Extraordinary Ribosomal Spacer Length Heterogeneity in a Neotyphodium Endophyte Hybrid: Implications for Concerted Evolution

Extraordinary Ribosomal Spacer Length Heterogeneity in a Neotyphodium Endophyte Hybrid: Implications for Concerted Evolution

Austen R. D. Ganley^a and Barry Scott^a
^a Institute of Molecular BioSciences, Massey University, Palmerston North, New Zealand

Corresponding author: Barry Scott, Institute of Molecular BioSciences, Massey University, Private Bag 11222, Palmerston North, New Zealand., d.b.scott{at}massey.ac.nz (E-mail).

Communicating editor: G. B. GOLDING

An extraordinary level of length heterogeneity was found inthe ribosomal DNA (rDNA) of an asexual hybrid Neotyphodium grassendophyte, isolate Lp1. This hybrid Neotyphodium endophyte isan interspecific hybrid between two grass endophytes, Neotyphodiumlolii, and a sexual form, Epichlöe typhina, and the lengthheterogeneity was not found in either of these progenitor species.The length heterogeneity in the hybrid is localized to the intergenicspacer (IGS) and is the result of copy-number variation of atandemly repeated subrepeat class within the IGS, the 111-/119-bpsubrepeats. Copy number variation of this subrepeat class appearsto be a consequence of mitotic unequal crossing over that occursbetween these subrepeats. This implies that unequal crossingover plays a role in the concerted evolution of the whole rDNA.Changes in the pattern of IGS length variants occurred in justtwo rounds of single-spore purification. Analysis of the IGSlength heterogeneity revealed features that are unexpected ina simple model of unequal crossing over. Potential refinementsof the molecular details of unequal crossing over are presented,and we also discuss evidence for a combination of homogenizationmechanisms that drive the concerted evolution of the Lp1 rDNA.

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