Secondary literature sources for N2227
The following references were automatically generated.
- Jones S, Jedd G, Kahn RA, Franzusoff A, Bartolini F, Segev N
- Genetic interactions in yeast between Ypt GTPases and Arf guanine nucleotide exchangers.
- Genetics. 1999; 152: 1543-56
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Two families of GTPases, Arfs and Ypt/rabs, are key regulators of vesicular transport. While Arf proteins are implicated in vesicle budding from the donor compartment, Ypt/rab proteins are involved in the targeting of vesicles to the acceptor compartment. Recently, we have shown a role for Ypt31/32p in exit from the yeast trans-Golgi, suggesting a possible function for Ypt/rab proteins in vesicle budding as well. Here we report the identification of a new member of the Sec7-domain family, SYT1, as a high-copy suppressor of a ypt31/32 mutation. Several proteins that belong to the Sec7-domain family, including the yeast Gea1p, have recently been shown to stimulate nucleotide exchange by Arf GTPases. Nucleotide exchange by Arf GTPases, the switch from the GDP- to the GTP-bound form, is thought to be crucial for their function. Sec7p itself has an important role in the yeast secretory pathway. However, its mechanism of action is not yet understood. We show that all members of the Sec7-domain family exhibit distinct genetic interactions with the YPT genes. Biochemical assays demonstrate that, although the homology between the members of the Sec7-domain family is relatively low (20-35%) and limited to a small domain, they all can act as guanine nucleotide exchange factors (GEFs) for Arf proteins, but not for Ypt GTPases. The Sec7-domain of Sec7p is sufficient for this activity. Interestingly, the Sec7 domain activity is inhibited by brefeldin A (BFA), a fungal metabolite that inhibits some of the Arf-GEFs, indicating that this domain is a target for BFA. These results demonstrate that the ability to act as Arf-GEFs is a general property of all Sec7-domain proteins in yeast. The genetic interactions observed between Arf GEFs and Ypt GTPases suggest the existence of a Ypt-Arf GTPase cascade in the secretory pathway.
- Day GJ, Mosteller RD, Broek D
- Distinct subclasses of small GTPases interact with guanine nucleotide exchange factors in a similar manner.
- Mol Cell Biol. 1998; 18: 7444-54
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The Ras-related GTPases are small, 20- to 25-kDa proteins which cycle between an inactive GDP-bound form and an active GTP-bound state. The Ras superfamily includes the Ras, Rho, Ran, Arf, and Rab/YPT1 families, each of which controls distinct cellular functions. The crystal structures of Ras, Rac, Arf, and Ran reveal a nearly superimposible structure surrounding the GTP-binding pocket, and it is generally presumed that the Rab/YPT1 family shares this core structure. The Ras, Rac, Ran, Arf, and Rab/YPT1 families are activated by interaction with family-specific guanine nucleotide exchange factors (GEFs). The structural determinants of GTPases required for interaction with family-specific GEFs have begun to emerge. We sought to determine the sites on YPT1 which interact with GEFs. We found that mutations of YPT1 at position 42, 43, or 49 (effector loop; switch I), position 69, 71, 73, or 75 (switch II), and position 107, 109, or 115 (alpha-helix 3-loop 7 [alpha3-L7]) are intragenic suppressors of dominant interfering YPT1 mutant N22 (YPT1-N22), suggesting these mutations prevent YPT1-N22 from binding to and sequestering an endogenous GEF. Mutations at these positions prevent interaction with the DSS4 GEF in vitro. Mutations in the switch II and alpha3-L7 regions do not prevent downstream signaling in yeast when combined with a GTPase-defective (activating) mutation. Together, these results show that the YPT1 GTPase interacts with GEFs in a manner reminiscent of that for Ras and Arf in that these GTPases use divergent sequences corresponding to the switch I and II regions and alpha3-L7 of Ras to interact with family-specific GEFs. This finding suggests that GTPases of the Ras superfamily each may share common features of GEF-mediated guanine nucleotide exchange even though the GEFs for each of the Ras subfamilies appear evolutionarily unrelated.
- Du LL, Collins RN, Novick PJ
- Identification of a Sec4p GTPase-activating protein (GAP) as a novel member of a Rab GAP family.
