The complete sequence of the 8.2 kb segment left of MAT on chromosome III reveals five ORFs, including a gene for a yeast ribokinase

We report here the DNA sequence of a segment of chromosome III extending over 8.2 kb. The sequence was determined using the random clone strategy followed by oligonucleotide-directed sequencing. The segment contains five long open reading frames, YCR521, 522, 523, 524 and 526, with only short distances between them. YCR523 (333 codons) encodes a ribokinase, a new function for yeast. YCR526 originates inside the MAT cassette, which is in continuity with the present segment, and extends over 358 codons outside of MAT. YCR524 (923 codons) codes for a putative membrane protein. YCR521, 522 and 524, have each been disrupted by insertion of a URA3 cassette and are non-essential genes. An active ARS element is located within YCR523 or its vicinity.     

The complete sequence of K3B, a 7.9 kb fragment between PGK1 and CRY1 on chromosome III, reveals the presence of seven open reading frames.

We have determined the nucleotide sequence of a segment from chromosome III of Saccharomyces cerevisiae extending over 7.9 kb between the PGK1 and CRY1 loci. The fragment contains seven open reading frames, YCR241, YCR242, YCR243, YCR244, YCR245, YCR246 and YCR247, of more than 70 codons. The study of the effects of a global disruption of YCR242, YCR243, YCR244, YCR245 and YCR247 shows that they are not essential for growth and division.     

The sequence of 8.8 kb of yeast chromosome III cloned in lambda PM3270 contains an unusual long ORF (YCR601).

We have determined the nucleotide sequence of a segment of chromosome III contained in the right part of the lambda PM3270 clone, for a total of 8824 bp. This sequence contains an unusual long open reading frame, YCR601, of 6501 bp that encodes for a protein of 2167 amino acids that show no homology with other known proteins. YCR601 was disrupted by internal deletion and insertion of LEU2 gene and is a non-essential gene, however, it is transcribed during vegetative growth yielding a polyadenylated mRNA of approximately 7 kb.     

The sequence of a 9.3 kb segment located on the left arm of the yeast chromosome XI reveals five open reading frames including the CCE1 gene and putative products related to MYO2 and to the ribosomal protein L10.

We report here the sequence of a 9.3 kb DNA segment of chromosome XI of Saccharomyces cerevisiae, located between the MAK11 locus and the centromere. This sequence contains four long open reading frames (ORFs), YKL160, YKL162, YKL164, YKL165 and part of another ORF, YKL166, covering altogether 90% of the entire sequence. One of these ORFs, YKL164, corresponds to CCE1. Translation products of two other ORFs, YKL160 and YKL165, exhibit homology with previously known S. cerevisiae proteins: the ribosomal protein L10, and the MYO2 gene product, respectively.     

Sequence of a 12.7 kb segment of yeast chromosome II identifies a PDR-like gene and several new open reading frames.

A 12,684 bp DNA fragment, between FUS3 and the centromere, from the left arm of chromosome II of Saccharomyces cerevisiae was sequenced as part of the European project to sequence the whole chromosome. This segment contains at least five complete new open reading frames (ORFs) and the beginning (191 first 5' codons) of an ORF whose putative translational product is highly similar to the multidrug resistance PDR1 gene previously characterized by Balzi et al. (1987) on chromosome VII.     

Sequencing of a 9·2 kb telomeric fragment from the right arm of Saccharomyces cerevisiae chromosome XIV

We report the complete sequence of a 9·2 kb fragment next to and including the right telomere of Saccharomyces cerevisiae chromosome XIV. Four open reading frames (ORFs) longer than 100 amino acids were observed in the sequenced segment. One ORF (378 codons) does not show any significant homology with proteins in the databases and corresponds to a putative new gene. Two ORFs are almost identical to the known YCR007/YKL219 and PAU1-like hypothetical protein families already identified on several S. cerevisiae chromosomes. These ORFs, whose function is unknown, are generally associated with sub-telomeric regions of chromosomes. The fourth one shows significant identities with bacterial mannitol dehydrogenases. It could be a yeast gene implicated in the metabolism of mannitol (or a related substrate). The sequence has been deposited in the EMBL data library under Accession Number X86790.     

