Partial conservation of the 5′ ndhE-psaC-ndhD 3′ gene arrangement of chloroplasts in the cyanobacterium Synechocystis sp. PCC 6803: implications for NDH-D function in cyanobacteria and chloroplasts

The psaC gene, which encodes the 8.9 kDa iron-sulfur containing subunit of Photosystem I, has been sequenced from Synechocystis sp. PCC 6803 and shows greater similarity to reported plant sequences than other cyanobacterial psaC sequences. The deduced amino acid sequence of the protein encoded by the Synechocystis psaC gene is identical to the tobacco PSA-C sequence. In plants psaC is located in the small single-copy region of the chloroplast genome between two genes (designated ndhE and ndhD) with similarity to genes encoding subunits of the mitochondrial NADH Dehydrogenase Complex I. The 5 ndhE-psaC-ndhD3 gene arrangement of higher plants is only partially conserved in Synechocystis. An open reading frame (ORF) upstream of the Synechocystis psaC gene has 85% identity to the tobacco ndhE gene. Downstream of psaC there is a 273 bp ORF with 48% identity to the 5 portion of the tobacco ndhD gene (1527 bp). psaC, ndhE and the region of similarity to ndhD are present in a single copy in the Synechocystis genome. Part of the wheat ndhD gene was sequenced and used as a probe for the presence of the 3 portion of the ndhD gene. The wheat ndhD probe did not hybridize to Synechocystis or Anabaena sp. PCC 7120 genomic DNA, but did hybridize to Oenothera chloroplast DNA. These results indicate the complete ndhD gene is absent in two cyanobacteria, and raises the question of what role, if any, the ndhD gene product plays in the facultative heterotroph Synechocystis sp. PCC 6803.     

The plastid aldolase gene fromChlamydomonas reinhardtii: Intron/exon organization, evolution, and promoter structure

Genomic clones encoding the plastidic fructose- 1,6-bisphosphate aldolase ofChlamydomonas reinhardtii were isolated and sequenced. The gene contains three introns which are located within the coding sequence for the mature protein. No introns are located within or near the sequence encoding the transit-peptide, in contrast to the genes for plastidic aldolases of higher plants. Neither the number nor the positions of the three introns of theC. reinhardtii aldolase gene are conserved in the plastidic or cytosolic aldolase genes of higher plants and animals. The 5 border sequences of introns in the aldolase gene ofC. reinhardtii exhibit the conserved plant consensus sequence. The 3 acceptor splice sites for introns 1 and 3 show much less similarity to the eukaryotic consensus sequences than do those of intron 2. The plastidic aldolase gene has two tandemly repeated CAAT box motifs in the promoter region. Genomic Southern blots indicate that the gene is encoded by a single locus in theC. reinhardtii genome.     

The Vitreoscilla hemoglobin gene: Molecular cloning, nucleotide sequence and genetic expression in Escherichia coli

Summary Vitreoscilla hemoglobin is involved in oxygen metabolism of this bacterium, possibly in an unusual role for a microbe. We have isolated the Vitreoscilla hemoglobin structural gene from a pUC19 genomic library using mixed oligodeoxy-nucleotide probes based on the reported amino acid sequence of the protein. The gene is expressed in Escherichia coli from its natural promoter as a major cellular protein. The nucleotide sequence, which is in complete agrecment with the known amino acid sequence of the protein, suggests the existence of promoter and ribosome binding sites with a high degree of homology to consensus E. coli upstream sequences. In the case of at least some amino acids, a codon usage bias can be detected which is different from the biased codon usage pattern in E. coli. The down-stream sequence exhibits homology with the 3 end sequences of several plant leghemoglobin genes. E. coli cells expressing the gene contain greater than fivefold more heme than controls.     

