Functional complementation of a yeast vesicular transport mutation ypt1-1 by a Brassica napus cDNA clone encoding a small GTP-binding protein

A cDNA clone (bra) encoding a small GTP-binding protein was isolated from Brassica napus by screening a root cDNA library with a degenerate oligonucleotide probe that corresponds to a highly conserved GTP-binding domain of the Ras superfamily. Sequence analysis shows that the clone contains an open reading frame of 219 amino acid residues with the estimated molecular mass of 24379 Da and this coding region contains all the conserved motifs of the Ras superfamily. The deduced amino acid sequence of the bra gene is most closely related to the Ypt/Rab family that functions in the vesicular transport (46% and 47% amino acid identity to the yeast Ypt1 and to the human Rab1, respectively) and is more distantly related to the other Ras-related families. The protein encoded by the bra gene, when expressed in Escherichia coli, shows the ability to bind GTP. Furthermore, when the bra gene is introduced into Saccharomyces cerevisiae under the regulation of the yeast GAL1 promoter, the gene can complement the temperature-sensitive yeast mutation ypt1-1 that has defects in vesicular transport function. The amino acid sequence similarity and the functional complementation of the yeast mutation suggest that this gene is likely to be involved in the vesicular transport in plants. Genomic Southern analysis shows that this gene is a member of a small gene family in Brassica napus.     

Cloning of the trp genes from the archaebacterium Methanococcus voltae: nucleotide sequence of the trpBA genes

Summary A cosmid bank of Methanococcus voltae DNA was obtained in Escherichia coli after ligation of partially HindIII-digested M. voltae DNA in the HindIII site of the transferable cosmid pVK100. The bank was used to perform complementation experiments with E. coli auxotrophic mutants. Five cosmids complementing trpA shared three adjacent HindIII fragments of 2.1, 2.3 and 14 kb. Two of these cosmids also complemented trpD and carried an additional 4.2 kb HindIII fragment. The trpA- and trpD-complementing regions were more precisely localized using Tn5 mutagenesis. A 1.7 kb PstI fragment, cloned into pUC9 in both orientations, was responsible for the trpA complementation. This fragment was sequenced and an open reading frame (ORF) of 852 nucleotides (ORFtrpA) encoding a 284 amino acid polypeptide of mol. wt. 31938 was found. The amino acid sequence was compared with that of the subunit of tryptophan synthase (trpA gene product) from nine eubacterial species and to the N-terminal part of the tryptophan synthase of Saccharomyces cerevisiae (TRP5 gene product). Similarity varied from 24% (Brevibacterium lactofermentum) to 35% (S. cerevisiae). The nucleotide sequence of the region upstream from M. voltae ORFtrpA was determined and revealed the presence of an ORF of 1227 nucleotides (ORFtrpB) encoding a 409 amino acid polypeptide of mol. wt. 44634. The polypeptide sequence was similar to the subunit of tryptophan synthase (trpB gene product) from six eubacterial species and to the C-terminal part of the tryptophan synthase of S. cerevisiae. Similarity varied from 49% (S. cerevisiae, B. lactofermentum) to 58% (Pseudomonas aeruginosa). This high conservation supports the hypothesis of a common ancestor for the trpA and trpB genes of archaebacteria, eubacteria and eucaryotes. M. voltae ORFtrpA and ORFtrpB, which are transcribed in the same direction, are separated by a 37 bp AT-rich region. Immediately upstream from ORFtrpB, the 3 end of an ORF homologous to E. coli and Bacillus subtilis trpF was found. As the trpD-complementing region was located upstream from the trpFBA sequenced region, the organization of trp genes in the archaebacterium might thus be trpDFBA. Such an organization resembles that of enteric eubacteria, in which the trpEDCFBA genes are grouped in a single operon. However, M. voltae ORFtrpA and ORFtrpB do not overlap, in contrast with what is found in most eubacteria.     

