Nicotiana chloroplast genome: V. Construction, mapping and expression of clone library of N. otophora chloroplast DNA

Physical maps of Nicotiana chloroplast DNA constructed by an efficient procedure

The restriction profiles of chloroplast DNA (cpDNA) from Nicotiana tabacum, N. sylvestris, N. plumbaginifolia, and N. otophora were obtained with respect to AvaI, BamHI, BglI, HindIII, PstI, PvuII, SalI, and XhoI. An efficient mapping method for the construction of cpDNA physical maps in Nicotiana was established via a computer-aided analysis of the complete cpDNA sequence of N. tabacum for probe selection. The efficiency of this approach is demonstrated by the determination of cpDNA maps from N. sylvestris, N. plumbaginifolia, and N. otophora with respect to all of the above restriction endonucleases. The size and basic structure of the cpDNA from the three species are almost identical, with an addition of approximately 80 bp in N. plumbaginifolia. The restriction patterns and hence the physical maps between N. tabacum and N. sylvestris cpDNA are identical and there is no difference in the Pvull digests of cpDNA from all four species. Restriction site variations in cpDNA from different species probably result from point mutations, which create or eliminate a particular cutting site, and they were observed spanning the whole chloroplast molecule but highly concentrated in both ends of the large, single-copy region. The results presented here will be used for the forthcoming characterization of chloroplast genomes in the interspecies somatic hybrids of Nicotiana, and will be of great value in completing the exploration of the phylogenetic relationships within this already extensively studied genus.

Nicotiana chloroplast genes for components of the photosynthetic apparatus

In order to understand more fully chloroplast genetic systems, we have determined the complete nucleotide sequence (155, 844 bp) of tobacco (Nicotiana tabacum var. Bright Yellow 4) chloroplast DNA. It contains two copies of an identical 25,339 bp inverted repeat, which are separated by 86, 684 bp and 18,482 bp single-copy regions. The genes for 4 different rRNAs, 30 different tRNAs, 44 different proteins and 9 other predicted protein-coding genes have been located. Fifteen different genes contain introns.Twenty-two genes for components of the photosynthetic apparatus have so far been identified. Most of the genes (except the gene for the large subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase) code for thylakoid membrane proteins. Twenty of them are located in the large single-copy region and one gene for a 9-kd polypeptide of photosystem I is located in the small single-copy region. The gene for the 32-kd protein of photosystem II as well as the gene for the large subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase have strong promoters and are transcribed monocistronically while the other genes are transcribed polycistronically. We have found that the predicted amino acid sequences of six DNA sequences resemble those of components of the respiratory-chain NADH dehydrogenase from human mitochondria. As these six sequences are highly transcribed in tobacco chloroplasts, they are probably genes for components of a chloroplast NADH dehydrogenase. These observations suggest the existence of a respiratory-chain in the chloroplast of higher plants.

Nucleotide sequence of the chloroplast gene responsible for triazine resistance in canola

The nucleotide sequence for the psbA gene from a triazine resistant cultivar of B. napus (cv 'Triton') has been determined. This gene encodes an open reading frame of 353 amino acids that is highly homologous to other higher plant psbA genes at both the nucleotide and amino acid levels. As has been found for other triazine resistant psbA genes, the 'Triton' psbA contains an A to G nucleotide change which results in a serine to glycine amino acid substitution at position 264. The B. napus psbA gene also has a G insertion at position -9 resulting in a ribosome binding site sequence (AGGA) just before the initial methionine and suggesting that the entire open reading frame is translated. A large (72 bp) insertion is also found upstream of the B. napus psbA gene which resembles a similar insertion in the mustard psbA. The "uncloneable" nature of the entire gene is further investigated through reconstruction experiments and the implications discussed.

