Changes in Chloroplast DNA Levels during Development of Pea (Pisum sativum)

Determinations were made of the percentage of chloroplast DNA (ct DNA) in total cell DNA isolated from shoots of pea at different stages of development. Labeled pea ct DNA was reassociated with a high concentration of total DNA; the percentage of ct DNA was estimated by comparing the rate of reassociation of this reaction with that of a model reaction containing a known concentration of unlabeled ct DNA. The maximum change in ct DNA content was from 1.3% of total DNA in young shoots to 7.3% in fully greened shoots. Analyses were also performed on DNA from embryos, etiolated tissue, roots, and leaves. The first leaf set to develop in pea was excised over a growth period of 8 days during which leaf length increased from 4 to 12 millimeters. Young leaves contained about 8% ct DNA; in fully greened leaves the level of ct DNA approached 12%, equivalent to as many as 9,575 copies of ct DNA per cell. Root tissue contained only 0.4% ct DNA.     

Copy numbers of chloroplast and nuclear genomes are proportional in mature mesophyll cells of Triticum and Aegilops species

The possibility of estimating the proportion of chloroplast DNA (ctDNA) and nuclear DNA (nDNA) in nucleic-acid extracts by selective digestion with the methylation-sensitive restriction enzyme PstI, was tested using leaf extracts from Spinacia oleracea and Triticum aestivum. Values of ctDNA as percentage nDNA were estimated to be 14.58%±0.56 (SE) in S. oleracea leaves and 4.97%±0.36 (SE) in T. aestivum leaves. These estimates agree well with those already reported for the same type of leaf material. Selective digestion and quantitative dot-blot hybridisation were used to determine ctDNA as percentage nDNA in expanded leaf tissue from species of Triticum and Aegilops representing three levels of nuclear ploidy and six types of cytoplasm. No significant differences in leaf ctDNA content were detected: in the diploids the leaf ctDNA percentage ranged between 3.8% and 5.1%, and in the polyploids between 3.5% and 4.9%. Consequently, nuclear ploidy and nDNA amount were proportional to ctDNA amount (r₍₁₉₎=0.935, P>0.01) and hence to ctDNA copy number in the mature mesophyll cells of these species. There was a slight increase in ctDNA copy numbers per chloroplast at higher ploidy levels. The balance between numbers of nuclear and chloroplast genomes is discussed in relation to polyploidisation and to the nuclear control of ctDNA replication.Abbreviations ctDNA chloroplast DNA - nDNA nuclear DNA - RuBPCase ribulose-1,5-bisphosphate carboxylase - DAPI 4,6-diamidine-2-phenylindole     

Changes in chloroplast number during pea leaf development

Protoplasts were prepared from pea (Pisum sativum L.) leaves throughout development and their contents spread in a monolayer to determine the number of chloroplasts per cell. This approach permitted the rapid analysis of more than 100 cells at each stage of development. The average number of chloroplasts per cell increased from 24±10 to 64±20 during greening and expansion of the first true foliage leaves; all cells containing chloroplasts apparently increase their chloroplast number. A parallel increase in the amount of DNA per nucleus was not observed. As the leaves senesced the chloroplast number gradually decreased to 44±12. We have correlated these changes with our previous results on the percentage of chloroplast DNA per cell. Chloroplast multiplication resulted in a 2.7-fold dilution (from 272 to 102) of the number of copies of the chloroplast DNA molecule per plastid.     

Plastid-DNA levels in the different tissues of potato

The plastid-(pt) DNA levels in the different tissues of potato (Solanum tuberosum L.), including tubers of differing ages, have been studied. The DNA could be detected as a single nucleoid in amyloplasts of cells from young potato tubers by fluorescence microscopy, following staining of glutaraldehyde-fixed tissue with 4,6-diamidino-2-phenyl indole (DAPI). The renaturation kinetics of spinach ptDNA in the presence of total DNA from potato tissues and the fragments generated by restriction-enzyme digestion of potato-tuber DNA and chloroplast DNA indicated that the ptDNA of potato-tuber amyloplasts and of potato-leaf chloroplasts is essentially the same. Expressed as a percentage of the total DNA the level of ptDNA (5.2%) found in tubers, while less than that found in leaves (7.6%) was more than that found in petioles (3.4%), stems (3.0%) and roots (1.0%). There was a high level of both nuclear and plastid ploidy in mature potato-tuber cells and, on average, nuclei contained 32 pg of DNA (equivalent to 14C) and the 40 amyloplasts per cell contained DNA equivalent to 7800 copies of ptDNA, or 195 copies per amyloplast.Abbreviations DAPI 4,6-diamidino-2-phenyl-indole - LSU large sub-unit of ribulose-1,5-bisphosphate carboxylase - mtDNA mitochondrial DNA - ptDNA chloroplast or plastid DNA     

