XV. Yeast sequencing reports. Isolation and DNA sequence of the STE13 gene encoding dipeptidyl aminopeptidase

We have isolated a mutant which exhibits partial constitutivity for a -specific gene expression in α cells. The wild-type gene was cloned and demonstrated to be allelic to the STE13 gene, which encodes the dipeptidyl aminopeptidase involved in processing of the α-factor prepropheromone. Thus, the mating defect of the ste13 mutations in α cells may result both from the production of incompletely processed α-factor and from the increased expression of a -specific genes. The STE13 open reading frame of 931 amino acids contains a putative membrane-spanning segment near its amino terminus and is 31% identical to a second yeast dipeptidyl aminopeptidase (DAP2). A null mutant of STE13 has been constructed: it is viable and sporulation-proficient. The sequence has been deposited in the GenBank data library under Accession Number L21944.     

Isolation and nucleotide sequence of the gene encoding phosphoenolpyruvate carboxykinase from Kluyveromyces lactis

The KlPCK1 gene encoding phosphoenolpyruvate carboxykinase (PEPCK; ATP-dependent) was cloned from the Kluyveromyces lactis genome using a PCR amplicon from Saccharomyces cerevisiae PCK1 gene as a probe. A DNA fragment of about 4·8 kb containing KlPCK1 complemented PEPCK activity of the mutant of S. cerevisiae defective in PEPCK. The KlPCK1 gene has an open reading frame of 1629 bp (543 amino acids). The KlPCK1 nucleotide sequence and deduced amino acid sequence showed 76% and 84% homologies to those of S. cerevisiae PCK1, respectively. Multiple alignment of ATP-dependent PEPCK genes shows highly conserved regions. The nucleotide sequence of KlPCK1 has been submitted to the DDBJ/GenBank/EMBL data bank with Accession Number U88575. © 1998 John Wiley & Sons, Ltd.     

Isolation and nucleotide sequence of a gene encoding tRNA nucleotidyltransferase from Kluyveromyces lactis

A gene (KlCCA1) encoding ATP(CTP):tRNA specific tRNA nucleotidyltransferase (EC 2.7.7.25) was isolated from Kluyveromyces lactis by complementation of the Saccharomyces cerevisiae cca1-1 mutation. Sequencing of a 2665 bp EcoRI-SpeI restriction fragment revealed an open reading frame potentially encoding a protein of 489 amino acids with 57% sequence similarity to its S. cerevisiae homologue. Southern hybridization revealed a single copy of KlCCA1 in the K. lactis genome. KlCCA1 was able to complement both the mitochondrial and cytosolic defects in the cca1-1 mutant, suggesting that, as in S. cerevisiae, the K. lactis gene encodes a sorting isozyme that is targeted to mitochondria and the nucleus and/or cytosol. An altered KlCCA1 gene encoding a tRNA nucleotidyltransferase that lacked its first 35 amino acids was able to complement the nuclear/cytosolic but not the mitochondrial defect in the S. cerevisiae cca1-1 mutant, suggesting that the 35 amino-terminal amino acids are necessary for targeting to mitochondria but are not required for enzyme activity. Our results suggest that the mechanisms for production and distribution of mitochondrial and nuclear/cytosolic tRNA nucleotidyltransferase in K. lactis differ from those seen in S. cerevisiae.     

Isolation and sequence analysis of the gene encoding triose phosphate isomerase from Zygosaccharomyces bailii.

The ZbTPI1 gene encoding triose phosphate isomerase (TIM) was cloned from a Zygosaccharomyces bailii genomic library by complementation of the Saccharomyces cerevisiae tpi1 mutant strain. The nucleotide sequence of a 1.5 kb fragment showed an open reading frame (ORF) of 746 bp, encoding a protein of 248 amino acid residues. The deduced amino acid sequence shares a high degree of homology with TIMs from other yeast species, including some highly conserved regions. The analysis of the promoter sequence of the ZbTPI1 revealed the presence of putative motifs known to have regulatory functions in S. cerevisiae. The GenBank Accession No. of ZbTPI1 is AF325852.     

Isolation and sequence analysis of the gene encoding translation elongation factor 3 from Candida albicans.

