Characterization of the nuclear gene encoding chloroplast ribosomal protein S13 from Arabidopsis thaliana

We have characterised a cDNA clone and a nuclear gene encoding the chloroplast 30 s ribosomal protein S13 from Arabidopsis thaliana. The identification is based on the high similarity of the predicted amino-acid sequence with eubacterial S13 protein sequences, and immunodetection of a 14.5-kDa chloroplast ribosomal polypeptide using antibodies raised against the polypeptide produced from part of the cDNA expressed in bacteria. The predicted amino-acid sequence contains an N-terminal extension which has several features characteristic of chloroplast transit peptides. Experiments suggest there is a single copy of this gene in A. thaliana and multiple copies in Brassica species. The origin of the mitochondrial S13 polypeptide in crucifers is also discussed.     

Hypothesis for the evolutionary origin of the chloroplast ribosomal protein L21 of spinach

Summary A full size cDNA clone encoding the chloroplast ribosomal protein L21 from spinach is presented. The identity of the clone and the location of the transit peptide processing site were determined by comparison with the N-terminal amino acid sequence of the spinach chloroplast protein CS-L7 previously identified. L21 r-protein sequences from spinach, Marchantia polymorpha and Escherichia coli are compared. Quite surprisingly, the data do not suggest that the rpl21 nuclear gene from spinach was derived through intracellular gene transfer from the chloroplast genome. The possibility of a mitochondrial origin for rpl21 gene of spinach is discussed.     

The cloning and sequencing of thealcB gene,coding for alcohol dehydrogenase II,inAspergillus nidulans

Alcohol dehydrogenase II (ADH II, structural genealcB) was purified from a strain H1035,biA1; alcE1; alc500 alcD1, which produces 100-times more ADH II activity than thealcAalcR deletion strain (alc500). Antibodies were raised against this ADH, and were used to screen a cDNA library in gt11. We have isolated the gene for an ADH which is over-expressed in H1035, and which we believe to be thealcB gene; cDNA and genomic clones were sequenced. The sequence contains three introns and encodes a protein of 367 amino acids. This protein shows a clear level of identity to a range of alcohol dehydrogenases, but is no more closely related to the ADH I and ADH III previously described inA. nidulans than to the ADHs ofS. pombe andS. cerevisiae. The significance of consensus sequences found in the 5 region of the gene is discussed in relation to the regulation of the gene.     

RNA editing of sorghum mitochondrial atp6 transcripts changes 15 amino acids and generates a carboxy-terminus identical to yeast

Summary The amino acid sequences of two barley ribosomal proteins, termed HvL17-1 and HvL17-2, were decoded from green leaf cDNA clones. The N-terminal sequences of the derived barley proteins are 48% identical to the N-terminal amino acid sequence of protein YL17 from the large subunit of yeast cytoplasmic ribosomes. Via archaebacterial ribosomal proteins this homology extends to ribosomal protein L22 from eubacteria and chloroplast. Barley L17, and ribosomal proteins L22 and L23 from the archaebacteria Halobacterium halobium and H. marismortui, are 25–33% identical. Interestingly, the barley and archaebacterial proteins share a long, central stretch of amino acids, which is absent in the corresponding proteins from eubacteria and chloroplasts.Barley L17 proteins are encoded by a small gene family with probably only two members, represented by the cDNA clones encoding HvL17-1 and HvL17-2. Both these genes are active in green leaf cells. The expression of the L17 genes in different parts of 7-day old barley seedlings was analyzed by semiquantitative hybridization. The level of L17 mRNA is high in meristematic and young cells found in the leaf base and root tip. In the leaf, the L17 mRNA level rapidly decreases with increasing cell age, and in older root cells this mRNA is undetactable.     

Isolation of differentially expressed cDNA clones from salt-adaptedAspergillus nidulans

Differentially expressed cDNA clones were isolated from salt-adaptedAspergillus nidulans (FGSC #359). Poly (A)+ RNA from adapted mycelia was used to construct a Uni-ZAP cDNA library. The library was screened with mixed subtracted cDNA probes. Three-hundred and fifty-seven positive plaques were isolated in the primary screening. Sixty-two randomly selected plaques were purified and placed into eight different cross-hybridization groups. A representative cDNA from each group was used to study expression under unadapted, salt-adapted and salt-shock conditions. These clones, representing eight different genes, displayed enhanced expression under salt stress. Exploratory nucleotide sequencing was performed, and the predicted amino-acid sequence was compared with known gene sequences in the data-bank. Five of the cDNA clones were identified as a mitochondrial (mt) ATPase subunit, a mt ATPase subunit 9, a mt transport protein, a ubiquitin-extension protein and a ribosomal protein. Three cDNA clones could not be identified due to lack of adequate homology with known sequences. These results suggest that at least five genes with known function in cellular processes like ATP generation and protein synthesis, and three other genes of unknown identity, are greatly induced in salt-adapted conditions.     