Replication of chloroplast, mitochondrial and nuclear DNA during growth of unirradiated and UVB-irradiated Arabidopsis leaves

Replication of Arabidopsis nuclear, mitochondrial and chloroplast DNA (ncDNA, mtDNA, cpDNA) was assayed by measuring respective changes in copies per leaf, employing quantitative PCR (QPCR) analysis with genome-specific primer pairs. All three genomes showed parallel increases during growth of cotyledons and 5th leaves in planta, maintaining approximately 13 mtDNA copies and 280 cpDNA copies per haploid nuclear genome. Detached 5th leaves, which showed good growth and DNA replication on agar plates, were irradiated at (DNA-effective) UV-B fluences of 1.3-5.0 kJ m-2 and incubated under blue (photorepair-active) plus gold light or gold light only. Under blue light, replication of all genomes after all UV fluences was approximately as efficient as replication in unirradiated leaves. UV-irradiated leaves showed little growth under gold light only; 5 kJ m-2 stopped replication of all three genomes, 2.5 kJ m-2 stopped only cpDNA replication, and 1.3 kJ m-2 only delayed cpDNA replication. Immunoassays showed that 5 kJ m-2 induced about 1.2 cyclobutane pyrimidine dimers and 0.1 [6-4]photoproducts per kbp of bulk DNA, and that both photoproducts were completely removed during 2-3 days under blue light, suggesting efficient photorepair of at least ncDNA and cpDNA. The evidence for efficient photorepair of organellar DNA contrasts with previous studies of irradiated 5-day-old seedlings, and with the apparent absence of Arabidopsis photolyases bearing transit peptides.     

Plastid DNA diversity in natural populations of Beta maritima showing additional variation in sexual phenotype and mitochondrial DNA

Summary Plants of two natural populations of Beta maritima, characterized by high percentages of male-sterile plants, have been investigated for organelle DNA polymorphism. We confirm the two classes of mitochondrial DNA variation previously described: (i) mitochondrial DNA (mtDNA) type N is associated with male fertility, whereas mtDNA type S can cause cytoplasmic male sterility (CMS); (ii) the 10.4-kb linear plasmid is observed in both types of mitochondria and is not correlated with the cytoplasmic male sterility occurring in this plant material. A third polymorphism is now described for chloroplast DNA (ctDNA). This polymorphism occurs within single populations of Beta maritima. Three different ctDNA types have been identified by HindIII restriction analysis. Among the plants studied, ctDNA type 1 is associated with N mitochondria and type 2 with S mitochondria. Chloroplast DNA type 3 has been found both in a fertile N plant and in a sterile S plant. This finding suggests that the chloroplast DNA polymorphism reported is not involved in the expression of male sterility. A comparison with Beta vulgaris indicates that ctDNA type 3 of Beta maritima corresponds to the ctDNA of fertile sugar beet maintainer lines. The three types of Beta maritima ctDNA described in this study differ from the ctDNA of male-sterile sugar beet.     

The pattern of amyloplast DNA accumulation during wheat endosperm development

The accumulation of amyloplast DNA during endosperm development was studied in two cultivars of spring wheat, Triticum aestivum L. Chinese Spring (CS) and Spica, small and relatively larger-grained cultivars, respectively. Endosperms were isolated between 9 and 45 days post anthesis (dpa) and the amyloplast DNA content of endosperm nucleic-acid extracts was measured by quantitative hybridisation with a homologous chloroplast-DNA probe. The endosperm cells of CS and Spica accumulated amyloplast DNA during development in a similar way. In both cultivars there was a large increase in the amount of plastid DNA (ptDNA) per endosperm between 9 and about 15 dpa, after which there was no further increase. Because nuclear DNA continued to accumulate until 24 dpa, the percentage contribution of amyloplast DNA to total DNA fluctuated in both cultivars during development, reaching maxima at 12 dpa of about 1.00% and 0.85%, and dropping to apparently constant levels of 0.60% and 0.52% in CS and Spica, respectively, by 24 dpa. In both cultivars, the average number of ptDNA copies per amyloplast was calculated to increase from about 10 copies at 9 dpa to about 50 copies in the mature amyloplasts at 31 dpa. However, the heavier endosperms of Spica contain more cells than those of CS and the varieties therefore differed in the amount of ptDNA that accumulated per endosperm: Spica endosperms accumulated 110 ng of ptDNA by 15 dpa, compared with only 85 ng in CS. The apparent accumulation of ptDNA copies in wheat amyloplasts during endosperm development contrasts with the decline in chloroplast-DNA copies in wheat chloroplasts during leaf development.Abbreviations CS Chinese Spring - ctDNA chloroplast DNA - dpa days post anthesis - kbp 10³ base pairs - nDNA nuclear DNA - ptDNA plastid DNA - mtDNA mitochondrial DNA     

