Localisation of genes for four ATP synthase subunits in pea chloroplast DNA

Survey of plastid RNA abundance during tomato fruit ripening: the amounts of RNA from the ORF 2280 region increase in chromoplasts

A comprehensive survey of the levels of plastid RNAs at progressive stages of tomato fruit ripening was conducted by hybridizing total RNA with labeled Pst I fragments that cover almost the entire tomato plastid genome and with gene-specific probes. Two different cultivars of tomato (Lycopersicon esculentum Mill.) were examined, Traveler 76 and Count II. One of the tomato probes, P7, revealed a pronounced increase in the amount of an 8.3 kb RNA in ripe fruit. The homologous region of the tobacco plastid genome contains several genes for ribosomal proteins and a large unidentified open reading frame (2280 codons). Little change was observed in the levels of many transcripts during ripening. However, in some cases (e.g. psbA and psbC/D) the amount of RNA decreased during ripening of Count II but showed little or no change in Traveler 76. The contrast between Traveler 76 and Count II tomatoes shows that the level of plastid transcripts can vary substantially during fruit ripening with no obvious effect on the chloroplast to chromoplast transition. The large RNA from the P7 region may encode a protein that functions predominantly in chromoplasts.

Expression of the wheat chloroplast gene for CF0 subunit IV of ATP synthase

The nucleotide sequence of the wheat chloroplast atp I gene encoding CF0 subunit IV of ATP synthase has been determined. The gene encodes a polypeptide of 247 amino acid residues with high sequence similarity to subunit IV from other plant chloroplasts and from cyanobacteria. The polypeptide shows sequence homology to the C-terminus of the F0 alpha subunit of Escherichia coli ATP synthase and subunit 6 of mitochondrial ATP synthase. The atp I gene is co-transcribed with the atp H, atp F and atp A genes for other subunits of ATP synthase in wheat. A gene-fusion of most of the atp I coding region with cro'-lacI'-lacZ' has been constructed in pEX2 and the fusion-protein has been used to raise antibodies in rabbits. The antibodies react with a polypeptide of 17 kDa in wheat thylakoid membranes indicating that the wheat atp I gene is expressed at the protein level. A model for the organisation of the polypeptide in the thylakoid membrane with four membrane-spanning segments is proposed.

An open reading frame encoding a putative haem-binding polypeptide is cotranscribed with the pea chloroplast gene for apocytochrome f

The nucleotide sequence of a 1 kbp region of pea chloroplast DNA upstream from the gene petA encoding apocytochrome f has been determined. An open reading frame of 231 codons (ORF231) encoding a putative membrane-spanning polypeptide is separated by 205 bp from the coding region of petA. The open reading frame is homologous to open reading frames located in a similar position with respect to petA in chloroplast DNA from Marchantia polymorpha, tobacco, rice, wheat and Vicia faba. The sequence around a conserved histidine residue in a putative membrane-spanning region of the polypeptide resembles sequences present in cytochrome b from chromaffin granules and neutrophil membranes, suggesting that the open reading frame may encode a haem-binding polypeptide, possibly a b-type cytochrome. Northern hybridisation analysis indicates the presence in pea chloroplasts of a complex pattern of transcripts containing ORF231. Large transcripts of 5.5 kb, 4.3 kb, 3.4 kb and 2.7 kb encode both ORF231 and apocytochrome f, indicating that ORF231 and petA are co-transcribed.

Nucleotide sequence and transcripts of the pea chloroplast gene encoding CFo subunit III of ATP synthase

The structure and expression of the pea chloroplast atpH gene, encoding ATP synthase CFo subunit III, have been investigated. The atpH gene is situated between the atpI and atpF genes for CFo subunits IV and I, and encodes a hydrophobic polypeptide of 81 amino acid residues which is very similar to subunit III from other species. Analysis of transcripts from the region of chloroplast DNA encoding ATP synthase subunits IV-III-I-alpha shows a complex pattern of transcription, with large transcripts potentially coding for several subunits and also smaller gene-specific transcripts. Two abundant transcripts of 660 nucleotides (nt) and 980 nt specific for atpH were identified. Primer extension and S1 nuclease protection mapping suggested that the 660-nt transcripts were produced by endonucleolytic processing at the sequence, 5'-UGGAAU.

