Homologies between nuclear and plastid DNA in spinach

Summary Homologies between spinach nuclear (n) DNA and Chloroplast (pt) DNA, have been detected with a clone bank of spinach ptDNA as hybridization probes to restriction fragments of nDNA prepared from purified root nuclei. Every cloned fragment of ptDNA showed homologies to discrete restriction fragments of nDNA, different from those of ptDNA, indicating integration of these homologies into nDNA. While most ptDNA clones were relatively large and probably contained several genes, sequence homologies were also found to the cloned plastid gene for RuBP carboxylase and the subunit of ptATPase. Many of the homologies in nDNA occur in regions of the genome that are highly methylated and are not digested by the methylation sensitive restriction endonucleases HpaII and MspI. In contrast these enzymes cleave ptDNA into small fragments which allows the nDNA homologies to be distinguished in total root DNA. The sequence homologies observed were not due to contaminating non nuclear sequences as shown by hybridization to mitochondrial (mt) and bacterial DNAs. The total amount of homology to ptDNA in nDNA is equivalent to about five copies of the plastome per haploid nuclear genome. The homologies generally appear to be in individual segments of less than 2 kbp in length, integrated into several different places in the genome.On sabbatical leave from Department of Botany, University College, Dublin, Ireland     

Homologies to chloroplast DNA in the nuclear DNA of a number of Chenopod species

Summary Sequences homologous to chloroplast (ct)DNA have been found in nuclear DNA in five species of the Chenopodiaceae, extending the earlier observations of promiscuous DNA in Spinacia oleracea (Timmis and Scott 1983). Using the 7.7 kbp spinach ctDNA Pst I fragment as a hybridization probe, several separately located homologies to ctDNA were resolved in the nuclear DNA of Beta vulgaris, Chenopodium quinoa, and Enchylaena tomentosa. In Chenopodium album and Atriplex cinerea the major region of homology was to a nuclear Eco RI fragment (6 kbp) indistinguishable from that in ctDNA. These homologies may therefore involve larger tracts of ctDNA because the same restriction sites are apparently retained in the nucleus. This suggests that in these latter two species there is a contrasting, more homogeneous arrangement of ctDNA transpositions in the nucleus.     

Phylogenetic relationships and natural hybridization in Triadica inferred from nuclear and chloroplast DNA analyses

Triadica (Euphorbiaceae) is a small genus endemic to East Asia and Southeast Asia, consisting of three species differentially adapted to heterogeneous habitats. To date, the phylogenetic relationships of this genus have not been resolved, and there has been no evidence for interspecific hybridization in Triadica. In this study, we sequenced the nrITS regions, two nuclear genes and a chloroplast gene to reconstruct the molecular phylogeny of Triadica and to test the hypothesis of natural hybridization between Triadica sebifera and Triadica cochinchinensis, and between T. sebifera and Tridica rotundifolia. Phylogenetic analysis showed that T. sebifera diverged first within this genus, and T. cochinchinensis and T. rotundifolia were sister species. Both of the two putative hybrids show chromatogram additivity at each of the two nuclear genes, providing convincing evidence for natural hybridization between T. sebifera and T. cochinchinensis, and between T. sebifera and T. rotundifolia. The chloroplast gene sequences of both hybrids were identical with that of T. sebifera, suggesting that T. sebifera was the maternal parent of the two hybrids. This is the first report of natural hybridization in Triadica, and the hybrids identified in this study should be a good starting point for further hybridization-based breeding in T. sebifera.     

Tobacco nuclear DNA contains long tracts of homology to chloroplast DNA

Summary Long tracts of DNA with high sequence homology to chloroplast DNA were isolated from nuclear genomic libraries of Nicotiana tabacum. One lambda EMBL4 clone was characterised in detail and assigned to nuclear DNA. The majority of the 15.5-kb sequence is greater than 99% homologous with its chloroplast DNA counterpart, but a single base deletion causes premature termination of the reading frame of the psaA gene. One region of the clone contains a concentration of deleted regions, and these were used to identify and quantify the sequence in native nuclear DNA by polymerase chain reaction (PCR) methods. An estimated 15 copies of this specific region are present in a 1c tobacco nucleus.     

