Genomic reorganization between two sibling yeast species,Saccharomyces bayanus and Saccharomyces cerevisiae

Genomic comparison of two sibling yeast species, Saccharomyces bayanus and Saccharomyces cerevisiae, was performed by Southern blot analysis with various S. cerevisiae gene probes following electrophoretic karyotyping. Fifteen genes on chromosome IV of S. cerevisiae were examined and classified into two groups. Gene probes of CEN4 and TRP1, as well as six other genes located on the left arm of the chromosome hybridized to a 1100-kb chromosome of S. bayanus that is smaller than chromosome IV of S. cerevisiae. On the other hand, probes of seven genes located on the right arm of chromosome IV hybridized to a 1350-kb chromosome that is homeologous to chromosome IV, judging from its size. Two genes located on the left arm of chromosome II hybridized to the 1350-kb chromosome, while four genes on the right arm hybridized to the 1100-kb chromosome. These pieces of evidence indicate that chromosomes II and IV of S. cerevisiae are rearranged into 1350-kb and 1100-kb chromosomes in S. bayanus. Furthermore, it is suggested that chromosome XV is rearranged into two chromosomes (800 and 850 kb in size) in S. bayanus. The translocation points of chromosomes II and IV were delimited using S. cerevisiae prime clone membranes. The results indicated that the translocation points are located close to the FUR4 locus on chromosome II and close to the RAD57 locus on chromosome IV.     

Sequence analysis of the 43 kb CRM1-YLM9-PET54-DIE2-SMI1-PHO81-YHB4-PFK1 region from the right arm of Saccharomyces cerevisiae chromosome VII

The nucleotide sequence of a 43 118 bp fragment from chromosome VII of Saccharomyces cerevisiae has been determined and analysed. The fragment originates from the right arm of chromosome VII. It starts approximately 11 kb centromere-proximal to the pet54 marker and ends in the middle of the PFK1 gene. The sequence contains a small nuclear RNA gene (SNR7) and 29 open reading frames (ORFs) larger than 100 amino acids. Six of these were completely internal to or partially overlapped other ORFs. Six previously described genes, YLM9/MRPL9, CRM1, DIE2, SMI1, PHO81 and YHB4, were mapped to this region in addition to pet54 and PFK1. Of the remaining 17 ORFs, four showed homology with other S. cerevisiae genes and four, including one of the partially overlapping ORFs, with genes from other organisms. Eight ORFs had no homology with any sequence in the databases. The actual sequences have been deposited in the EMBL database under Accession Number X87941.     

Co-existence of two types of chromosome in the bottom fermenting yeast,Saccharomyces pastorianus

The bottom fermenting yeasts in our collection were classified as Saccharomyces pastorianus on the basis of their DNA relatedness. The genomic organization of bottom fermenting yeast was analysed by Southern hybridization using eleven genes on chromosome IV, six genes on chromosome II and five genes on chromosome XV of S. cerevisiae as probes. Gene probes constructed from S. cerevisiae chromosomes II and IV hybridized strongly to the 820-kb chromosome and the 1500-kb chromosome of the bottom fermenting yeast, respectively. Five gene probes constructed from segments of chromosome XV hybridized strongly to the 1050-kb and the 1000-kb chromosomes. These chromosomes are thought to be S. cerevisiae-type chromosomes. In addition, these probes also hybridized weakly to the 1100-kb, 1350-kb, 850-kb and 700-kb chromosome. Gene probes constructed from segments including the left arm to TRP1 of chromosome IV and the right arm of chromosome II hybridized to the 1100-kb chromosome of S. pastorianus. Gene probes constructed using the right arm of chromosome IV and the left arm of chromosome II hybridized to the 1350-kb chromosome of S. pastorianus. These results suggested that the 1100-kb and 1350-kb chromosomes were generated by reciprocal translocation between chromosome II and IV in S. pastorianus. Three gene probes constructed using the right arm of chromosome XV hybridized weakly to the 850-kb chromosome, and two gene probes from the left arm hybridized weakly to the 700-kb chromosome. These results suggested that chromosome XV of S. cerevisiae was rearranged into the 850-kb and 700-kb chromosomes in S. pastorianus. These weak hybridization patterns were identical to those obtained with S. bayanus. Therefore, two types of chromosome co-exist independently in bottom fermenting yeast: one set which originated from S. bayanus and another set from S. cerevisiae. This result supports the hypothesis that S. pastorianus is a hybrid of S. cerevisiae and S. bayanus. © 1998 John Wiley & Sons, Ltd.     