Isolation and characterization of a Neurospora glucose-repressible gene

Summary Using differential hybridization, the cDNA copy of a Neurospora gene coding for an abundant glucose-repressible mRNA (grg-l) has been isolated. The cDNA was used to clone the genomic copy, and both were sequenced. The cDNA is nearly full length and contains putative translational start and termination codons. Conceptual translation indicates that grg-1 mRNA could direct the synthesis of a 7,000 molecular weight polypeptide. The genomic clone, contained in an 1,888 by PvuII fragment, encompasses the entire cDNA as well as 838 by of 5 and 369 bp of 3 flanking sequence. Comparison of the cDNA and genomic clones revealed the presence of two short introns in potential protein-coding sequences. grg-1 message levels were found to increase within minutes following the onset of glucose deprivation and rise 50 fold during the first 90 min of derepression.     

Construction and characterization of a haploid strain of Saccharomyces cerevisiae that completely lacks all genomic CYH2 sequences

Summary A diploid strain of the yeast Saccharomyces cerevisiae has been constructed that has one copy of the ribosomal protein gene CYH2 completely deleted and replaced with the TRP1 gene using the method of Rothstein (1983). There are only small differences in growth rate and no detectable difference in steady state level of CYH2 mRNA between the diploid that is heterozygous for the CYH2 deletion and the parent diploid with two normal copies of this gene. This suggests that the diploid must partially compensate for the loss of one CYH2 gene. Tetrad dissection shows that haploid spores lacking the CYH2 gene cannot germinate. The lethality of this deletion can be rescued by a CYH2 cDNA on a low copy vector. Haploids which lack the genomic copy of the CYH2 gene, but contain a plasmid copy of the CYH2 cDNA are able to grow normally. These CYH2 deleted yeast haploids should be useful to analyze mutationally altered CYH2 genes and genes homologous to CYH2 from other organisms without interference from a genomic copy.     

Isolation and partial characterization of cDNA clone of human ceruloplasmin receptor

An individual clone, presumably carrying a 3 bp fragment of ceruloplasmin receptor cDNA was isolated from the expression library of human placenta cDNA using polyclonal specific antibodies to ceruloplasmin receptors.EcoR1-hydrolysate of isolated DNA was cloned in apTZ19 bacterial vector and sequenced in the forward and reverse direction. The comparison of the revealed sequence with known sequences of human genome revealed its high similarity to ceruloplasmin cDNA. Translated fromByulleten' Eksperimental'noi Biologii i Meditsiny, Vol. 129, No. 5, pp. 578–582, May, 2000     

Isolation and characterization of the Pichia stipitis xylitol dehydrogenase gene,XYL2, and construction of a xylose-utilizing Saccharomyces cerevisiae transformant

Summary A P. stipitis cDNA library in gt11 was screened using antisera against P. stipitis xylose reductase and xylitol dehydrogenase, respectively. The resulting cDNA clones served as probes for screening a P. stipitis genomic library. The genomic XYL2 gene was isolated and the nucleotide sequence of the 1089 bp structural gene, and of adjacent non-coding regions, was determined. The XYL2 open-reading frame codes for a protein of 363 amino acids with a predicted molecular mass of 38.5 kDa. The XYL2 gene is actively expressed in S. cerevisiae transformants. S. cerevisiae cells transformed with a plasmid, pRD1, containing both the xylose reductase gene (XYL1) and the xylitol dehydrogenase gene (XYL2), were able to grow on xylose as a sole carbon source. In contrast to aerobic glucose metabolism, S. cerevisiae XYL1-XYL2 transformants utilize xylose almost entirely oxidatively.     

Cloning and expression of a chitinase gene from the hyperparasitic fungus Aphanocladium album

Summary Recombinant clones from a cDNA library of an Aphanocladium album chitinase-overproducing mutant strain were isolated by screening with antiserum against a 39 kDa chitinase purified from this hyperparasitic fungus. Analysis of the isolated positive clones indicated that most of them carried the same cDNA. A cDNA from this group was used as a hybridization probe to isolate an 8 kb DNA fragment from a genomic library of the wild-type strain. The chitinase 1 gene was mapped to this fragment by two independent approaches. Its partial DNA sequence was in perfect agreement with an amino-terminal peptide sequence obtained by sequencing 23 amino acids of the 39 kDa chitinase. Its transfer in Fusarium oxysporum resulted in a transformant producting both a protein of about 39 kDa that cross-reacted with the chitinase antiserum and a chitinase activity that was inhibited by the same antiserum. Northern blot analysis indicates that the cloned chitinase gene was subject to catabolite repression and appeared inducible by chitin.     