Variability of chloroplast DNA and nuclear ribosomal DNA in cassava (Manihot esculenta Crantz) and its wild relatives

Chloroplast DNA (cp) and nuclear ribosomal DNA (rDNA) variation was investigated in 45 accessions of cultivated and wild Manihot species. Ten independent mutations, 8 point mutations and 2 length mutations were identified, using eight restriction enzymes and 12 heterologous cpDNA probes from mungbean. Restriction fragment length polymorphism analysis defined nine distinct chloroplast types, three of which were found among the cultivated accessions and six among the wild species. Cladistic analysis of the cpDNA data using parsimony yielded a hypothetical phylogeny of lineages among the cpDNAs of cassava and its wild relatives that is congruent with morphological evolutionary differentiation in the genus. The results of our survey of cpDNA, together with rDNA restriction site change at the intergenic spacer region and rDNA repeat unit length variation (using rDNA cloned fragments from taro as probe), suggest that cassava might have arisen from the domestication of wild tuberous accessions of some Manihot species, followed by intensive selection. M. esculenta subspp flabellifolia is probably a wild progenitor. Introgressive hybridization with wild forms and pressures to adapt to the widely varying climates and topography in which cassava is found might have enhanced the crop's present day variability.     

Extensive homologous chloroplast DNA recombination in the pt14 Nicotiana somatic hybrid

Summary In a previous study, six recombination sites have been confirmed in the chloroplast DNA (cpDNA) of pt14, a somatic hybrid of Nicotiana tabacum and Nicotiana plumbaginifolia. In the present study, physical mapping revealed six recombination sites in the 11.4-kb SalI fragment alone, only one of which has been previously identified. This fragment is located in the large unique region. We assume, therefore, that the pt14 cpDNA is a fine mosaic of the parental genomes with a recombination site about every 2 kb. A 748-bp region that comprised the intergenic region between ORF73 and ORF74B, and 460 bp of the petD intron have been sequenced. Parent-specific sequences in the pt14 DNA defined the regions within which recombination took place. The exact site of recombination events could not be determined because the parental sequences were identical between the polymorphic markers, and these sequences have been preserved in the pt14 line.     

The sequence-directed bent DNA detected in the replication origin of Chlamydomonas reinhardtii chloroplast DNA is important for the replication function

Summary We demonstrated that the 1055 by restriction fragment containing OriA, a chloroplast DNA replication origin of Chlamydomonas reinhardtii, has electrophoretic anomalies characteristic of bent DNA. A tandem dimer of the region was constructed. Quantitative measurement of the relative gel mobility of a set of permuted fragments was used to extrapolate the approximate position of the bent DNA segment. By analyzing the gel mobility of short, sequenced fragments of the bent DNA region, the putative bending locus was identified. Two A₄ tracts and two A5 tracts were located in the bending locus. Oligonucleotide-directed mutagenesis was then used to disrupt the A tract or the spacing between A tracts and the effect of site-specific mutation on electrophoretic mobility was analyzed. To assess the functional role of the bent DNA region, subclones containing the bending locus, mutated bending locus, and regions flanking the bending locus were constructed. Each subclone was used as template in an in vitro DNA replication system which preferentially initiated DNA replication at OriA. A 224 by subclone with the bending locus positioned in the middle displayed the highest replication function and was sufficient to initiate DNA replication in vitro. Site-specific mutations or alterations of the A tracts resulted in decreased DNA bending and decreased DNA replication activity.     

Isolation and phenotypic characterization ofChlamydomonas reinhardtii mutants defective in chloroplast DNA segregation

Summary Each wild-typeChlamydomonas reinhardtii cell has one large chloroplast containing several nuclei (nucleoids). We used DNA insertional mutagenesis to isolate Chlamydomonas mutants which contain a single, large chloroplast (cp) nucleus and which we namedmoc (monokaryotic chloroplast). DAPI-fluorescence microscopy and microphotometry observations revealed thatmoc mutant cells only contain one cp-nucleus throughout the cell division cycle, and that unequal segregation of cpDNA occurred during cell division in themoc mutant. One cell with a large amount of cpDNA and another with a small amount of cpDNA were produced after the first cell division. Unequal segregation also occurred in the second cell division, producing one cell with a large amount (about 70 copies) of cpDNA and three other cells with a small amount (only 2–8 copies) of cpDNA. However, most individualmoc cells contained several dozen cpDNA copies 12 h after the completion of cell division, suggesting that cpDNA synthesis was activated immediately after chloroplast division. In contrast to the cpDNA, the mitochondrial (mt) DNA of themoc mutants was observed as tiny granules scattered throughout the entire cell. These segregated to each daughter cell equally during cell division. Electron-microscopic observation of the ultrastructure ofmoc mutants showed that a low-electron-density area, which was identified as the cp-nucleus by immunoelectron microscopy with anti-DNA antibody, existed near the pyrenoid. However, there were no other structural differences between the chloroplasts of wild-type cells andmoc mutants. The thylakoid membranes and pyrenoid were identical. Therefore, we propose that the novelmoc mutants are only defective in the dispersion and segregation of cpDNA. This strain should be useful to elucidate the mechanism for the segregation of cpDNA.Abbreviations DAPI 4,6-diamidino-2-phenylindole - VIMPCS video-intensified microscope photon-counting system     