Nuclear and mitochondrial DNA have sequence homology with a chloroplast gene

Summary A PstI 7.7 kbp fragment from chloroplast (ct) DNA of spinach shows homology to an EcoRI 8.3 kbp fragment of mitochondrial (mt) DNA and in turn, both are homologous to a number of common regions of nuclear (n) DNA. The common area of homology between the chloroplast and mitochondrial fragments is between a KpnI 1.8 segment internal to the PstI sites in the ctDNA and an EcoRI/BamHI 2.9 kbp fragment at one end of the mitochondrial 8.3 kbp fragment. The KpnI 1.8 kbp ctDNA fragment is within a structural gene for the P₇₀₀ chlorophyll a apoprotein. Further analysis of this KpnI 1.8 kbp fragment confined the homologous region in mtDNA to a ct 0.8 kbp HpaII fragment. These smaller pieces of the organellar genomes share homologies with nuclear DNA as well as displaying unique hybridization sites. The observations reported here demonstrate that there is a common or closely related sequence in all three genetic compartments of the cell.     

Denaturation mapping studies on the circular chloroplast deoxyribonucleic acid from pea leaves.

The structure of circular pea chloroplast DNA (ctDNA) has been analyzed by denaturation mapping. All of the pea ctDNA molecules that were examined had identical gross base sequences. Denaturation maps were constructed at denaturation levels of 2.5%, 22%, and 44%. These denaturation maps showed that the circular pea ctDNA contained six small AT-rich regions on one-half of the DNA molecule, and two small GC-rich regions on the other half of the DNA molecule. The structure of pea ctDNA circular dimers was also examined. The results showed that the pea ctDNA circular dimers consisted of two monomer length units integrated in tandem repeat.     

Absolute quantitation of a heteroplasmic mitochondrial DNA deletion using a multiplex three-primer real-time PCR assay

Quantitation of wild-type and deleted mitochondrial DNA (mtDNA) coexisting within the same cell (a.k.a., heteroplasmy) is important in mitochondrial disease and aging. We report the development of a multiplex three-primer PCR assay that is capable of absolute quantitation of wild-type and deleted mtDNA simultaneously. Molecular beacons were designed to hybridize with either type of mtDNA molecule, allowing real-time detection during PCR amplification. The assay is specific and can detect down to six copies of mtDNA, making it suitable for single-cell analyses. The relative standard deviation in the threshold cycle number is approximately 0.6%. Heteroplasmy was quantitated in individual cytoplasmic hybrid cells (cybrids), containing a large mtDNA deletion, and bulk cell samples. Individual cybrid cells contained 100-2600 copies of wild-type mtDNA and 950-4700 copies of deleted mtDNA, and the percentage of heteroplasmy ranged from 43+/-16 to 95+/-16%. The average amount of total mtDNA was 3800+/-1600 copies/cybrid cell, and the average percentage of heteroplasmy correlated well with the bulk cell sample. The single-cell analysis also revealed that heteroplasmy in individual cells is highly heterogeneous. This assay will be useful for monitoring clonal expansions of mtDNA deletions and investigating the role of heteroplasmy in cell-to-cell heterogeneity in cellular models of mitochondrial disease and aging.     

Homology between the ribosomal DNA of Escherichia coli and mitochondrial DNA preparations of maize is principally to sequences other than mitochondrial rRNA genes

E. coli ribosomal DNA has been used to probe maize mitochondrial DNA. It hybridizes primarily with chloroplast ribosomal DNA sequences and with fungal and bacterial sequences which may contaminate the mtDNA preparations. It also hybridizes to the chloroplast 16S ribosomal RNA gene sequence present in the mitochondrial genome (1) as well as to the mitochondrial 18S ribosomal RNA gene sequence. Weak sequence homology was detected between E. coli rDNA and the mitochondrial 26S ribosomal RNA gene.     

荧光定量PCR精确检测人胚胎干细胞线粒体DNA拷贝数方法的建立

建立一种精确定量人胚胎干细胞线粒体DNA拷贝数的方法。构建包含线粒体DNANDl和核单拷贝基β-globin基因序列的重组质粒作为标准品;收集无饲养层培养体系下人胚胎干细胞DNA样本,结合2个单独的Taqman探针实时荧光定量PCR对待测样本中线粒体NDl和核β-globin基因分别进行定量,从而对人胚胎干细胞线粒体DNA的含量进行了精确定量。结果提示,人胚胎干细胞线粒体DNA的平均拷贝数／细胞为1321±228。研究表明,该技术可对人胚胎干细胞线粒体DNA拷贝数进行准确的测定,为研究培养条件对人胚胎干细胞线粒体DNA拷贝数的影响及优化体外培养条件奠定了基础。     

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.     