Tissue-specific and ABA-regulated Maize GIN gene expression in transgenic tobacco

Summary To study the regulatory functions of the ON promoter region, a ppG1b1GUS construct, consisting of 1402 bp 5 flanking sequence ofGlbl, 1919 by GUS coding sequence, and 283 by 3 NOS terminator, was cloned into a binary vector and introduced into tobacco plants byAgrobacterium-mediated transformation. Histochemical GUS assays of T_o tobacco mature seeds indicate that theGlbl promoter drives GUS expression in ABA treated seeds. Further GUS assays of the T, seeds at different developmental stages revealed that without ABA treatment, theGibl promoter drives GUS expression in immature seeds. The results from both T_o and T₁ tobacco plants indicated thatGlbl-driven GUS expression in tobacco is embryo specific.     

Molecular Basis of the Size Polymorphism of the First Intron of the<Emphasis Type="Italic">Adh-1</Emphasis> Gene of the Mediterranean Fruit Fly, <Emphasis Type="Italic">Ceratitis capitata</Emphasis>

The first intron of the gene encoding one of the alcohol dehydrogenase isoenzymes (ADH-1) in Ceratitis capitata is highly polymorphic in size. Five size variants of this intron were isolated from different strains and populations and characterized. Restriction map and sequence analysis showed that the intron size polymorphism is due to the presence or absence of (a) a copy of a defective mariner-like element, postdoc; (b) an 550-bp 3 indel which exhibits no similarity to any known sequence; and (c) a central duplication of 704 bp consisting of part of the 3 end of the postdoc element, the region between postdoc and the 3 indel, and the first 20 bp of the 3 indel. The homologous Adh-1 intron was amplified from the congeneric species, Ceratitis rosa, in order to obtain an outgroup for comparative and phylogenetic analyses. The C. rosa introns were polymorphic in size, ranging from about 1100 to 2000 bp, the major difference between them being the presence or absence of a mariner-like element Crmar2, unrelated to the postdoc element. Phylogenetic analysis suggests that the shorter intron variants in C. capitata may represent the ancestral form of the intron, the longest variants apparently being the most recent.     

Distinct cis-acting elements direct the germination and sugar responses of the cucumber malate synthase gene

The malate synthase gene (ms) promoter in cucumber (Cucumis sativus L.) was investigated with the aim of distinguishing DNA sequences mediating regulation of gene expression by sugar, and expression following seed germination. Promoter deletions were constructed and their ability to direct expression of the-glucuronidase (gus) reporter gene was investigated in transgenicNicotiana plumbaginifolia. Gene expression was assayed in germinating seeds and developing seedlings (the germination response) and in seedlings transferred from light into darkness with and without sucrose (the sugar response). As progressively more of the promoter was deleted from the 5 end, first the sugar response and then the germination response was lost. Thus, distinct regions of the promoter are required for carbohydrate control and for regulation of gene expression in response to germination. Sequence comparisons of thems promoter with that of the isocitrate lyase gene (icl) of cucumber have previously identified four IMH (ICL-MS Homology) sequences. One such sequence, IMH2, is shown here to be implicated in the sugar response of thems gene. The 17 bp sequence, which when deleted from thems gene results in loss of the germination response, contains a 14 bp sequence which is similar to a sequence in theicl promoter, which we refer to as IMH5. Furthermore, this sequence has similarity withamdI9-like sequences in filamentous fungi, which conferfacB-mediated acetate inducibility on several genes, including those encoding ICL and MS.     

cDNA cloning and characterization of a 3′/5′-O-methyltransferase for partially methylated flavonols from Chrysosplenium americanum

Enzymatic O-methylation of plant secondary metabolites is an important mechanism for the inactivation of reactive hydroxyl groups and for the modification of their solubility. A cDNA clone (pFOMT3) encoding the gene for the 3/5-O-methylation of partially methylated flavonols was isolated from Chrysosplenium americanum (Saxifragaceae). We used a PCR fragment obtained with degenerate oligonucleotides designed from conserved regions of various O-methyltransferases (OMTs). The pFOMT3 cDNA sequence shows about 67–85% similarity to other plant OMT sequences. The recombinant protein expresses strict specificity for positions 3/5 (meta) of partially methylated flavonols, but does not accept quercetin or caffeic acid for further methylation. Southern blot analysis of the genomic DNA probed with an OMT sequence suggests the presence of a number of related genes in this species, consistent with the multiple enzymatic methylations involved in the biosynthesis of polymethylated flavonols in this plant.     

