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Plasmodial cultures of Physarum polycephalum have defined life spans and undergo a reproducible decline (senescence) before losing the ability to be subcultured. Studies
of the mtDNA of a long-lived Physarum strain, which does not undergo senescence, revealed a 7.9-kb insertion in its mtDNA. This insertion is derived from a mitochondrial
plasmid which enhances mitochondrial fusion and mtDNA recombination. Four different recombination events are required to convert
the parental mtDNA to the form found in the long-lived strain. An additional recombination event, which deletes a 2.4-kb region
of the insert from the long-lived strain, has been identified in the mtDNA of a normally senescing strain. These observations
imply a mitochondrial involvement in the process of plasmodial senescence and implicate a region of the DNA derived from the
mitochondrial plasmid as being necessary for plasmodial longevity.
Received: 11 August / 18 November 1997 相似文献
3.
Although mitochondrial DNA (mtDNA) is transmitted to progeny from one parent only in Physarum polycephalum, the mtDNAs of progeny of mF+ plasmodia vary in structure. To clarify the mechanisms associated with the mitochondrial plasmid mF that generate mtDNA polymorphisms, 91 progeny of four strains (KM88 × JE8, KM88 × TU111, KM88 × NG111, Je90) were investigated using RFLP analysis, PCR, and pulse-field gel electrophoresis (PFGE). Nine mtDNA rearrangement types were found, with rearrangements occurring exclusively in the mF regions. PFGE revealed that, in the groups containing rearranged mtDNA, the linear mF–mtDNA recombinants had recircularized. Sequencing the rearranged region of one of the progeny suggested that the mF plasmid and the mtDNA recombine primarily at the ID sequences, linearizing the circular mtDNA. Recombination between the terminal region of the mF plasmid and a region about 1 kbp upstream of the mitochondrial/plasmid ID sequence results in a rearranged circular mtDNA, with variations caused by differences in the secondary recombination region. 相似文献
4.
Summary A mitochondrial plasmid was isolated from Physarum polycephalum and characterized by restriction mapping. Cloned fragments of the plasmid were assembled and used to construct a restriction map. This plasmid was a linear molecule with telomeric structures at each end. Southern hybridization with the ends of the plasmid as probes revealed that the plasmid included repeating units at both ends, with each unit being approximately 125 bp in length. The most extensive array of repeats consisted of at least 17 repetitions of the 125-bp unit. The sensitivity of these repeats to Bal31 exonuclease confirmed that they were at, or very near to, the ends of the plasmid. From the extent of the repetitions, the size of the plasmid was estimated to vary from 13.3 kbp to more than 18.3 kbp. 相似文献
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The mitochondria of Physarum polycephalum have a linear plasmid (mF) which promotes mitochondrial fusion. To determine the terminal structure of the mF plasmid, restriction fragments derived from its ends were cloned and sequenced. The sequences showed that the mF plasmid has three kinds of terminal inverted repeats (TIRs). The most characteristic feature is a 144-bp repeating unit which exists between a 205-bp TIR at the extreme ends of the plasmid and another 591-bp TIR. All of the clones showed at least one of these 144-bp repeating units. The GC content of the 205-bp TIR (49%) was higher than those of the other TIRs and of another sequenced region (23%). This TIR can form three thermodynamically-stable hairpin structures based on complex internal palindromic components. Moreover, in the right terminal region of the mF plasmid, there is an open reading frame (ORF) which covers the entire 591-bp TIR and most of one of the 144-bp repeating units. This ORF encodes a 547-amino-acid polypeptide, ORF-547, and shows extensive homology with the polymerization domain of the putative DNA polymerases of linear mitochondrial plasmids from other sources. 相似文献
6.
