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1.
Summary Synchronous cultures of the green algaScenedesmus quadricauda were grown at different mean irradiances (ranging from 15 Wm–2 to 130Wm–2). At each irradiance, the algae were exposed to illumination regimes which differed in light duration and dark intervals (222 to 240 hours). The cells from these cultures were sampled during their cycles, stained with DAPI and the number of nuclei and chloroplast nucleoids estimated.The nucleoids divided semisynchronously in steps which represented doublings in their number. For each doubling a constant amount of light energy (defined as the product of irradiance and light duration) had to be converted by the cells to become committed to this division. The times to the start of the nucleoid divisions were therefore inversely proportional to the irradiances applied and the final number of nucleoids was proportional to the light duration.Temporal relationships between nuclear and nucleoid divisions were also light dependent. Shortage of light energy caused delay in nucleoid division. The cell division rate was higher than the rate of nucleoid division and consequently, the cells tended to decrease their nucleoid number with decreasing irradiance. With increasing irradiance the start of nucleoid division was gradually shifted toward the beginning of the cell cycle. The rate of nucleoid division exceeded the rate of nuclear and cellular division, thus with increasing irradiance cells with increasing numbers of nucleoids were formed.Abbreviations DAPI 46-diamidino-2-phenylindole - pt-DNA chloroplast DNA  相似文献   

2.
Summary Synchronous cultures of the algaDunaliella salina were grown in blue or red light. The relationships between replication of chloroplast DNA, cell size, cell age and the number of chloroplast nucleoids were studied. The replication of chloroplast DNA and the division of chloroplast nucleoids occurred in two separate periods of the chloroplast cycle. DNA replication was concomitant with that in the nucleocytoplasmic compartment but nucleoid division occurred several hours earlier than nuclear division. Red-light-grown cells were bigger and grew more rapidly than those grown in blue light. In newly formed daughter cells, the chloroplast nucleoids were small and spherical and they were localized around the pyrenoid. During the cell cycle they spread to other parts of the chloroplast. The number of DNA molecules per nucleoid doubled during DNA replication in the first third of the cell cycle but decreased several hours later when the nucleoids divided. Their number was fairly constant independent of the different light quality. Cells grown in red light replicated their chl-DNA and divided their nucleoids before those grown in blue light and their daughter cells possessed about 25 nucleoids as opposed to 15.Abbreviations DAPI 4,6-diamidino-2-phenylindole - chl-DNA chloroplast DNA - PAR photosynthetically active radiation  相似文献   

3.
Summary We studied the maternal chloroplast inheritance ofChlamydomonas reinhardtii by epifluorescence microscopy after staining with DNA specific fluorochrome DAPI and by genetic methods, using wild type cells and cells containing previously isolated mutation of cond-1 and cond-2. Wild type cells contained about 7 chloroplast (cp) nucleoids, while mutants, cond-1(+) and cond-2(+), contained about 14 and 23 cp nucleoids, respectively, after one week culture on agar plates. The total cpDNA contents were almost proportional to the numbers of cp nucleoids. When cells containing cond-1 or cond-2 mutation were used as a parental source to cross with wild type cells of the other parent, preferential digestion of cp nucleoids from male parent (mt) origin occurred in the zygotes, although the frequencies of the digestion were slightly lower than that in the zygotes from the cross between wild type cells. Western blot analysis of the protein ofzyslB gene, which has been found related to preferential digestion of mt origin cp-nucleoids DNA, showed that a high amount of this protein was detected with the initiation of preferential digestion of mt cp nucleoids and disappeared with the completion of the digestion. Cp genetic markers for antibiotic resistance were maternally inherited in all crosses. These results showed that although the preferential digestion of cp nucleoids consisting of large number and large cpDNA amount requires a slightly longer period to complete, this high ploidy of the cp nucleoids does not disturb maternal inheritance.  相似文献   