The structural gene encoding translation elongation factor 3 (EF-3) has been cloned from a Candida albicans genomic library by hybridization to a Saccharomyces cerevisiae probe containing the Saccharomyces gene, YEF3 (Sandbaken et al., 1990b). The sequences were shown to be functionally homologous to the Saccharomyces gene by three criteria: (1) a Saccharomyces strain transformed with a high copy plasmid containing CaEF3 sequences overproduces the EF-3 peptide two-fold; (2) extracts from this strain exhibit a two-fold increase in the EF-3-catalysed, ribosome-dependent ATPase activity (Kamath and Chakraburtty, 1988); and (3) the Candida gene complements a Saccharomyces null mutant. The coding region, identified by DNA sequencing, indicates that CaEF3 encodes a 1050 amino acid polypeptide having a potential molecular weight of 116,865 Da. This protein shows 77% overall identity to the Saccharomyces YEF3 gene, with a significantly greater identity (94%) concentrated in the region of the protein thought to contain the catalytic domain of EF-3 (Sandbaken et al., 1990a). The upstream non-coding region contains T-rich regions typical of many yeast genes and several potential RAP1/GRF1 elements shown to regulate expression of a number of translational genes (Mager, 1988). The data confirm a high degree of conservation for EF-3 among the two organisms.     

Isolation, DNA sequence and regulation of a new cell division cycle gene from the yeast Saccharomyces cerevisiae

A new complementation group of temperature-sensitive mutants of the yeast Saccharomyces cerevisiae (ts26-1 and ts26-2) has been isolated and characterized. This mutation maps at 40.7 cM from arg8 and 48.9 cM from arg1 on the left arm of chromosome XV of yeast, providing that it is a newly identified gene. The dumbbell-shape terminal morphology of the mutant cells at the restrictive temperatures is a characteristic of mutants defective in DNA replication. To study the defect of macromolecule synthesis in the mutant cells, DNA, RNA, and protein synthesis were measured at both permissive and restrictive temperatures. The data suggest that the primary defect of this mutation is at the initiation step of DNA synthesis. The gene has been cloned from an S. cerevisiae genomic library by rescue of the conditional lethality of the mutants. It is present as a single copy in the haploid genome. DNA-RNA hybridization of the gene has identified 1 kb RNA, which is under cell-division-cycle control. DNA sequence analysis of the gene has identified an open reading frame capable of encoding a protein of molecular weight 25,055 (214 amino acids).     

Isolation and molecular characterization of KlCOX14, a gene of Kluyveromyces lactis encoding a protein necessary for the assembly of the cytochrome oxidase complex

The yeast Kluyveromyces lactis was mutagenized with ethyl methane sulphonate and mutants unable to grow on respiratory carbon sources were isolated. Functional complementation of one of these mutants led to the isolation of KlCOX14, a gene encoding a 64 amino acid protein which is the functional homologue of Saccharomyces cerevisiae Cox14p, a protein necessary for the assembly of the cytochrome oxidase holoenzyme (Glerum et al., 1995). The disruption of KlCOX14 resulted in the absence of the absorption bands relative to cytochromes a and a(3) and in the complete loss of respiratory activity. Klcox14 mutants display the typical phenotype of pet mutants and have a reduced growth rate. In addition, unlike the wild-type, Klcox14 mutants are able to grow by fermentation also in the presence of low glucose. The nucleotide sequence of KlCOX14 has been deposited in the EMBL databank with Accession No. AJ238801.     

Isolation and characterization of a novel gene encoding alpha-L-arabinofuranosidase from Aspergillus oryzae

We cloned and characterized a novel gene (abfA) encoding alpha-L-arabinofuranosidase (alpha-L-AFase) from Aspergillus oryzae. One clone homologous to the alpha-L-AFase gene of Thermotoga maritima was found in an expressed sequence tag (EST) library of A. oryzae and a corresponding gene was isolated. Molecular analysis showed that the abfA gene carried six exons interrupted by five introns and had an open reading frame encoding 481 amino acid residues. The amino acid sequence similarity at active sites to the alpha-L-AFases from other organisms indicated that the alpha-L-AFase encoded by abfA was classified as a family 51 glycoside hydrolase. When the abfA was overexpressed in the homologous hyperexpression system of A. oryzae, a large amount of alpha-L-AFase was produced as intracellular protein. The apparent molecular mass of the purified enzyme was estimated to be 228,000 by gel filtration and that of its subunit as 55,000 by SDS-PAGE, suggesting that the enzyme is a tetramer. The enzyme hydrolyzed p-nitrophenyl-alpha-L-arabinofuranoside but not other p-nitrophenyl glycosides. These results demonstrated that the abfA gene encodes a functional alpha-L-AFase.     

