Characterization of a chloroplast DNA sequence from Chlorella ellipsoidea that promotes autonomous replication in yeast

Summary An EcoRI 2.7 kbp fragment from Chlorella ellipsoidea chloroplast DNA (cpDNA) cloned in YIp5 was shown to promote autonomous replication in Saccharomyces cerevisiae. The fragment was localized in the small single copy region close to the inverted repeat. The ARS activity (autonomously replicating sequences in yeast) was found to be confined within a subclone of a ca. 300 bp HindIII fragment. Sequence analysis of this fragment revealed its high AT content and the presence of several direct and inverted repeats and a few elements that were related to the yeast ARS consensus sequence. Electron microscopic studies revealed that this sequence did not coincide with the primary replication origin of chloroplast DNA. The functioning of this sequence as a possible origin of plasmid replication in vivo is discussed. This is the first report on Chlorella cpDNA sequence. re]19850821 rv]19851211 ac]19851216     

Localization and sequence analysis of chloroplast DNA sequences of Chlamydomonas reinhardii that promote autonomous replication in yeast

Four distinct chloroplast DNA segments from Chlamydomonas reinhardii of 400, 415, 730 and 2300 bp which promote autonomous replication in yeast have been mapped on the chloroplast genome. Plasmids carrying these chloroplast DNA fragments are unstable in yeast when the cells are grown under non-selective conditions. Sequence analysis of three of these chloroplast ARS regions (autonomously replicating sequences in yeast) reveals a high AT content, numerous short direct and inverted repeats and the presence of at least one element in each region that is related to the yeast ARS consensus sequence. A/T TTTATPuTTT A/T. These three chloroplast regions share, in addition, two common elements of 10 and 11 bp which may play a role in promoting autonomous replication.     

Cloning of Petunia hybrida chloroplast DNA sequences capable of autonomous replication in yeast

Summary Sequences from Petunia hybrida chloroplast DNA which have the property to promote autonomous replication in Saccharomyces cerevisiae were cloned in vector YIp5. Seven cloned chloroplast DNA fragments are localized at one of two different sites on the chloroplast genome. One site, arsA was mapped on a 1.8 Kb fragment at position 27.0–28.8 Kb on the P. hybrida chloroplast genome. The plasmids containing this arsA are stable both in yeast and E. coli. The other site, arsB, was shown to be very unstable and is located either in the small single copy region close to the inverted repeat or just in the inverted repeat. The functioning of these sequences as a possible origin of replication in vivo is discussed.     

Deletions/insertions, short inverted repeats, sequences resembling att-lambda, and frame shift mutated open reading frames are involved in chloroplast DNA differences in the genus Oenothera subsection Munzia

Summary A restriction fragment length mutation has been mapped in the large single copy region of the chloroplast DNA from two Munzi-Oenothera species. Fragments containing the deletion/insertion were cloned, further analysed by additional restriction enzymes, and sequenced. A deleted/inserted 136 bp sequence was identified upstream of the 5 end of a tRNA-Leu (UAA) gene and presumably is located in the spacer between this gene and a tRNA-Thr (UGU) gene. The endpoints of the 136 bp sequence are covered by short inverted repeats. Complementary inverted repeats are present in the middle of the deleted/inserted sequence. The repeats are part of sequences resembling the lambda chromosomal attachment site (att-lambda) which is essential for site specific recombination in the lambda/ Escherichia coli system. Possible interactions of the repeats during the deletion/insertion process are discussed. The spacer also contains a 1 bp deletion/insertion within an open reading frame (ORF). Due to this frame shift mutation the ORF sizes are quite different between the two Oenothera species.     

Structure and rearrangements of rRNA genes in chloroplast DNA in two strains of Euglena gracilis

