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1.
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.  相似文献   

2.
Summary We have completed the analysis of a DNA segment of the chloroplast genome of Euglena gracilis Klebs, Z-strain, which links the 3 end of the extra 16S rRNA gene with the 5 end of the 16S rRNA gene of the rrn operon A. This region is a mosaic of several structural elements and contains an intact rrn interoperon spacer of 1,080 bp, an extra 5S rRNA gene, an open reading frame for 406 codons (ORF 406) which is flanked by short inverted repeats and a short direct repeat originating from the rrn interoperon spacer. It seems that a once complete rrn operon underwent in the past an insertion/deletion event leaving intact the 16S and 5S rRNA but totally excising the 16S-23S intergenic spacer and the 23S rRNA gene. Instead a protein coding gene of yet unknown function was inserted along with other structural elements.  相似文献   

3.
Summary Two circular molecules of different sizes, both belonging to the chloroplast DNA of the brown algaPylaiella littoralis, have been observed by electron microscopy (Dalmon et al. 1983). Clone banks representing 86% of the small chloroplast circular DNA molecule (58 kbp) and 69% of the large circular DNA molecule (133 kbp) have been established and used as tools in the construction of physical maps. Two rDNA operons have been mapped in a very small inverted repeat on the large circular molecule. One 16S rRNA pseudogene and one split 23S rRNA gene have been mapped on the small DNA molecule, far apart from each other. Using heterologous probes, genes for ten different proteins have also been located on these maps. Their arrangement on the large molecule is different from that found in higher plants and algae. Probes fromrbcL, psbA andrps19 genes hybridize to several separated fragments. Two of them (psbA andrps19) hybridize to both types of molecules.  相似文献   

4.
Summary The physical mapping of Aval, BstEII and EcoR1 restriction sites on the chloroplast genome of the green alga Chlamydomonas eugametos is presented. The circular map, with a size of 243 kilobase pairs, is the largest yet reported for a chloroplast genome. It features a large inverted repeat sequence, part of which encodes the 16S and 23S ribosomal RNAs (rRNAs), the large subunit of ribulose-1,5-bisphosphate carboxylase-oxygenase (rbcL) and the 32-kdodalton thylakoid membrane protein (psbA). Such an rRNA-encoding inverted repeat sequence is also found in the chloroplast genomes of Chlamydomonas reinhardtii and most land plants. These genomes, however, differ from that of C. eugametos by the absence of the rbcL gene from the inverted repeat sequence of C. reinhardtii and by the absence of both the rbcL and psbA genes from the inverted repeat sequence of land plants. Possible evolutionary implications of these differences are discussed.Abbrevations cpDNA chloroplast DNA - kbp kilobase pairs - psbA 32 kilodalton thylakoid membrane protein gene - rbcL ribulose-1,5-bisphosphate carboxylase-oxygenase large subunit gene - rRNA ribosomal RNA  相似文献   

5.
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  相似文献   

6.
Summary The major rRNA genes of the fission yeast Schizosaccharomyces pombe were mapped on chromosome III by plasmid integration. The integration vector YIp33 containing S. cerevisiae LEU2 gene was combined with the S. pombe rDNA. Since LEU2 complements S. pombe leu1 deficiency, it could be used as the genetic marker for integration. The 10.4 kb rDNA repeat contained ARS sequence, and therefore 2.4 kb and 0.7 kb subfragments not containing ARS were subcloned into YIp33 and transformed leu1 S. pombe cells to Leu+. Genetic analyses of the transformants indicated that the integrated rDNA resides in the long arm of the shortest chromosome III, tightly linked to ade5 (1.4 cM). This result is consistent with our previous finding that the DAPI-stained smallest chromosomes were associated with the nucleolus (Umesono et al. 1983).Abbreviations ARS autonomously replicating sequence - DAPI 4,6-diamidino-2-phenylindole - kb kilo base pairs - rDNA DNA segment containing ribosomal RNA genes - rRNA ribosomal RNA  相似文献   

7.
Summary The nucleotide sequence of the wheat mitochondrial 26S ribosomal RNA gene and flanking regions was determined and compared with mitochondrial 26S rRNA genes from maize and Oenothera. All three genes exhibit a high degree of homology except within two variable regions. When the plant mitochondrial 26S rRNA genes are compared with Escherichia coli 23S rRNA and chloroplast 23S and 4.5S rRNA genes, a third variable region is apparent close to the 3 end of the gene. The 5 and 3 ends of the wheat mitochondrial gene were determined by S1 nuclease mapping. Computer analysis of the wheat mitochondrial gene revealed several small sequences present either in the 5 region of the 26S rRNA gene or in the 18S rRNA gene.  相似文献   

