The amyloplast-targeting transit peptide of the waxy protein of maize also mediates protein transport in vitro into chloroplasts

Summary The transit peptide of the waxy protein of maize which in the maize plant targets this protein only into amyloplasts was used for in vitro protein transport experiments with isolated amyloplasts from maize and chloroplasts from maize, pea and potato. In the presence of both intact and disrupted amyloplasts an artificial preprotein (TP30), consisting of the waxy transit peptide plus the first 34 amino acids of the mature waxy protein fused in-frame to the -glucuronidase of Escherichia coli, is processed to the size expected when the transit peptide is cleaved off. The chloroplasts studied show in vitro import and correct processing of both TP30 and the authentic waxy protein, but not of the -glucuronidase without the waxy transit peptide. The in vitro import of TP30 into chloroplasts is almost as efficient as that of the precursor of the small subunit of pea ribulose-1,5-bisphosphate carboxylase, a nuclear-encoded chloroplast protein, whereas the waxy protein accumulates to a lesser extent in the chloroplasts. Since the amino-terminal transit peptides of TP30 and the waxy precursor are the same, this difference must be due to the mature part of the waxy protein. One possible explanation is the observed instability of the waxy protein in the presence of chloroplasts.     

Preferential digestion of chloroplast DNA in male gametangia during the late stage of gametogenesis in the anisogamous algaBryopsis maxima

Summary The fate of chloroplast nuclei (cp-nuclei) and mitochondrial nuclei (mt-nuclei) was followed during gametogenesis in male and female coenocytic thalli in the anisogamous algaBryopsis maxima by epifluorescence microscopy, after staining with 4,6-diamidino-2-phenylindole (DAPI), by quantification of chloroplast DNA (cp-DNA) by fluorimetry using a video-intensified, photon-counting system (VIMPICS), and by CsCl density gradient centrifugation. The male and female coenocytic thalli, 48 h before the release of gametes, contain a large number of chloroplasts, each of which is larger in size than the cell nucleus and the mitochondria and contains about 150 cp-nuclei. The size of each chloroplast in the female and male gametangia decreases markedly during gametogenesis as a result of continuous divisions till about 10 h before the release of gametes and, eventually, the numbers of cp-nuclei per chloroplast in the male and female gametangia fall to about 20 and 5, respectively. Two hours later, as the preferential digestion of cp-DNA in the male gametangium occurs, the number of cp-nuclei in the chloroplast of each male gamete falls to zero while the number of cp-nuclei in female gamete does not change, even after release of female gametes. Several mt-nuclei are observed in all of the female gametes. By contrast, the mt-nuclei in the bulk of the male gametes disappear but those in a few gametes remain. The profiles after CsCl density gradient centrifugation of DNAs extracted from male and female plants and gametes support the cytological data. The results suggest that the preferential digestion of cp-DNA in male plants occurs about 8 h before the release of gametes and that there is differential digestion of cp-DNA and mitochondrial DNA (mt-DNA).     

Uncoupling of chloroplast reproductive events from cell cycle division processes by 5-fluorodeoxyuridine in the algaScenedesmus quadricauda

Summary FdUrd (5-fluorodeoxyuridine), a specific inhibitor of thymidylate synthase, was used to study the relationship between reproductive processes in chloroplast and nucleocytoplasmic compartments of the chlorococcal algaScenedesmus quadricauda. The courses of DNA replication and nuclear division in both the compartments were followed in populations synchronised by the alternation of light and dark periods. DAPI-staining of DNA-containing structures was used for their visualisation and quantification. In contrast with cellular reproductive events, those in chloroplasts were not substantially affected by the presence of FdUrd (25 g/ml). It was shown that FdUrd specifically blocked nucDNA replication but not ptDNA replication. Thus, cells which had attained commitment to ptDNA replication, fission of pt-nuclei and chloroplast kinesis triggered and terminated these processes while the corresponding cellular processes were blocked. The courses of reproductive processes in chloroplasts were also substantially unaffected in cells grown in the presence of FdUrd for the whole cell cycle. This provided evidence that attainment of commitment to and termination of the entire sequence of reproductive events, including chloroplast fission, were controlled by different mechanisms than the reproductive processes in the nucleocytoplasmic compartment.Abbreviations DAPI 4,6-diamidino-2-phenylindole - ptDNA DNA of chloroplast nuclei - nucDNA DNA in cell nuclei - FdUrd 5-fluorodeoxyuridine     