Divergent intron arrangement in theMB1/LMP7 proteasome gene pair

We sequenced the humanMB1 gene from a cosmid clone mapping to chromosome 14q11.2–12. The gene spans about 6 kilobases and contains three exons and two introns. There was no evidence of an alternative leader exon, which is a characteristic of the major histocompatibility complex (MHC)-encodedLMP7 gene, the closet relative ofMB1, with which it shares 67% amino acid identity. Conceptual translation of the 5′ end of the gene class for a cleaved leader sequence of 59 amino acids, consistent with western blot data. None of theMB1 gene's three exons were coincident with any of the six exons inLMP7. In contrast, in the delta-encoding gene and its counterpart, the MHC-encodedLMP2 gene (59% amino acid identity), all six exons are arranged at equivalent positions in respect to the coding frame. The unique structure ofMB1 implies a separate origin or different selection pressures acting at this particular locus. DNA repeat analysis provides information on the minimum time of separation of theMB1/LMP7 pair of genes. The nucleotide sequence data reported in this paper have been submitted to the EMBL nucleotide sequence database and have been assigned the accession number X95586     

Molecular cloning and structural analysis of the cucumber (<Emphasis Type="Italic">Cucumis sativus</Emphasis> L.) phosphoenolpyruvate carboxykinase (<Emphasis Type="Italic">CsPCK</Emphasis>) gene

Genomic sequence of the ATP-dependent phosphoeno/pyruvate carboxykinase (CsPCK) gene has been determined first from cucumber. Several putative clones were isolated in three rounds of genomic library screening with designated cDNA probes. These clones were analyzed via restriction digests, Southern hybridization, and nucleotide sequencing to ascertain the structure of theCsPCK gene. Analysis of a selected positive clone (λcscpk-4A) demonstrated that this gene consists of 13 exons and 12 introns, spanning 9 kb in the cucumber genome. Exon 1 contains only 23 nucleotides of the 5′-noncoding region of cucumberPCK cDNA, whereas Exon 2 comprises 12 nucleotides of the S′-noncoding region with an N-terminal PEPCK coding sequence. All the exon-intron junction sequences agree with the GT/AG consensus, except for the 5 donor site of Intron 7, where GC replaces the GT consensus. As with rice (Oryza sativa), cucumber contains only one copy of theCsPCK gene in its haploid genome. The overall number of exons and the structure of this gene are similar to those for bothArabidopsis Chromosome 4 (Atg4)PCK and the rice PCX genes, which contain 13 and 12 exons, respectively. Two additionalArabidopsis PCK genes can be found in the fifth chromosome (Atg5), which contains 9 exons and 8 introns (with 628 and 670 amino acids, respectively) of the PEPCK peptide. TheCsPCK gene promoter has conserved plant-specific as-acting elements within 2 kb of the 5’ flanking region. Several common cis-acting elements of the isocitrate lyase (icl) and malate synthase(ms) gene promoters, identified in theCsPCK gene, are responsible for the sugar response during plant development, especially at germination. These conserved elements are discussed here.     

The gp49A gene has extensive sequence conservation with the gp49B gene and provides gp49A protein, a unique member of a large family of activating and inhibitory receptors of the immunoglobulin superfamily

 Members of the gp49-related family of mouse and human immunoglobulin (Ig) superfamily receptors have significant amino acid sequence homology in their C2-type, Ig-like domains and include the killer cell Ig-like receptors (KIRs) for major histocompatibility complex class I molecules. We now report the cloning, complete sequence, and organization of the mouse gp49A gene that encodes the only member of this newly-appreciated family without either of two mutually exclusive functional motifs, namely, immunoreceptor tyrosine-based inhibitory motifs (ITIMs) or a charged transmembrane amino acid for heterodimerization with activation molecules. The gp49A and gp49B genes are 94% identical over 5.6 kilobases, the 5′ flanking regions are 94% identical over 1900 nucleotides, and the 3′ flanking regions are 97% identical for 121 nucleotides and then diverge completely; the gp49B gene encodes gp49B1 bearing two ITIMs. As measured by flow cytometry with specific antibody, gp49A is expressed on immature bone-marrow-derived mast cells, mature serosal mast cells, and several mouse mast cell lines. The substantial sequence identity of the introns of the gp49A and gp49B genes is comparable to that of the exons, establishing the gene pair as the most homologous of the gp49-related family and suggesting that the gp49A and gp49B genes arose by duplication with relatively little subsequent mutation. The findings also represent the first demonstration that gp49A is expressed on mast cells in tandem with inhibitory gp49B1, and establish that the gp49A gene is not a pseudogene, but rather encodes a protein product with characteristics different from the other family members. Received: 28 April 1999 / Accepted: 28 June 1999     