FEN2: A gene implicated in the catabolite repression-mediated regulation of ergosterol biosynthesis in yeast

We have isolated and characterized a pleiotropic recessive mutation, fen2-1, that causes resistance to fenpropimorph and a low level of ergosterol in Saccharomyces cerevisiae. Ergosterol synthesis in the mutant strain was 5·5-fold slower than in the wild type; however, in vitro assays of the enzymes involved in ergosterol biosynthesis could not account for this low rate in the mutant. The mutant phenotype was expressed only in media exerting both carbon and nitrogen catabolite repression. To our knowledge, this is the first locus in yeast that reveals a concerted regulation between different pathways (carbon and nitrogen catabolite repression and/or general control of amino acid biosynthesis and ergosterol biosynthesis). The yeast gene FEN2 has been isolated and contains an open reading frame (ORF) of 512 codons. This ORF was found to be identical to YCR28C of chromosome III. A possible function of the FEN2 gene product in yeast is discussed.     

The complete sequence of a 7.5 kb region of chromosome III from Saccharomyces cerevisiae that lies between CRY1 and MAT.

We report the sequence of a 7.5 kb region lying between the CRY1 and MAT loci of chromosome III from Saccharomyces cerevisiae. This region lies in the overlap between two major contigs used for the generation of the complete nucleotide sequence of this chromosome. Comparison of this sequence with those reported previously for this overlap [Thierry et al. (1990) Yeast 6, 521; Jia et al. (1991) Yeast 7, 413] reveals 38 nucleotide differences, 45% of which generate changes in the amino acid sequences of the four genes in this region (YCR591, YCR592, YCR521 and YCR522). These differences appear to reflect true sequence polymorphisms between the two yeast strains used to generate the clones used in the sequencing project. Three of the four genes in this region display weak homologies to proteins in the PIR database. Some properties of YCR521 are analogous to those of ribosomal protein genes. However, the functions of all four genes remain obscure.     

Sequencing analysis of a 15·4 kb fragment of yeast chromosome XIV identifies the RPD3, PAS8 and KRE1 loci,and five new open reading frames

The DNA sequence of a 15·4 kb region covering the left arm of chromosome XIV from Saccharomyces cerevisiae was determined. This region contains eight open reading frames (ORFs) which code for proteins of more than 100 amino acids. Three ORFs correspond to the RPD3, PAS8 and KRE1 loci, described previously. Three ORFs show limited homology with known proteins: NO330 with the recessive suppressor of secretory defect SAC1, NO325 with YCR094W identified during chromosome III sequencing; whereas NO315 presents a motif conserved in the dnaJ family. Two ORFs (NO320 and NO325) show no homology to known proteins within the databases screened, but NO320 corresponds to a serine-threonine-rich protein. The sequence has been entered in the EMBL data library under Accession Number Z46259.     

The complete sequence of a 10.8 kb segment distal of SUF2 on the right arm of chromosome III from Saccharomyces cerevisiae reveals seven open reading frames including the RVS161, ADP1 and PGK genes.

We have entirely sequenced a 10,835 bp segment of the right arm from chromosome III contained in the J11D and J11D-K3B GF clones. The segment contains seven open reading frames longer then 100 amino acids. Three of them, RVS161 (Urdaci et al., 1990; Crouzet et al., 1991), ADP1 (Purnelle et al., 1991) and PGK1 (Hitzeman et al., 1982) have been described previously. YCR10C encodes a putative membrane protein. YCR8W (encoding a putative protein kinase) and YCR14C extend inside the D10H (Skala et al., 1991) and 62B5-2D clones respectively. Four ARS elements previously reported by Palzkill et al. (1986) are located between RVS161 and YCR10C.     