Photosynthesis of isolated chloroplasts and protoplasts under osmotic stress

1. Isolated intact spinach chloroplasts respond to changes of the sorbitol concentration of the suspending medium as near-perfect osmometers within a large range of osmotic potentials. Under isotonic conditions (=9–10 bar), their average osmotic volume is 24 m³ and the total volume 36 m³. The osmotic volume can be increased to 63 m³ by lowering the sorbitol concentration until a critical osmotic potential of =4 bar is reached. Below that value chloroplasts rupture. Between 10 bar and 4 bar, volume changes are reversible. 2. Increasing the chloroplast volume above 24 m³ causes inhibition of photosynthesis, with 50% inhibition occurring at an osmotic potential of =5–6 bar. This corresponds to an osmotic volume of 45–55 m³. Depending on the duration of hypotonic treatment, inhibition of photosynthesis is more or less reversible. 3. Between 4 and 10 bar, the chloroplast envelope exhibits a very low permeability for ferricyanide, many metabolites, and soluble stroma proteins. 4. Electron transport is not inhibited by swelling of chloroplasts. Also, the ATP/ADP-ratio remains unchanged. 5. The solute concentration in the chloroplasts appears to be optimal for photosynthesis at 10 bar. Increasing the chloroplast volume causes inhibition of photosynthesis by dilution effects.     

Transfer and segregation of triazine tolerant chloroplasts in Brassica napus L.

Summary Hypocotyl protoplasts of 45 different genotypes of German winter oilseed rape Brassica napus L. (double zero quality: high in yield, seeds low in erucic acid and glucosinolate content) were regenerated to plants. Triazine/triazinone (tri)-tolerant chloroplasts of the Canadian spring oilseed rape variety OAC Triton were introduced into some winter oilseed rapes by means of protoplast fusion. X-ray irradiation was used to limit the transfer of nuclear DNA of Triton protoplasts and to promote the selective transfer of tri-tolerant chloroplasts. Regenerated cybrid plants survived a treatment rate of 1000 g/ha metribuzin. The presence and segregation of the tri-tolerant chloroplasts in winter oilseed rape plants, regenerated from fusion products and their progeny, was investigated by restriction fragment length polymorphism (RFLP). Our results indicate that chloroplast segregation was not completed in plants regnerated from fusion products derived from X-irradiated OAC Triton mesophyll protoplasts and German winter oilseed rape hypocotyl protoplasts. In regenerants and their progeny both chloroplast types can still be present. Chloroplasts derived from wintertype protoplasts can outcompete tritolerant chloroplasts during plant development. In some instances, even progeny plants not kept under selective conditions (metribuzin) lost tri-tolerant chloroplasts. A homogenous population of tri-tolerant chloroplasts was necessary to obtain stable tri-tolerant winter oilseed rape plants.     

Localization of plasmidlike DNA in giant-celled marine green algae

Summary Novel extrachromosomal DNA molecules were localized in giant-celled marine green algae by organelle isolation and fluorescence in situ hybridization methodologies. Nucleic acids extracted from isolated chloroplasts ofErnodesmis verticillata andVentricaria ventricosa were greatly enriched in plasmidlike DNA species. Fluorescence in situ hybridization was employed to resolve further the subcellular location of these molecules. Cloned restriction fragments of the algal plasmidlike DNA hybridized solely to low-molecular-weight DNA in Southern blots; they did not hybridize to any chromosomal DNA. Probes were generated from these clones that either did (Northern-positive) or did not (Northern-negative) hybridize to RNA species in Northern blots. Probes specific for localizing the plasmidlike DNA were generated from the latter clones, whereas probes potentially localizing both DNA and relevant mRNA species were generated from the former ones. After hybridization and signal amplification via indirect immunofluorescence, fluorescent punctae were visible surrounding the single pyrenoid in each chloroplast with both types of probes. The punctae were arranged in a hollow spherical configuration, as resolved by confocal laser scanning microscopy. Nearly twice as many punctae per chloroplast were present inV. ventricosa (11.5) as there were inE. verticillata (6.0). The differential distribution of plasmidlike DNA within each chloroplast was in contrast to chloroplast chromosomal DNA, which occurred as multiple nucleoids scattered throughout the entire organelle. The localization of plasmidlike DNA within chloroplasts correlates well with previous sequence data indicating that these molecules contain putative open reading frames encoding protein components of photosystems I and II.Abbreviations CLSM confocal laser scanning microscopy - DAPI 4,6-diamidino-2-phenylmdole - FITC fluorescein isothiocyanate - FISH fluorescence in situ hybridization - HMW high molecular weight - LMW low molecular weight - ORF open reading frame     