Development of cytosol and chloroplast aldolases during germination of spinach seeds

The total activity of aldolase (EC 4.1.2.13) and the activities of cytosol and chloroplast aldolase were determined in seeds, cotyledons, primary leaves and secondary leaves of spinach (Spinacia oleracea L., cv. Monopa) during germination. Total aldolase activity in cotyledons increased from low levels to a low maximum in the dark after one week and to a high maximum in white light after three to four weeks and declined thereafter. The activity in primary and secondary leaves started to rise strongly from the 18th and 26th days, respectively, up to the 42nd day of germination. The levels of aldolase activity paralleled the development of leaf area, chlorophyll content and protein content per leaf except that the leaf area of cotyledons continued to increase steadily up to the 42nd day after the maximum of aldolase activity was reached. Resolution of cytosol- and chloroplast-specific isoenzymes by chromatography on diethylaminoethylcellulose indicated that in the light the cytosol enzyme represented approx. 8% of the total activity in cotyledons, primary and secondary leaves throughout germination, and the chloroplast enzyme represented the remaining 92%. Only in cotyledons of dark-grown seedlings was the cytosol aldolase between 25 and 50% of the total activity. Seeds contained almost exclusively a cytosol aldolase. In cotyledons the increase of total activity in the light was specifically the consequence of an increase in chloroplast aldolase while the cytosol aldolase was little affected by light. The light effect was mediated by phytochrome as demonstrated by classical induction and reversion experiments with red and far-red light and by continuous far-red light treatment.Abbreviation DEAE-cellulose diethylaminoethylcellulose     

Chloroplast and Nuclear DNA Content of Cultured Spinach Leaf Discs

The amounts of chloroplast DNA and nuclear DNA in the cellsof spinach leaf discs cultutred under different light regimeshave been measured. The cellular level of ctDNA increased 10-foldin discs cultured in white light and was accompanied by a 2-foldincrease in the cellular level of nuclear DNA. In low intensitygreen light the cellular level of ctDNA increased 6-fold butwas not accompanied by an increase in the level of nuclear DNA.No net DNA synthesis on a per cell basis occurred in discs culturedin darkness. Chloroplasts of uncultured leaf discs containedan average of 83 plastome copies. The number of plastome copiesper chloroplast after 6 days culture decreased to 36 copiesin darkness, remained almost constant at 73 copies in whitelight and increased to 215 copies in low intensity green light. These results suggest that ctDNA replication can be independentof cellular levels of nuclear DNA and chloroplast division.     

DNA Content of Beta vulgaris Chloroplasts during Leaf Cell Expansion

During the growth of beet leaves from 2 to 3 to 25 to 30 centimeters, the leaf cells increase in size, the average number of chloroplasts per cell increases from 11 to 65 and the amount of chloroplast DNA per cell increases from 1100 to 1900 plastome copies. The average number of copies of the plastome per chloroplast decreases from 104 in 2 to 3-centimeter leaves to 29 in 25 to 30-centimeter leaves during a period when the chloroplasts undergo two to three rounds of division and increase diameter from 1.5 to 4.9 micrometers. This result is at variance with previously published studies of beet chloroplasts but agrees with the conclusions reached in more recent studies of pea and spinach and wheat leaf cell expansion.     

Inheritance of chloroplast and mitochondrial DNA in alloplasmic forms of the genus Daucus

The inheritance of mitochondrial (mt) and chloroplast (ct) DNA in the progeny from interspecific crosses between the cultivated carrot (Daucus carota sativus) and wild forms of the genus Daucus was investigated by analysis of mt and ct RFLPs in single plants of the parental and filial generations. We observed a strict maternal inheritance of the organellar DNAs in all interspecific crosses examined. Previous studies on putative F₂ plants from a cross between Daucus muricatus x D. carota sativus suggested paternal inheritance of ctDNA. Our reinvestigation of this material revealed that the mtDNA of the putative F₂ plants differed from the mtDNA of both putative parents. Therefore, our data suggest that the investigated material originated from other, not yet identified, parents. Consequently, the analysis of this material cannot provide evidence for a paternal inheritance of ctDNA.     

Benzyladenine-induced increase in DNA content per chloroplast in intact bean leaves

Benzyladenine (BA) treatment was found to induce chloroplast DNA (ctDNA) synthesis after it had stopped in primary leaves of light-grown intact bean plants (Phaseolus vulgaris L.). The leaves were treated with BA from 7 days after sowing. Chloroplasts were isolated and the ctDNA content per chloroplast was determined. Chloroplast division occurred until 13 days after sowing in untreated leaves. BA stimulated the division keeping the level of ctDNA content per chloroplast the same as that in the untreated controls. After the division period, the ctDNA content per chloroplast increased in BA-treated leaves, but not in controls. Consequently, ctDNA per leaf (or per cell) increased immediately after the beginning of BA treatment, but remained constant in the control leaves.