Sequence of the HMR region on chromosome III of Saccharomyces cerevisiae.

A 10,095 base pair DNA fragment from the right arm of chromosome III of Saccharomyces cerevisiae has been sequenced and analysed. It encompasses the silent mating-type locus HMR. Both HMRa1 and HMRa2 genes, as well as their flanking regulatory regions, have been identified. Three new open reading frames longer than 80 amino acid residues were found in this fragment. One of them (YCR137) shows features compatible with a membranous localization and a transporter function. The other two do not show a similarity with any known gene. A new gene coding for tRNA(thr)al (ACU) has been identified. It is located in a region coding for several delta sequences.     

Sequence of the sup61-RAD18 region on chromosome III of Saccharomyces cerevisiae.

A 7965 bp DNA segment from the right arm of chromosome III of Saccharomyces cerevisiae, encompassing the sup61 and RAD18 genes, was sequenced. Four new open reading frames were found in this DNA fragment. One of them, YCR103, is 51% homologous with the G10 gene product of Xenopus laevis.     

Nucleotide sequence of 9.2 kb left of CRY1 on yeast chromosome III from strain AB972: evidence for a Ty insertion and functional analysis of open reading frame YCR28.

We report the 9210 bp sequence from a segment of yeast chromosome III cloned from strain AB972 in lambda PM3270. Analysis of this sequence and its comparison with the one derived from the corresponding segment of strain XJ24-24A revealed that the AB972 region contains a duplication of about 2 kb and a Ty element, which are not found in XJ24-24A and cause a quite significant rearrangement of the whole region. We performed functional analysis of YCR28, the largest open reading frame we found in both AB972 and XJ24-24A. YCR28 encodes a putative protein of 512 amino acids with some similarities to yeast allontoate permease. Its disruption does not cause any detectable phenotype on rich medium or on allantoate medium, while we observed a strain-dependent effect on sensitivity to amino acid balance and to 3-aminotriazole, when cells were grown in synthetic medium.     

Analysis of the DNA sequence of a 15,500 bp fragment near the left telomere of chromosome XV from Saccharomyces cerevisiae reveals a putative sugar transporter,a carboxypeptidase homologue and two new open reading frames

We report the sequence of a 15·5 kb DNA segment located near the left telomere of chromosome XV of Saccharomyces cerevisiae. The sequence contains nine open reading frames (ORFs) longer than 300 bp. Three of them are internal to other ones. One corresponds to the gene LGT3 that encodes a putative sugar transporter. Three adjacent ORFs were separated by two stop codons in frame. These ORFs presented homology with the gene CPS1 that encodes carboxypeptidase S. The stop codons were not found in the same sequence derived from another yeast strain. Two other ORFs without significant homology in databases were also found. One of them, O0420, is very rich in serine and threonine and presents a series of repeated or similar amino acid stretches along the sequence. The nucleotide sequence has been deposited in the EMBL data library under Accession Number X89715.     

PetCR46, a gene which is essential for respiration and integrity of the mitochondrial genome

In the frame of the European Pilot Project for the functional analysis of newly discovered open reading frames (ORFs) from Saccharomyces cerevisiae chromosome III, we have deleted entirely the YCR46C ORF by a one-step polymerase chain reaction method and replaced it by the HIS3 marker in the strain W303. The deletion has been checked by meiotic segregation and Southern blot analyses. Characterization of the deleted strain indicates that YCR46C is essential for respiration and maintenance of the mitochondrial genome since its deletion leads to the appearance of 100% of cytoplasmic petites. Hybridization with molecular probes from mtDNA of individual clones of such petites showed that about 50% did hybridize (rho⁻ clones) while others did not (possibly rho° clones). The wild-type gene has been cloned and shown to complement the deletion. The gene, which probably codes for a mitochondrial ribosomal protein, has been called petCR46.     