4.
Summary The behavior of nucleoids during the leucoplast division cycle in the epidermis of onion (Allium cepa) bulbs was investigated using DNA-specific fluorochrome 4'6-diamidino-2-phenylindole (DAPI) staining. The leucoplast was morphologically amoeboid and continuously changed its shape. A dumbbell-shaped leucoplast divided into two spherical daughter ones by constriction in the middle region of the body. Leucoplasts contained 4–10 mostly spherical, oval, partly rodand dumbbell-shaped nucleoids which were dispersed within the bodies. The proportion of one DNA molecule of a T4 phage particle to the small leucoplast nucleoid in the grain density of negative film was 1 to 0.91. Comparison of the present result and another groups' biochemical results suggested that a small leucoplast nucleoid contains one DNA molecule. The dumbbell-shaped leucoplast probably before division contained about twice as many nucleoids as the spherical leucoplast after division, and each half of the dumbbell contained about half the number of nucleoids. Nucleoids increased in number with growth of the leucoplast. The behavior of nucleoids during the leucoplast division cycle in onion bulbs was basically similar to that during the chloroplast division cycle in higher plants and green algae, which was previously reported (Kuroiwa et al. 1981 b).  相似文献   

5.
N. Sato  O. Misumi  Y. Shinada  M. Sasaki  M. Yoine 《Protoplasma》1997,200(3-4):163-173
Summary Localization and protein composition of plastid nucleoids was analyzed in light-grown pea seedlings at various stages of leaf development. In young plastids of unopened leaf buds, nucleoids were abundant and localized in the periphery of plastids, whereas, in mature leaves, chloroplasts contained nucleoids within narrow spaces restricted by thylakoids or grana. The migration of nucleoids into the interior of plastids preceded the formation of grana, and hence, the maturation of the photosynthetic apparatus. The protein composition of nucleoids was considerably different in young plastids and mature chloroplasts. Polypeptides with a molecular mass of 70–100 kDa predominated in the nucleoids of young plastids, whereas polypeptides with molecular mass of 20–30 kDa were abundant in the nucleoids of mature chloroplasts. Immuno-blot analysis with antibodies against the nucleoids of young plastids identified various polypeptides that were significantly more abundant in the nucleoids of young plastids than in the nucleoids of mature chloroplasts. These results demonstrate that plastid nucleoids are subject to dynamic changes in both localization and composition during the normal development of chloroplasts in the light.Abbreviations DAPI 4,6-diamidino-2-phenylindol - DiOC6 3,3-dihexyloxacarbocyanine iodide  相似文献   

6.
Summary The behavior of organelle nucleoids in the generative cell was examined at the second (pollen grain) mitosis by epifluorescence microscopy after staining with 4,6-diamidino-2-phenylindole (DAPI) inOenothera biennis. TheO. biennis generative cell contained a large number of organelle nucleoids distributed randomly in the cytoplasm before mitosis. The epifluorescence images of the nucleoids could be classified distinctly into two groups which corresponded to plastid nucleoids (pt-nucleoids) and mitochondrial nucleoids (mt-nucleoids). Discrimination between pt- and mt-nucleoids was carried out with the aid of DNA immunogold electron microscopy. At metaphase, both pt- and mt-nucleoids migrated to the pole regions of the generative cell. After mitosis, organelle nucleoids in both of the sperm cells scattered in the cytoplasm again. A quantitative examination of pt-nucleoids on 202 pairs of sperm cells showed that the leading sperm cell (Svn) contained 0–39 pt-nucleoids (19.0 ± 7.4) and the trailing sperm cell (Sua) contained 0–40 pt-nucleoids (15.4 ± 6.5). For mt-nucleoids, examination of 28 pairs of sperm cells showed that Svn contained 5–32 mt-nucleoids (14.5 ± 6.8) and Sua contained 6–30 mt-nucleoids (13.4 ±7.5). These results showed that (1) the number of organelle nucleoids per sperm cell varied considerably in the cells studied; (2) quantitative difference in pt- and mt-nucleoids between Svn and Sua could occur in some gametophytes studied; but (3) it was unlikely that there was any pre-differentiational cytoplasm localization and essential sperm heteromorphy with respect to organelle nucleoid content in the gametophyte population.  相似文献   