Summary The organisation of the rRNA genes in the chloroplast genomes of two strains of Euglena gracilis were analyzed and compared. It was previously shown that the bacillaris strain contains three complete rrn (rRNA) operons (7) and that the Z-S strain contains one operon (21). Using heteroduplex analysis it was found that the bacillaris strain contains, apart from the three complete rrn operons, an extra 16S rRNA gene, an extra partial 23S rRNA gene sequence and an inverted duplication of a stretch within the 5S–16S spacer. In addition a short (<100 bp) inverted repeat sequence (13) which forms a stem/loop structure in single-stranded cpDNA was located between the 3-end of the extra 16S rRNA gene and the partial 23 S rRNA sequence.The Z-S strain differs from the bacillaris strain by a deletion of two units of the complete rrn operons. The region upstream of the single complete rrn operon, including the inverted repeats, the partial 23S and the extra 16S rRNA sequences is identical with the bacillaris strain.The only non-homology found in heteroduplexes between the SalI fragments of B of the two strains is the deletion-insertion loop which represents the two rrn operons. A small deletion loop was found occasionally in hetero-and in homoduplexes of both strands in the region of variable size. Apart from the deletion/insertion of two rrn operons the two genomes appear to be colinear as can be seen from partial denaturation mapping. The organisation of the rRNA genes of the two strains is compared with those of the Z strain and the bacillaris-ATCC strain.     

A 21 kilobase-pair deletion/addition difference in the inverted repeat sequence of chloroplast DNA from Chlamydomonas eugametos and C. moewusii

Summary Our recent physical mapping of chloroplast DNA (cpDNA) from Chlamydomonas moewusii, a unicellular green alga which is interfertile with Chlamydomonas eugametos, has revealed a two-fold size difference between the inverted repeat sequences of these algae. With a size of 42 kbp, the inverted repeat of C. moewusii is the largest yet identified in any chloroplast genome. Here we have compared the arrangement of conserved sequences within the two algal inverted repeats by hybridizing cloned restriction fragments representing over 90% of these repeats to Southern blots of cpDNA digests from the two algae. We found that the size difference between the two algal inverted repeats is due to the presence of an extra DNA segment of 21 kilobase pairs (kbp) in C. moewusii. Except for this sequence, the C. moewusii inverted repeat is highly homologous to the entire C. eugametos repeat and the arrangement of conserved sequences in the two repeats is identical. Southern hybridizations with specific gene probes revealed that the conserved sequences include the rDNA region and the genes coding for the large subunit of ribulose 1,5 bisphosphate carboxylase-oxygenase (rbcL) and for the 32 kilodalton thylakoid membrane protein (psbA). With respect to the conserved sequences, the extra 21 kbp DNA segment of C. moewusii lies in the region of psbA, most probably slightly downstream from this gene.     

Electron microscopic localization of replication origins in Oenothera chloroplast DNA

Summary The origins of chloroplast DNA (cpDNA) replication were mapped in two plastome types of Oenothera in order to determine whether variation in the origin of cpDNA replication could account for the different transmission abilities associated with these plastomes. Two pairs of displacement loop (D-loop) initiation sites were observed on closed circular cpDNA molecules by electron microscopy. Each pair of D-loops was mapped to the inverted repeats of the Oenothera cpDNA by the analysis of restriction fragments. The starting points of the two adjacent D-loops are approximately 4 kb apart, bracketing the 16S rRNA gene. Although there are small DNA length variations near one of the D-loop initiation sites, no apparent differences in the number and the location of replication origins were observed between plastomes with the highest (type I) and lowest (type IV) transmission efficiencies.     

Stability of cloned Brassica napus chloroplast DNA fragments in the cyanobacterium Anacystis nidulans R2

Summary Brassica napus (cv. Triton) chloroplast (cp) DNA BamHI gragments were inserted into a bacteria-cyanobacteria shuttle vector pCB4. The chloroplast genomic library was screened in Escherichia coli and 28 individual clones, which represent 94% of the total chloroplast genome, were isolated. Cyanobacterium Anacystis nidulans R2 was transformed with each member of the clone bank by selection for ampicillin resistance. A study of transformation efficiency showed dramatic variation (up to 200-fold) among recombinant clones. Furthermore, plasmid DNA reisolated from some cyanobacterial transformants exhibited instability. Variations in transformation efficiency and plasmid instability were shown to be DNA sequence specific. B. napus cpDNA clones were thus classified into three types according to their stability in the cyanobacterial host.     