Isolation of the cell-nuclear,mitochondrial, and chloroplast DNA from the ultra-small eukaryoteCyanidioschyzon merolae

Summary The amounts of cell-nuclear DNA (cl-DNA), mitochondrial DNA (mt-DNA) and chloroplast DNA (cp-DNA) inCyanidioschyzon merolae were estimated by using a video-intensified microscope (VIM) system.C. merolae had the smallest amount of cell-nuclear DNA among eukaryotes. The results show that a cell-nucleus, a mitochondrion and a chloroplast contain an average 8.0×10³kbp, 1.6×10³kbp, and 5.0×10³kbp, respectively. To confirm these results, cl-DNA, mt-DNA, and cp-DNA were isolated from cells by density centrifugation on Hoechst 33258/CsCl after density centrifugation on ethidium bromide/CsCl. The amounts of cl-DNA, mt-DNA, and cp-DNA obtained from the bands supported the data shown by the VIM-system. The cytochemical and biochemical characteristics were compared with those ofCyanidium caldarium RK-1 andC. caldarium Forma A. The values of cl-DNA and cp-DNA ofC. merolae were about 1.716 and 1.709, respectively. The order in density was different from that ofC. caldarium Forma A but very similar to that ofC. caldarium RK-1. However, the restriction patterns of cp-DNA inC. merolae differed from those ofC. caldarium RK-1.     

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     

Chloroplast DNA of Acetabularia mediterranea: Cell cycle related changes in distribution

Chloroplast DNA (cpDNA) distribution in the giant unicellular, uninucleate alga Acetabularia mediterranea was analyzed with the DNA-specific fluorochrome 4'6-diamidino-2-phenylindole (DAPI) at various stages of the cell cycle. The number of chloroplasts exhibiting DNA/DAPI fluorescence changes during the cell's developmental cycle: (1) all chloroplasts in germlings contain DNA; (2) the number of plastids with DNA declines during polar growth of the vegetative cell; (3) it increases again prior to the transition from the vegetative to the generative phase; (4) several nucleoids of low fluorescence intensity are present in the chloroplasts of the gametes. The temporal distribution of the number of chloroplasts with DNA appears to be linked to the different mode of chloroplast division and growth during the various stages of development. The chloroplast cycle in relation to the cell cycle is discussed.Abbreviations cpDNA chloroplast DNA - DAPI 4,6-diamidino-2-phenylindole     

Generation of heteroplastidic Nicotiana cybrids by protoplast fusion: analysis for plastid recombinant types

Summary Protoplasts of a mutant line of Nicotiana tabacum having a maternally-transmitted chlorophyll deficiency were fused with protoplasts of two alloplasmic-male-sterile Nicotiana lines by the donor-recipient technique. In both fusion experiments variegated plantlets were regenerated which were shown to contain cytoplasms of mixed chloroplast nature. This confirms that with the donor-recipient method one can obtain mixed cytoplasms of genetically different chloroplasts. We present a convenient system to assay for genetic recombination between chloroplasts by combining use of several cytoplasmic markers: vis. chlorophyll pigmentation, chloroplast DNA restriction patterns, tentoxin resistance and male sterility. Within the limits of the experiment no recombinant types were recovered.     