- J Biol Chem. 1998; 273: 3253-6
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A yeast open reading frame sharing homology with the two known yeast Rab GTPase-activating proteins (GAPs), Gyp6p and Gyp7p, was found in a data base search. We have named the gene containing this open reading frame GYP1. Recombinant Gyp1p showed GAP activity on Sec4p, increasing both its steady-state rate and single turnover GTPase activity. Gyp1p also stimulated the GTPase activity of several other yeast Rab proteins including Ypt1p, Ypt7p, and Ypt51p but showed no GAP activity on Ypt6p and Ypt32p. Deletion of the GYP1 gene or overexpression of Gyp1p did not alter the growth rate of yeast. However, overexpression of Gyp1p was inhibitory in combination with a subset of secretory mutants including sec4-8 and several ypt1 mutants. This effect is probably due to the increase in GAP activity, which can be observed in a lysate from cells overexpressing Gyp1p. The finding that yeast Rab GAPs share homology with proteins in other species, such as Caenorhabditis elegans and human, suggests the existence of a conserved Rab GAP family.
- Kasukabe T, Okabe-Kado J, Honma Y
- TRA1, a novel mRNA highly expressed in leukemogenic mouse monocytic sublines but not in nonleukemogenic sublines.
- Blood. 1997; 89: 2975-85
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Mouse monocytic Mm-A, Mm-P, Mm-S1, and Mm-S2 cells are sublines of mouse monocytic and immortalized Mm-1 cells derived from spontaneously differentiated, mouse myeloblastic M1 cells. Although these subline cells retain their monocytic characteristics in vitro, Mm-A and Mm-P cells are highly leukemogenic to syngeneic SL mice and athymic nude mice, whereas Mm-S1 and Mm-S2 cells are not or are only slightly leukemogenic. To better understand the molecular mechanisms of these levels of leukemogenicity, we investigated putative leukemogenesis-associated genes or oncogenes involved in the maintenance of growth, especially in vivo, by means of differential mRNA display. We isolated a fragment clone (15T01) from Mm-P cells. The mRNA probed with 15T01 was expressed at high levels in leukemogenic Mm-P and Mm-A cells but not in nonleukemogenic Mm-S1 and Mm-S2 cells. The gene corresponding to 15T01, named TRA1, was isolated from an Mm-P cDNA library. The longest open reading frame of the TRA1 clone predicts a peptide containing 204 amino acids with a calculated molecular weight of 23,049 D. The predicted TRA1 protein is cysteine-rich and contains multiple cysteine doublets. A putative normal counterpart gene, named NOR1, was also isolated from a normal mouse kidney cDNA library and sequenced. NOR1 cDNA predicts a peptide containing 234 amino acids. The sequence of 201 amino acids from the C-terminal NOR1 was completely identical to that of TRA1, whereas the remaining N-terminal amino acids (33 amino acids) were longer than that (3 amino acids) of TRA1 and the N-terminus of NOR1 protein contained proline-rich sequence. A similarity search against current nucleotide and protein sequence databases indicated that the NOR1/TRA1 gene(s) is conserved in a wide range of eukaryotes, because apparently homologous genes were identified in Caenorhabditis elegans and Saccharomyces cerevisiae genomes. Northern blotting using TRA1-specific and NOR1-specific probes indicated that TRA1 mRNA is exclusively expressed in leukemogenic but not in nonleukemogenic Mm sublines and normal tissues and also indicated that NOR1 mRNA is expressed in normal tissues, especially in kidney, lung, liver, and bone marrow cells but not in any Mm sublines. After leukemogenic Mm-P cells were induced to differentiate into normal macrophages by sodium butyrate, the normal counterpart, NOR1, was expressed, whereas the TRA1 level decreased. Furthermore, transfection of TRA1 converted nonleukemogenic Mm-S1 cells into leukemogenic cells. These results indicate that the TRA1 gene is associated at least in part with the leukemogenesis of monocytic Mm sublines.