Wax plants disentangled: a phylogeny of Hoya (Marsdenieae, Apocynaceae) inferred from nuclear and chloroplast DNA sequences

Hoya (Marsdenieae, Apocynaceae) includes at least 200 species distributed from India to the Pacific Islands. We here infer major species groups in the genus based on combined sequences from the chloroplast atpB-rbcL spacer, the trnL region, and nuclear ribosomal DNA ITS region for 42 taxa of Hoya and close relatives. To assess levels of ITS polymorphism, ITS sequences for a third of the accessions were obtained by cloning. Most ITS clones grouped by species, indicating that speciation in Hoya usually predates ITS duplication. One ITS sequence of H. carnosa, however, grouped with a sequence of the morphologically similar H. pubicalyx, pointing to recent hybridization or the persistence of paralogous copies through a speciation event. The topology resulting from the combined chloroplast and nuclear data recovers some morphology-based sections, such as Acanthostemma and Eriostemma, as well as a well-supported Australian/New Guinean clade. The combined data also suggest that morphological adaptations for ant-symbiosis evolved at least three times within Hoya.     

Chromosomal DNA from both flagellate and non-flagellate Bordetella species contains sequences homologous to the Salmonella H1 flagellin gene

Abstract The genus Bordetella contains four species: two are non-motile, the human pathogens B. pertussis and B. parapertussis ; and two are motile, the broad host-range mammalian pathogen B. bronchiseptica , and the avian pathogen B. avium . The motility of the latter two species is due to peritrichous flagella. Here we show that strains of all four species contain DNA sequences homologous to flagellin genes. Two types of gene probe were hybridised to Bordetella chromosomal DNA in Southern blots: the structural gene for H1 flagellin of Salmonella typhimurium and an oligonucleotide derived from the conserved N-terminal amino acid sequences of various flagellin proteins. Cla I-digested DNA from all four Bordetella species hybridised with both probes in Southern blots, although each species gave a characteristic pattern of hybridisation. This indicates that the non-motile B. pertussis and B. parapertussis species contain non-expressed flagellin genes.     

A chloroplast DNA hypervariable region in eucalypts

Eucalypt chloroplast DNA (cpDNA) provides useful markers for phylogenetic and population research including gene flow and maternity studies. All cpDNA studies in Eucalyptus to date have been based on the RFLP technique, which requires relatively large amounts of clean DNA. The objective of this study was to develop PCR-based cpDNA markers for Eucalyptus. The chloroplast genome of Eucalyptus, like that of most angiosperms, possesses inverted repeats (IR). The two junctions between the IRs and the large single copy (LSC) regions are defined as J_LA andJ_LB. The region surrounding the J_LA junction was sequenced from 26 Eucalyptus DNA samples (21 of E. globulus, plus 5 other species), andtheJ_LB region was sequenced using 5 of these samples. The samples were chosen to represent all major haplotypes identified in previous cpDNA RFLP studies. The J_LA products were 150–210 bp in size, while those fromJ_LB were approximately 500 bp in size. Eighteen mutations were scored in total. Extensive variation was found in the IR within the intergenic spacer between rpl2 and the IR/LSC junctions. Many of these characters were complex indels. One sample of E. globulus possessed a relatively large (38 bp) insertion which caused displacement of the IR/LSC junctions. This is the first report of intraspecific variation in the position of IR/LSC junctions; interspecific variation was also found. The LSC region near J_LB had a low rate of mutation and none were informative. The LSC region near J_LA possessed 2 informative mutations. The variation revealed from these sequences reflects the differentiation previously uncovered in an extensive RLFP analysis on the same samples. These results suggest that the J_LA region will provide very useful cpDNA polymorphisms for future studies in Eucalyptus. Received: 20 March 1999 / Accepted: 16 December 1999     

Comparative study on the chloroplast,mitochondrial and nuclear genome differentiation in two cultivated rice species,Oryza sativa and O. glaberrima,by RFLP analyses