8.
Summary Nucleotide sequence analysis of a 17043 basepair (bp) region of the Chlamydomonas reinhardtii plastome indicates the presence of three open reading frames (ORFs) similar to RNA polymerase subunit genes. Two, termed rpoB1 and rpoB2, are homologous to the 5-and 3-halves of the Escherichia coli beta subunit gene, respectively. A third, termed rpoC2, is similar to the 3-half of the bacterial beta' subunit gene. These genes exhibit several unusual features: (1) all three represent chimeric structures in which RNA polymerase gene sequences are juxtaposed in-frame with long sequences of unknown identity; (2) unlike their counterparts in plants and eubacteria, rpoB1 and rpoB2 are separated from rpoC2 by a long (7 kilobase-pair, kbp) region containing genes unrelated to RNA polymerase; (3) DNA homologous to the 5 half of rpoC (termed rpoC1 in other species) is not present at the 5 end of rpoC2 and could not be detected in C. reinhardtii chloroplast DNA. RNA expression could not be detected for any of the RNA polymerase genes, suggesting that they are pseudogenes or genes expressed at stages of the C. reinhardtii life-cycle not investigated. The three genes are flanked by GC-rich repeat elements. We suggest that repeat DNA-mediated chloroplast recombination events may have contributed to their unusual arrangement.  相似文献   

9.
In a previous paper we reported the isolation of streptomycin-resistant mutants from Nicotiana plumbaginifolia and presented evidence for chloroplast control of the resistance trait. To understand the molecular basis of the resistance in these mutants, we sequenced three regions in the chloroplast 16s rRNA gene, which correspond to the 5 terminus, the 530 loop, and the 900 stem/loop of Escherichia coli 16s rRNA, and compared them with the sequences of the wild-type. Our results show that: (1) nine mutants have a C to T change at position 912, (2) one mutant (SR1021) has a G to A change at position 885, (3) one mutant has a C to T change at position 526, based on E. coli numbering; and (4) three mutants do not have any change in the regions analyzed. The point mutation detected in SR1021 has not been reported previously. In E. coli 16s rRNA, position 885 is protected from chemical probing by ribosomal protein S12 and is closely juxtaposed with the streptomycin-binding region (positions 912–915) in the predicted secondary structure. It is likely that the G to A transition at this position is a novel mutation for streptomycin resistance.  相似文献   

10.
Summary The genes encoding the 17S, 5.8S and 25S ribosomal RNAs in the Ascomycete Cochliobolus heterostrophus were cloned and analyzed. They are arranged in tandemly repeated units (rDNA) either 9.0 or 9.15 kilobases in length, depending upon the strain. The 5S rRNA genes are not part of the tandemly repeated rDNA. Instead, many and perhaps all of the 5S genes are dispersed in the genome, as they are in the fungi Neurospora, Aspergillus and Schizosaccharomyces. Comparative restriction maps of the rDNA from C. heterostrophus and other filamentous fungi and yeasts are presented. A survey of rDNAs from twenty-three field isolates of C. heterostrophus collected worldwide demonstrated that each isolate has one or the other of two rDNA forms, which differ in length and in the presence or absence of at least three restriction enzyme sites. The differences are all located in spacer DNA outside the coding regions for the rRNA genes. Heterogeneity in the rDNA repeat was not observed within any single isolate. The copy number of the rRNA gene cluster in C. heterostrophus is approximately 130 per haploid genome.  相似文献   

11.
Summary A 9.2 kb Pst1 restriction fragment, repeated tandemly head-to-tail in the genome, contains the 5.8S, 16–18S, and 23–28S ribosomal RNA (rRNA) genes of Cephalosporium acremonium, a filamentous fungus used at the industrial scale for production of cephalosporin antibiotics. These rRNA genes were located in Pst1 digests of C. acremonium genomic DNA using a hybridization probe that contained the 5.8S, 18S, and 25S rRNA genes from the yeast Saccharomyces cerevisiae. This probe was also used in screening a recombinant lambda library to identify phage carrying rRNA genes of C. acremonium. Yeast rRNA genes contained separately on individual 32P-labeled plasmids were used to demonstrate that a cloned 7.2 kb C. acremonium sequence, represented in the repeated 9.2 kb Pst1 fragment, contained DNA from the C. acremonium 5.8S, 16–18S, and 23–28S rRNA genes. These genes were ordered with the 5.8S gene located between the 16–18S and 23–28S rRNA genes. The order of the 16–18S, 5.8S, and 23–28S rRNA genes observed in C. acremonium is the same as that observed in rRNA repeats of many other lower eucaryotes, e.g. S. cerevisiae, Aspergillus nidulans, and Neurospora crassa.  相似文献   