Summary In one particular myxamoebal strain (NG7; mF+) of Physarum polycephalum, a linear mitochondrial plasmid (mF plasmid) which promotes mitochondrial fusion has been identified. A mating between mF- strains, that do not carry the mF plasmid, resulted in uniparental inheritance of the mtDNA. In matings between mF+ and mF- strains a recombination occurred between the mtDNA and the mF plasmid, and recombinant mtDNA was generated with the end of the mF plasmid as its ends. The DNA sequences of the recombination site in the mtDNA and the mF plasmid, and of the recombinant mtDNA, revealed that the mF plasmid had a 473-bp sequence that was identical to, but slightly shorter than, a 477-bp sequence of the mtDNA. This so-called identical sequence was found at the junction between unique sequences of the mF plasmid and the mtDNA in the recombinant mtDNA. Thus, the recombination between the mtDNA and the mF plasmid was due to reciprocal crossing-over at the identical sequence. 相似文献
7.
Mitochondrial DNA (mtDNA) is inherited maternally in most eukaryotes. Linear mitochondrial plasmids in higher plants and fungi are also transmitted from the maternal parent to the progeny. However, mF, which is a mitochondrial linear plasmid of Physarum polycephalum, evades uniparental mitochondrial inheritance. We examined 36 myxamoebal strains of Physarum
and isolated three novel mF+ strains (JE8, TU111, NG111) that harbored free mF plasmids. These strains were mated with the mF– strain KM88. Of the three mF–
× mF+ crosses, only KM88 × JE8 displayed complete uniparental inheritance. However, in KM88 × TU111 and KM88 × NG111, the mtDNA of KM88 and mF of TU111 and NG111 were inherited by the plasmodia and showed recombination. For example, although the mtDNA of TU111 was eliminated, the mF of TU111 persisted and became inserted into the mtDNA of KM88, such that recombinant mtDNA represented 80% of the total mtDNA. The parental mitochondria fused to yield giant mitochondria with two or more mitochondrial nucleoids. The mF appears to exchange mitochondria from the recipient (paternal) to the donor (maternal) by promoting mitochondrial fusion.The first two authors have equally contributed to this work 相似文献
8.
Studies of motility in Physarum polycephalum have concentrated on the well-defined actomyosin system in plasmodia. It is clear from recent genetic studies in lower eukaryotes that myosin is involved in a number of physiological processes in addition to the contractile functions previously asciibed to the classical type II myosins. Moreover, the myosin protein family has proved to be more complex than anticipated, with an increasing number of reported specialized isoforms. Although a myosin type II activity has been identified in both amoebae and plasmodia of P. polycephalum, and it has been inferred that these proteins undergo a phasespecific isoform switch during development, this phenomenon has not been analysed genetically. In an effort to understand the putative developmental expression of actomyosin-associated proteins, we isolated a 180-kDa protein from amoebae which is highly enriched, along with actin and myosin, in actomyosin preparations in the presence of mM concentrations of Mg++ ions and 10 mM of ATP. Using polyclonal antisera raised against pl80 we have cloned and sequenced a partial cDNA encoding a protein whose predicted amino-acid sequence indicates some similarity with the Dictyostelium discoideum myosin heavy-chain tail domain. Southern-blot and RFLP analyses indicate that the gene involved, designated mlpA (myosin-like protein), occurs in a single copy in the genome, is a novel Physarum gene and is expressed during amoebal and plasmodial growth and in the dormant forms of both these cell types. 相似文献
9.