7.
V. Zachleder  S. Kawano  T. Kuroiwa 《Protoplasma》1995,188(3-4):245-251
Summary DNA containing structures (cellular, chloroplast and mitochondrial nuclei) were stained with the fluorochrome DAPI. Fluorescence intensity, as a measure of DNA content, was estimated during the mitotic cycle in synchronized populations of the chlorococcal alga,Scenedesmus quadricauda. In cells yielding eight daughter cells, three consecutive steps in chloroplast DNA increase occurred over one mitotic cycle. The first step was performed shortly after releasing the daughter cells, the second and third steps occurred consecutively during the first half of the mitotic cycle. Commitment to chloroplast DNA replication was chronologically separated from commitment to division of chloroplast nuclei, revealing that these two chloroplast reproductive steps were under different control mechanisms. The replication of chloroplast DNA occurred at a different time to that of cell-nuclear DNA. The coordination of chloroplast reproductive processes and those in the nucleocytoplasmic compartment were governed by the mutual trophic and metabolic dependency of these compartments rather than by any direct or feedback control controlled by either of them.Abbreviations DAPI 46-diamidino-2-phenylindole - ptDNA DNA in chloroplast nuclei - nucDNA DNA in cell nuclei  相似文献   

8.
Cells of Chlamydomonas reinhardtii Dangeard were synchronized under a 12:12 h light: dark regimen. They increased in size during the light period, while nuclear division, chloroplast division and cytokinesis occurred during the dark period. Zoospores were liberated toward the end of the dark period. Changes in profile and distribution of chloroplast nucleoids were followed with a fluorescence Microscope after fixation with 0.1%(w/v) glutaraldehyde followed by staining with 4′.6-diamidino-2-phenylidole (DAPI), a DNA fluorochrome. About ten granular nucleoids were dispersed in the chloroplast at the beginning of the light period (0 h). Within 4 h the nucleoids aggregated around the pyrenoid giving a compact profile. The formation of the compact aggregate of cp-nucleoids around the pyrenoid occurred with maximal frequency twice during the light period. Toward the end of the light period the nucleoids were transformed into the form of threads interconnected with fine fibrils spreading throughout the chloroplast. Initially the thread-like nucleoids fluoresced only faintly. The fluorescence of some parts of the threadlike form became brighter over a period of 6 h; these nucleoids were divided into daughter chloroplasts during chloroplast division. Soon after chloroplast division, these thread-like nucleoids were transformed into about 20 granular forms, which were gradually combined to form about ten larger granular bodies in zoospores immediately prior to liberation from mother cells. Fixation of cells with glutaraldehyde at high concentrations or treatment of cells with protease significantly modified the profiles of DAPI-stained nucleoids. The different morphologies of chloroplast nucleoids are discussed in relation to changes in configuration of their protein components.  相似文献   

