Abstract
BackgroundRepeat-induced point (RIP) mutation in Neurospora crassa degrades transposable elements by targeting repeats with C→T mutations. Whether RIP affects core genomic sequence in important ways is unknown.ResultsBy parent-offspring whole genome sequencing, we estimate a mutation rate (3.38 × 10−6 per bp per generation) that is two orders of magnitude higher than reported for any non-viral organism, with 93–98% of mutations being RIP-associated. RIP mutations are, however, relatively rare in coding sequence, in part because RIP preferentially attacks GC-poor long duplicates that interact in three dimensional space, while coding sequence duplicates are rare, GC-rich, short, and tend not to interact. Despite this, with over 5 coding sequence mutations per genome per generation, the mutational burden is an order of magnitude higher than the previously highest observed. Unexpectedly, the majority of these coding sequence mutations appear not to be the direct product of RIP being mostly in non-duplicate sequence and predominantly not C→T mutations. Nonetheless, RIP-deficient strains have over an order of magnitude fewer coding sequence mutations outside of duplicated domains than RIP-proficient strains.ConclusionsNeurospora crassa has the highest mutation rate and mutational burden of any non-viral life. While the high rate is largely due to the action of RIP, the mutational burden appears to be RIP-associated but not directly caused by RIP.
Highlights
Repeat-induced point (RIP) mutation in Neurospora crassa degrades transposable elements by targeting repeats with C→T mutations
Our estimates are normalized to the proportion of the genome covered so allow for false negatives
A trade-off between transposable element destruction and collateral damage? Given that we identified natural variants that are deficient in RIP, Neurospora provides an unusual example of a sexual species in which a modifier (RIP proficiency) that increases the mutation rate persists despite it being associated with a raised mutational burden
Summary
Repeat-induced point (RIP) mutation in Neurospora crassa degrades transposable elements by targeting repeats with C→T mutations. Whether RIP affects core genomic sequence in important ways is unknown. In a few curious exceptional circumstances, organisms target sequence for mutation. Numerous fungi present a further unusual exemplar in the form of repeat-induced point mutation (RIP) [3]. RIP targets duplicated sequence and causes exceptionally high rates of C→T mutations within this duplicated sequence [4]. While the process of meiotic homology searching might be an obvious system to redeploy to enable recognition of duplicate sequence, RIP does not involve the meiotic mechanisms [5]. The detection of duplicates in RIP is, for example, independent of homology searching associated with spo11/mei3 [6]. It is thought that RIP is mediated by the conserved pathway that establishes transcriptional (heterochromatic) silencing of repetitive DNA [3]
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