- Escribano V, Eraso P, Portillo F, Mazon MJ
- Sequence analysis of a 14.6 kb DNA fragment of Saccharomyces cerevisiae chromosome VII reveals SEC27, SSM1b, a putative S-adenosylmethionine-dependent enzyme and six new open reading frames.
- Yeast. 1996; 12: 887-92
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The nucleotide sequence of a fragment from the left arm of Saccharomyces cerevisiae chromosome VII has been determined. Analysis of the 14,607 bp DNA segment reveals nine open reading frames (ORFs) longer than 300 bp. G2827 is the SEC 7 gene, an essential coatomer complex subunit. G2834 encodes SSM1b, a ribosomal protein. The G2838 product shows homology to hypothetical yeast proteins, YIF0 and YE09, of unknown function. The G2830 product shows homology with the cell division protein FtsJ from Escherichia coli, with two hypothetical proteins from yeast, YCF4 and YBR1, and with R74.7, a hypothetical protein from Caenorhabditis elegans. Two of the ORFs are completely internal to longer ones and a third is partially embedded in G2850. The remaining ORFs give no significant homology with proteins in the databases.
- Gromadka R, Gora M, Zielenkiewicz U, Slonimski PP, Rytka J
- Subtelomeric duplications in Saccharomyces cerevisiae chromosomes III and XI: topology, arrangements, corrections of sequence and strain-specific polymorphism.
- Yeast. 1996; 12: 583-91
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We have determined the sequence of a 3.42 kb segment from the left arm of chromosome III (coordinates 5394-8815 of Oliver et al., 1992). Instead of four open reading frames (ORFs) listed previously, the verified sequence reveals the presence of only one ORF, renamed YCL070/73c, encoding a protein of 615 amino acids. The putative product of ORF YCL070/73c shows 98.5% identity and 99% similarity with the protein of the same length encoded by ORF YKR106w from the right arm of chromosome XI and displays a topology characteristic for the Major Facilitators Superfamily of membrane proteins. These corrections will be deposited in the EMBL data library under the Accession Number X59720. In strain S288C the subtelomeric sequence 4319-11 215 of chromosome III is 98.3% identical with the subtelomeric sequence of 658 204-665 061 from the right arm of chromosome XI. Using various subtelomeric probes from chromosome III (coordinates 2097-3646 of S288C) we have analysed eight different Saccharomyces cerevisiae strains and the closely related species S. douglasii: some S. cerevisiae strains have additional duplications and longer chromosomes XI; in all strains chromosome III contains the 1200-11 000 segment (strain FL100 is disomic) while S. douglasii does not show any hybridization in this region.
- Parle-McDermott AG, Hand NJ, Goulding SE, Wolfe KH
- Sequence of 29 kb around the PDR10 locus on the right arm of Saccharomyces cerevisiae chromosome XV: similarity to part of chromosome I.
- Yeast. 1996; 12: 999-1004
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We report a 29,445 bp sequence from the right arm of yeast chromosome XV. It contains the genes MYO2, SNC2, PDR10, SCD5 (also called FTB1), MIP1, VMA4, MRS2, ALA1, KRE5, TEA1, and a homologue of YAL034c. Several discrepancies with previously published sequences were found. PDR10 encodes a protein highly similar to the pleiotropic drug resistance protein Pdr5p. This sequence contig forms part of a region of extended similarity to part of the left arm of chromosome I, which is a relic of an ancient duplicated chromosomal region.
- Pandolfo D, De Antoni A, Lanfranchi G, Valle G
- The DNA sequence of cosmid 14-5 from chromosome XIV reveals 21 open reading frames including a novel gene encoding a globin-like domain.
- Yeast. 1996; 12: 1071-6
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In this paper is described the DNA sequence of cosmid 14-5 from chromosome XIV of Saccharomyces cerevisiae. The sequence is 38 855 bases long and contains 21 open reading frames (ORFs) plus three internal ORFs. Six ORFs correspond to known yeast genes (SLA2, ZWF1, BLH1, KEX2, SIN4 and URE2); two other ORFs had already been sequenced because they are adjacent to known genes; the remaining 12 ORFs are novel genes. Of these, one ORF (NII42) is particularly interesting since it shows a significant similarity to mammalian globin. Another ORF (N1254) displays two zinc finger motifs as well as a DNAJ motif.
