Analysis of the pdx-1 (snz-1/sno-1) Region of the Neurospora crassa Genome: Correlation of Pyridoxine-Requiring Phenotypes With Mutations in Two Structural Genes

Analysis of the pdx-1 (snz-1/sno-1) Region of the Neurospora crassa Genome: Correlation of Pyridoxine-Requiring Phenotypes With Mutations in Two Structural Genes

Laura E. Bean^a, William H. Dvorachek, Jr.^a, Edward L. Braun^a,b, Allison Errett^a, Gregory S. Saenz^a, Mara D. Giles^a, Margaret Werner-Washburne^a, Mary Anne Nelson^a, and Donald O. Natvig^a
^a Department of Biology, University of New Mexico, Albuquerque, New Mexico 87131
^b National Center for Genome Resources, Santa Fe, New Mexico 87505

Corresponding author: Donald O. Natvig, Department of Biology, University of New Mexico, Albuquerque, NM 87131., dnatvig{at}unm.edu (E-mail)

Communicating editor: J. ARNOLD

We report the analysis of a 36-kbp region of the Neurosporacrassa genome, which contains homologs of two closely linkedstationary phase genes, SNZ1 and SNO1, from Saccharomyces cerevisiae.Homologs of SNZ1 encode extremely highly conserved proteinsthat have been implicated in pyridoxine (vitamin B6) metabolismin the filamentous fungi Cercospora nicotianae and in Aspergillusnidulans. In N. crassa, SNZ and SNO homologs map to the regionoccupied by pdx-1 (pyridoxine requiring), a gene that has beenknown for several decades, but which was not sequenced previously.In this study, pyridoxine-requiring mutants of N. crassa werefound to possess mutations that disrupt conserved regions ineither the SNZ or SNO homolog. Previously, nearly all of thesemutants were classified as pdx-1. However, one mutant with adisrupted SNO homolog was at one time designated pdx-2. It nowappears appropriate to reserve the pdx-1 designation for theN. crassa SNZ homolog and pdx-2 for the SNO homolog. We furtherreport annotation of the entire 36,030-bp region, which containsat least 12 protein coding genes, supporting a previous conclusionof high gene densities (12,000–13,000 total genes) forN. crassa. Among genes in this region other than SNZ and SNOhomologs, there was no evidence of shared function. Four ofthe genes in this region appear to have been lost from the S.cerevisiae lineage.

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