12.
Summary The ribosomal RNA genes of Yarrowia lipolytica have been identified, both in restriction digests of total genomic DNA and in a pBR322 gene bank, by hybridisation with cloned Saccharomyces cerevisiae rDNA. The Y. lipolytica rDNA repeat unit is 8.9 kb in size and contains the genes for the 25S and 18S, but not the 5S, rRNA species. The number of copies of these repeat units is approx. 50 per haploid genome. Several clones were found which did not conform to the standard restriction map due to differences outside the coding region. It appears that there is either heterogeneity of the spacer sequence within a strain or that the Y. lipolytica rDNA genes may be present as a number of separate clusters within this yeast's genome.  相似文献   

13.
The genes encoding cytochrome b6 of the chloroplast cytochrome b6/f complex (petB) and the ATP synthase CF1- subunit (atpB) and -subunit (atpE) were identified on the EcoD fragment of the Euglena gracilis chloroplast genome. The complete nucleotide sequence of these three genes was determined. The petB-atpB-atpE genes are cotranscribed as a tricistronic operon. This gene organization differs from that of land plants in which atpB-atpE form a discistronic operon, and petB is within the psbB-ycf8-psbH-petB-petD operon. Euglena cytochrome b6 and the -subunit of the chloroplast ATP synthase are very similar in derived amino acid sequence to the corresponding gene products from other organisms. The -subunit of the chloroplast ATP synthase complex is more divergent. In Euglena, the petB-atpB-atpE genes contain introns, including two twintrons, at eight different positions. All of the intron positions were confirmed by analysis of cDNAs. Two independent intercistronic RNA processing events and 11 splicing reactions lead to the accumulation of the mature petB, atpB and atpE monocistronic mRNAs.  相似文献   

14.
Summary Mitochondrial (mt) DNA from the commercial mushroom Agaricus brunnescens Peck [= A. bisporus (Lange) Imbach] was purified by cesium chloride/bisbenzimide gradient centrifugation. A physical map of the mtDNA fragments produced by BamHI, EcoRl, and PvuII digestion was generated by filter hybridizations with radiolabelled BamHI mtDNA probes. The A. brunnescens mtDNA was a circular molecule 136 kilo-basepairs (kbp) in length and contained an inverted repeat between 4.6 and 9.2 kbp in size. Orientational isomers of the mitochondrial genome were not detected. The positions of six genes were located on the A. brunnescens mtDNA map by heterologous hybridization. No coding function has yet been ascribed to the inverted repeat. The large rRNA gene was located on the smaller single copy region. The genes for cytochrome b, cytochrome oxidase (subunit III), ATPase (subunits 8 and 6) and the small rRNA were located on different regions of the larger single copy region.  相似文献   

15.
Summary Escherichia coli minicells harbouring the cloned restriction fragment Sall S9 from P. hybrida chloroplast DNA synthesize the beta and epsilon polypeptide subunits of the CF1 component of the chloroplast ATPsynthase complex. The polypeptides were identified by molecular weight determination and immunoprecipitation. The position of the atpB and the atpE gene, encoding respectively the beta and epsilon subunit, on the Sall S9 fragment was determined in more detail by studying polypeptide synthesis directed by subclones of the S9 fragment in E. coli minicells. The atpB and atpE genes are located close to the rbcL gene, the distance between the rbcL gene and atpB gene being approximately 770 bp. Analysis of the expression of subclones of the S9 fragment in E. coli minicells also revealed that the atpE gene can be transcribed and translated independently of the expression of the atpB gene.The location of the genes coding for the alpha subunit (atpA gene) and the proteolipid subunit III of CF0 (atpH) of the ATPsynthase complex on the physical map of P. hybrida cpDNA was determined by hybridization of restriction enzyme digests of petunia cpDNA with cloned cpDNA fragments from Spirodela and wheat, containing internal parts of respectively the atpA and the atpH gene. The two genes map close together within a region of 5.2 kbp on the physical map of P. hybrida cpDNA. The distance between the atpA gene and the atpB and atpE genes is approximately 42 kbp.Abbreviations cpDNA chloroplast DNA - rbcL gene coding for the large subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase - CF1 coupling factor, extrinsic part of the chloroplast ATPsynthase complex - kbp kilo base pairs  相似文献   

16.
Summary There are almost no data describing chloroplast genome organization in chromophytic (chlorophyll a/c) plants. In this study chloroplast ribosomal operon placement and gene organization has been determined for the golden-brown alga Olisthodiscus luteus. Ribosomal RNA genes are located on the chloroplast DNA inverted repeat structure. Nucleotide sequence analysis, demonstrated that in contrast to the larger spacer regions in land plants, the 16S–23S rDNA spacer of O. luteus is only 265 by in length. This spacer contains tRNAIle and tRNAAla genes which lack introns and are separated by only 3 bp. The sequences of the tRNA genes and 16S and 23S rDNA termini flanking the spacer were examined to determine homology between O. luteus, chlorophytic plant chloroplast DNA, and prokaryotes.This work was supported by an NSF Grant (DEB8210475) to RAC and a PHS NRSA predoctoral fellowship (2T32GM07270) to TPD.  相似文献   

