13
$\begingroup$

For predicting genes from a sequenced genome, you need to set a maximum intron length. How long can introns get in animals? Is there some limit?

$\endgroup$
1
  • $\begingroup$ I don't know about the maximum length, but I suppose that for the minimal size, the mechanical properties of the DNA are the limiting factors. Under a certain size, DNA is simply too stiff to form the loops required during splicing. $\endgroup$
    – agrimaldi
    Dec 15, 2011 at 16:20

2 Answers 2

8
$\begingroup$

I think the above values (500-750 kb) are wrong. http://www.bioinfo.de/isb/2004040032/ shows that most introns are less than about 10 kb (and personal experience in Drosophila confirms that - I've rarely seen an intron bigger than about 5 kb). There are some very large ones, but since it's nearly impossible to detect the splicing reaction, particularly if they're very large, it's not clear whether they are spliced as one BIG intron or are instead recursively spliced (in little steps, as in http://www.genetics.org/content/170/2/661.full.pdf+html). I think its safe to say that we don't know how long the biggest introns can be.

$\endgroup$
6
$\begingroup$

If you examine the human genome ~99% of the introns are under 500 kb. I would assume that a limit between 250 kb - 500 kb is reasonable for gene prediction. You may incorrectly predict the proper structure of a small number of genes that have these very large introns but this should be a small number. Furthermore, most popular sequence aligners tend to set an intron length limit between 500 kb and 750 kb.

Just keep in mind that you may increase the number of false positive introns you detect if you set this limit to high. Therefore, it may be worthwhile to try a few settings and evaluate the results.

EDIT:

My guess is that larger introns are constrained in mammals for two reasons

  1. They are more difficult for the spliceosome to excise properly. The spliceosome may have reduced assembly at the proper 5' / 3' splice sites and the branch point site. There is also a higher chance that there will be cryptic / decoy splice sites witihin the intron.
  2. They increase the time it takes to transcribe the gene
$\endgroup$

You must log in to answer this question.

Not the answer you're looking for? Browse other questions tagged .