Summary Restriction fragment length polymorphisms of chloroplast (ct), mitochondrial (mt) and nuclear DNA were investigated using eight cultivars of Oryza sativa and two cultivars of O. glaberrima. Relative variability in the nuclear and cytoplasmic genomes was estimated by a common measure, genetic distance. Based on the average genetic distances among ten cultivars for each genome, the evolutionary variabilities of the mitochondrial and nuclear genomes were found to be almost the same, whereas the variability of the chloroplast genome was less than half that of the other two genomes. Cluster analyses on ct and mt DNA variations revealed that chloroplast and mitochondrial genomes were conservative within a taxon and that their differentiations were well-paralleled with respect to each other. For nuclear DNA variation, an array of different degrees of differentiation was observed in O. sativa, in contrast with little variation in O. glaberrima. As a whole, differentiation between O. sativa and O. glaberrima was clearly observed in all three genomes. In O. sativa, no notable difference was found between the cultivars Japonica and Javanica, whereas a large differentiation was noticed between Japonica (including Javanica) and Indica. In all three genomes, the average genetic distances within Indica were much larger than those within Japonica (including Javanica), and almost similar between Japonica (including Javanica) and Indica. These facts indicate that differentiation in O. sativa was due mainly to Indica.     

基于核基因和叶绿体基因序列的杏属系统发育分析——探讨洪平杏的起源和亲缘关系

洪平杏(Armeniaca hongpingensis C. L. Li)是杏属的一个狭域分布种,基于形态观察被推测为杏(A.vulgaris Lam.)和梅(A. mume Sieb.)的天然杂交种,但目前尚无该种与杏、梅亲缘关系的分子系统学研究。本文以洪平杏的成株和实生苗以及包括杏、梅在内的6种(含1变种)杏属植物为研究材料,分别采用核基因(ITS和SBEI)和叶绿体基因(mat K和ycf1b)序列构建系统发育树,并采用mat K、ycf1b和SBEI基因序列构建单倍型网络图,探讨该物种与杏、梅及杏梅(A. mume Sieb. var. bungo Makino)之间的亲缘关系。基于核基因和叶绿体基因序列分别构建的系统发育树均显示,洪平杏的成株及其全部实生苗个体单独聚为一支,且具有较高的支持率(分别为99/79、71/81),独立于杏属其他种之外。而基于核基因ITS序列的系统发育分析结果表明,洪平杏除极少数成株与杏、杏梅聚为一支外,其余所有成株与实生苗聚为2大支(支持率分别为0.82和0.97),而没有克隆的与梅聚在一起。单倍型分析结果表明,该物种的成株与实生苗在SBEI和ycf1b基因序列中均未检测到杏或梅的单倍型,仅有少数(2/9)的实生苗个体在叶绿体mat K基因序列中检测到杏的单倍型。研究结果不支持将洪平杏定为杏和梅的天然杂交种的观点,推测洪平杏应为一个独立的物种,与杏之间的亲缘关系更近并且存在可检测到的基因流。     

Identification of the entire set of transferred chloroplast DNA sequences in the mitochondrial genome of rice

Summary The entire set of transferred chloroplast DNA sequences in the mitochondrial genome of rice (Oryza sativa cv. Nipponbare) was identified using clone banks that cover the chloroplast and mitochondrial genomes. The mitochondrial fragments that were homologous to chloroplast DNA were mapped and sequenced. The nucleotide sequences around the termini of integrated chloroplast sequences in the rice mtDNA revealed no common sequences or structures that might enhance the transfer of DNA. Sixteen chloroplast sequences, ranging from 32 bases to 6.8 kb in length, were found to be dispersed throughout the rice mitochondrial genome. The total length of these sequences is equal to approximately 6% (22 kb) of the rice mitochondrial genome and to 19% of the chloroplast genome. The transfer of segments of chloroplast DNA seems to have occurred at different times, both before and after the divergence of rice and maize. The mitochondrial genome appears to have been rearranged after the transfer of chloroplast sequences as a result of recombination at these sequences. The rice mitochondrial DNA contains nine intact tRNA genes and three tRNA pseudogenes derived from the chloroplast genome.     

The complete sequence of the rice (Oryza sativa) chloroplast genome: intermolecular recombination between distinct tRNA genes accounts for a major plastid DNA inversion during the evolution of the cereals

Summary The entire chloroplast genome of the monocot rice (Oryza sativa) has been sequenced and comprises 134525 bp. Predicted genes have been identified along with open reading frames (ORFs) conserved between rice and the previously sequenced chloroplast genomes, a dicot, tobacco (Nicotiana tabacum), and a liverwort (Marchantia polymorpha). The same complement of 30 tRNA and 4 rRNA genes has been conserved between rice and tobacco. Most ORFs extensively conserved betweenN. tabacum andM. polymorpha are also conserved intact in rice. However, several such ORFs are entirely absent in rice, or present only in severely truncated form. Structural changes are also apparent in the genome relative to tobacco. The inverted repeats, characteristic of chloroplast genome structure, have expanded outward to include several genes present only once per genome in tobacco and liverwort and the large single copy region has undergone a series of inversions which predate the divergence of the cereals. A chimeric tRNA pseudogene overlaps an apparent endpoint of the largest inversion, and a model invoking illegitimate recombination between tRNA genes is proposed which accounts simultaneously for the origin of this pseudogene, the large inversion and the creation of repeated sequences near the inversion endpoints.     

