Molecular analysis of intragenic recombination at the tryptophan synthetase locus in Neurospora crassa

Wiest, A.; Barchers, D.; Eaton, Muriel; Henderson, R.; Schnittker, R.; McCluskey, Kevin

Molecular analysis of intragenic recombination at the tryptophan synthetase locus in Neurospora crassa

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jgen_092_03_0523-0528.pdf (770.66 KB)

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2013-12-01

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Fifteen different classically generated and mapped mutations at the tryptophan synthetase locus in Neurospora crassa have been characterized to the level of the primary sequence of the gene. This sequence analysis has demonstrated that intragenic recombination is accurate to order mutations within one open reading frame. While classic genetic analysis correctly ordered the mutations, the position of mutations characterized by gene sequence analysis was more accurate. A leaky mutation was found to have a wild-type primary sequence. The presence of unique polymorphisms in the primary sequence of the trp-3 gene from strain 861 confirms that it has a unique history relative to the other strains studied. Most strains that were previously shown to be immunologically nonreactive with antibody preparations raised against tryptophan synthetase protein were shown to have nonsense mutations. This work defines 14 alleles of the N. crassa trp-3 gene.
Citation: "Molecular analysis of intragenic recombination at the tryptophan synthetase locus in Neurospora crassa" (December 2013) A. Wiest D. Barchers M. Eaton R. Henderson R. Schnittker K. Mccluskey. Journal of Genetics, Indian Academy of Science. Volume 92 Issue 3. 523-528.
Citation: Wiest, A., . . . & McCluskey, K. (2013). Molecular analysis of intragenic recombination at the tryptophan synthetase locus in Neurospora crassa. Journal of Genetics, 92(1), 523–528. https://doi.org/https://doi.org/10.1007/s12041-013-0305-4