Sequence Analysis of 203 Kilobases from Saccharomyces cerevisiae Chromosome VII

The nucleotide sequences of five major regions from chromosome VII of Saccharomyces cerevisiae have been determined and analysed. These regions represent 203 kilobases corresponding to approximately one-fifth of the complete yeast chromosome VII. Two fragments originate from the left arm of this chromosome. The first one of about 15·8 kb starts approximately 75 kb from the left telomere and is bordered by the SKI8 chromosomal marker. The second fragment covers the 72·6 kb region between the chromosomal markers CYH2 and ALG2. On the right chromosomal arm three regions, a 70·6 kb region between the MSB2 and the KSS1 chromosomal markers and two smaller regions dominated by the KRE11 marker and another one in the vicinity of the SER2 marker were sequenced. We found a total of 114 open reading frames (ORFs), 13 of which were completely overlapping with larger ORFs running in the opposite direction. A total of 44 yeast genes, the physiological functions of which are known, could be precisely mapped on this chromosome. Of the remaining 57 ORFs, 26 shared sequence homologies with known genes, among which were 13 other S. cerevisiae genes and five genes from other organisms. No homology with any sequence in the databases could be found for 31 ORFs. Furthermore, five Ty elements were found, one of which may not be functional due to a frame shift in its Ty1B amino acid sequence. The five chromosomal regions harboured five potential ARS elements and one sigma element together with eight tRNA genes and two snRNAs, one of which is encoded by an intron of a protein-coding gene. © 1997 by John Wiley & Sons, Ltd.     

XII. Yeast sequencing reports. Sequence,mapping and disruption of CCC1, a gene that cross-complements the Ca2+-sensitive phenotype of csg1 mutants

We have isolated, sequenced, mapped and disrupted a novel gene, CCC1, from Saccharomyces cerevisiae. This gene displays non-allelic complementation of the Ca²⁺-sensitive phenotype conferred by the csg1 mutation. The ability of this gene, in two copies per cell, to reverse the csg1 defect suggests it may have a role in regulating Ca²⁺ homeostasis. The sequence of CCC1 indicates that it encodes a 322 amino acid, membrane-associated protein. The CCC1 gene is located on the right arm of chromosome XII. The sequence has been deposited in the GenBank data library under Accession Number L24112.     

XV. Yeast sequencing reports. Nucleotide sequence of the GDS1 gene of Saccharomyces cerevisiae

We have cloned and sequenced the GDS1 gene located on the right arm of chromosome XV of Saccharomyces cerevisiae. The gene codes for a 522 amino acid serine-rich protein with no obvious homology to proteins in the database. GDS1 gene was isolated as the multicopy suppressor of the glycerol-deficient phenotype caused by the nam9-1 mutation in the yeast nuclear gene encoding the mitochondrial ribosomal protein homologous to S4 proteins from various organisms. Disruption-deletion of the GDS1 open reading frame leads to a partial impairment of growth on medium containing glycerol as the carbon source, indicating mitochondrial function of the gene product. The sequence has been deposited in the GenBank data library under Accession Number U18262.     

VII. Yeast sequencing reports. The sequence of a 27 kb segment on the right arm of chromosome VII from Saccharomyces cerevisiae reveals MOL1, NAT2, RPL30B,RSR1, CYS4, PEM1/CHO2, NSR1 genes and ten new open reading frames

The DNA sequence of a 26 677 bp fragment from the right arm of chromosome VII from Saccharomyces cerevisiae reveals 18 open reading frames (ORFs) longer than 300 bp. Eight ORFs correspond to previously characterized genes. G6620 is the 3′ end of the MOL1 gene coding for a polypeptide similar to stress-inducible proteins from Fusarium; G6630 is the NAT2 gene which encodes a methionine N-acetyltransferase; G6635 is the RPL30B gene coding for the ribosomal protein L30; G6658 is RSR1 encoding a ras-related protein; G6667 is CYS4, the gene for cystathionine β-synthase; G6670 is identical to ORF2 located close to CYS4; G6673 is PEM1/CHO2 encoding a phosphatidylethanolamine methyltransferase; G7001 is the NSR1 gene coding for a nuclear signal recognition protein. G6664 shares significant homology with the ORF YKR076w from chromosome XI. The other nine ORFs show no significant homology to any protein sequence presently available in the public data bases. The sequence has been deposited in the EMBL data library under Accession Number X85807.     