Molecular Cloning and Characterization of a Novel Retinoblastoma-Binding Protein

We describe the isolation and characterization of a novel cDNA encoding a polypeptide that interacts in a yeast two-hybrid system as well as in mammalian cells with the retinoblastoma (RB) protein. This new protein, which we call Rim, consists of 897 amino acids, has two leucine zipper motifs, and has a LECEE sequence previously identified as an RB-binding domain. Rim also has an E1A/CtBP-binding motif and four putative nuclear localization signals.RimmRNA is expressed ubiquitously at low levels in all human adult tissues tested and at much higher levels in several tumor cell lines. TheRimgene (HGMW-approved symbol RBBP8) is localized on human chromosome 18q11.2.     

Saccharomyces cerevisiae Eukaryotic Elongation Factor 1A (eEF1A) Is Methylated at Lys-390 by a METTL21-Like Methyltransferase

The human methyltransferases (MTases) METTL21A and VCP-KMT (METTL21D) were recently shown to methylate single lysine residues in Hsp70 proteins and in VCP, respectively. The yet uncharacterized MTase encoded by the YNL024C gene in Saccharomyces cerevisiae shows high sequence similarity to METTL21A and VCP-KMT, as well as to their uncharacterized paralogues METTL21B and METTL21C. Despite being most similar to METTL21A, the Ynl024c protein does not methylate yeast Hsp70 proteins, which were found to be unmethylated on the relevant lysine residue. Eukaryotic translation elongation factor eEF1A in yeast has been reported to contain four methylated lysine residues (Lys30, Lys79, Lys318 and Lys390), and we here show that the YNL024C gene is required for methylation of eEF1A at Lys390, the only of these methylations for which the responsible MTase has not yet been identified. Lys390 was found in a partially monomethylated state in wild-type yeast cells but was exclusively unmethylated in a ynl024cΔ strain, and over-expression of Ynl024c caused a dramatic increase in Lys390 methylation, with trimethylation becoming the predominant state. Our results demonstrate that Ynl024c is the enzyme responsible for methylation of eEF1A at Lys390, and in accordance with prior naming of similar enzymes, we suggest that Ynl024c is renamed to Efm6 (Elongation factor MTase 6).     

A PMR2 tandem repeat with a modified C-terminus is located downstream from the KRS1 gene encoding lysyl-tRNA synthetase in Saccharomyces cerevisiae

Summary TheKRS1 gene encodes the cytoplasmic form ofSaccharomyces cerevisiae lysyl-tRNA synthetase. TheKRS1 locus has been characterized. The lysyl-tRNA synthetase gene is unique in the yeast genome. The gene is located on the right arm of chromosome IV and disruption of the open reading frame leads to lethality. These results contrast with the situation encountered inEscherichia coli where lysyl-tRNA synthetase is coded by two distinct genes,lysS andlysU, and further address the possible biological significance of this gene duplication. The nucleotide sequence of the 3′-flanking region has been established. It encodes a long open reading frame whose nucleotide and amino acid structures are almost identical toPMR2, a cluster of tandemly repeated genes coding for P-type ion pumps. The sequence alterations relative toPMR2 are mainly located at the C-terminus of the protein.     