Bending of DNA segments with Saccharomyces cerevisiae autonomously replicating sequence activity, isolated from basidiomycete mitochondrial linear plasmids

Summary Previous studies have indicated that DNA bending is a general structural feature of sequences (ARSs) from cellular DNAs of yeasts and nuclear and mitochondrial genomic DNAs of other eukaryotes that are capable of autonomous replication in Saccharomyces cerevisiae. Here we showed that bending activity is also tightly associated with S. cerevisiae ARS function of segments cloned from mitochondrial linear DNA plasmids of the basidiomycetes Pleurotus ostreatus and Lentinus edodes. Two plasmids, designated pLPO2-like (9.4 kb), and pLPO3 (6.6 kb) were isolated from a strain of P. ostreatus. A 1029 by fragment with high-level ARS activity was cloned from pLPO3 and it contained one ARS consensus sequence (A/T)TTTAT(A/G)TTT(A/T) indispensable for activity and seven dispersed ARS consensus-like (10/11 match) sequences. A discrete bent DNA region was found to lie around 500 by upstream from the ARS consensus sequence (T-rich strand). Removal of the bent DNA region impaired ARS function. DNA bending was also implicated in the ARS function associated with a 1430 by fragment containing three consecutive ARS consensus sequences which had been cloned from the L. edodes plasmid pLLE1 (11.0 kb): the three consecutive ARSs responsible for high-level ARS function occurred in, and immediately adjacent to, a bent DNA region. A clear difference exists between the two plasmid-derived ARS fragments with respect to the distance between the bent DNA region and the ARS consensus sequence(s).     

In addition to the ARS core, the ARS box is necessary for autonomously replicating sequences

Summary Autonomously replicating sequences (ARSs) were cloned from nuclear and mitochondrial DNA of D. melanogaster using YIp5, which is composed of pBR322 and the yeast ura3 gene, as the cloning vector and YNN27, a Ura^- yeast strain as the recipient. The nucleotide sequences of six ARSs, two from nuclear bulk, two from the nuclear 1.688 satellite, and two from mitochondorial DNA, were determined. The relationship between the transformation frequency and the inclusion of the ARS core, 5 _T ^A TT-TAT _A ^G TTT _T ^A 3, of these fragments was analysed. All the ARSs contained an ARS core or a single base change of it. However, not all the fragments that contained a single base change of the ARS core were able to transform the recipient cells, suggesting that certain bases in the ARS core were not exchangeable. It is suggested by transformation experiments with subfragments that in addition to an ARS core, an ARS box which is located within 25 bp upstream of the ARS core and whose sequence is composed of 5TNT _G ^A AA 3, is necessary for autonomous replication.     

Identification ofTnr3, aSuppressor-Mutator/Enhancer-like transposable element from rice

We isolated members of the retroposon family p-SINE1 in rice and found that one member contained an insertion. A 3-bp sequence at the insertion site within p-SINE1 appeared duplicated. The insertion sequence, 1536 bp in length, carried imperfect inverted repeats of about 13 bp at its termini which begin with 5-CACTA--- -3; these repeats are similar to those found in members of theEn/Spm transposable element family. These results indicate that the insertion sequence is a transposable element belonging to theEn/Spm family and is thus namedTnr3 (transposable element inrice no.3). In fact,Tnr3 carried long subterminal regions containing direct and inverted repeats of short DNA sequences of 15 bp, another characteristic of theEN/Spm family. The subterminal repeat sequences inTnr3 are, however, of two kinds, although they share homology with each other.Tnr3 and its relatives were present in multiple copies in rice. Considering the length ofTnr3, it cannot represent an autonomous type element, but is a non-autonomous element probably derived by deletion from an autonomous transposon.     

Nicotiana chloroplast genome

Summary 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.     

Structural analysis of Tpn1, a transposable element isolated from Japanese morning glory bearing variegated flowers

The 6.4 kb transposable element Tpn1 belonging to the En/Spm family was found within one of the DFR (dihydroflavonol-4-reductase) genes for anthocyanin biosynthesis in a line of Japanese morning glory (Pharbitis nil) bearing variegated flowers. Sequencing of the Tpn1 element revealed that it is 6412 by long and carries 28-bp perfect terminal inverted repeats. Its subterminal repetitive regions, believed to be the cis-acting sequences for transposition, show striking structural features. Twenty-two copies of the 10-bp sequence motif GACAACGGTT can be found as direct or inverted repeats within 650 by of the 5 end of the element, and 33 copies of the sequence motif lie within 800 by of the 3 terminus. All these 22 copies of the sequence motif near the 5 terminus and 30 copies in the 3 terminal region are arranged as inverted repeats and 3–8 by AT-rich sequences are detected between these inverted repeats. In addition, four copies of 122-bp tandem repeats and six copies of 104-bp tandem repeats are present in the 5 and 3 subterminal repetitive regions, respectively. No large open reading frame characteristic of autonomous elements of the En/Spm family can be detected within the element. The results are discussed with respect to heritable changes in flower variegation in this line of Japanese morning glory.     

