Characterization of new proteins found by analysis of short open reading frames from the full yeast genome

We have analysed short open reading frames (between 150 and 300 base pairs long) of the yeast genome (Saccharomyces cerevisiae) with a two-step strategy. The first step selects a candidate set of open reading frames from the DNA sequence based on statistical evaluation of DNA and protein sequence properties. The second step filters the candidate set by selecting open reading frames with high similarity to other known sequences (from any organism). As a result, we report ten new predicted proteins not present in the current sequence databases. These include a new alcohol dehydrogenase, a protein probably related to the cell cycle, as well as a homolog of the prokaryotic ribosomal protein L36 likely to be a mitochondrial ribosomal protein coded in the nuclear genome. We conclude that the analysis of short open reading frames leads to biologically interesting discoveries, even though the quantitative yield of new proteins is relatively low. © 1997 John Wiley & Sons, Ltd.     

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.     

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).     

Functional analysis of three adjacent open reading frames from the right arm of yeast chromosome XVI

A 7·24 kb genomic DNA fragment from the yeast Saccharomyces cerevisiae chromosome XVI was isolated by complementation of a new temperature-sensitive mutation tsa1. We determined the nucleotide sequence of this fragment located on the right arm of chromosome XVI. Among the three, complete open reading frames: YPR041w, YPR042c and YPR043w contained within this fragment, the gene YPR041w was shown to complement the tsa1 mutation and to correspond to the TIF5 gene encoding an essential protein synthesis initiation translation factor. The YPR042c gene encodes a hypothetical protein of 1075 amino acids containing four putative transmembrane segments and is non-essential for growth. The gene YPR043c encoding the 10 kDa product, highly similar to the human protein L37a from the 60S ribosomal subunit, was found to be essential and a dominant lethal. We conclude that three tightly linked yeast genes are involved in the translation process. © 1998 John Wiley & Sons, Ltd.     

Cloning and sequence analysis of the Pichia pastoris TRP1, IPP1 and HIS3 genes

The Pichia pastoris TRP1 and HIS3 genes were cloned by complementation of the Saccharomyces cerevisiae trp1 and his3 mutants, respectively, and their nucleotide sequence was determined. The P. pastoris TRP1 gene includes an open reading frame (ORF) of 714 nucleotides corresponding to a polypeptide of 237 amino acids whose sequence shares about 40% identity with that of TRP1 encoding proteins in other yeast species. DNA sequencing showed that an ORF of 858 nucleotides, encoding a protein of 285 amino acids with high homology to inorganic pyrophosphatases (IPP1), is located downstream of the P. pastoris TRP1 gene. Both genes converge in this chromosomal region, showing a genetic organization analogous to that found in the Kluyveromyces lactis genome. The P. pastoris HIS3 gene possesses an ORF of 675 nucleotides, encoding a polypeptide of 224 amino acids which shows 74·1% identity to the homologous S. cerevisiae protein. The hexameric consensus GCN4 binding sequence (TGACTC), characteristic of many amino acid biosynthetic genes, is present in the promoter region. The TRP1 and IPP1 sequences were deposited in the EMBL databank under Accession Number AJ001000. The Accession Number of the HIS3 gene is U69170. © 1998 John Wiley & Sons, Ltd.     

Nucleotide sequence and characterization of the Saccharomyces cerevisiae RPL19A gene encoding a homolog of the mammalian ribosomal protein l19

A gene designated RPL19A has been identified in the region downstream from the 3′-end of the Saccharomyces cerevisiae MIS1 gene encoding the mitochondrial C₁-tetrahydrofolate synthase. The gene codes for the yeast ribosomal protein YL19 which exhibits 57·5% identity with the mammalian ribosomal protein L19. RPL19A is one of two functional copies of the YL19 gene located on chromosome II. The disruption of RPL19A has no effect on the growth of the yeast. The RPL19A gene contains an intron located near the 5′-end. The 5′-flanking region contains one similar and one complete UAS_rpg upstream activating sequence. RPL19A was also found to be adjacent to the chromosome II AAC3 gene, encoding the mitochondrial ADP/ATP carrier protein. The nucleotide sequence(s) reported in this paper has been submitted to the GenBank^tm/EMBL data bank with the accession number Z36751.     