Sequencing of a 17·6 kb segment on the right arm of yeast chromosome VII reveals 12 ORFs,including CCT,ADE3 and TR-I genes,homologues of the yeast PMT and EF1G genes,of the human and bacterial electron-transferring flavoproteins (β-chain) and of the Escherichia coli phosphoserine phosphohydrolase,and five new ORFs

A 17·6 kb DNA fragment from the right arm of chromosome VII of Saccharomyces cerevisiae has been sequenced and analysed. The sequence contains twelve open reading frames (ORFs) longer than 100 amino acids. Three genes had already been cloned and sequenced: CCT, ADE3 and TR-I. Two ORFs are similar to other yeast genes: G7722 with the YAL023 (PMT2) and PMT1 genes, encoding two integral membrane proteins, and G7727 with the first half of the genes encoding elongation factors 1γ, TEF3 and TEF4. Two other ORFs, G7742 and G7744, are most probably yeast orthologues of the human and Paracoccus denitrificans electron-transferring flavoproteins (β chain) and of the Escherichia coli phosphoserine phosphohydrolase. The five remaining identified ORFs do not show detectable homology with other protein sequences deposited in data banks. The sequence has been deposited in the EMBL data library under Accession Number Z49133.     

Physical mapping of a centromere-proximal region of chromosome IV-l defines the placement of genes USO1, MBP1, PSA1 and SLC1

A physical map of a 14·5 kb region close to the centromere on the left arm of chromosome IV of Saccharomyces cerevisiae is presented. This map has been constructed by restriction analysis of a clone from a YCp50 genomic library and by use of pre-existing and new sequence data from this region. The map reveals the following gene order (reading from the most centromere-distal to the most centromere-proximal locus): USO1/INT1–MBP1–PSA1–SLC1–YLA1 and defines the size of the open reading frames and intergenic regions.     

A 37·5 kb region of yeast chromosome X includes the SME1, MEF2, GSH1 and CSD3 genes,a TCP-1-related gene,an open reading frame similar to the DAL80 gene,and a tRNAArg

The complete DNA sequence of cosmid clone p59 comprising 37,549 bp derived from chromsome X was determined from an ordered set of subclones. The sequence contains 14 open reading frames (ORFs) containing at least 100 consecutive sense codons. Four of the ORFs represent already known and sequenced yeast genes: B645 is identical to the SME1 gene encoding a protein kinase, required for induction of meiosis in yeast, D819 represents the MEF2 gene probably encoding a second mitochondrial elongation factor-like protein, D678 is identical to the yeast GSH1 gene encoding γ-glutamylcysteine synthetase and B746 is identical to the CSD3 gene, which plays an as yet unidentified role in chitin biosynthesis and/or its regulation. The deduced amino acid sequence of A550 is 63% identical to the Ccη subunit of a murine TCP-1-containing chaperonin and more than 35% identical to thermophilic factor 55 from Sulfolobus shibatae, as well as to a number of proteins belonging to the chaperonin TCP-1 family. Open reading frame F551 exhibits homology to two regions of the DAL80 gene located on yeast chromosome XI encoding a pleiotropic negative regulatory protein. In addition, extensive homology was detected in three regions including parts of ORFs A560, B746/CSD3 and the incomplete ORF C852 to three consecutive ORFs of unknown function in the middle of the right arm of chromosome XI. Finally, the sequence contained a tRNA^Arg3 (AGC) gene. The nucleotide sequence data reported in this paper have been deposited in the EMBL and GenBank databases under the accession number X85021.     

IV. Yeast sequencing reports. A Saccharomyces cerevisiae gene encoding a potential adenine phosphoribosyltransferase

The nucleotide sequence of a Saccharomyces cerevisiae gene encoding a potential adenine phosphoribosyltransferase (APRT) has been determined. The protein encoded by this gene shows a high degree of similarity with APRTs from a variety of other species. The S. cerevisiae gene, named APT2, has been mapped to chromosome IV. The sequence has been deposited in the GenBank data library under Accession Number L14434.     