Sequence organization of the chloroplast ribosomal spacer of Chlamydomonas reinhardii: uninterrupted tRNAile and tRNAala genes and extensive secondary structure

Summary The 1805 bp spacer between the chloroplast ribosomal 16S and 7S RNA genes of Chlamydomonas reinhardii has been sequenced. It contains the genes of tRNA ala and tRNA ile which are both uninterrupted. The spacer includes several short direct and inverted repeats and a large palindromic structure which maps in the region where DNA rearrangements have occurred in other Chlamydomonas species.Paper presented at the First International Congress of Plant Molecular Biology (Savannah, GA, 1985).Paper presented at the First International Congress of Plant Molecular Biology (Savannah, GA, 1985).     

Physical map of chloroplast DNA in sugi,Cryptomeria japonica

Summary To investigate the evolution of conifer species, we constructed a physical map of the chloroplast DNA of sugi, Cryptomeria japonica, with four restriction endonucleases, PstI, SalI, SacI and XhoI. The chloroplast genome of C. japonica was found to be a circular molecule with a total size of approximately 133 kb. This molecule lacked an inverted repeat. Twenty genes were localized on the physical map of C. japonica cpDNA by Southern hybridization. The chloroplast genome structure of C. japonica showed considerable rearrangements of the standard genome type found in vascular plants and differed markedly from that of tobacco. The difference was explicable by one deletion and five inversions. The chloroplast genome of C. japonica differed too from that of the genus Pinus which also lacks one of the inverted repeats. The results indicate that the conifer group originated monophyletically from an ancient lineage, and diverged independently after loss of an inverted repeat structure.     

In vitro deletion analysis of ARS elements spanning the replication origin in the 5'' non-transcribed spacer of Tetrahymena thermophila ribosomal DNA.

Two adjacent but non-overlapping restriction fragments that encompass the replication origin of the macronuclear copy of rDNA from Tetrahymena thermophila allow autonomous replication of plasmids in the yeast Saccharomyces cerevisiae; i.e. they function as autonomously replicating segments (ARS). Deletions generated in vitro into these fragments yield an 82 bp segment from each as the smallest sequence specifying ARS function. These 82 bp segments are at the 5' end of a 220 bp region of homology between the two original ARS restriction fragments. A 39 bp region of almost complete sequence identity between the two 82 bp fragments is suggested to be a core sequence element necessary for ARS function. This 39 bp sequence contains a region identical or nearly identical to the 11 bp yeast ARS consensus sequence (T/ATTTATPuTTTA/T) which is suggested to be essential for ARS function. Detailed comparisons of the 82 bp segments and of the 39 bp core with other ARS sequences reveal no extensive homologies aside from the consensus.     

The use of a non-coding region of chloroplast DNA in phylogenetic studies of the subtribeSonchinae (Asteraceae:Lactuceae)

The systematic utility of sequences from a non-coding region of chloroplast DNA (cpDNA) betweenpsbA andtrnH^(GUG) was examined by assessing phylogenetic relationships in subtribeSonchinae (Asteraceae:Lactuceae). Primers constructed against highly conserved regions of tRNA genes were used for PCR amplification and sequencing. ThepsbA-trnH intergenic spacer contains several insertions and deletions (indels) inSonchinae with the length varying from 385 to 450 bp. Sequence divergence ranges from 0.00% to 7.54% withinSonchinae, with an average of 2.4%. Average sequence divergence inSonchus subg.Sonchus is 2.0%, while the mean for subg.Dendrosonchus and its close relatives in Macaronesia (the woodySonchus alliance) is 1.0%. Our results suggest that this region does not evolve rapidly enough to resolve relationships among closely related genera or insular endemics in theAsteraceae. The phylogenetic utility ofpsbA-trnH sequences of the non-coding cpDNA was compared to sequences from the ITS region of nuclear ribosomal DNA. The results suggest that ITS sequences evolve nearly four times faster thanpsbA-trnH intergenic spacer sequences. Furthermore, the ITS sequences provide more variable and phylogenetically informative sites and generate more highly resolved trees with more strongly supported clades, and thus are more suitable for phylogenetic comparisons at lower taxonomic levels than thepsbA-trnH intergenic chloroplast sequences.     

