Hello

I'm a computer person learning somme biology. I've just wasted all afternoon trying to unravel the cause of some unexpected data and it turns out that non-coding RNA genes can have introns. I only know the basic biology dna-mrna-protein dogma. I am aware that certain rna genes exist too (for tRNA and rRNA and miRNA) but i had no idea there were other RNA genes that have introns. The gene in question was a LincRNA. In fact I'd never heard of this.

Are there any other RNA genes that have introns? Can pseudogenes have introns? Are there any other 'weird' genes i need to be aware of that are potential pitfalls when analysing genetic data? I get the feeling that the 80:20 rule comes up a lot in this field - you spend all of your time fixing the one or two odd scenarios that break your system.

thanks a lot

Yes, mRNAs of pseudogenes can be processed - i.e., have introns. In terms of "weird" genes, think about trans-splicing. There are excellent examples emerging from work in C. elegans, for example. Trans splicing can be thought of as a hybrid transcript - some exons from gene 1 and some from neighboring gene 2. LincRNA genes are a relatively new discovery and offer a great example of something different than "dogma."

Yes, these are biological phenomena and biological data - so they will likely break very strict code. That means that the 80:20 rule, or some variant of that, is certain to apply.

There are many single-exon genes, consisting of 5'-UTR, protein-coding segment, 3'-UTR all in one exon. Arabidopsis has a lot of these. Humans, too.

Xist is a completely awesome example of this. Not just a tiny, non-coding RNA with introns but a BIG one. Even more excellent in this tale is that it has an overlapping antisense, non-coding transcript called Tsix. Used to work in the same lab as some X-inactivation people, it's an interesting tale.

Complementing Larry answer, there still other classes of genes and problems. As a biologist that moved to bioinformatics, I can say for sure: Be prepared!!!

Gene processes/types not mentioned here but you must be aware:

• RNA editing (common in kinetoplastids, can be tought as a type of splicing)
• Alternative splicing (much more complicated in practice, lots of exceptions)
• Alternative (stop) codon translation (selenocysteine, pyrrolysine)
• Micro-exons (e. g. MEG genes in Schistosoma mansoni)
• Gene fusion (quite common in prokaryotes)

Just to mention, HOTAIR gene is a lincRNA that contains 6 exons and 5 introns. I've a spent a lot of time to find an example other than tRNA/rRNA genes. There's no mention to lincRNA gene structure in literature (ISI+SCOPUS+JSTOR)! But, when you look at the gene in NCBI you'll see the exon/intron structure. That's pretty amazing!!!

As a final point, even the exceptions have their own 80:20 rule. rRNA/tRNA genes in Prokarya have group I introns, Eukarya has group II. This changes everything. That's why I love biology and evolution!!!

So mutated_dater, welcome to the kingdom of surprises! You'll certainly find yours!

tRNA introns are common (not sure but I don't think they're present in prokaryotes).

http://mips.helmholtz-muenchen.de/proj/yeast/reviews/intron/tRNA_com.html

The splicing mechanism is idiosyncratic, however.

the norm is that genes are divided in exons (coding regions) and introns (non coding regions), although I am not sure if there is any gene with a single exon only (in that case all gene would be coding DNA).

although such basic biology question should be covered by any general biology text book, you may quickly check it yourself on the second figure of the gene definition at wikipedia.

Ribosomal RNAs frequently have introns.