Genomic characterization of the S-adenosylmethionine decarboxylase genes from soybean

A full-length gene GmSAMDC1, encoding the S-adenosylmethionine decarboxylase (SAMDC), a key enzyme involved in polyamine biosynthesis, was identified from soybean expressed sequence tags and was characterized. GmSAMDC1 encoded a peptide of 355 amino acids. When compared with other plant SAMDCs, the GmSAMDC1 protein had several highly conserved regions including a putative pro-enzyme cleavage site and a PEST sequence. The 5 leader sequence of the the GmSAMDC1 mRNA contained two additional open reading frames (ORFs), which may regulate the translational process. The genomic sequence of the GmSAMDC1 gene contained three introns in the 5 leader sequence, but no intron in the 3-UTR or the main pro-enzyme ORF. A simple sequence repeat (SSR) was found in intron 2, and the GmSAMDC1 gene was mapped to linkage group D1 using this SSR. The genomic organization of the GmSAMDC1 gene in the subgenus Glycine and the subgenus Soja was found to be different by Southern-blot and PCR analysis. A pseudogene, GmSAMDC2, was also identified. This gene contained no intron and lost its two uORFs. Northern-blot analysis showed that the GmSAMDC1 gene expression was induced by salt, drought and cold, but not induced by wounding; suggesting that the gene was implicated in response to multiple-stress conditions.Communicated by H. F. Linskens     

Molecular cloning of the cDNA encoding a stress-inducible protein phosphatase 1 (PP1) catalytic subunit from French bean (Phaseolus vulgaris L.)

A cDNA showing high sequence similarity (>70%) to plant protein phosphatase 1 catalytic subunit variants from other species has been isolated from a cDNA library derived from mRNAs expressed in elicitor-treated suspension-cultured cells. The clone appears to be a near full-length 1431 bp with a 172 bp 5-untranslated region and a 317 bp 3-untranslated region. The open reading frame, determined by sequence similarity, codes for a protein with predicted M _r of 35552. Alternatively an ATG situated to the 5 end of the putative start site would increase the protein size by 6 amino acids.The mRNA for Pvpp1 was shown to be rapidly induced by elicitor treatment of suspension-cultured cells of French bean. The cloned cDNA represents one of the few examples of a gene product that is probably involved in dephosphorylation events arising after the initial responses to biotic stress.Abbreviations PAL phenylalanine ammonia-lyase - PP1 protein phosphatase 1 - Pvpp1 Phaseolus vulgaris protein phosphatase 1     

A single-base deletion in soybean flavonoid 3′-hydroxylase gene is associated with gray pubescence color

The T locus of soybean (Glycine max (L.) Merr.) controls pubescence and seed coat color and is presumed to encode flavonoid 3-hydroxylase (F3H). The dominant T and the recessive t allele of the locus produce brown and gray pubescence, respectively. PCR primers were constructed based on the sequence of a soybean EST clone homologous to the F3H gene. A putative full-length cDNA, sf3h1 was isolated by 3 and 5 RACE. Sequence analysis revealed that sf3h1 consists of 1690 nucleotides encoding 513 amino acids. It had 68% and 66% homology with corresponding F3H protein sequences of petunia and Arabidopsis, respectively. A conserved amino acid sequence of F3H proteins, GGEK, was found in the deduced polypeptide. Sequence analysis of the gene from a pair of near-isogenic lines for T, To7B (TT, brown) and To7G (tt, gray) revealed that they differed by a single C deletion in the coding region of To7G. The deletion changed the subsequent reading frame resulting in a truncated polypeptide lacking the GGEK consensus sequence and the heme-binding domain. Genomic Southern analysis probed by sf3h1 revealed restriction fragment length polymorphisms between cultivars with different pubescence color. Further, sf3h1 was mapped at the same position with T locus on LG3(c2). PCR-RFLP analysis was performed to detect the single-base deletion. To7B and three cultivars with brown pubescence exhibited shorter fragments, while To7G and three cultivars with gray pubescence had longer fragments due to the single-base deletion. The PCR-RFLP marker co-segregated with genotypes at the Tlocus in a F₂ population segregating for the T locus. The above results strongly suggest that sf3h1 represents the T gene of soybean responsible for pubescence color and that the single-base deletion may be responsible for gray pubescence color.     

