Isolation and characterization of a Neurospora crassa ribosomal protein gene homologous to CYH2 of yeast.

We have isolated and characterized a Neurospora crassa gene homologous to the yeast CYH2 gene encoding L29, a cycloheximide sensitivity-conferring protein of the cytoplasmic ribosome. The cloned Neurospora gene was isolated by cross-hybridization to CYH2. It was sequenced from both cDNA and genomic clones. The coding region is interrupted by seven intervening sequences. Its deduced amino acid sequence shows 70% homology to that of yeast ribosomal protein L29 and 60% homology to that of mammalian ribosomal protein L27', suggesting that the protein has an important role in ribosomal function. The pattern of codon usage is highly biased, consistent with high translation efficiency. There is a single copy of this gene in N. crassa, and R. Metzenberg and coworkers have mapped its genetic location to the vicinity of the cyh-2 locus.     

Molecular cloning and analysis of the CRY1 gene: a yeast ribosomal protein gene.

Using cloned DNA from the vicinity of the yeast mating type locus (MAT) as a probe, the wild type allele of the cryptopleurine resistance gene CRY1 has been isolated by the technique of chromosome walking and has been shown to be identical to the gene for ribosomal protein 59. A recessive cryR1 allele has also been cloned, using the integration excision method. The genetic distance from MAT to CRY1 is 2.2 cM, while the physical distance is 21 kb, giving a ratio of about 10 kb/cM for this interval. The phenotypic expression of both plasmid borne alleles of the gene can be detected in vivo. The use of this gene as a hybridization probe to examine RNA processing defects in the rna 2, rna 3, rna 4, rna 8, and rna 11 mutants is also discussed.     

The Neurospora aab-1 gene encodes a CCAAT binding protein homologous to yeast HAP5.

The expression of the am (glutamate dehydrogenase) gene is dependent upon two upstream activating sequences, designated URSam(alpha) and URSam(beta). A heteromeric nuclear protein Am Alpha Binding protein (AAB) binds specifically to a CCAAT box within the URSam(alpha) element. AAB appears to be composed of three components. We used polyclonal antiserum raised against the highly purified AAB1 subunit to isolate a partial aab-1 cDNA clone, which was then used to isolate a full-length cDNA and a genomic clone. The full-length cDNA has the potential to encode a 272 amino acid protein with a calculated molecular weight of 30 kD. Amino acid sequence obtained by Edman analysis of the AAB1 protein confirmed that the aab-1 gene had been cloned. AAB-1 shows similarity to the HAP5 protein of yeast and the CBF-C protein of rat. Each of these proteins is an essential subunit of their respective heteromeric CCAAT binding proteins. The aab1 gene maps on linkage group III of Neurospora crassa near the trp-1 locus. Disruption of the aab-1 gene results in pleiotropic effects on growth and development as well as a 50% reduction in glutamate dehydrogenase levels. Transformation of the aab-1 disruption mutant strain with the cloned genomic copy of the aab-1 gene rescued all of the phenotypic alterations associated with the aab-1 mutation.     

A eukaryotic repressor protein, the qa-1S gene product of Neurospora crassa, is homologous to part of the arom multifunctional enzyme

Little is known about the proteins involved in the control of gene expression in eukaryotes. Although some of these proteins have been sequenced, their biochemical functions are not well understood and the identification of homologies to proteins of known activities may give useful clues to the functions of these regulatory proteins. We report here that the qa-1S repressor protein of the fungus Neurospora crassa is strongly homologous to the pentafunctional arom enzyme found in many lower eukaryotes. We believe that this is the first known case of a repressor protein that is unequivocally homologous to metabolic enzymes. These findings allow us to propose likely functions for some regions of the qa-1S protein.     