Organization and structure of plastome psbF,psbL, petG and ORF712 genes in Chlamydomonas reinhardtii

Summary We have determined the nucleotide sequence of a 5159 base-pair (bp) region of the Chlamydomonas reinhardtii plastome containing three photoelectron transport genes, psbF, psbL and petG, and an unusual open reading frame, ORF712. The photosynthetic genes have an unprecedented arrangement. psbF and psbL are located in close proximity to petG, and are not grouped with two other genes of the cytochrome b₅₅₉ locus, psbE and ORF42. ORF712, located adjacent to psbL, has homology at its 5-and 3-ends to the ribosomal protein rps3 gene, but contains, a central 437 residue domain that lacks similarity to any other known sequence. These sequences add to the growing body of evidence that the chloroplast genome of C. reinhardtii has a significantly different gene arrangement to its counterpart in plants. The structure of ORF712 also provides another example of a phenomenon we have discovered with C. reinhardtii RNA polymerase genes (Fong and Surzycki 1992); namely, that the algal plastome contains chimeric genes in which reading frames with homology to known genes are juxtaposed in-frame with long coding regions of unknown identity.     

Organization of ribosomal protein genes rp123, rp12, rps19, rp122 and rps3 on the Euglena gracilis chloroplast genome

Summary The nucleotide sequence (4,814 bp) was determined for a cluster of five ribosomal protein genes and their DNA flanking regions from the chloroplast genome of Euglena gracilis. The genes are organized as rp123 — 150 by spacer — rpl2 — 59 by spacer —rps19 — 110 by spacer — rp122 — 630 by spacer — rps3. The genes are all of the same polarity and reside 148 bp downstream from an operon for two genes of photosystem I and four genes of photosystem II. The Euglena ribosomal protein gene cluster resembles the S-10 ribosomal protein operon of Escherichia coli in gene organization and follows the exact linear order of the analogous genes in the tobacco and liverwort chloroplast genomes. The number and positions of introns in the Euglena ribosomal protein loci are different from their higher plant counterparts. The Euglena rp123, rps19 and rps3 loci are unique in that they contain three, two and two introns, respectively, whereas rp12 and rp122 lack introns. The introns found in rpl23 (106, 99 and 103 bp), rps19 (103 and 97 bp) and rps3 intron 2 (102 bp) appear to represent either a new class of chloroplast intron found only in constitutively expressed genes, or possibly a degenerate version of Euglena chloroplast group II introns. They are deficient in bases C and G and extremely rich in base T, with a base composition of 53–76% T, 25–34% A, 3–10% G and 2–7% C in the mRNA-like strand. These six introns show minimal resemblance to group IT chloroplast introns. They have a degenerate version of the group II intron conserved boundary sequences at their 5 and 3 ends. No conserved internal secondary structures are apparent. By contrast, rps3 intron 1 (409 bp) has a potential group II core secondary structure. The five genes, rpl23 (101 codons), rpl2 (278 codons), rpsl9 (95 codons), rpl22 (114 codons) and rps3 (220 codons) encode lysine-rich polypeptides with predicted molecular weights of 12,152, 31,029, 10,880, 12,819, and 25,238, respectively. The Euglena gene products are 18–50%, and 29–58% identical in primary structure to their E. coli and higher plant counterparts, respectively. Oligonucleotide sequences corresponding to Euglena chloroplast ribosome binding sites are not apparent in the intergenic regions. Inverted repeat sequences are found in the upstream flanking region of rp123 and downstream from rps3. Abreviations: Gene names follow the convention of Hallick and Bottomley (1983): rp123, rpl2, rpl22 are, respectively, genes for the L23, L2, L22 polypeptides of the 50S ribosomal subunit; rps19 and rps3 are genes for the S19 and S3 polypeptides of the 30S ribosomal subunit     

The oliC3 gene of Aspergillus niger: isolation,sequence and use as a selectable marker for transformation

Summary The oliC3 gene of Aspergillus niger has been isolated and sequenced. This gene encodes an oligomycinresistant variant of the mitochondrial ATP synthase subunit 9. In transformation experiments the gene can serve as a semi-dominant selectable marker for A. niger. It was possible to recognize transformants in which oliC3 had integrated at the homologous oliC locus, as opposed to elsewhere in the genome, by observation of phenotypes on medium containing oligomycin. DNA sequencing has allowed comparison of the deduced amino acid sequence with subunit 9 proteins from other species and comparison of 5 untranslated sequences with those from other fungi.     