ThePenicillium chrysogenum andAspergillus nidulans wetA developmental regulatory genes are functionally equivalent

Aspergillus nidulans andPenicillium chrysogenum are related fungi that reproduce asexually by forming multicellular conidiophores and uninucleate conidia. InA. nidulans, spore maturation is controlled by thewetA (AwetA) regulatory gene. We cloned a homologous gene (PwetA) fromP. chrysogenum to determine if spore maturation is regulated by a similar mechanism in this species. ThePwetA andAwetA genes are similar in structure and functional organization. The inferred polypeptides share 77% overall amino acid sequence similarity, with several regions having > 85% similarity. The genes also had significant, local sequence similarities in their 5 flanking regions, including conserved binding sites for the product of the regulatory geneabaA.PwetA fully complemented anA. nidulans wetA deletion mutation, demonstrating thatPwetA and its 5 regulatory sequences function normally inA. nidulans. These results indicate that the mechanisms controlling sporulation inA. nidulans andP. chrysogenum are evolutionarily conserved.     

Analysis of regions essential for the function of chromosomal replicator sequences from Yarrowia lipolytica

Summary Two DNA segments exhibiting ARS (autonomously replicating sequence) activity in the dimorphic yeast Yarrowia lipolytica were cloned from its chromosome on an integrative LEU2 plasmid. These ARS segments, designated YlARS1 and YlARS2, conferred on the hybrid plasmids high transformation efficiency and enabled extrachromosomal transmission of the plasmids in 1 or 2 copies per yeast cell under selective conditions. Deletion analysis showed that at least 728–1003 by for YlARS1 and 1377–1629 by for YlARS2 were required for full function. Both of these regions contained two 10/11 matches to an ARS core consensus in Saccharomyces cerevisiae, whereas neither was similar to the S. cerevisiae centromere sequence. Significantly, both YlARS elements contained at, or close to, their boundaries a 13 bp sequence, 5-TATATTCAAGCAA-3, which resembles the cleavage site for topoisomerase II in Drosophila. A central 524 by ClaI fragment of YlARS2 contained four stretches of a 17 bp direct repeat sequence, 5-GAAAAACAAAAACAGGC-3, and exhibited the electrophoretic behavior typical of bent DNA.     

TheAdh genomic region ofDrosophila ambigua: Evolutionary trends in different species

Summary The study of individual genes is essential to a comprehensive understanding of genome evolution. The wealth of information on alcohol dehydrogenase (Adh) inDrosophila makes this gene particularly suitable for such analysis. We have characterized more than 4 kb of the genomicAdh region inDrosophila ambigua and compared this region toDrosophila mauritiana andDrosophila pseudoobscura. The presence of two genes,Adh and 3ORF (open reading frame), has been confirmed and some of their essential features have been inferred from primary structural analysis. Inter- and intraspecific comparisons have led us to support that both genes may have diverged from an ancient precursor. They appear to be evolving independently, and show a species-specific pattern. TheAdh in theobscura group species lacks amino acids three and four when compared to the species of themelanogaster group and has accumulated most of its amino acid replacements in the third exon. Neither characteristic is observed when any other group species are compared, which suggests that these may be particular features of the evolution of theobscura group. The 3ORF is highly conserved among the three species analyzed, although variability in the length of the third exon and the nucleotide substitution rate, which is much higher than inAdh, are worth noting. According to our data, both mutation/fixation rates and the distribution of mutations vary over time, which makes it difficult to predict the evolutionary dynamics of specific genome regions.     