Review: The Cct eukaryotic chaperonin subunits of Saccharomyces cerevisiae and other yeasts

All eight of the CCT1-CCT8 genes encoding the subunits of the Cct chaperonin complex in Saccharomyces cerevisiae have been identified, including three that were uncovered by the systematic sequencing of the yeast genome. Although most of the properties of the eukaryotic Cct chaperonin have been elucidated with mammalian systems in vitro, studies with S. cerevisiae conditional mutants revealed that Cct is required for assembly of microtubules and actin in vivo. Cct subunits from the other yeasts, Candida albicans and Schizosaccharomyces pombe, also have been identified from partial and complete DNA sequencing of genes. Cct8p from C. albicans, the only other completely sequenced Cct protein from a fungal species other than S. cerevisiae, is 72% and 61% similar to the S. cerevisiae and mouse Cct8 proteins, respectively. The C. albicans CCT8 sequence has been assigned the Accession Number U37371 in the GenBank/EMBL database.     

XIV. Yeast sequencing reports. The sequence of a 44 420 bp fragment located on the left arm of chromosome XIV from Saccharomyces cerevisiae

We have determined the complete nucleotide sequence of a 44 420 bp DNA fragment from chromosome XIV of Saccharomyces cerevisiae. The sequence data revealed 23 open reading frames (ORFs) larger than 300 bp, covering 73·5% of the sequence. The ORFs N2418, N2441, N2474 and N2480 correspond to previously sequenced S. cerevisiae genes coding respectively for the mitochondrial import protein Mas5, the nucleolar protein Nop2, the outer mitochondrial membrane porin Por1, the cytochrome c oxidase polypeptide VA precursor CoxA and the yeast protein tyrosine phosphatase Msg5. Translation products of three other ORFs N2406, N2411 and N2430 exhibit similarity to previously known S. cerevisiae proteins: the ribosomal protein YL9A, the protein Nca3 involved in the mitochondrial expression of subunits 6 and 8 of the ATP synthase and actin; in addition N2505 presents strong similarity to an ORF of chromosome IX. The predicted protein products of ORFs N2417 and N2403 present similarities with domains from proteins of other organisms: the Candida maltosa cycloheximide-resistance protein, the human interleukin enhancer-binding factor (ILF-2). The 12 remaining ORFs show no significant similarity to known proteins. In addition, we have detected a DNA region very similar to the yeast transposon Ty 1–15 of which insertion has disrupted a tRNA^Asp gene. The sequence has been deposited in the GenBank database with the Accession Number U12141.     

Sequence analysis of a 14·2 kb fragment of Saccharomyces cerevisiae chromosome XIV that includes the ypt53, tRNALeu and gsr m2 genes and four new open reading frames

As part of the EU yeast genome program, a fragment of 14 262 bp from the left arm of Saccharomyces cerevisiae chromosome XIV has been sequenced. This fragment corresponds to cosmid 14-14b and is located roughly 130 kb from the centromere. It contains four new open reading frames which encode potential proteins of more than 99 amino acids, as well as the ypt53, tRNA^Leu and gsr m2 genes. The putative protein N2212 is similar to the ribosomal protein S7 from humans. N2215 contains several predicted transmembrane elements. N2231 contains regions which are rich in acidic, as well as basic, residues which could form α-helical structures. Similar regions are found in a variety of proteins including glutamic acid rich protein, trichohyalin, caldesmon, Tb-29 and several cytoskeleton-interacting proteins. The sequence has been entered in the EMBL data library under Accession Number X85811.     