Organization of the human interleukin-1 receptor antagonist gene IL1HY1

 The interleukin (IL)-1 family of proteins plays an important role in inflammatory and defense mechanisms. The recently characterized IL1HY1 cDNA encodes a new member of the IL-1 receptor antagonist family (IL-1ra). In this report, we describe the complete nucleotide sequence of the human IL1HY1 gene. We sequenced approximately 7600 nucleotides and found four coding exons ranging in size from 55 to 2288 nucleotides. The 5′ untranslated region is formed by one of two alternatively used exons and one invariably present exon which also contains the region encoding the first nine amino acids of the protein. IL1HY1 and IL-1ra intron positions are well conserved within the protein-coding region, providing evidence that these genes arose from a duplication of a primordial IL-1 receptor antagonist gene. Received: 15 October 1999 / Revised: 30 December 1999     

An insertion mutation of the bovine F11 gene is responsible for factor XI deficiency in Japanese black cattle

Factor XI deficiency in Japanese black cattle is an hereditary mild bleeding disorder with an autosomal recessive mode of inheritance. To characterize the molecular lesion causing factor XI deficiency in cattle, we isolated an entire coding region of the bovine F11 gene, which comprises 15 exons and 14 introns, and determined its nucleotide sequences. Comparison of the nucleotide sequences of the F11 gene between affected and unaffected animals revealed an insertion of 15 nucleotides in exon 9 of the affected animals. The insertion results in a substitution of one amino acid with six amino acids in a highly conserved amino acid sequence in the fourth apple domain of factor XI protein. Genotyping of the F11 gene in 109 Japanese black cattle revealed that the insertion clearly corresponded to the factor XI activities of the animals. We therefore concluded that the insertion of 15 nucleotides in the F11 gene is the causative mutation for factor XI deficiency in Japanese black cattle. Genotyping of the F11gene by detecting the insertion will be an effective DNA-based diagnostic system to prevent incidence of the disease.     

The Human Lamin B Receptor/Sterol Reductase Multigene Family

LBR (lamin B receptor) is an integral protein of the inner nuclear membrane encoded by a gene on human chromosome 1q42.1. LBR has a nucleoplasmic, amino-terminal domain of approximately 200 amino acids followed by a carboxyl-terminal domain similar in sequence to yeast and plant sterol reductases. We have determined the primary structures of two human proteins with strong sequence similarity to the carboxyl-terminal domain of LBR and sterol reductases. Their genes have recently been assigned the symbols TM7SF2 and DHCR7. TM7SF2 mRNA is most predominantly expressed in heart and DHCR7 mRNA mostly in liver and brain. Whereas LBR is localized to the inner nuclear membrane, these two related proteins are in the endoplasmic reticulum. TheTM7SF2gene contains 10 coding exons, and its intron positions are exactly conserved in the part of theLBRgene encoding its carboxyl-terminal domain. Intron positions in theDHCR7gene are also similar. Both of these new LBR-like genes are on chromosome 11q13. These results describe a human gene family encoding proteins of the inner nuclear membrane and endoplasmic reticulum that function in nuclear organization and/or sterol metabolism.     

Genomic structure and chromosomal localization of the mouse Ogg1 gene that is involved in the repair of 8-hydroxyguanine in DNA damage

8-Hydroxyguanine (7,8-dihydro-8-oxoguanine: oh⁸Gua) is a damaged form of guanine induced by oxygen-free radicals and causes GC to TA transversions. Previously we isolated the hOGG1 gene, a human homolog of the yeast OGG1 gene, which encodes a DNA glycosylase and lyase to excise oh⁸Gua in DNA. In this study, we isolated a mouse homolog (Ogg1) of the OGG1 gene, characterized oh⁸Gua-specific DNA glycosylase/AP lyase activities of its product, and determined chromosomal localization and exon-intron organization of this gene. A predicted protein possessed five domains homologous to human and yeast OGG1 proteins. Helix-hairpin-helix and C₂H₂ zinc finger-like DNA-binding motifs found in human and yeast OGG1 proteins were also retained in mouse Ogg1 protein. The properties of a GST fusion protein were identical to human and yeast OGG1 proteins in glycosylase/lyase activities, their substrate specificities, and suppressive activities against the spontaneous mutagenesis of an Escherichia coli mutM mutY double mutant. The mouse Ogg1 gene was mapped to Chromosome (Chr) 6, and consisted of 7 exons approximately 6 kb long. Two DNA-binding motifs were encoded in exons 4 through 5. These data will facilitate the investigation of the OGG1 gene to elucidate the relationship between oxidative DNA damage and carcinogenesis. Received: 17 July 1997 / Accepted: 15 September 1997     