利用TAIL-PCR技术克隆猴头菇β-glucosidase基因

根据已知的β-glucosidase基因的保守序列设计引物,从猴头菇的菌丝体中克隆到β-glucosidase基因片段B1,再利用TAIL-PCR技术扩增B1两端的侧翼序列B2和B3,B2和B3序列经Blastn、ORF和Primer5·0软件分析后,再设计B2和B3侧翼序列的特异引物对猴头菇的基因组DNA进行扩增,最终扩增到全长的β-glucosidase基因,其大小为2226bp。     

X. Yeast sequencing reports. The sequence of a 36 kb segment on the left arm of yeast chromosome X identifies 24 open reading frames including NUC1, PRP21 (SPP91), CDC6, CRY2, the gene for S24, a homologue to the aconitase gene ACO1 and two homologues to chromosome III genes

A 36 kb fragment from the left arm of chromosome X, located at about 50 kb from the telomere, was sequenced and analysed. The segment contains a new putative ARS, a new tRNA for threonine, remnants of a solo delta and 24 open reading frames (ORFs) numbered from J0310 to J0355. Six of them, NUC1, PRP21 (also called SPP91), CDC6, CRY2, the gene encoding the ribosomal protein S24 and the gene coding for a hypothetical protein of 599 amino acids, have been sequenced previously. Three ORFs show high homology to the yeast gene ACO1 encoding mitochondrial aconitase and to the chromosome III genes YCR34W and YCR37C of unknown function. Three other ORFs show lower but significant homology: a first one to UNP, a gene related to the tre-2 oncogene from mouse and to the gene coding for the yeast deubiquitinating enzyme DOA2; a second one to SLY41, a suppressor of the functional loss of YPT1 and a third one to the gene encoding the proline utilization activator PUT3. The complete nucleotide sequence of 36 016 bp was submitted to the EMBL database (accession number X77688).     

The product of the YCR105 gene located on the chromosome III from Saccharomyces cerevisiae presents homologies to ATP-dependent permeases.

During the systematic sequencing of chromosome III from Saccharomyces cerevisiae, carried out by a network of laboratories sponsored by the Commission of the European Community, we have identified the open reading frame YCR105 located on fragment J11D from the circular derivative of chromosome III in strain XJ24-24a (Palzkill et al., 1986). YCR105 is immediately centromere proximal to the PGK gene (opposite strand) on the right arm of chromosome III about 20 kb from the centromere.     

Inactivation of six genes from chromosomes VII and XIV of Saccharomyces cerevisiae and basic phenotypic analysis of the mutant strains

Within the frame of the EUROFAN project, aimed at the functional analysis of the novel ORFs revealed by the systematic sequencing of the Saccharomyces cerevisiae genome, we have inactivated six ORFs encoding putative proteins with unknown function in the two S. cerevisiae strains FY1679 and W303-1B. Five ORFs are located on chromosome VII (YGR250c, YGR251w, YGR260w, YGR262c, YGR263c) and one on chromosome XIV (YNL234w). The genes have been inactivated in the FY1679 strain by a strategy that makes use of deletion cassettes containing the kanMX4 module, which confers resistance to geneticin to yeast cells, and short flanking regions homologous to the target locus (SFH). Tetrad dissection of heterozygous mutants and basic phenotypic analysis of the spores revealed that ORF YGR251w is an essential gene, while the disruption of YGR262c causes a severe slow-growth phenotype. Deletion of the remaining ORFs did not give rise to a detectable phenotype in the mutant strains. For each ORF we have cloned, in the pUG7 plasmid, a replacement cassette that possesses long flanking regions homologous to the target locus (LFH) and, in the pRS416 plasmid, the cognate wild-type gene. The LFH replacement cassettes were used to inactivate the respective genes in the W303-1B strain. This work has been performed in the framework of the B0 Consortium of the EUROFAN I project.