- Eide LG, Sander C, Prydz H
- Sequencing and analysis of a 35.4 kb region on the right [corrected] arm of chromosome IV from Saccharomyces cerevisiae reveal 23 open reading frames.
- Yeast. 1996; 12: 1085-90
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The complete DNA sequence of cosmid clone 31A5 containing a 35 452 bp segment from the right [corrected] arm of chromosome IV from Saccharomyces cerevisiae, was determined from an ordered set of subclones in combination with primer walking on the cosmid. The sequence contains 23 open reading frames (ORFs) of more than 100 amino acid residues and the tRNA-Va12a gene. Five ORFs corresponded to the known yeast genes SNQ2, SES1, GCV1, RPL2B and RPS18A. The DNA sequence for RPS18A is interrupted by an intron. One ORF corresponded to a part of the yeast gene HEX2 at the end of the cosmid insert. Four ORFs encoded putative proteins which showed strong homologies to other previously known proteins, three of yeast origin and one of non-yeast origin. Two ORFs were classified as having borderline homologies: one had similarity to two protein families and another to two protein products of unknown function from other species. The remaining 11 ORFs bore no significant similarity to any published protein.
- Ouzounis C, Bork P, Casari G, Sander C
- New protein functions in yeast chromosome VIII.
- Protein Sci. 1995; 4: 2424-8
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The analysis of the 269 open reading frames of yeast chromosome VIII by computational methods has yielded 24 new significant sequence similarities to proteins of known function. The resulting predicted functions include three particularly interesting cases of translation-associated proteins: peptidyl-tRNA hydrolase, a ribosome recycling factor homologue, and a protein similar to cytochrome b translational activator CBS2. The methodological limits of the meaningful transfer of functional information between distant homologues are discussed.
- Zumstein E, Pearson BM, Kalogeropoulos A, Schweizer M
- A 29.425 kb segment on the left arm of yeast chromosome XV contains more than twice as many unknown as known open reading frames.
- Yeast. 1995; 11: 975-86
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The nucleotide sequence of a 29.425 kb fragment localized on the left arm of chromosome XV from Saccharomyces cerevisiae has been determined. The sequence contains 13 open reading frames (ORFs) of which four encode the known genes ADH1, COQ3, MSH2 and RCF4. Predictions are made concerning the functions of the unknown ORFs. Some of the ORFs contain sequences similar to expressed sequence tags (EST) found in the database made available by TIGR. In particular, the highly expressed ADH1 gene is represented in this database by no less than 20 EST sequences. Two ARS sequences and a putative functional GCN4 motif have also been detected. One ORF (O0953) containing nine putative transmembrane segments is similar to a hypothetical membrane protein of Arabidopsis thaliana. Characteristic features of the other ORFs include ATP/GTP binding sites, a fungal Zn(2)-Cys(6) binuclear centre, an endoplasmic reticulum targeting sequence, a beta-transducin repeat signature and in two instances, good similarity to the prokaryotic lipoprotein signal peptide motif.
- Mizuta K, Hashimoto T, Otaka E
- The evolutionary relationships between homologs of ribosomal YL8 protein and YL8-like proteins.
- Curr Genet. 1995; 28: 19-25
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We previously reported the sequence of YL8A, one of the two genes encoding yeast ribosomal protein YL8. With the aim of conducting an evolutionary study we have cloned and sequenced a second gene, YL8B. The disruption of both genes is lethal. Unlike other duplicated ribosomal protein genes, each open reading frame is interrupted by two introns containing long conserved sequences. A comparison of nucleotide and amino-acid sequences reveals that the duplication of the YL8 gene must have occurred very recently. Alignment and phylogenetic analysis of the amino-acid sequences of YL8-related proteins from various species show the existence not only of YL8 ribosomal proteins but also of a family of YL8-like proteins. These are present in at least three species of yeast and seem to be functionally distinct from ribosomal proteins.
- Van Dyck L, Pascual-Ahuir A, Purnelle B, Goffeau A
- An 8.2 kb DNA segment from chromosome XIV carries the RPD3 and PAS8 genes as well as the Saccharomyces cerevisiae homologue of the thiamine-repressed nmt1 gene and a chromosome III-duplicated gene for a putative aryl-alcohol dehydrogenase.