9.
Summary The second leaf ofOryza sativa develops, grows and ages within the 10 days that follow imbibition under our controlled continuous-light conditions. Proplastids in the leaf cells develop, mature to become chloroplasts and then age and disintegrate. In an examination of this life process, we studied first the behavior and the number of copies of plastid DNA and levels of chlorophyll by epifluorescence microscopy after staining with 4,6-diamidino-2-phenylindole (DAPI), and by fluorimetry with a video-intensified microscope photon-counting system (VIMPCS). The results indicated that the number of copies of the plastid DNA per plastid increased and reached to plateau value of approximately 100 at the time when the elongation of the mesophyll cells and the enlargement of chloroplasts ceased 96 h after imbibition. However, 24 h later, the number of copies of plastid DNA per chloroplast began to decrease and fell rapidly to approximately 30 copies within 168 h after imbibition. Our examination of the number of chloroplasts per mesophyll cell indicated that no division of chloroplasts occurred more than 72 h after imbibition. The results suggest that the decrease in number of copies of plastid DNA per chloroplast was not due to an increase in the number of chloroplasts, but that this decrease was caused by degradation by unidentified enzymes. Since visible senescence of leaves, which was characterized by development of a yellowish color, began 168 h after imbibition, the degradation of plastid DNA seemed to occur 48 h before the visible leaf senescence. When we tested the nucleolytic activities in the second leaves after imbibition by digestion of plasmids in vitro and DNA-SDS polyacrylamide gel electrophoresis, five Ca2+–, four Zn2+–, and four Mn2+–dependent nucleases were detected in the leaf blades, and one of the Ca2+–, two of the Zn2+–, and two of the Mn2+–dependent nucleases were also identified in a purified preparation of intact chloroplasts. When the activity of the Zn2+–dependent nucleases (51 kDa and 13 kDa) increased markedly, degradation of the plastid DNA occurred. These results suggest that the destruction of chloroplast DNA, which occurs approximately 48 h before leaf yellowing, could be due to the activation of some metallo-nucleases and, furthermore, this enzymatic degradation propels the leaf towards senescence.  相似文献   

10.
Cultures in vitro of Betula pendula Roth were subjected to light of different spectral qualities. Photosynthetic capacity was highest when the plantlets were exposed to blue light (max recorded photosynthesis, 82 mol CO2 dm–2 h–1) and lowest when irradiated with light high in red and/or far-red wave lengths (max recorded photosynthesis, 40 mol CO2 dm–2 h–1). Highest chlorophyll content (2.2 mg dm–2 leaf area) was found in cultures irradiated with blue light, which also enhanced the leaf area. Morphometric analysis of light micrographs showed that the epidermal cell areas were largest in plantlets subjected to blue light and smallest in those subjected to red light. Morphometric analysis of electron micrographs of palisade cells, showed that the functional chloroplast area was largest in chloroplasts of leaves subjected to blue light and smallest in those exposed to red light. We suggest that light quality affects photosynthesis both through effects on the composition of the photosynthetic apparatus and on translocation of carbohydrates from chloroplasts.  相似文献   

11.
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  相似文献   

12.
Phototaxis in the flagellateEuglena gracilis was studied by means of a microvideographic analysis, and the light-induced directional movement was determined by computer-based statistical treatments. Lateral white light with an illuminance of 25 lx (0.105 Wm–2) caused the cells to preferentially swim toward the light source (positive phototaxis), while an illuminance of 1,000 lx (4.2 Wm–2) induced negative phototaxis. The lipophilic membranepenetrating cation triphenylmethyl phosphonium ion (TPMP+) specifically inhibited positive phototaxis, while it hardly affected negative phototaxis. The uncoupler sodium azide, on the other hand, impaired negative phototaxis substantially.  相似文献   

13.
The mutant strain U of Euglena gracilis, different from the wild type strain Z, has lost the ability to form chloroplasts during growth in the dark.Chloroplastic DNA could not be detected by CsCl density analysis in the dark-grown strain U. Chloroplast nucleoids fluoro-stained by DAPI were found in the light-grown cells, but not in the dark-grown U. Target number analysed by UV irradiation on the chloroplast formation ability decreased rapidly during cell-growth in darkness. These results suggest that U has lost plastid DNA during cell-growth in darkness.Abbreviations DAPI 4,6-diamidino-2-phenylindole - PSI and PSII photosystems I and II - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea  相似文献   

