Abstract

BackgroundInteins and introns are genetic elements that are removed from proteins and RNA after translation or transcription, respectively. Previous studies have suggested that these genetic elements are found in conserved parts of the host protein. To our knowledge this type of analysis has not been done for group II introns residing within a gene. Here we provide quantitative statistical support from an analyses of proteins that host inteins, group I introns, group II introns and spliceosomal introns across all three domains of life.ResultsTo determine whether or not inteins, group I, group II, and spliceosomal introns are found preferentially in conserved regions of their respective host protein, conservation profiles were generated and intein and intron positions were mapped to the profiles. Fisher's combined probability test was used to determine the significance of the distribution of insertion sites across the conservation profile for each protein. For a subset of studied proteins, the conservation profile and insertion positions were mapped to protein structures to determine if the insertion sites correlate to regions of functional activity. All inteins and most group I introns were found to be preferentially located within conserved regions; in contrast, a bacterial intein-like protein, group II and spliceosomal introns did not show a preference for conserved sites.ConclusionsThese findings demonstrate that inteins and group I introns are found preferentially in conserved regions of their respective host proteins. Homing endonucleases are often located within inteins and group I introns and these may facilitate mobility to conserved regions. Insertion at these conserved positions decreases the chance of elimination, and slows deletion of the elements, since removal of the elements has to be precise as not to disrupt the function of the protein. Furthermore, functional constrains on the targeted site make it more difficult for hosts to evolve immunity to the homing endonuclease. Therefore, these elements will better survive and propagate as molecular parasites in conserved sites. In contrast, spliceosomal introns and group II introns do not show significant preference for conserved sites and appear to have adopted a different strategy to evade loss.

Highlights

  • Inteins and introns are genetic elements that are removed from proteins and RNA after translation or transcription, respectively

  • Where are inteins and spliceosomal introns located in their host sequence and structure? Our earlier analyses of three host proteins, ATPase catalytic subunit, replication factor C (RFC), and cell division control protein 21 (CDC21), confirmed the notion that inteins appear at highly conserved sites within their host proteins [4]

  • Since publication of [4] the number of inteins discovered in these three proteins has increased substantially, including some found in new insertion sites

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Summary

Introduction

Inteins and introns are genetic elements that are removed from proteins and RNA after translation or transcription, respectively. Previous studies have suggested that these genetic elements are found in conserved parts of the host protein. To our knowledge this type of analysis has not been done for group II introns residing within a gene. Comparative analyses have shown that all inteins are homologs; their sequences are so divergent that phylogenetic analyses of inteins inserted into different host proteins remains largely unresolved [4,9]. Inteins that are found in different insertion sites of the same host protein are not necessarily closely related to each other, and often highly divergent. Inteins inserted into the same site in orthologous proteins are closely related to each other and share a common ancestor, but their molecular phylogeny does not always reflect the history of the host protein or of the host organism [4,10,11], indicating transfer of the intein between divergent hosts

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