Sequence analysis of a 40·7 kb segment from the left arm of yeast chromosome X reveals 14 known genes and 13 new open reading frames including homologues of genes clustered on the right arm of chromosome XI

The complete nucleotide sequence of a 40·7 kb segment about 130 kb from the left end of chromosome X of Saccharomyces cerevisiae was determined from two overlapping cosmids. Computer analysis of that sequence revealed the presence of the previously known genes VPS35, INO1, SnR128, SnR190, MP12, YAK1, RPB4, YUR1, TIF2, MRS3 and URA2, three previously sequenced open reading frames (ORFs) of unknown function 5′ of the INO1, 5′ of the MP12 and 3′ of the URA2 genes and 13 newly identified ORFs. One of the new ORFs is homologous to mammalian glycogenin glycosyltransferases and another has similarities to the human phospholipase D. Some others contain potential transmembrane regions or leucine zipper motifs. The existence of yeast expressed sequence tags for some of the newly identified ORFs indicates that they are transcribed. A cluster of six genes within 10 kb (YUR1, TIF2, two new ORFs, an RSP25 homologue and MRS3) have homologues arranged similarly within 28·5 kb on the right arm of chromosome XI. The sequence has been deposited in the EMBL data library under Accession Number X87371.     

A 12·8 kb segment,on the right arm of chromosome II from Saccharomyces cerevisiae including part of the DUR1, 2 gene,contains five putative new genes

A 12 820 bp fragment from the right arm of chromosome II of Saccharomyces cerevisiae was sequenced and analysed. This fragment contains six non-overlapping long open reading frames (ORFs) designated from the centromere- to the telomere-proximal ends as: YBR1441, 1443, 1444, 1445, 1446 and 1448. YBR1441 encodes a polypeptide of 845 amino acids which shares a long consensus domain with products of S. cerevisiae MCM2, MCM3, CDC46 and Schizosaccharomyces pombe cdc21⁺ genes. These genes are involved in DNA replication. YBR1445 encodes a polypeptide of 404 amino acids which has strong similarity with the S. cerevisiae KRE2/MNT1, YUR1, KTR1 gene products. The KRE2/MNT1 protein is an α-1,2-mannosyltransferase. The product of YBR1444, which encodes a protein of 375 amino acids, presents a lipase signature sequence and a peroxisomal targeting signal. YBR1448, whose sequence extends further on the telomere-proximal end of the fragment, is identical to the 3′ end of the DUR1,2 gene encoding urea amidolyase. The two ORFs, YBR1443 and YBR1446, exhibit no significant similarity with any known gene.     

High-Resolution cosmid mapping of the left arm of Saccharomyces cerevisiae chromosome XII; A first step towards an ordered sequencing approach

For the sequencing of the left arm of chromosome XII of Saccharomyces cerevisiae, we fine-mapped the entire 450 kb fragment between the ribosomal DNA (rDNA) and the left telomere. Total yeast DNA in agarose blocks was digested with I-PpoI, which exclusively cuts once in each repeat unit of the rDNA. The resulting fragment was isolated from pulsed-field gels, together with the equally sized chromosome IX. A cosmid library of some 30-fold chromosome coverage was generated from this material, with the cloning efficiency being around 20 000 clones per microgram genomic DNA. The chromosome XII and IX specific clones were identified by complementary hybridizations with the respective chromosomes. For the left arm of chromosome XII, a contiguous cosmid array (contig) with an average map resolution better than 9 kb was generated by clone hybridization procedures. The ordered library serves as a tool for the physical mapping of genetic markers. Also, a minimal set of 15 clones was selected that covers the entire fragment. This subset forms the basis for the generation of a template map of much higher resolution for a directed sequencing of the left arm of chromosome XII.     

The complete sequence of a 9037 bp DNA fragment of the right arm of Saccharomyces cerevisiae chromosome VII

We report the sequence of a 9037 bp fragment from the right arm of Saccharomyces cerevisiae chromosome VII. Analysis of the sequence revealed four complete open reading frames (ORFs), namely G7572, G7576, G7579 and G7584. The first three corresponded, respectively, to the previously cloned genes: HIP1, coding for a high-affinity histidine-specific permease, TDH1, one of the known genes coding for glyceraldehyde-3-phosphate dehydrogenase and ODPX, which encodes a precursor of protein X, a component of the pyruvate dehydrogenase complex. The ORF G7584 showed 35·8% identity with a hypothetical protein of Caenorhabditis elegans chromosome 3. The reported sequence has been deposited in the EMBL data library under Accession Number X82408.