14.
When prothalli ofAdiantum capillus-veneris L. were kept for 2 d in the dark, chloroplasts gathered along the anticlinal walls (Kagawa and Wada, 1994, J Plant Res 107: 389–398). In these dark-adapted prothallial cells, irradiation with a microbeam (10 gm in diameter) of red (R) or blue light (B) for 60 s moved the chloroplasts towards the irradiated locus during a subsequent dark period. Chloroplasts located less than 20 gm from the center of the R microbeam (18 J·m–2) moved towards the irradiated locus. The higher the fluence of the light, the greater the distance from which chloroplasts could be attracted. The B microbeam was less effective than the R microbeam. Chloroplasts started to move anytime up to 20 min after the R stimulus, but with the B microbeam the effect of the stimulus was usually apparent within 10 min after irradiation. The velocity of chloroplast migration was independent of light-fluence in both R and B and was about - 0.3 m·min–1 between 15 min and 30 min after irradiation. Whole-cell irradiation with far-red light immediately after R- and B-microbeam irradiations demonstrated that these responses were mediated by phytochrome and a blue-light-absorbing pigment, respectively. Sequential treatment with R and B microbeams, whose fluence rates were less than the threshold values when applied separately, resulted in an additive effect and induced chloroplast movement, strongly suggesting that signals from phytochrome and the blue-light-absorbing pigment could interact at some point before the induction of chloroplast movement.Abbreviations B blue light - FR far-red light - IR infrared light - R red light  相似文献   

15.
Using cultured cells of the hornwortAnthoceros punctatus, the change in the relative chloroplast DNA content in each stage of chloroplast division was investigated to clarify the relationship between the division cycle of a chloroplast and a cell nucleus. Samples of cultured cells were stained with 4′,6-diamidino-2-phenylindole (DAPI) and then observed with an epifluorescence microscope and a chromosome image analyzing system (CHIAS). A chloropiast in cultured cells duplicated DNA with an increase in size. When a chloroplast began to divide, it was constricted in the middle, taking a dumbbell shape, and then divided into two daughter chloroplasts. In cultured cells of this species, the pattern of quantitative change of chloroplast DNA, that is, the DNA replication pattern of chloroplasts, corresponded to that of cell nuclear DNA in mitosis.  相似文献   

16.
Rhodospirillum rubrum was grown continuously and photoheterotrophically under light limitation using a cylindrical photobioreactor in which the steady state biomass concentration was varied between 0.4 to 4 kg m–3 at a constant radiant incident flux of 100 W m–2. Kinetic and stoichiometric models for the growth are proposed. The biomass productivities, acetate consumption rate and the CO2 production rate can be quantitatively predicted to a high level of accuracy by the proposed model calculations. Nomenclature: C X, biomass concentration (kg m–3) D, dilution rate (h–1) Ea, mean mass absorption coefficient (m2 kg–1) I , total available radiant light energy (W m–2) K, half saturation constant for light (W m–2) R W, boundary radius defining the working illuminated volume (m) r X, local biomass volumetric rate (kg m–3 h–1) <r X>, mean volumetric growth rate (kg m–3 h–1) V W, illuminated working volume in the PBR (m–3). Greek letters: , working illuminated fraction (–) M, maximum quantum yield (–) bar, mean energetic yield (kg J–1).  相似文献   