Sequences of two rbcS cDNA clones of Batophora oerstedii: structural and evolutionary considerations

Summary Two cDNA clones for the small subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase (SSU) of Batophora oerstedii were isolated and sequenced. One clone contains the coding information for the complete SSU precursor protein. As in two other species of Dasycladaceae (Acetabularia mediterranea and A. cliftonii), the rbcS cDNA sequences of B. oerstedii display the codons TAA or TAG, which seem to code for glutamine, in the reading frame. The amino acid substitution rate for the SSU protein was calculated to be 0.35–0.41 amino acids per 10⁹ years per site based on the substitutions observed in the SSU amino acid sequences of Acetabularia and Batophora.     

A circular 73 kb DNA from the colourless flagellate Astasia longa that resembles the chloroplast DNA of Euglena: restriction and gene map

Summary A 73 kbp circular DNA was isolated from the colourless euglenoid flagellate Astasia longa. Restriction sites of 12 restriction endonucleases were mapped on this DNA. Southern hybridization using plastid gene probes from Euglena, spinach and tobacco revealed sequence homologies to the genes coding for 16S and 23S ribosomal RNAs, elongation factor Tu (tufA) and the large subunit of ribulose-1,5-bisphosphate carboxylase (rbcL). The locations of these sequences on the restriction map were determined. Sequences homologous to chloroplast genes psaA, psbA, psbD, psbE and atpA are not present. The ribosomal RNA genes are organized in three tandem repeats, each containing one 23S and one 16S rRNA gene. In addition, there is one extra 16S rRNA gene. These results indicate the presence of a truncated form of a plastid DNA in Astasia.     

rps10, unreported for plastid DNAs,is located on the cyanelle genome of Cyanophora paradoxa and is contranscribed with the str operon genes

Summary rps10, encoding the plastid ribosomal protein S10, is a nuclear gene in higher plants and green algae, and is missing from the large ribosomal protein gene cluster of chlorophyll b-type plastids that contains components of the prokaryotic S10, spc and alpha operons. The cyanelle genome of Cyanophora paradoxa is shown to harbor rps10 as another specific feature of its organization. However, this novel plastid gene is not contiguous with the genes of the S10 operon, but is adjacent to, and cotranscribed with, the str operon, a trait also found in archaebacteria.     

Cloning,expression and partial characterization of a gene encoding the S15a ribosomal protein of<Emphasis Type="Italic"> Taenia solium</Emphasis>

Ribosomes, ribosomal proteins (r-proteins), and messenger and transfer RNAs catalyze the synthesis of proteins in organisms. To understand and define the components involved in this event in Taenia solium, we isolated and characterized a T. solium cDNA encoding the basic ribosomal protein S15a (TsS15a). The TsS15a cDNA produces a protein with M_r (relative molecular mass) 14,988, which contains 22.3% of basic amino acids. Analysis comparing TsS15a protein with other S15a r-proteins indicates that this protein is highly conserved. A recombinant TsS15a protein with similar M_r was produced in bacteria. Antibodies against recombinant TsS15a react with a 15-kDa protein in extracts from all life stages of T. solium and from all helminths tested. Hybridization studies showed the presence of two genes encoding a mRNA of 0.5 kb. Moreover, the gene presents an intron of 30 bp. Our phylogenetic analysis using S15a r-proteins reproduced the topologies reported for 16/18S rRNA.Nucleotide sequences reported in this paper have been deposited in the GenBank database under the accession numbers AF225905 (Taenia solium ribosomal protein S15a cDNA), AY196206 and AY196207 (genomic DNA fragments from T. solium and T. saginata, respectively).An erratum to this article can be found at     

Construction by one-step gene replacement of Trichoderma reesei strains that produce the glucoamylase P of Hormoconis resinae

Two one-step gene replacement vectors containing either the Hormoconis resinae glucoamylase P (gamP) genomic gene or the corresponding cDNA, each under the control of the promoter of the Trichoderma reesei cellobiohydrolase 1 gene (cbh1), were constructed and use to replace the cbh1 gene in a T. reesei strain. In both vectors the cbh1 promoter is precisely fused to the gamP protein coding region. Both the gamP cDNA and the genomic gene direct the secretion of the active glucoamylase P (GAMP) enzyme from T. reesei, which indicates that the intron sequences in the genomic gamP gene are processed in T. reesei. According to the results, a T. reesei transformant strain, in which the cbh1 gene has been replaced by a single copy of the gamP genomic gene, secretes more active GAMP than does a transformant strain having three copies of the cDNA clone in tandem orientation at the cbh1 locus.