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The whole question is

What is the optimal frame size for the second and third generation protein secondary structure prediction methods? Justify your answer.

I remember it has something to do with the average length of alpha-helix. More specifically, 3 on both side of a site. So in total the frame length should be 7. But I can't remember the reason behind the argument.

What do you think?

According to what my professor said in class, 2nd and 3rd generation of protein secondary structure reconstruction relies on statistics data of several consecutive residues. I guess what he meant by "frame size", is how many adjacent residues we should take into account in the algorithm.

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3 Answers 3

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By frame size, do you mean sliding window?

I know that if you want to predict a secondary structure of a transmembrane protein, then your window size should be 20 amino acids (this is the average length of 1 transmembrane alpha helix spanning through the membrane).

I found this paper by Chen, Kurgan, and Ruan[1].

It basically says that the window size depends on what kind of pattern you are looking for, but in general, 19 residues should be optimal.

Also, secondary structure predictors rely on many features like hydrophobicity, missing coordinates in X-ray structures, B-factors, motifs, etc.

  1. Chen K, Kurgan L, Ruan J. 2006. Optimization of the Sliding Window Size for Protein Structure Prediction. CIBCB '06: 2006 IEEE Symposium on Computational Intelligence and Bioinformatics and Computational Biology, pp.1-7, 28-29, doi:10.1109/CIBCB.2006.330959.
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    $\begingroup$ That's the problem of computational biology - sometimes it's difficult to find what exactly what a term means. But I think my professor asked for general protein secondary structure predication, not transmemebrane protein. $\endgroup$
    – LeafGlowPath
    Commented Dec 14, 2011 at 22:12
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OK, so 2 responses, each concerning different protein segments of different types/functions/structures, but not an answer really getting to the heart of the question. Because of the homework tag, I am tempted not to reply - this is something the student should accomplish on his/her own. So, I'll give a general answer to start you thinking. Basically, such a value - be it 7 or 20 for TMs or 13 - is determined empirically.

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I found that 13 worked best for Neural Nets and SVM performance of secondary structure information when I ran this in R.

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    $\begingroup$ Any reason behind it? $\endgroup$
    – LeafGlowPath
    Commented Dec 14, 2011 at 22:53

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