Heriot-Watt Mathematics Report Series
HWM00-31, 25 Jan 2002
Redundant and non-functional guide RNA genes in Trypanosoma brucei are a consequence of multiple genes per minicircle
N J Savill and P G Higgs
Abstract
The mitochondrial mRNA of the parasitic protozoa Trypanosoma brucei is
extensively
edited by the insertion, and occasional deletion, of uridine residues.
The editing is mediated by over 200 guide RNAs (gRNAs) which are
encoded in circular DNA molecules called minicircles. There are some
250 different types of minicircles called classes with each encoding
several gRNAs. Sequencing of gRNAs and minicircles has revealed a
surprising amount of both redundancy, where gRNAs from different
minicircle classes edit exactly the same part of an mRNA, and
non-functionality, where partial or no complementarity is found
between gRNA and mRNA. How does this redundancy and
non-functionality arise and persist? We propose the following.
Minicircle classes that contain several functional gRNA genes can be
lost from the population via drift and replaced by more minicircle
classes that contain fewer functional gRNA genes on the condition that
the cells keep a full complement of functional gRNAs. We demonstrate
this hypothesis in a computer simulation of a model of minicircle
evolution. We show that this process leads to an increasing number of
minicircle classes and inevitably to only one functional gRNA per
minicircle. Moreover, we show that the genome contains more
minicircle classes than is actually necessary for cell survival. We
also analyse the available minicircle sequence data and conclude that
T.~brucei is at a transient stage in this process. In addition, ten new
putative gRNAs have been discovered.
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Publication
NJ Savill, P G Higgs
, Redundant and non-functional guide RNA genes in Trypanosoma brucei are a consequence of multiple genes per minicircle, Gene, 256, 245-252, (2000).
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