DNA sequence,structure, and phylogenetic relationship of the small subunit rRNA coding region of mitochondrial DNA fromPodospora anserina

Summary DNA sequence analysis and the localization of the 5 and 3 termini by S1 mapping have shown that the mitochondrial (mt) small subunit rRNA coding region fromPodospora anserina is 1980 bp in length. The analogous coding region for mt rRNA is 1962 bp in maize, 1686 bp inSaccharomyces cerevisiae, and 956 bp in mammals, whereas its counterpart inEscherichia coli is 1542 bp. TheP. anserina mt 16S-like rRNA is 400 bases longer than that fromE. coli, but can be folded into a similar secondary structure. The additional bases appear to be clustered at specific locations, including extensions at the 5 and 3 termini. Comparison with secondary structure diagrams of 16S-like RNAs from several organisms allowed us to specify highly conserved and variable regions of this gene. Phylogenetic tree construction indicated that this gene is grouped with other mitochondrial genes, but most closely, as expected, with the fungal mitochondrial genes.     

Recognition sites for a membrane-derived DNA binding protein preparation in the E. coli replication origin

Summary The DNA binding protein B' preparation, isolated from the membrane of E. coli, recognizes two sites, one of which is locatd in the minimum oriC (35–270 bp) and the other between base pairs 417 and 488. Recognition is only possible when restriction fragments containing these sites are in single-stranded state. At the first site the strand reading 3OH-5P in the direction of the E. coli genetic map is recognized, at the second site the 5P-3OH strand.     

An S1 episomal gene of maize mitochondria is expressed in male sterile and fertile plants of the S-type cytoplasm

Summary Maize mitochondria of cytoplasmic male sterile (cms-S) plants contain two linear episomes, S1 (6397 bp) and S2 (5453 bp). S1 contains three long open reading frames URF2 (1017 bp), URF3 (2782 bp) and URF4 (768 bp). We have demonstrated that the URF3 sequence of S1 encodes a protein with an apparent molecular weight of 103 kDa which is found in cms-S but undetectable in cms-T, cms-C or normal (fertile) mitochondria. A translational fusion containing the 5 terminus of the lacZ gene and 800 bp of the 3 end of URF3 was isolated from a cms-S mitochondrial genomic library in the expression vector gt11. Polyclonal antibodies raised against the resulting fusion protein immunoprecipitated a 103 kDa polypeptide from among [³⁵S]-methionine-labeled cms-S mitochondrial proteins but not from normal mitochondrial proteins. The mitochondria of fertile F1 plants resulting from a cross between B37 cms-S and Ky21 (universal restorer) contain as much of this 103 kDa protein as is observed in sterile cms-S mitochondria. The mitochondria of fertile cytoplasmic revertants from cms-RD and cms-LM in a WF9 nuclear background also synthesized the 103 kDa protein. We conclude that the URF3 sequence of the S1 episome is expressed in vivo and that the presence of its gene product in maize mitochondria is not sufficient to confer the male sterile phenotype.     