DNA sequence analysis of three Lactococcus lactis plasmids encoding phage resistance mechanisms

The three Lactococcus lactis plasmids pSRQ700, pSRQ800, and pSRQ900 encode the previously described anti-phage resistance mechanisms LlaDCHI, AbiK, and AbiQ, respectively. Since these plasmids are likely to be introduced into industrial Lactococcus lactis strains used to manufacture commercial fermented dairy products, their complete DNA sequences were determined and analyzed. The plasmids pSRQ700 (7784 bp), pSRQ800 (7858 bp), and pSRQ900 (10,836 bp) showed a similar genetic organization including a common lactococcal theta-type replicon. A second replication module showing features of the pMV158 family of rolling circle replicons was also found on pSRQ700. The theta replication regions of the three plasmids were associated with two additional coding regions, one of which encodes for HsdS, the specificity subunit of the type I restriction/modification system. When introduced into L. lactis IL1403, the HsdS of pSRQ800 and pSRQ900 conferred a weak resistance against phage P008 (936 species). These results indicated that both HsdS subunits can complement the chromosomally encoded type I restriction/modification system in IL1403. The genes involved in the phage resistance systems LlaDCHI, AbiK, and AbiQ were found in close proximity to and downstream of the replication modules. In pSRQ800 and pSRQ900, transfer origins and putative tyrosine recombinases were found upstream of the theta replicons. Genes encoding recombination proteins were also found on pSRQ700. Finally, open reading frames associated with bacteriocin production were found on pSRQ900, but no anti-lactococcal activity was detected. Based on our current knowledge, these three plasmids are safe and suitable for food-grade applications.     

A DNA region of Torulaspora delbrueckii containing the HIS3 gene: sequence, gene order and evolution

We cloned a genomic DNA fragment of the yeast Torulaspora delbrueckii by complementation of a Saccharomyces cerevisiae his3 mutant strain. DNA sequence analysis revealed that the fragment contained two complete ORFs, which share a high similarity with S. cerevisiae His3p and Mrp51p, respectively. The cloned TdHIS3 gene fully complemented the his3 mutation of S. cerevisiae, confirming that it encodes for the imidazoleglycerol-phosphate dehydrate of T. delbrueckii. Two additional ORFs, with a high homology to S. cerevisiae PET56 and DED1 genes, were mapped upstream and downstream from TdHIS3 and TdMRP51, respectively. This genetic organization is analogous to that previously found in Saccharomyces kluyveri and Zygosaccharomyces rouxii. The evolutionary significance of gene order in this chromosomal region is analysed and discussed.     

Nucleotide sequence and chromosomal localization of the gene encoding the old yellow enzyme from Kluyveromyces lactis

A 6·6 kb genomic DNA fragment from the yeast Kluyveromyces lactis was isolated. Sequence analysis of this fragment revealed the presence of two incomplete open reading frames (ORFs) in one strand, one coding for the carboxyl terminus of the plasma membrane H⁺-ATPase and the other for the amino terminus of an unidentified product. In the complementary strand, a full-length ORF which encodes for a protein homologous to the yeast NADPH-dependent Old Yellow Enzyme was found. The deduced amino acid sequence of this ORF predicts a protein of 398 residues with 84% similarity in its full length to OYE1 from Saccharomyces carlsbergensis and OYE2 from Saccharomyces cerevisiae. In addition, an internal region showed considerable similarity to the bile acid-inducible polypeptide from Eubacterium sp., to the NADH oxidase from Thermoanaerobium brockii, to the trimethylamino dehydrogenase from bacterium W₃A₁ and to the estrogen-binding protein from Candida albicans, suggesting a functional or structural relationship between them. Inactivation of the KYE1 (K luyveromyces Y ellow E nzyme) gene by deletion of 0·6 kb fragment between positions +358 and +936 produced viable cells with a slight increase in their generation time. Haploid cells carrying the disrupted allele showed one-third of the NADPH oxidase activity, compared to wild-type cells. Southern blotting analysis of digested DNA and chromosomes separated by contour-clamped homogeneous electric field electrophoresis from K. lactis indicated that this is a single-copy gene and it is localized on chromosome II, whose molecular size has been estimated to be approximately 1·3 Mb. The sequence reported in this paper has been deposited in the GenBank data base (Accession No. L37452).     

