Pegan A. Sauls scite author profile

Pegan A. Sauls

2Publications

78Citation Statements Received

187Citation Statements Given

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Illinois State University

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Efficient Detection of Unpaired DNA Requires a Member of the Rad54-Like Family of Homologous Recombination Proteins

Samarajeewa

Sauls

Sharp

et al. 2014

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Meiotic silencing by unpaired DNA (MSUD) is a process that detects unpaired regions between homologous chromosomes and silences them for the duration of sexual development. While the phenomenon of MSUD is well recognized, the process that detects unpaired DNA is poorly understood. In this report, we provide two lines of evidence linking unpaired DNA detection to a physical search for DNA homology. First, we have found that a putative SNF2-family protein (SAD-6) is required for efficient MSUD in Neurospora crassa. SAD-6 is closely related to Rad54, a protein known to facilitate key steps in the repair of double-strand breaks by homologous recombination. Second, we have successfully masked unpaired DNA by placing identical transgenes at slightly different locations on homologous chromosomes. This masking falls apart when the distance between the transgenes is increased. We propose a model where unpaired DNA detection during MSUD is achieved through a spatially constrained search for DNA homology. The identity of SAD-6 as a Rad54 paralog suggests that this process may be similar to the searching mechanism used during homologous recombination. MEIOSIS is fundamental to sexual reproduction. During meiosis, chromosomes are replicated, aligned, recombined, and segregated to nuclei that will develop into gametes. Two of these key processes, alignment and recombination, likely require a search for DNA homology between chromosomes (Barzel and Kupiec 2008;Moore and Shaw 2009). Such homology searching is necessary because sexual organisms inherit a copy of each chromosome from each of its parents. These chromosomes, referred to as homologs, must somehow find each other so that alignment, recombination, and segregation can occur.Although recent research has improved our understanding of homology search mechanisms (Forget and Kowalczykowski 2012;Renkawitz et al. 2013), there are many questions that remain unanswered. The filamentous fungus Neurospora crassa may be useful for investigating the unknowns of homology searching because it possesses a genetically tractable phenomenon called meiotic silencing by unpaired DNA (MSUD) (Aramayo and Selker 2013;Billmyre et al. 2013). MSUD scans pairs of homologs for segments of DNA that are not accurately paired between them. If improper pairing (i.e., unpairing) is identified, the offending sequences are silenced for the duration of sexual development. For example, if a hypothetical gene called "gene A" is on the left arm of one chromosome but on the right arm of its homolog, it will be silenced. The same holds true if gene A has been lost from one of the homologs.A functional MSUD response can be easily detected with alleles that affect ascospore (sexual spore) color or shape. Indeed, MSUD was discovered during studies of ascospore maturation-1 (asm-1), a gene required for the production of pigmented (black) ascospores . A cross between an asm-1 + strain and an asm-1 D strain produces mostly unpigmented (white) ascospores. This is because MSUD silences the unpaired asm-1 + all...

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Investigating The Initial Detection Stage Of Meiotic Silencing By Unpaired Dna In The Model Organism Neurospora Crassa

Sauls¹

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Pegan A. Sauls

Efficient Detection of Unpaired DNA Requires a Member of the Rad54-Like Family of Homologous Recombination Proteins

Investigating The Initial Detection Stage Of Meiotic Silencing By Unpaired Dna In The Model Organism Neurospora Crassa

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