17.
Summary We report the presence of a 402 by group I intron in the chloroplast small subunit (SSU) rRNA gene of Chlamydomonas moewusii. The intron is inserted within the highly conserved 530 loop, at a site corresponding to positions 531–532 of the E. coli 16rRNA. Residues surrounding the insertion site almost certainly play an important role in ribosomal proofreading function as they proved to be protected by tRNAs in E. coli 16S rRNA (Moazed and Noller 1986; Stern et al. 1986). The C. moewusii intron revealed a secondary structure model which differs substantially from those of the typical subgroup IA and IB introns. This model, however, shows striking similarities with the structures of the C. reinhardtii chloroplast 23S rRNA gene intron (Rochaix et al. 1985), the S. cerevisiae mitochondrial COB3 intron (Holl et al. 1985) and the three introns of phage T4 in the nrdB, td and sunY genes (Shub et al. 1988). The SSU rRNA gene intron is absent from C. eugametos, an alga that is interfertile with C. moewusii. The presence/absence of the intron account for a 390 by restriction fragment length polymorphism between the two algal SSU rRNA genes, a polymorphic locus that is strictly co-inherited with a tightly linked streptomycin resistance mutation (sr-2) in interspecific hybrids between the two algae.  相似文献   

18.
Summary DNA encoding ribosomal RNA (rRNA) of Alternaria alternata Japanese pear pathotype has been cloned in , replacement vector, , Fix. Restriction endonuclease mapping and Southern hybridization with the 18S and 28S rRNAs of Saccharomyces cerevisiae revealed the A. alternata rDNA to be tandemly repeating 8.15-kilobase pair unit. The restriction fragments of the unit were then subcloned in the plasmid vector Bluescribe M13- and partially sequenced. The determined sequences were compared with previously reported sequences of S. cerevisiae rRNAs and their genes. The locations of DNA sequences encoding the 5.8S, 18S, and 28S rRNAs were determined by homology search using reported sequences. The complete DNA sequence for 5.8S rRNA of the fungus was found to be highly conserved at more than 90 % homology in the fungi analyzed. However, sequence diversities were observed in limited regions involved in a helix structure, the helix (e), found at position 116–137.Deceased  相似文献   

19.
Summary The plastid genome of the brown alga Pylaiella littoralis (L.) Kjellm. is composed of two different circular DNA molecules: the largest carries two rrn operons, and the smallest, only one copy of both 16S and 23S rDNAs. 16S rDNA copies located on both molecules have been cloned and their nucleotide sequences determined: they are 65% homologous to one another. The expression of these genes was assayed by hybridizing in vivo labelled P. littoralis rRNAs to both clones, and specific oligonucleotides to total RNA from P. littoralis. Results indicate that the 16S rDNA copy located on the small molecule is a pseudogene. Comparisons of the functional gene with other 16S rRNA genes shows that chloroplasts from green plants emerged earlier from the cyanobacterial lineage than Euglena gracilis and Pylaiella littoralis plastids.  相似文献   

20.
Summary Chloroplast DNA from the fern Osmunda einnamomea was isolated by a sucrose gradient procedure utilizing PEG to stabilize chloroplasts. Analysis with the restriction endonucleases PvuII, Sacl and BstEII indicates a chloroplast genome size of 144 kb. A physical map of the fragments produced by these three enzymes was constructed by filter hybridizations using purified PvuII fragments as hybridization probes. The Osmunda chloroplast genome is circular and contains an inverted repeat 8–13 kb in size.Gene probes from tobacco, corn and spinach were used to map the positions of six genes on the Osmunda chloroplast chromosome. The 16S and 23S ribosomal RNAs are encoded by duplicate genes which lie within the inverted repeat. Genes for the large subunit of ribulose-1,5-bisphosphate carboxylase, a photosystem II polypeptide, and the alpha and beta subunits of chloroplast coupling factor are located in three different segments of the large single copy region.The Osmunda chloroplast genome is remarkably similar in size, conformation, physical organization, and map positions of known genes, to chloroplast DNA from a number of angiosperms. The major difference between chloroplast DNA from this fern and angiosperms is that the inverted repeat is smaller in Osmunda (8–13 kb) than in angiosperms (22–25 kb).Abbreviations PEG polyethylene glycol 4000 - kb kilobase pairs - bp base pairs - rRNA ribosomal RNA - LS large subunit of ribulose-1,5-bisphosphate carboxylase - PII 32,000 dalton photosystem II polypeptide (Mattoo et al. 1981) - CF alpha subunit of chloroplast coupling factor - CF beta subunit of chloroplast coupling factor  相似文献   

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