Two small open reading frames are co-transcribed with the pea chloroplast genes for the polypeptides of cytochrome b-559

The genes encoding the 9 kDa and 4 kDa polypeptides of cytochrome b-559 have been located in pea chloroplast DNA by coupled transcription-translation of cloned restriction fragments of chloroplast DNA in a cell-free extract of Escherichia coli and by nucleotide sequence analysis. The genes (psbE and psbF) are located approximately 1.0 kbp downstream of the gene for cytochrome f and are transcribed in the opposite direction, similar to the arrangement in the chloroplast genomes of other higher plants. Nucleotide sequence analysis of this region revealed four open reading frames encoding hydrophobic proteins of 83 (psbE), 39 (psbF), 38 and 40 amino acid residues, which are co-transcribed as a single major RNA of 1.1 kb. The 5' and 3' ends of this RNA have been located by primer extension and S1 nuclease mapping. The 5' end of the RNA is located 140 bp upstream of the initiating ATG codon of psbE and is preceded by typical chloroplast promoter sequences. The 3' end of the RNA is located approximately 515 bp downstream of the TAA stop codon of psbF close to a stable stem-loop structure.

A gene cluster in the spinach and pea chloroplast genomes encoding one CF1 and three CF0 subunits of the H+-ATP synthase complex and the ribosomal protein S2

The regions of the spinach and pea chloroplast genomes containing the ATP synthase genes atpA, atpF and atpH have been sequenced. The encoded proteins, CF1 alpha, CF0I and CF0III, are well conserved between spinach and pea, and analogous to the alpha, b and c subunits of the Escherichia coli ATP synthase complex. The atpF gene is split by a single intron, and the exon/intron boundaries have been defined by isolating and sequencing a partial cDNA clone. Two other genes, designated atpI and rps2, located upstream from atpH, have also been sequenced. They encode a 27,000 Mr hydrophobic protein analogous to the F0a subunit of E. coli ATP synthase and a basic protein analogous to the S2 protein of the E. coli 30 S ribosomal subunit. Transcriptional analysis by electron microscopy of RNA-DNA hybrids, Northern blotting and primer extension experiments shows that these genes are transcribed and processed into a complex set of transcripts, with 5' ends mapping upstream from the rps2, atpI and atpH genes.

Nucleotide sequence and transcription analysis of the gene coding for subunit III of soybean chloroplast proton-translocating ATPase

The gene coding for subunit III of CF0-ATPase complex (atpH gene) has been localized on the soybean chloroplast genome by heterologous hybridization with the atpH gene of wheat chloroplast. The gene, 243 bp in length, is located in a 7.5-kb BamHI fragment generated from the 14.8-kb PvuII fragment in the large single-copy region of the chloroplast genome. The nucleotide sequence of the gene has been determined. The deduced amino acid (aa) sequence shows 2 aa changes relative to its homologue from wheat and spinach and 1 aa with respect to that found in tobacco chloroplast. The gene is apparently transcribed independently as an 850-nt transcript.

The localization of genes for ribosomal, cytochrome b6/f complex and photosystems I and II polypeptides on the chloroplast chromosome of Vicia faba

Detailed studies of rearranged chloroplast genomes such as Vicia faba should give insights into the constraints governing the positional organization of the various gene clusters on the chloroplast chromosome. Seven polypeptide genes have already been mapped on the Vicia faba chloroplast genome (21, 22). In this report, ten additional chloroplast DNA-coded polypeptide genes have been mapped by heterologous hybridization. These genes include cytochrome b6 and subunit 4 of the cytochrome b6/f complex, the two P700 chlorophyll a apoproteins of photosystem I, the two chlorophyll a-binding proteins of photosystem II, cytochrome b559, the D2 polypeptide and two ribosomal proteins. The direction of transcription for five of these gene sequences has been established by utilizing 5' and 3' end specific gene probes. The genetic organization of the Vicia faba chloroplast genome was compared with the chloroplast maps of the standard conserved genome of spinach and the more rearranged genome of pea.

Divergence of chloroplast gene organization in three legumes: Pisum sativum, Vicia faba and Phaseolus vulgaris

Isolated chloroplasts from Pisum sativum were found to contain at least 32 tRNA species. Hybridization of in vitro labeled, identified, chloroplast tRNAs to Pisum chloroplast DNA fragments revealed the locations of the tRNA genes on the circular chloroplast genome. Comparison of this gene map to the maps of Vicia faba and Phaseolus vulgaris showed that the chloroplast genomes of Pisum and Phaseolus are otherwise more closely related than either genome is to the chloroplast genome of Vicia. Furthermore, the results suggest how possible recombination events could be involved in the evolution of these three closely related, but divergent, chloroplast genomes.

