Yeast spt6-140 Mutation, Affecting Chromatin and Transcription, Preferentially Increases Recombination in Which Rad51p-Mediated Strand Exchange Is Dispensable

Yeast spt6-140 Mutation, Affecting Chromatin and Transcription, Preferentially Increases Recombination in Which Rad51p-Mediated Strand Exchange Is Dispensable

Francisco Malagón^a and Andrés Aguilera^a
^a Departamento de Genética, Facultad de Biología, Universidad de Sevilla, Seville, Spain

Corresponding author: Andrés Aguilera, Departamento de Genética, Facultad de Biología, Universidad de Sevilla, Avd. Reina Mercedes 6, 41012 Seville, Spain., aguilo{at}cica.es (E-mail)

Communicating editor: L. S. SYMINGTON

We have shown that the spt6-140 and spt4-3 mutations, affectingchromatin structure and transcription, stimulate recombinationbetween inverted repeats by a RAD52-dependent mechanism thatis very efficient in the absence of RAD51, RAD54, RAD55, andRAD57. Such a mechanism of recombination is RAD1-RAD59-dependentand yields gene conversions highly associated with the inversionof the repeat. The spt6-140 mutation alters transcription andchromatin in our inverted repeats, as determined by Northernand micrococcal nuclease sensitivity analyses, respectively.Hyper-recombination levels are diminished in the absence oftranscription. We believe that the chromatin alteration, togetherwith transcription impairment caused by spt6-140, increasesthe incidence of spontaneous recombination regardless of whetheror not it is mediated by Rad51p-dependent strand exchange. Ourresults suggest that spt6, as well as spt4, primarily stimulatesa mechanism of break-induced replication. We discuss the possibilitythat the chromatin alteration caused by spt6-140 facilitatesa Rad52p-mediated one-ended strand invasion event, possiblyinefficient in wild-type chromatin. Our results are consistentwith the idea that the major mechanism leading to inversionsmight not be crossing over but break-induced replication followedby single-strand annealing.

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