17.
Mechanistic aspects of the Photosystem II (PS II) damage and repair cycle in Dunaliella salina were investigated. The work addressed the role of chloroplast-encoded protein biosynthesis on the rate of the D1 protein (chloroplast psbA gene product) degradation, following photoinhibition of PS II under in vivo conditions. Cells were grown under different light-intensities and the rate of D1 photodamage and degradation was measured via pulse-chase measurements with (35S)sulfate. It is shown that no detectable difference exists in the rate of D1 degradation in D. salina, measured in the presence or absence of lincomycin, a chloroplast protein biosynthesis inhibitor. The results suggest that de novo D1 biosynthesis does not play a role in the regulation of D1 degradation. In low-light (100 mol photons m–2 s–1) grown cells, the rate of photodamage to D1 did not exceed the rate of its degradation and replacement. In high-light (2200 mol photons m–1 s–1) grown cells, the rate of D1 photodamage was faster than the rate of its degradation, resulting in a significant accumulation of photoinactivated PS II centers in the chloroplast thylakoids (chronic photoinhibition). The latter was coincident with the appearance of a 160 kD complex that contained photodamaged D1. Electron micrographs of D. salina thylakoids revealed extensive grana stacks in the thylakoid membrane of low-light grown cells. Only rudimentary appressions consisting of simple membrane pairings were found in the high-light grown cells. The results are discussed in terms of the regulation of D1 degradation in chloroplasts under in vivo conditions.Abbreviations Chl chlorophyll - D1 the 32 kD reaction center protein of PS II, encoded by the chloroplast psbA gene - D2 the 34 kD reaction center protein of PS II, encoded by the chloroplast psbD gene - HL high light - LL low light - Linc lincomycin  相似文献   

18.
Synopsis Gulf killifish Fundulus grandis were allowed to prey on daggerblade grass shrimp Palaemonetes pugio in clear water with bright light, turbid water containing bentonite clay, and clear water treatments where the light intensity was adjusted to match that in the bottom of the turbid tanks. Significantly fewer shrimp were consumed in the turbid tanks relative to the clear and shade treatments where predation rates did not differ significantly. The results suggested that the influence of suspended particles on predation rates was a consequence of light scattering and was not related to a decrease in light intensity. Reactive distances were subsequently determined for human observers viewing a small target in elongated tanks containing turbid water (7.3–60.5 NTU) under conditions of both low (8-10 E m–2 s–1) and high illumination (153–1249 E M–2 s–1). Reactive distance was primarily governed by turbidity while light intensity had little influence except at low turbidities. The shape of the relationship between reactive distance and turbidity for humans resembled curves reported for a variety of fish species.  相似文献   

19.
L. C. W. Jensen 《Protoplasma》1981,107(3-4):301-317
Summary Elongating caulonemal tip cells ofPhyscomitrium turbinatum were cultivated on mediumcoated cover slips and periodically observed with Nomarski differential interference contrast optics. Tip cells exhibit apical growth and an average growth rate of 27.5 m/h. During cell elongation the nucleus migrates forward in the tip cell, but this movement slowly decreases so that there is a gradual increase in the distance between the nucleus and cell tip. Minimum length cells contain small vacuoles adjacent to the basal wall which coalesce during subsequent cell elongation to form a solitary large basal vacuole.An increase in chloroplasts during cell elongation is due to the presence of a population of proliferating chloroplasts located between the cell tip and the nucleus resulting in a gradient in chloroplast number and shape. The zone of chloroplast proliferation shifts progressively forward during cell elongation from a peri-nuclear position to a region closer to the cell tip. During division of the apical cell a perpendicular metaphase plate is formed. Reorientation movements of the phragmoplast-cell plate during telophase, and early stages of the following interphase produce a 35–40° cross wall. This rotation of the spindle axis positions the daughter nuclei temporarily adjacent to the lateral walls on opposite sides of the cell with the sub-apical nucleus on the side nearest the light source. It subsequently migrates across the cell to become situated on the wall farthest from the light source. Sub-apical cells form branches at the distal (= apical) end of the cell on the lateral wall closest to the light source. Branch development is accompanied by changes in chloroplast shape, number, and position.  相似文献   

20.
Irradiation of buoyant, gas-vacuolate cells of the cyanobacteriumMicrocystis aeruginosa by 5·104 Wm–2 of blue light for 1 h caused a 5% loss of extractable ribulose bisphosphate carboxylase activity compared to dark and red-light controls. Ribulose bisphosphate carboxylase activity was unaffected by blue light in similar experiments conducted with cells containing collapsed gas vacuoles.Abbreviations RuBP Ribulose 1,5-bis-phosphate carboxylase  相似文献   

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