- Yeast. 1995; 11: 987-91
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A 8.2 kb DNA segment from the left arm of Saccharomyces cerevisiae chromosome XIV (GenBank/EMBL accession number: X83226) encompasses four open reading frames (ORFs) longer than 100 residues. The ORF N0295 is highly similar to the Aspergillus parasiticus and Schizosaccharomyces pombe nmt1 gene products, which are involved in thiamine biosynthesis and are strongly repressed by thiamine. N0300 is 76% identical to YCR107w, a hypothetical protein of yeast chromosome III, and 55% identical to a ligninolytic aryl-alcohol dehydrogenase from the white-rot fungus Phanerochaete chrysosporium. In addition, this fragment encodes Rpd3, a pleiotropic transcription factor (Vidal and Gaber, 1991), and part of Pas8, a protein essential for the biogenesis of peroxisomes (Voorn-Brouwer et al., 1993).
- Lalo D, Stettler S, Mariotte S, Gendreau E, Thuriaux P
- Organization of the centromeric region of chromosome XIV in Saccharomyces cerevisiae.
- Yeast. 1994; 10: 523-33
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A 15.1 kb fragment of the yeast genome was allocated to the centromeric region of chromosome XIV by genetic mapping. It contained six bona fide genes, RPC34, FUN34, CIT1 (Suissa et al., 1984), RLP7, PET8 and MRP7 (Fearon and Mason, 1988) and two large open reading frames, DOM34 and TOM34. RPC34 and RLP7 define strictly essential functions, whereas CIT1, PET8 and MRP7 encode mitochondrial proteins. The PET8 product belongs to a family of mitochondrial carrier proteins. FUN34 encodes a putative transmembraneous protein that is non-essential as judged from the normal growth of the fun34-::LUK18(URA3) allele even on respirable substrates. TOM34 codes for a putative RNA binding protein, and DOM34 defines a hypothetical polypeptide of 35 kDa, with no significant homology to known proteins. The region under study also contains two divergently transcribed tDNAs, separated only by a chimeric transposable element. This tight tDNA linkage pattern is commonly encountered in yeast, and a general hypothesis is proposed for its emergence on the Saccharomyces cerevisiae genome. RPC34, RLP7, PET8 and MRP7 are unique on the yeast genome, but the remaining genes belong to an extant centromeric duplication between chromosome III and XIV.
- Vermut M, Widner WR, Dinman JD, Wickner RB
- Sequence of MKT1, needed for propagation of M2 satellite dsRNA of the L-A virus of Saccharomyces cerevisiae.
- Yeast. 1994; 10: 1477-9
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MKT1 is required for maintenance of K2 above 30 degrees C in strains with the L-A-HN variant of the L-A double-stranded RNA virus of Saccharomyces cerevisiae. We report that MKT1 encodes a 92,979 Da protein with serine-rich regions and the retroviral protease signature, DTG, but with no substantial homology to proteins presently in the databases.
- Henrissat B, Coutinho PM, Reilly PJ
- Reading-frame shift in Saccharomyces glucoamylases restores catalytic base, extends sequence and improves alignment with other glucoamylases.
- Protein Eng. 1994; 7: 1281-2
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A recent article [Coutinho and Reilly (1994) Protein Engng, 7, 749-760] presented the alignment of 14 glucoamylases by hydrophobic cluster analysis. The catalytic bases of two of these glucoamylases, from Saccharomyces cerevisiae and Saccharomyces diastaticus, were not conserved, opening the possibility of a reading-frame shift error in a segment coding for amino acids near the apparent C-termini of the mature proteins. Indeed, an addition of one nucleotide restores the catalytic base, extends the sequence by 39 residues and greatly improves the amino acid alignment in this region.
- Garcia-Cantalejo J et al.
- The complete sequence of an 18,002 bp segment of Saccharomyces cerevisiae chromosome XI contains the HBS1, MRP-L20 and PRP16 genes, and six new open reading frames.