茶树CsCBF1基因克隆和转录活性分析

采用RACE技术克隆了一个受冷诱导的茶树CBF基因全长cDNA,命名为CsCBF1(GenBank登录号为EU563238)。CsCBF1cDNA全长序列为1 211bp,开放阅读框编码259个氨基酸。氨基酸序列分析表明,CsCBF1具有CBF家族典型的保守结构域,与其他植物的CBF具有较高的相似性;与拟南芥、辣椒和橡胶树编码的CBF相似性分别为56%、63%和56%。亚细胞定位结果表明,CsCBF1位于细胞核内。分别将10个CsCBF1缺失突变体与GAL4DNA结合域融合的结果显示,CsCBF1的羧基末端酸性结构域(第137位氨基酸至259位氨基酸)在酵母中具有转录激活活性。实时定量RT-PCR分析表明,CsCBF1基因受低温的快速诱导表达。     

Molecular cloning of a phytase gene (phy M) from Pseudomonas syringae MOK1

A phytase gene (phy M) was cloned from Pseudomonas syringae MOK1 by two steps of degenerate PCR and inverse PCR. This gene consists of 1,287 nucleotides and encodes a polypeptide of 428 amino acids with a deduced molecular mass of 46,652 kDa. Based on its amino acid sequence, the Phy M shares the active site RHGXRXP and HD sequence motifs, typically characterized by histidine acid phosphatases familly. Each phy M gene fragment encoding mature Phy M with its own signal sequence (pEPSS) and without (pEPSM) was subcloned into the E. coli BL21 (DE3) expression vector, pET22b (+). The enzyme activity in crude extracts of clone pEPSM was 2.514 Umg⁻¹ of protein, and about 10-fold higher than that of clone pEPSS.*These two authors have contributed equally to this work.     

Expression ofMbR4, a TIR-NBS type of appleR Gene, confers resistance to bacterial spot disease inArabidopsis

A single disease resistance gene candidate,MbR4, was isolated from the wild-type apple speciesMalus baccta. This gene was predicted to encode motifs characteristic of the Toll Interleukin 1 Receptor (TIR) — Nucleotide Binding Site (NBS) of theR gene. Starting with an isolated cDNA clone, genomic clones were obtained via inverse polymerase chain reaction (IPCR). TheMbR4 gene has a single open reading frame (ORF) of 2178 nucleotides, a 41-b untranslated 5’ region, a 21-b untranslated 3’ region, and a predicted protein of 726 amino acids (82 kDa). Its deduced amino acid sequence resembles the N protein of tobacco and the NL25 protein of potato. Ectopic expression ofMbR4 induced enhanced resistance in transgenicArabidopsis plants against the virulent pathogen,Pseudomonas syringae pv.tomato DC3000. Microarray analysis confirmed the induction of defense-related gene expression in pathogen-free 35S::MbR4 heterologousArabidopsis plants, thereby indicating that theMbR4 gene likely activates a pathogen-independent resistance pathway, rather than a gene-for-gene pathway. Our results suggest thatMbR4 plays a role in theR gene, and may be a source of resistance for cultivated apple species.     

Isolation and characterization of OsDMC1, the rice homologue of the yeast DMC1 gene essential for meiosis

Yeast DMC1 is a meiosis-specific gene required for homologous chromosome pairing in meiosis. Using degenerate primers designed according to amino acid motifs conserved in yeast Dmc1 and Arabidopsis AtDmc1, we obtained full-length cDNA of a rice homologue of the DMC1 gene (OsDMC1) by RT-PCR and rapid amplification of cDNA ends (RACEs). OsDmc1 exhibited 53% amino acid sequence identity to yeast Dmc1 and 81% to AtDmc1. OsDMC1 was expressed at high-levels in reproductive organs, low-levels in roots, and undetectable levels in leaves and seedlings. Southern blot analyses revealed that OsDMC1 is one of two DMC1 homologues present in rice. Received: 18 December 2000 / Accepted: 22 December 2000