Dicistronic regulation of fluorescent proteins in the budding yeast Saccharomyces cerevisiae

Fluorescent proteins are convenient tools for measuring protein expression levels in the budding yeast Saccharomyces cerevisiae. Co‐expression of proteins from distinct vectors has been seen by fluorescence microscopy; however, the expression of two fluorescent proteins on the same vector would allow for monitoring of linked events. We engineered constructs to allow dicistronic expression of red and green fluorescent proteins and found that expression levels of the proteins correlated with their order in the DNA sequence, with the protein encoded by the 5′‐gene more highly expressed. To increase expression levels of the second gene, we tested four regulatory elements inserted between the two genes: the IRES sequences for the YAP1 and p150 genes, and the promoters for the TEF1 gene from both S. cerevisiae and Ashbya gossypii. We generated constructs encoding the truncated ADH1 promoter driving expression of the red protein, yeast‐enhanced Cherry, followed by a regulatory element driving expression of the green protein, yeast‐enhanced GFP. Three of the four regulatory elements successfully enhanced expression of the second gene in our dicistronic construct. We have developed a method to express two genes simultaneously from one vector. Both genes are codon‐optimized to produce high protein levels in yeast, and the protein products can be visualized by microscopy or flow cytometry. With this method of regulation, the two genes can be driven in a dicistronic manner, with one protein marking cells harbouring the vector and the other protein free to mark any event of interest. Copyright © 2009 John Wiley & Sons, Ltd.     

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.     

The dual origin of the yeast mitochondrial proteome

We propose a scheme for the origin of mitochondria based on phylogenetic reconstructions with more than 400 yeast nuclear genes that encode mitochondrial proteins. Half of the yeast mitochondrial proteins have no discernable bacterial homologues, while one-tenth are unequivocally of alpha-proteobacterial origin. These data suggest that the majority of genes encoding yeast mitochondrial proteins are descendants of two different genomic lineages that have evolved in different modes. First, the ancestral free-living alpha-proteobacterium evolved into an endosymbiont of an anaerobic host. Most of the ancestral bacterial genes were lost, but a small fraction of genes supporting bioenergetic and translational processes were retained and eventually transferred to what became the host nuclear genome. In a second, parallel mode, a larger number of novel mitochondrial genes were recruited from the nuclear genome to complement the remaining genes from the bacterial ancestor. These eukaryotic genes, which are primarily involved in transport and regulatory functions, transformed the endosymbiont into an ATP-exporting organelle.     

The sequence of a 15 769 bp segment of Pichia anomala identifies the SEC61 and FBP1 genes and five new open reading frames

We have determined the sequence of a 15 769 bp DNA segment of Pichia anomala. The sequence contains seven complete open reading frames (ORFs) longer than 100 amino acids and a putative tRNA gene. Two of the ORFs code for the well-characterized genes SEC61 (which codes for the core subunit of the ER translocation complex) and FBP1 (encoding fructose-1,6-bisphosphatase). A gene coding for a protein similar to S. cerevisiae YDL054c was found between the two genes. These three genes show a different organization (intermingled triples) in three yeast species: Saccharomyces cerevisiae, Candida albicans and P. anomala. Two out of the four remaining ORFs show weak homology with different proteins from other species and the other two show non-significant similarity with previously sequenced genes. The nucleotide sequence has been submitted to the EMBL database under Accession No. AJ306295.     