- Yeast. 1994; 10: 231-45
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We report the sequence of an 18,002 bp DNA fragment from the right arm of Saccharomyces cerevisiae chromosome XI. This segment contains nine complete open reading frames (ORFs), YKR401 to YKR409, and part of another ORF, YKR400, covering altogether 87.2% of the entire sequence. One of them, YKR400, encodes an NAD-dependent 5,10-methylene-tetrahydrofolate dehydrogenase. YKR404, YKR405 and YKR406 correspond to the previously characterized HBS1, MRP-L20 and PRP16 genes, coding for a translation elongation factor, a mitochondrial ribosomal protein and an ATP-binding protein, respectively. The putative product of YKR407 contains the zinc-binding region signature of neutral zinc metallopeptidases. The five other ORFs do not show significant homology to any known protein.
- Romero PA, Athanassiadis A, Lussier M, Herscovics A
- The nucleotide sequence of TTP1, a gene encoding a predicted type II membrane protein.
- Yeast. 1994; 10: 1111-5
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The DNA sequence of a 2967 bp fragment located near the centromere of chromosome II, between the CEN2 and FUR4 genes, was determined. The segment contains a new open reading frame of 1794 bp. The product encoded by the gene, designated TTP1, is a predicted type II membrane protein of 597 amino acid residues with a short cytoplasmic NH2-terminus, a membrane-spanning region and a large COOH-terminal region containing three potential N-glycosylation sites. Gene disruption indicated that TTP1 is not essential for cell growth.
- Verhasselt P, Aert R, Voet M, Volckaert G
- Nucleotide sequence analysis of an 8887 bp region of the left arm of yeast chromosome XIV, encompassing the centromere sequence.
- Yeast. 1994; 10: 945-51
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The nucleotide sequencing of 8887 bp of the left arm of chromosome XIV is described. The sequence includes the centromeric region. Both strands were sequenced with an average redundancy of 5.09 per base pair. The overall G+C content is 37.3% (39.2% for putative coding regions versus 32.5% for non-coding regions). Six open reading frames (ORFs) greater than 100 amino acids were detected, all of which are completely confined to the 8.9 kbp region. Codon frequencies of the six ORFs agree with codon usage in Saccharomyces cerevisiae and all show the characteristics of low-level expressed genes. Comparison of the translated sequences with protein sequences in data bases suggests the presence of two ORFs (N2014 and N2007) encoding ribosomal proteins, the latter of which is the previously sequenced MRP7 gene. Another ORF (N2012) could encode a membrane-associated protein since it contains secretory signal sequence and two presumed transmembrane helices. This protein might be involved in mitochondrial energy transfer. ORF N2016 is immediately adjacent to the centromere, suggesting that it corresponds to the SPO1 gene, which is very tightly linked to the centromere at the left arm side of chromosome XIV (Mortimer et al., 1989).
- Cusick ME
- Purification and identification of two major single-stranded binding proteins of yeast Saccharomyces cerevisiae as ribosomal protein L4 and histone H2B.
- Biochim Biophys Acta. 1994; 1217: 31-40
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Affinity chromatography on single-stranded DNA cellulose (ssDC) is useful for purification of single-stranded RNA and single-stranded DNA binding proteins. Most of the proteins purified off of this resin have proven to be ribonucleoproteins, with various roles in RNA processing. A homogenate of the yeast Saccharomyces cerevisiae shows perhaps a dozen major protein species, and many more minor protein species, upon elution from ssDC. A major protein species of 30-31 kDa that elutes from ssDC between 0.35 and 0.45 M NaCl was purified to homogeneity. V8 protease was used to fragment this protein, and the peptides so generated were purified by HPLC and sequenced. From the sequence so derived six synthetic oligonucleotides were made. These oligonucleotides were used to pull out the corresponding gene from a yeast genomic library. The entire gene was eventually found on a 4.4 kb BamHI fragment. This entire fragment was sequenced. The sequence showed three open reading frames (ORFs). ORF1 was the p30 gene, for all six V8 peptide fragment sequences were found in it. Published here is the sequence for ORF1. Sequence comparisons of this sequence to the protein sequence databases showed that it is ribosomal protein L4. Another major ssb of yeast, which migrates as a doublet of 15-16 kDa, was also purified. N-terminal peptide sequencing of this protein produced a sequence identical to that for histone H2B.
