
while the CPU time requirements are dramatically decreased by a factor 10.
19.
20. 10% more columns are correctly aligned when compared with
PRALINETM .
The rows, Pairs and Cols, denote the sum of corrected aligned pairs and columns, respectively. The number of pairs and
columns in the reference alignments are 3,294,102 and 1,781, respectively.
21. BAliBASE 3.0
The performance of other methods are from Rausch et al. The SP and TC scores of full-
length sequences are evaluated by core blocks (by xml).
22. Que2: how to score profiles?
Edgar RC, Sjolander K: A comparison of scoring functions for protein sequence profile
alignment. Bioinformatics 2004, 20(8):1301-1308.
23. • Prediction mode : –template_file PSITM
• Output : -output tm_html
This output was obtained on Or94b of D. melanogaster and its orthologs of other Drosophlia species.
Notably, the predicted topology of the Or94b set is consistent with the Benton et al.’s conclusion.