Monokaryotic chloroplast mutation has no effect on non-Mendelian transmission of chloroplast and mitochondrial DNA in Chlamydomonas species

Summary. We studied whether the monokaryotic chloroplast (moc) mutation affects the transmission of chloroplast and mitochondrial DNA in Chlamydomonas species. We used a previously isolated moc mutant from our cell line G33, which had only one large chloroplast nucleus. To obtain zygotes we crossed the mutant cells with wild-type cells, and mutant cells with receptive mates (females [mt+] with males [mt–]). In these zygotes, we recorded preferential dissolution of mt– parental chloroplast nuclei and fusion of the two cell nuclei. Antibiotic-resistance markers of chloroplast DNA were maternally transmitted in all crosses. PCR analysis of the cytochrome b (cob) gene sequence showed that the mitochondrial DNA was paternally transmitted to offspring. These results suggest that the moc mutation did not affect the organelle DNA transmission.Correspondence and reprints: Laboratory of Cell and Functional Biology, Faculty of Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan.     

Genome characterization of glucose-isomerase-producingStreptomyces sp. NCIM 2730: detection of sequences homologous to a rice repeat sequence

Restriction analysis of the genomic DNA from a high glucose/xylose-isomerase-yieldingStreptomyces sp. NCIM 2730 revealed a number of distinct bands on a background smear, indicating the occurrence of repeated DNA sequences in the genome. Optical renaturation analysis indicated that 25% of the genome comprised rapidly reannealing sequences with a copy number of 50 and a kinetic complexity of 3×10³. Hybridization of theStreptomyces genomic library with theStreptomyces DNA, supported the estimate of the repetitive DNA content derived from the re-association kinetics of the DNA. Hybridization of DNA from three differentStreptomyces species with a rice repetitive DNA probe revealed the presence of homologous sequences, which is a unique finding.M.S. Ghatge was and V.V. Deshpande and P.K. Ranjekar are with the Division of Biochemical Sciences, National Chemical Laboratory, Pune -41108, India; M.S. Ghatge is now with the Department of Microbiology & Molecular Biology, The University of Kansas Medical Center, 36th and Rainbow Blvd, Kansas City, Kansas - 66103, USA.     

Intraspecific sequence variation of chloroplast DNA among the component species of evergreen broad-leaved forests in Japan

For the purpose of phylogeographic study of lucidophyllous (evergreen broad-leaved) forests in Japan, we surveyed intraspecific chloroplast DNA (cpDNA) variation in 41 component species of such forests. Intraspecific cpDNA variations were detected in 14 species. In 15 species and one species group, 16 non-coding cpDNA regions were examined to find intraspecific sequence variation. The extent of variation in these regions was compared. The largest amount of intraspecific variation was detected in the rps16 region. A relatively large amount of intraspecific variation was detected in the petD-rpoA, rpl16, and trnL-F regions. It is suggested that these regions of cpDNA would be useful for detecting intraspecific variation in plant species, and could provide valuable information for various research purposes.     

Variable copy number DNA sequences in rice

Summary We have cloned two types of variable copy number DNA sequences from the rice embryo genome. One of these sequences, which was cloned in pRB301, was amplified about 50-fold during callus formation and diminished in copy number to the embryonic level during regeneration. The other clone, named pRB401, showed the reciprocal pattern. The copy numbers of both sequences were changed even in the early developmental stage and eliminated from nuclear DNA along with growth of the plant. Sequencing analysis of the pRB301 insert revealed some open reading frames and direct repeat structures, but corresponding sequences were not identified in the EMBL and LASL DNA databases. Sequencing of the nuclear genomic fragment cloned in pRB401 revealed the presence of the 3rps12-rps7 region of rice chloroplast DNA. Our observations suggest that during callus formation (dedifferentiation), regeneration and the growth process the copy numbers of some DNA sequences are variable and that nuclear integrated chloroplast DNA acts as a variable copy number sequence in the rice genome. Based on data showing a common sequence in mitochondria and chloroplast DNA of maize (Stern and Lonsdale 1982) and that the rps12 gene of tobacco chloroplast DNA is a divided gene (Torazawa et al. 1986), it is suggested that the sequence on the inverted repeat structure of chloroplast DNA may have the character of a movable genetic element.