Homology of two linear, mitochondrial (mt) Claviceps purpurea plasmids, pC1K1 and pClT5, to the upstream region of the large ribosomal RNA gene in the mtDNA of three strains (W3, T5 and K) has been investigated in detail to explore the widespread phenomenon of homology between mt plasmids and mtDNA in C. purpurea. Sequence comparison indicates that recombination between free plasmids and mtDNA is the cause of the observed homology. The process is similar to the integration of the structurally related adenoviruses into the mammalian genome. As in other fungi, palindromic sequences seem to be involved in this mitochondrial recombination process. 相似文献
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Summary The nucleotide sequence of the Physarum polycephalum small subunit ribosomal RNA (SSU rRNA) gene has been determined. Sequence data indicate that the mature 19S SSU rRNA is 1,964 nucleotides long. A complete secondary structure model for P. polycephalum SSU rRNA has been constructed on the basis of the Escherichia coli 16S rRNA model and data from comparative analyses of 28 different eukaryotic sequences. A four-helix model is presented for the central domain variable region. This model can be applied both to vertebrate and most lower eukaryotic SSU rRNAs. The increased size of P. polycephalum SSU rRNA relative to the smaller SSU rRNAs from such other lower eukaryotes, as Dictyostelium, Tetrahymena or Saccharomyces is due mainly to three G+C-rich insertions found in two regions known to be of variable length in eukaryotes. In a phylogenetic tree constructed from pairwise comparisons of eukaryotic SSU rRNA sequences, the acellular myxomycete P. polycephalum is seen to diverge before the appearance of the cellular mycomycete Dictyostelium discoideum. 相似文献
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Summary Amoebal and plasmodial encystment (spherulation) of Physarum polycephalum were compared. Encystment of amoebae was induced by the addition of glucose to a dense culture. A change in cellular proteins during the amoeba to rnicrocyst transition was demonstrated by SDS-polyacrylamide gel electrophoresis. We also observed that the encystment of amoebae did not involve the accumulation of the proteins which accompany plasmodial encystment. A cDNA library was constructed from poly(A)+ RNA of encysted amoebae and was screened by differential hybridization. Two different mRNAs, specific to mature microcysts were identified. These mRNAs were not found in encysted plasmodia. Likewise, four encysted plasmodial mRNAs were absent from microcysts. These results show that different developmental programs are used for amoebal and plasmodial encystment. 相似文献
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Summary A small fraction (Physarum polycephalum contains a high-density of cleavage sites for the restriction endonuclease HpaII. This component can be distinguished from the bulk of the DNA by 32P-end-labelling followed by size-fractionation using agarose-gel or polyacrylamide-gel electrophoresis. In contrast to the situation in mammalian-cell DNA, where the majority of such small HpaII DNA fragments are derived from CpG-rich islands within diverse single-copy sequences located in the proximity of housekeeping genes, most of the Physarum small HpaII DNA fragments form an array of distinct bands when analysed on polyacrylamide gels, indicating that they are repetitive DNA sequences. Direct sequence analysis shows that the majority of these sequences are derived from the Physarum rDNA minichromosome. 相似文献
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Summary Fragments of DNA with function as autonomous replication sequences in yeast were cloned from Physarum polycephalum. The ars activity is located in a 1.2 kbp fragment extanding 1.5 kbp to 2.7 kbp upstream of the 5 end of a histone H4 gene. Our recent finding that a replication origin is located at a distance less than 3 kbp of this histone gene suggests that the ars element identified coincides with a specialized replication origin and can be used to direct chromosome replication in Physarum polycephalum. 相似文献
15.
DNA molecules from mitochondria of whole plants and a suspension culture ofChenopodium album were prepared, by a gentle method, for analysis by electron microscopy. Mitochondrial (mt) DNA preparations from both sources contained mostly linear molecules of variable sizes (with the majority of molecules ranging from 40 to 160 kb). Open circular molecules with contour lengths corresponding to 0.3–183 kb represented 23–26% of all mtDNA molecules in the preparations from the suspension culture and 13–15% in the preparations from whole plants. More than 90% of the circular DNA was smaller than 30 kb. Virtually no size classes of the mtDNA molecules could be identified, and circular or linear molecules of the genome size (about 270 kb) were not observed. In contrast, plastid (pt) DNA preparations from the suspension culture contained linear and circular molecules falling into size classes corresponding to monomers, dimers and trimers of the chromosome. About 23% of the ptDNA molecules were circular. DNA preparations from mitochondria contained a higher percentage of more complex molecules (rosette-like structures, catenate-like molecules) than preparations of ptDNA. Sigma-like molecules (putative intermediates of rollingcircle replication) were observed in mtDNA preparations from the suspension culture (18% of the circles), and in much lower amount (1%) in preparations from whole plants. The results are compared with data obtained previously by pulsed-field gel electrophoresis and discussed in relation to the structural organization and replication of the mt genome of higher plants. 相似文献
16.