Isolation and sequence analysis of the gene URA3 encoding the orotidine-5'-phosphate decarboxylase from Candida glycerinogenes WL2002-5, an industrial glycerol producer

The URA3 gene of Candida glycerinogenes WL2002-5, an industrial glycerol producer encoding orotidine-5'-phosphate decarboxylase enzyme, was isolated by complementation cloning in Saccharomyces cerevisiae. DNA sequence analysis revealed the presence of an open reading frame (ORF) of 786 bp, encoding a 262 amino acid protein, which shares 71.65% amino acid sequence similarity to the S. cerevisiae URA3 protein. Furthermore, the cloned ORF fully complemented the ura3 mutation of S. cerevisiae, confirming that it encodes for the C. glycerinogenes Ura3 (CgUra3) protein.     

Molecular cloning and sequence analysis of the Zygosaccharomyces rouxiiLEU2 gene encoding a beta-isopropylmalate dehydrogenase.

A DNA fragment carrying the LEU2 gene of osmotolerant yeast Zygosaccharomyces rouxii was isolated. The sequenced DNA fragment (2630 bp) contained two ORFs; one of them (1086 bp long, predicting a protein of 362 amino acids) shared a high degree of similarity with LEU2 genes of other yeast species. The cloned DNA fragment fully complemented the leu2 mutations of Saccharomyces cerevisiae and Z. rouxii.     

Molecular cloning and sequence analysis of the Zygosaccharomyces bailii HIS3 gene encoding the imidazole glycerolphosphate dehydratase

Zygosaccharomyces bailii is a spoilage yeast belonging to the Zygosaccharomyces genus. In recent years these yeasts, due to their exceptional resistance to several stresses, have become more and more interesting as model organisms to study the molecular basis of the said resistance. A Z. bailii cDNA library has been built and the 672 bp nucleotide sequence coding for the HIS3 gene was cloned by complementation of a Saccharomyces cerevisiae his3 mutant strain. The deduced 223 amino acid sequence shares a high degree of homology with His3p homologues in other non-conventional yeast species. The GeneBank Accession No. is AY050224.     

Isolation and characterization of the gene URA3 encoding the orotidine-5'-phosphate decarboxylase from Torulaspora delbrueckii

A DNA fragment containing the URA3 gene from Torulaspora delbrueckii was isolated by complementation cloning in Saccharomyces cerevisiae. DNA sequence analysis revealed the presence of an ORF of 795 bp, encoding a 264 amino acid protein, which shares a high similarity to the Saccharomycetaceae Ura3 proteins. Furthermore, the cloned ORF fully complemented the ura3 mutation of S. cerevisiae, confirming that it encodes for the TdUra3 protein. The GeneBank Accession No. for TdURA3 is AF518402.     

Identification of the gene encoding scHelI,a DNA helicase from Saccharomyces cerevisiae

The gene encoding scHelI, a previously characterized DNA helicase from Saccharomyces cerevisiae, has been identified as YER176w, an open reading frame on chromosome V. The gene has been named HEL1 to indicate the DNA helicase activity of the gene product. HEL1 was identified by screening a |glgt11 yeast protein expression library with antiserum to purified scHelI. Several independent immunopositive clones were isolated and shown to contain portions of HEL1 either by sequencing or by hybridization to a probe containing HEL1 sequences. The HEL1 open reading frame includes the seven conserved helicase motifs, consistent with the DNA helicase activity of scHelI, and the predicted size of the protein is in agreement with the size of purified scHelI. Partially purified cellular extracts from a hel1 deletion mutant strain did not contain scHelI activity. Homology searches revealed protein sequence homology between HEL1 and two previously identified and biochemically characterized yeast helicases, encoded by the DNA2 and UPF1 genes. Haploid hel1 deletion strains were constructed and shown to be viable with growth rates equivalent to those of parental strains. These strains did not differ from the parental strains in ultraviolet light sensitivity or the generation of petite colonies. Furthermore, these haploid deletion strains were capable of mating, the resultant diploid homozygous mutants were viable, capable of sporulation, and the spores displayed no reduction in viability. © 1997 John Wiley & Sons, Ltd.