Hmo1, an HMG-box protein,belongs to the yeast ribosomal DNA transcription system

Hmo1 is one of seven HMG-box proteins of Saccharo myces cerevisiae. Null mutants have a limited effect on growth. Hmo1 overexpression suppresses rpa49-Delta mutants lacking Rpa49, a non-essential but conserved subunit of RNA polymerase I corresponding to the animal RNA polymerase I factor PAF53. This overexpression strongly increases de novo rRNA synthesis. rpa49-Delta hmo1-Delta double mutants are lethal, and this lethality is bypassed when RNA polymerase II synthesizes rRNA. Hmo1 co-localizes with Fob1, a known rDNA-binding protein, defining a narrow territory adjacent to the nucleoplasm that could delineate the rDNA nucleolar domain. These data identify Hmo1 as a genuine RNA polymerase I factor acting synergistically with Rpa49. As an HMG-box protein, Hmo1 is remotely related to animal UBF factors. hmo1-Delta and rpa49-Delta are lethal with top3-Delta DNA topoisomerase (type I) mutants and are suppressed in mutants lacking the Sgs1 DNA helicase. They are not affected by top1-Delta defective in Top1, the other eukaryotic type I topoisomerase. Conversely, rpa34-Delta mutants lacking Rpa34, a non-essential subunit associated with Rpa49, are lethal in top1-Delta but not in top3-Delta.     

Isolation and analysis of the Neurospora crassa Cyt-21 gene. A nuclear gene encoding a mitochondrial ribosomal protein

The Neurospora crassa nuclear mutant cyt-21-1 (originally 297-24; Pittenger, T.H., and West, D.J. (1979) Genetics 93, 539-555) has a defect leading to gross deficiency of mitochondrial small ribosomal subunits. Here, we have cloned the cyt-21+ gene from a N. crassa genomic library, using the sib selection procedure (Akins, R. A., and Lambowitz, A. M. (1985) Mol. Cell Biol. 5, 2272-2278). The genomic clone contains a short split gene encoding a basic protein of 107 amino acid residues. This protein shows strong homology to Escherichia coli ribosomal protein S-16. Comparison of mutant and wild-type mitochondrial ribosomal proteins (Kuiper, M. T. R., Holtrop, M., Vennema, H., Lambowitz, A. M., and de Vries, H. (1988) J. Biol. Chem. 263, 2848-2852) indicates that the cyt-21 gene encodes N. crassa mitochondrial ribosomal protein S-24. The expression of the cyt-21+ gene is regulated such that the level of the putative cyt-21+ mRNA is increased about 5-fold when mitochondrial protein synthesis is inhibited. We suggest that this reflects part of a general mechanism for coordinately activating Neurospora nuclear genes that encode mitochondrial constituents in response to impaired mitochondrial function. This is the first report of the cloning and characterization of a mitochondrial ribosomal protein gene from N. crassa.     

A 3' splice site mutation in a nuclear gene encoding a mitochondrial ribosomal protein in Neurospora crassa

We showed previously that the cyt-21+ gene of Neurospora crassa encodes a mitochondrial ribosomal protein homologous to Escherichia coli ribosomal protein S-16 (Kuiper, M. T. R., Akins, R. A., Holtrop, M., de Vries, H., and Lambowitz, A. M. (1988) J. Biol. Chem. 263, 2840-2847). A mutation in this gene, cyt-21-1, results in deficiency of mitochondrial small ribosomal subunits and small rRNA (Collins, R. A., Bertrand, H., LaPolla, R. J., and Lambowitz, A. M. (1979) Mol. Gen. Genet. 177, 73-84). In the present work, cloning and sequencing of the cyt-21-1 mutant allele show that it contains a single dG to dA transition at the 3' splice site AG of the first intron in the protein coding region. This mutation leads to inactivation of the normal 3' splice site and activation of a cryptic 3' splice site, 15 nucleotides downstream. The use of this cryptic splice site results in an in-frame deletion of 5 amino acids from the cyt-21 protein. Comparison of mutant and wild-type mitochondrial small ribosomal subunit proteins showed one protein, S-24, with an altered electrophoretic mobility, consistent with the predicted deletion. The mutant ribosomal protein is still capable of binding to mitochondrial small ribosomal subunits, but results in abnormal mitochondrial ribosome assembly.