Summary A plasmid was constructed containing a replication origin sequence from the Physarum ribosomal DNA molecule, and a bacterial chloramphenicol acetyltransferase (CAT) gene linked to a putative promoter of the long terminal repeat (LTR) of the Physarum HpaII-repeat element. The plasmid was transfected into Physarum myxamoebae either by electroporation or CaCl2 treatment. In both cases significant transient levels of CAT gene expression were detected. Results were compared with those obtained with plasmids in which CAT gene expression was driven by eukaryotic virus promoters. 相似文献
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Summary Small supercoiled DNA molecules of Vicia faba were cloned and characterized by restriction mapping and molecular hybridization. The 1700 by S plasmid has been found to be specifically associated with the male sterile cytoplasms and exhibited large homologies with the other 1700 by F plasmid as shown by molecular cross hybridization. In one line bearing the male sterile 350 cytoplasm, a deleted mitochondrial plasmid of 1540 bp was observed and this plasmid derives from the 1700 bp S plasmid. Our results indicate therefore that three of the four plasmids analysed are closely related between each other. 相似文献
18.
We found that mitochondrial DNA (mtDNA) isolated from Physarum polycephalum fragmented itself in weak ionic solutions. The mtDNA was dissolved in STE (saline Tris-EDTA: 150 mM NaCl, 10 mM Tris-HCl,
1 mM EDTA), TE (10 mM Tris-HCl, 1 mM EDTA) and DW, and then electrophoresed in an agarose gel. The intact 86-kbp mtDNA band
was seen in STE, but several novel bands appeared in TE and DW. In TE, two discrete bands appeared at 6.7-kbp (α-band) and
5.0-kbp (β-band), whereas at least 17 discrete bands were observed in distilled water (DW). These fragmentation patterns were
not stoichiometric, as seen when using restriction endonucleases, but were clearly different from the degradation of DNA caused
by a physical shearing force or a contaminating nuclease. In this paper, we characterize this in vitro fragmentation of mtDNA
from P. polycephalum. We located 19 fragments, including the α and β fragments, on a mtDNA restriction map, and demonstrated that these cleavage
sites were S1 nuclease-sensitive regions, which are single-stranded DNA regions such as nicks and gaps in the mtDNA. The α
and β fragments are derived from the region encoding ribosomal RNAs (rRNAs) and the ATP synthase (atpA) gene, while the other 17 fragments are not derived from any specific region, but the cleavage sites are located throughout
the mtDNA molecule. In P. polycephalum, it is well known that the growth rate of macroplasmodia decreases with aging. Equal amounts of mtDNA from juvenile and aged
macroplasmodia were electrophoresed and the frequency of the β fragment in each sample was measured. The ratio of the β band
to the total signal including background was estimated to be 3.3–4.0% in juvenile macroplasmodia, whereas it increased to
8.3–28.2% in aged macroplasmodia. This result suggests that the in vitro fragmentation of mtDNA is associated with macroplasmodial
senescence. The single-stranded breakage of mtDNA of P. polycephalum may accumulate with age.
Received: 16 April / 2 September 1999 相似文献
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Summary The mitochondrial DNAs of [SG-1] cytoplasmically-mutant and wild-type strains of Neurospora crassa and Neurospora sitophila were examined by comparative restriction endonuclease analyses. The mtDNA of N. sitophila wild type of Whitehouse differs from type II mtDNA of N. crassa by insertions of 3.3 kb in EcoRI-9, and 1.2 kb in EcoRI-3, and a deletion of 1.1 kb in EcoRI-5. These DNA heteromorphisms provided convenient markers for tracing N. crassa [SG-1] mtDNA during and after its transfer into N. sitophila. The [SG-1] cytoplasmic mutant in both N. crassa and N. sitophila has a distinctive inversion that connects the fragment EcoRI-4 with HindIII-10a. The [SG-1] mtDNA from N. crassa remained essentially intact after it was transferred by crosses into N. sitophila. In each species, a unique second inversion occured in the [SG-1] mtDNA after the transfer was made. In N. sitophila, polar recombination in heteroplasmons between [SG-1] and wild-type preferentially yields strains with mtDNAs that contain the maximum possible number of insertions in the cob and co-1 loci of the EcoRI-3 region of the mitochondrial chromosome. 相似文献