- Doignon F, Biteau N, Crouzet M, Aigle M
- The complete sequence of a 19,482 bp segment located on the right arm of chromosome II from Saccharomyces cerevisiae.
- Yeast. 1993; 9: 189-99
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We report here the sequence of a 19,482 bp DNA segment of chromosome II of Saccharomyces cerevisiae. The fragment contains 16 open reading frames (ORFs) covering 74% of the sequence. Four predicted products present homology with known proteins. The ORF YBR1732 exhibits a strong homology to serine hydroxymethyl transferase; the best score is 53.1% identity in 458 amino acids overlap with the serine hydroxymethyl transferase from rabbit liver. YBR1724, which shows homology with riboflavin synthase of Bacillus subtilis, is probably the RIB5 gene implied in riboflavine synthesis and mapped in this region. YBR1733 is homologous to rab protein and YBR1728 is presumably a GTPase activating protein.
- Sapolsky RJ, Brendel V, Karlin S
- A comparative analysis of distinctive features of yeast protein sequences.
- Yeast. 1993; 9: 1287-98
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The recently published sequence of yeast chromosome III (YCIII) provides the longest continuous stretch of a eukaryotic DNA molecule sequenced to date (315 kb). The sequence contains 116 distinct AUG-initiated open reading frames of at least 200 codons in length, more than 50 of which had not been described previously nor bear significant similarity to known proteins. We have analysed the YCIII known and putative protein sequences with respect to significant statistical features which might reflect on structural and functional characteristics. The YCIII proteins have striking similarities and differences in their sequence attribute distributions compared to the corresponding distributions for all available yeast sequences and other protein collections. Nine examples of YCIII proteins with distinctive sequence features are discussed in detail.
- Ripmaster TL, Woolford JL Jr
- A protein containing conserved RNA-recognition motifs is associated with ribosomal subunits in Saccharomyces cerevisiae.
- Nucleic Acids Res. 1993; 21: 3211-6
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Using PCR cloning techniques, we have isolated a Saccharomyces cerevisiae gene encoding a protein that contains two highly conserved RNA-recognition motifs. This gene, designated RNP1, encodes an acidic protein that is similar in sequence to a variety of previously isolated RNA binding proteins, including nucleolin, poly (A) binding protein, and small nuclear ribonucleoproteins. The RNP1 gene maps to the left arm of chromosome XIV centromere distal to SUF10. Haploid yeast containing a null allele of RNP1 are viable, indicating that RNP1 is dispensible for mitotic growth. However genomic Southern blot analysis indicated that several other loci in the S. cerevisiae genome appear to contain sequences similar to those in the RNP1 gene. The majority of the Rnp1 protein is cytoplasmic. Extra copies of RNP1 cause a decrease in levels of 80S monoribosomes. A fraction of Rnp1 protein cosediments on sucrose gradients with 40S and 60S ribosomal subunits and 80S monosomes, but not with polyribosomes.
- Hashimoto T, Suzuki K, Mizuta K, Otaka E
- Yeast ribosomal proteins: XIV. Complete nucleotide sequences of the two genes encoding Saccharomyces cerevisiae YL16.
- Biochim Biophys Acta. 1992; 1132: 195-8
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We isolated and sequenced YL16A and YL16B encoding ribosomal protein YL16 of Saccharomyces cerevisiae. The two nucleotide sequences within coding regions retain 91.1% identity, and their predicted sequences of 176 amino acids show 93.8% identity. Out of the ribosomal protein sequences from various organisms currently available, no counterpart to YL16 could be found.
- Purnelle B, Skala J, Goffeau A
- The product of the YCR105 gene located on the chromosome III from Saccharomyces cerevisiae presents homologies to ATP-dependent permeases.
- Yeast. 1991; 7: 867-72
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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.
- Mitsui K, Tsurugi K
- cDNA and deduced amino acid sequence of acidic ribosomal protein A1 from Saccharomyces cerevisiae.
- Nucleic Acids Res. 1988; 16: 3574-3574