Molecular evolution of the histidine biosynthetic pathway

The available sequences of genes encoding the enzymes associated with histidine biosynthesis suggest that this is an ancient metabolic pathway that was assembled prior to the diversification of the Bacteria, Archaea, and Eucarya. Paralogous duplications, gene elongation, and fusion events involving different his genes have played a major role in shaping this biosynthetic route. Evidence that the hisA and the hisF genes and their homologues are the result of two successive duplication events that apparently took place before the separation of the three cellular lineages is extended. These two successive gene duplication events as well as the homology between the hisH genes and the sequences encoding the TrpG-type amidotransferases support the idea that during the early stages of metabolic evolution at least parts of the histidine biosynthetic pathway were mediated by enzymes of broader substrate specificities. Maximum likelihood trees calculated for the available sequences of genes encoding these enzymes have been obtained. Their topologies support the possibility of an evolutionary proximity of archaebacteria with low GC Gram-positive bacteria. This observation is consistent with those detected by other workers using the sequences of heat-shock proteins (HSP70), glutamine synthetases, glutamate dehydrogenases, and carbamoylphosphate synthetases.Abbreviations as amino acid - ORF open reading frame - bp base pair - kb 10³ bp - CarA carbamoyl phosphate synthetase (EC 6.3.5.5) - GAT glutamine amidotransferase - GuaA GMP synthetase (EC 6.3.4.1) - PabA 4-amino-4-deoxychorismate synthase (EC 4.1.3-) - PyrG GTP synthetase (EC 6.3.4.2) - AICAR 5-aminoimidazole-4-carboxamide-l--d ribofuranosyl 5-monophosphate - HAL l-histidinal - HOL l-histidinol - HP histidinol phosphate - IAP imidazole acetol-phosphate - IGP imidazole glycerol phosphate - PR phosphoribosyl - PRFAR N-[(5-phosphoribulosyl) formimino]-5-aminoimidazole-4-carboxamide ribonucleotide - 5-ProFAR N ¹-[(5-phosphoribosyl) formimino]-5-aminoimidazole-4-carboxamide ribonucleotide - PRPP phosphoribosyl-pyrophosphate - RFLP restriction fragment length polymorphism Correspondence to: R. Fani     

Chloroplast DNA sequences integrated into an intron of a tomato nuclear gene

Summary DNA sequences capable of hybridizing with chloroplast DNA have previously been reported to exist in the nuclear genome of higher plants. Here we show that the third intron of the cultivated tomato (Lycopersicon esculentum) nuclear gene Cab-7, which resides on chromosome 10 and which we recently cloned and sequenced, contains two DNA fragments derived from the coding region of the chloroplast gene psbG. The first fragment, 133 bp long, is located at a site 63 bp from the 3 end of the 833 bp intron. The exact sequence of the 11 nucleotides at the 3 end of the inserting chloroplast sequence is also found at the 5 border of the insertion. A small (107 bp) chloroplast DNA fragment is inserted near the middle of the intron, again with the 3 end of the inserting element (6 bp) duplicated at the 5 border of the insertion. The second insert is a subfragment of the first insert, and is most likely directly derived from it. The psbG insertion sequence was found to be present in the Cab-7 gene of all tomato species examined but not in species from related genera (e.g. Solanum, Petunia, Nicotiana), suggesting that the original transposition event (chloroplast to nucleus) occurred relatively recently-since the divergence of the genus Lycopersicon from other genera in the family Solanaceae, but before radiation of species in that genus.     

A pistil-specific thaumatin/PR5-like protein gene of Japanese pear (Pyrus serotina): sequence and promoter activity of the 5′ region in transgenic tobacco

The genomic clone encoding the pistil-specific thaumatin/PR5-like protein (PsTL1) was isolated from Japanese pear (Pyrus serotina). Sequence analysis showed that the genomic clone contained the 5-flanking sequence of 2.4 kb, the 3-flanking sequence of 648 bp and the coding region interrupted by a intron of 351 bp. A sequence motif conserved in some pistil self-incompatibility gene promoters of solanaceous and brassicaceous species was located in the 5-flanking region of the PsTL1 gene. The 2.4 kb 5-flanking region was fused to the GUS coding sequence and transferred to tobacco. Transgenic tobacco showed GUS activity in pistil and, at low level, in anther, but not in other floral organs and leaf. Histochemical analysis localized GUS activity to stigma, transmitting tissue, anther and pollen of transgenic tobacco.