Mapping the chloroplast genome of triazine resistant canola

The chloroplast of a triazine resistant weed biotype of Brassica campestris (bird's rape) has been transferred by repeated back-crossing into an agriculturally important strain, 'Tower', of Brassica napus to form a triazine resistant cultivar of canola, 'Triton', that is low in both erucic acid and thioglucosinolate. In this report, the B. campestris derived chloroplast chromosome of B. napus (cv 'Triton') has been cloned into bacterial plasmids and physically mapped for eight restriction enzymes: Apa I, Bam HI, BglI, Hind III, Pst I, Pvu II, Sac I and Xho I. The genes for rRNA, rbcL, cytF, atpA, atpB, atpE, atpH and the triazine resistance gene, psbA were located on the map by heterologous hybridization. The directions of transcription for most of these genes were determined by reverse heterologous hybridization.

The Nicotiana chloroplast genome. IX. Identification of regions active as prokaryotic promoters in Escherichia coli

The galK-expression plasmid vector system pKO1 has been used to clone Nicotiana chloroplast (ct) promoters that function in Escherichia coli. The randomly cloned promoter-containing restriction fragments have been located on the ct genome and originate both from those regions encoding ribosomal and transfer RNAs and from locations elsewhere on the ct genome. The results provide the first demonstration that sequences which function as prokaryotic promoters exist in the ct genome.

Nicotiana chloroplast genome : 8. Localization of genes for subunits of ATP synthase, the cytochrome b-f complex and the 32 kD protein

Using the existing restriction map and probes from wheat and pea ct-DNA, seven protein genes have been localized in the chloroplast genome of N. tabacum. On the clock-like map, the location of each gene is indicated by its time zone: the 15.2 kD polypeptide of the cytochrome b/f complex at 3∶15, cytochrome f at 4∶30, LS of RuBPCase at 4∶50, both β and ɛ subunits of ATP synthase at or near 5∶00, proton-translocating subunit of ATP synthase at 8∶20, α subunit of ATP synthase at 8∶40 and the 32 kD protein at 9∶30. The genome organization of Nicotiana chloroplast DNA is similar to spinach.

Nicotiana chloroplast genome : 7. Expression in E. coli and B. subtilis of tobacco and Chlamydomonas chloroplast DNA sequences coding for the large subunit of RuBP carboxylase

RuBPCase, the enzyme responsible for carboxylation and oxidation of RuBP in a wide variety of photosynthetic organisms, is the major protein found in the chloroplast. Here we present the first evidence for direct expression in E. coli and B. subtilis of tobacco and Chlamydomonas ct-DNA sequences coding for the LS of RuBPCase as demonstrated by a simple in situ immunoassay.

Nicotiana chloroplast genome : 6. Deletion and hot spot - a proposed origin of the inverted repeats

A physical map containing six restriction sites of the Nicotiana tabacum chloroplast genome, together with the BamHI maps of N. tabacum, N. otophora and N. knightiana, and the SmaI maps of N. acuminata, N. plumbaginifolia, N. langsdorffii, N. otophora, N. tabacum, N. tomentosiformis and N. knightiana was constructed. In Nicotiana chloroplast genomes, the most frequently observed variations are point mutations. Deletions are also detected. Most of the observed changes are confined to one area of the large single copy region, which is designated as the "hot spot". Based on the evidence obtained from Nicotiana chloroplast genomes, an origin of the inverted repeats in this genus is proposed. We suggest that the inverted repeats represent a vestige of what were once two identical, complete chloroplast genomes joined together in a head-to-head and tail-to-tail fashion, and that deletions generated the current chloroplast genome organization.

Clone bank of Nicotiana tabacum chloroplast DNA: mapping of the alpha, beta and epsilon subunits of the ATPase coupling factor, the large subunit of ribulosebisphosphate carboxylase, and the 32-kDal membrane protein

All of the PstI restriction fragments of the chloroplast DNA of Nicotiana tabacum have been cloned in the plasmid vector pBR322. The cloned fragment sizes range from 0.8 to 26 kb, are stable, and can be amplified by chloramphenicol with varying efficiencies. Using these clones we have detailed a PstI physical map of the tobacco chloroplast genome. Selected clones of SalI, BamHI and PstI fragments were used to localize the map positions of the alpha, beta, and epsilon subunits of the chloroplast ATPase coupling factor, the large subunit of ribulosediphosphate carboxylase and the 32-kDal membrane protein. The gene products of these clones were characterized by RNA transcript sizing, immunoprecipitation of maxicell-directed protein synthesis, and hybrid-arrested translation.