1. Recombination hotspots in Neurospora crassa controlled by idiomorphic sequences and meiotic silencing.
- Author
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Yeadon, Patricia Jane, Bowring, Frederick J, and Catcheside, David Edward Arnold
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GENETIC mutation , *FUNGI , *ALLELES , *CELL division , *GENETIC carriers , *GENOMICS , *RESEARCH funding , *CHROMOSOME abnormalities , *RECOMBINANT DNA , *DNA polymerases - Abstract
Genes regulating recombination in specific chromosomal intervals of Neurospora crassa were described in the 1960s, but the mechanism is still unknown. For each of the rec-1 , rec-2 , and rec-3 genes, a single copy of the putative dominant allele, for example, rec-2SL found in St Lawrence OR74 A wild type, reduces recombination in chromosomal regions specific to that gene. However, when we sequenced the recessive allele, rec-2LG (derived from the Lindegren 1A wild type), we found that a 10 kb region in rec-2SL strains was replaced by a 2.7 kb unrelated sequence, making the "alleles" idiomorphs. When we introduced sad-1 , a mutant lacking the RNA-dependent RNA polymerase that silences unpaired coding regions during meiosis into crosses heterozygous rec-2SL/rec-2LG , it increased recombination, indicating that meiotic silencing of a gene promoting recombination is responsible for dominant suppression of recombination. Consistent with this, mutation of rec-2LG by Repeat-Induced Point mutation generated an allele with multiple stop codons in the predicted rec-2 gene, which does not promote recombination and is recessive to rec-2LG. Sad-1 also relieves suppression of recombination in relevant target regions, in crosses heterozygous for rec-1 alleles and in crosses heterozygous for rec-3 alleles. We conclude that for all 3 known rec genes, 1 allele appears dominant only because meiotic silencing prevents the product of the active, "recessive," allele from stimulating recombination during meiosis. In addition, the proposed amino acid sequence of REC-2 suggests that regulation of recombination in Neurospora differs from any currently known mechanism. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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