Localization of the genes coding for the 51 kDa PSII chlorophyll apoprotein, apocytochrome b6, the 65-70 kDa PSI chlorophyll apoproteins and the 44 kDa PSII chlorophyll apoprotein in pea chloroplast DNA

DNA probes isolated from previously mapped spinach genes were used to locate 5 genes on pea ctDNA by heterologous hybridization. The genes mapped include psbC, psaA, psaB, psbB, and petB. PsbB and petB mapped to a 6.7 kbp XbaI DNA fragment adjacent to the petD gene. Northern probes from within the DNA which codes for psbB and petD hybridized to 6 RNAs ranging from 1.2 to 5.6 kbp. The psaA and psaB genes, which code for 65-70 kDa proteins of Photosystem I, were mapped to a 7.5 kbp. XbaI DNA fragment. A 5.8 kbp RNA is transcribed from the region which contains the psaA and psaB genes suggesting that these genes are co-transcribed. Finally the psbC gene which codes for a 44 kDa chlorophyll-protein of Photosystem II was mapped to a 12.3 kbp PstI DNA fragment. The pea psbC open reading frame overlaps the psbD coding sequence and this gene pair is within 3 kbp of the psaA-psaB genes. Overall, the organization of the 3 gene clusters analyzed in peas is similar to that reported for spinach.

Sequence of two genes in pea chloroplast DNA coding for 84 and 82 kD polypeptides of the photosystem I complex

The genes encoding the two P700 chlorophyll a-apoproteins of the photosystem I complex were localized on the pea (Pisum sativum) chloroplast genome. The nucleotide sequence of the genes and the flanking regions has been determined. The genes are separated by 25 bp and are probably cotranscribed. The 5' terminal gene (psaA1) codes for a 761-residue protein (MW 84.1 kD) and the 3' terminal gene (psaA2) for a 734-residue protein (MW 82.4 kD). Both proteins are highly hydrophobic and contain eleven putative membrane-spanning domains. The homology to the corresponding polypeptides from maize are 89% and 95% for psaA1 and psaA2, respectively. A putative promoter has been identified for the psaA1 gene, and potential ribosome binding sites are present before both genes.

The sequence of the chloroplast atpB gene and its flanking regions in Chlamydomonas reinhardtii

The chloroplast (cp)-encoded CF1 ATPase beta-subunit gene (atpB) of Chlamydomonas reinhardtii and its flanking regions have been sequenced. The derived amino acid (aa) sequence is highly homologous to that of the beta-subunit gene in Escherichia coli, bovine heart mitochondria, and higher plant cp. In contrast to all other cp genomes, the CF1 epsilon subunit gene (atpE) does not lie at the 3' end of the atpB gene but maps to a position 92 kb away in the other single-copy region. Northern blots confirm that the beta subunit is not encoded as part of a dicistronic message as it is in higher plants. The region just upstream from the atpB gene in C. reinhardtii contains two small open reading frames (ORFs) and not the gene for the large subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase as is found in cp genomes of higher plants. No transcripts for either ORF were detected, but the codon usage in these ORFs as well as in the atpB gene follows the unique pattern of codon usage previously seen in other cp genes in C. reinhardtii.

Nucleotide sequences of the genes for the alpha, beta and epsilon subunits of wheat chloroplast ATP synthase

The nucleotide sequences of the chloroplast genes for the alpha, beta and epsilon subunits of wheat chloroplast ATP synthase have been determined. Open reading frames of 1512 bp, 1494 bp and 411 bp are deduced to code for polypeptides of molecular weights 55201, 53796 and 15200, identified as the alpha, beta and epsilon subunits respectively by homology with the subunits from other sources and by amino acid sequencing of the epsilon subunit. The genes for the beta and epsilon subunits overlap by 4 bp. The gene for methionine tRNA is located 118 bp downstream from the epsilon subunit gene. Comparisons of the deduced amino acid sequences of the alpha and beta subunits with those from other species suggest regions of the proteins involved in adenine nucleotide binding.