Cloning,Sequencing and Expression of a Full-Length cDNA Copy of the M1 Double-Stranded RNA Virus from the Yeast,Saccharomyces cerevisiae

Strains of the budding yeast, Saccharomyces cerevisiae, may contain one or more cytoplasmic viruses with double-stranded RNA (dsRNA) genomes. The killer phenomenon in yeast, in which one cell secretes a killer toxin that is lethal to another cell, is dependent upon the presence of the L-A and M1 dsRNA viruses. The L-A viral genome encodes proteins for the viral capsid, and for synthesis and encapsidation of single-stranded RNA replication cycle intermediates. The M1 virus depends upon the L-A-encoded proteins for its capsid and for the replication of its killer-toxin-encoding genome. A full-length cDNA clone of an M1 genome has been made from a single dsRNA molecule and shown to encode functional killer and killer-immunity functions. The sequence of the clone indicates minor differences from previously published sequences of parts of the M1 genome and of the complete genome of S14 (an internal deletion derivative of M1) but no unreported amino acid variants and no changes in putative secondary structures of the single-stranded RNA. A 118-nucleotide contiguous segment of the M1 genome has not previously been reported; 92 of those nucleotides comprise a segment of A nucleotides in the AU-rich bubble that follows the toxin-encoding reading frame. The GenBank Accession Number for the sequence is U78817; the locus is SCU78817. © 1997 John Wiley & Sons, Ltd.     

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.     

The complete mitochondrial genome of Glycyphagus domesticus (Acari: Glycyphagidae) using next-generation sequencing: Insight into phylogeny of Acariformes

Glycyphagus domesticus (Acari: Glycyphagidae) is a pest mite with worldwide distribution. It damages stored products and produces allergens. Molecular diagnosis is important for the effective monitoring and control of stored-products and dust pest mites. The complete mitochondrial genome (mt genome) has become one of the most useful markers for molecular systematics, phylogenetics and diagnostics of stored-pest mites. In this study, next-generation sequencing was used to sequence the complete mt genome of G. domesticus. The complete mt genome was found to be 14,333 bp in size, containing 13 protein coding genes, 2 ribosomal RNA (rRNA) genes and 22 transfer RNA (tRNA) genes. We constructed phylogenetic trees based on concatenated thirteen protein-coding genes and two rRNAs genes. Our overall results showed that G. domesticus was found in its own separate clade from the 29 other mite species, which is likely due to the fact that this represents the first assembled mt genome of a member of the family Glycyphagidae. Overall, our study enriches the growing mt genome database for the Acariformes and will promote further studies.     

Sequence analysis of two cosmids from Schizosaccharomyces pombe chromosome III

We report the complete sequence of two cosmids, SPCC895 (38457 bp insert, EMBL Accession No. AL035247) and SPCC1322 (42068 bp insert, EMBL Accession No. AL035259), localized on chromosome III of the Schizosaccharomyces pombe genome. Fourteen Coding DNA sequences (CDSs) were identified in SPCC895 and 17 in SPCC1322. Two known genes were found in each cosmid: map2 and gms1 on SPCC895, encoding the mating type P-factor precursor and an UDP-galactose transporter, respectively, and bub1 and ade6 in SPCC1322, encoding a protein kinase and a phosphoribosylaminoimidazole carboxylase, respectively. The fission yeast K RNA gene has been localized to SPCC895. Three ribosomal proteins have been predicted among these two cosmids. Nine CDSs similar to known proteins were found on SPCC895, and seven on SPCC1322. They include putative genes for an uridylate kinase, a proteasome catalytic component, an ion transporter, a checkpoint protein, a translation initiation protein, a SNARE complex protein, a protein involved in cytoskeletal organization, a spindle pole body-associating protein, pre-mRNA splicing factor RNA helicase, a 3'-5' exonuclease for RNA 3' ss-tail, an UTP-glucose-1-phosphate uridylyltransferase, a leukotriene A(4) hydrolase, a member of the RanBP7-importin beta-Cse1p superfamily, a Ca(++)-calmodulin-dependent serine/threonine protein kinase and a prohibitin antiproliferative protein. One CDS is predicted to be an integral membrane protein. One CDS from SPCC895 is similar to a CDS of unknown function from Saccharomyces cerevisiae and three from SPCC1322 are similar to CDSs of unknown function from Candida albicans, S. cerevisiae and Sz. pombe, respectively. Finally, one CDS of SPCC895 and three of SPCC1322 correspond to orphan genes.