Chloroplast DNA of black pine retains a residual inverted repeat lacking rRNA genes: nucleotide sequences of trnQ, trnK, psbA, trnI and trnH and the absence of rps16

Summary A physical map of black pine (Pinus thunbergii) chloroplast DNA (120 kb) was constructed and two separate portions of its nucleotide sequence were determined. One portion contains trnQ-UUG, ORF510, ORF83, trnK-UUU (ORF515 in the trnK intron), ORF22, psbA, trnI-CAU (on the opposing strand) and trnH-GUG, in that order. Sequence analysis of another portion revealed the presence of a 495 by inverted repeat containing trnI-CAU and the 3 end of psbA but lacking rRNA genes. The position of trnI-CAU is unique because most chloroplast DNAs have no gene between psbA and trnH (trnI-CAU is usually located further downstream). Black pine chloroplast DNA lacks rps16, which has been found between trnQ and trnK in angiosperm chloroplast DNAs, but possesses ORF510 instead. This ORF is highly homologous to ORF513 found in the corresponding region of liverwort chloroplast DNA and ORF563 located downstream from trnT in Chlamydomonas moewusii chloroplast DNA. A possible pathway for the evolution of black pine chloroplast DNA is discussed.     

Genetic analysis of the minimal replicon of the Lactococcus lactis subsp. lactis biovar diacetylactis citrate plasmid

Using a combination of mutagenesis with the transposon and polymerase chain reaction subcloning, the essential elements of the replication region of the Lactococcus lactis subsp. lactis biovar diacetylactis citrate plasmid have been identified. An open reading frame, coding for a protein with homology to Rep proteins from other Lactococcus plasmids, is essential. This protein is trans-acting and could not be replaced by the Rep protein from another Lactococcus plasmid. A second open reading frame immediately downstream from the first could be removed or inactivated with no apparent effect on plasmid replication. A region containing two 10 by direct repeats and three tandem repeats of a 22 by sequence, immediately upstream of the essential open reading frame, is also essential and probably includes the origin of replication. A 181-bp DNA fragment containing this region was sufficient to allow replication in Lactococcus if the trans-acting protein was provided on another replicon. Single-stranded replication intermediates could not be detected, suggesting that the citrate plasmid uses theta replication rather than rolling-circle replication.     

Geographic structuring of chloroplast DNA genotypes inTiarella trifoliata (Saxifragaceae)

Tiarella trifoliata comprises varietieslaciniata, trifoliata, andunifoliata, and is distributed from southeastern Alaska to northern California. We analyzed restriction site variation of chloroplast DNA (cpDNA) using 23 endonucleases in 76 populations representing the entire geographic range of the species and the three recognized varieties. We also employed comparative restriction site mapping of PCR-amplified chloroplast DNA fragments using 16 restriction endonucleases. This species exhibits low cpDNA restriction site variation. No differentiation is evident among varieties of this species based on cpDNA data; some plants of each variety were characterized by each of the two major cpDNA types detected. The two major cpDNA clades, which differ by only a single restriction site mutation, are geographically structured. A northern clade comprises populations from Alaska to central Oregon; most populations analyzed from southern Oregon and California form a southern clade. Populations that possess the typical northern cpDNA type also occur disjunctly to the south at high elevations in the Siskiyou—Klamath Mountain area of southern Oregon and northern California. Conversely, the southern cpDNA type is found disjunctly to the north in the Olympic Peninsula of Washington. Both geographic areas characterized by disjunct cytoplasms are considered glacial refugia.Tiarella trifoliata joins two other species,Tolmiea menziesii andTellima grandiflora, in having well-demarcated northern and southern cpDNA lineages. All three species have similar life-history traits and geographic distributions. We suggest that glaciation may have played a major role in the formation of the cpDNA discontinuities present in these three taxa. The pronounced relationship between cpDNA variation and geographic distribution suggests the potential applicability of intraspecific phylogeography to plants via the analysis of intraspecific cpDNA variation. These three examples also join a rapidly growing data base which indicates that cytoplasms are often geographically structured within species and species complexes.