Moving pictures of DNA released upon lysis from bacteria,chloroplasts, and mitochondria

Summary Cells and organelles suspended in gelled agarose agarose were lysed with detergent and protease, stained with ethidium bromide and their DNA was observed by fluorescence microscopy. The migration of individual DNA molecules during electrophoresis on a microscope slide was recorded on video tape so that moving pictures could be analyzed. The DNA from lysed bacteria (Escherichia coli andAgrobacterium tumefaciens) appeared as a rosette of at least twenty loops of varying size, whereas that from bacterial spheroplasts (E. coli andPseudomonas aeruginosa) appeared as circular forms or rods with many fine filaments of RNA extending toward the anode. The DNA from chloroplasts of watermelon (Citrullus vulgaris) and pea (Pisum sativum) did not appear as a rosette of loops. Many or most of the chloroplast DNA molecules per lysed chloroplast were immobile in the electric field, as if in circular form hooked on agarose fibers. The amount of DNA-fluorescence per watermelon mitochondrial particle was much less than that found for either chloroplasts or bacteria. The appearance of the mitochondrial DNA during electrophoresis was that of linear molecules, no obviously circular forms were evident and no rosette structures were observed.Abbreviations cpDNA chloroplast DNA - DAPI 4,6-diamidino-2-phenylindole - kb kilobase pairs - mtDNA mitochondrial DNA - PFGE pulsed-field gel electrophoresis     

Chloroplast envelopes as affected by light or dark pretreatment of pea plants

Glutaraldehyde fixation in 0.33 M sorbitol without any buffer reveals changes in the staining properties of the envelopes of chloroplasts of pea plants kept in the light or in the dark prior to fixation. After dark pretreatment the outer double membrane of the chloroplast does not adsorb heavy metals, resulting in a white unstained rim instead of the usual membrane. All other membranes of the cell, including chloroplast grana, are not affected and stain normally. Light pretreatment of the plants allows the usual staining of the outer membrane of the chloroplats. Fixation carried out in the medium usually used to isolate intact CO₂ fixing chloroplasts (sorbitol+buffer+ions) reverses the above process and results in unstained envelopes of chloroplasts from preilluminated leaves, while the envelopes of chloroplasts from leaves kept in the dark stain normally. Glutaraldehyde-fixed chloroplats isolated from preilluminated leaves show a very basic isoelectric point during electrofocusing, while fixed chloroplasts from predarkened tissue exhibit an isoelectric point at about pH 7.     

Sodium,potassium, chloride and proline concentrations of chloroplasts isolated from a halophyte,Mesembryanthemum crystallinum L.

Concentrations of four major solutes (Na⁺, K⁺, Cl^-, proline) were determined in isolated, intact chloroplasts from the halophyte Mesembryanthemum crystallinum L. following long-term exposure of plants to three levels of NaCl salinity in the rooting medium. Chloroplasts were obtained by gentle rupture of leaf protoplasts. There was either no or only small leakage of inorganic ions from the chloroplasts to the medium during three rapidly performed washing steps involving precipitation and re-suspension of chloroplast pellets. Increasing NaCl salinity of the rooting medium resulted in a rise of Na⁺ und Cl^- in the total leaf sap, up to approximately 500 and 400 mM, respectively, for plants grown at 400 mM NaCl. However, chloroplast levels of Na⁺ und Cl^- did not exceed 160–230 and 40–60 mM, respectively, based upon a chloroplast osmotic volume of 20–30 l per mg chlorophyll. At 20 mM NaCl in the rooting medium, the Na⁺/K⁺ ratio of the chloroplasts was about 1; at 400 mM NaCl the ratio was about 5. Growth at 400 mM NaCl led to markedly increased concentrations of proline in the leaf sap (8 mM) compared with the leaf sap of plants grown in culture solution without added NaCl (proline 0.25 mM). Although proline was fivefold more concentrated in the chloroplasts than in the total leaf sap of plants treated with 400 mM NaCl, the overall contribution of proline to the osmotic adjustment of chloroplasts was small. The capacity to limit chloroplast Cl^- concentrations under conditions of high external salinity was in contrast to an apparent affinity of chloroplasts for Cl^- under conditions of low Cl^- availability.Abbreviation Chl chlorophyll     

The course of chloroplast DNA replication and its relationship to other reproductive processes in the chloroplast and nucleocytoplasmic compartment during the cell cycle of the algaScenedesmus quadricauda

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     

Nicotiana cybrids with Petunia chloroplasts

Summary Protoplasts of a chloroplast-defective cultivar of Nicotiana tabacum were fused with gamma-irradiated protoplasts of Petunia hybrida. Over 100 photoautotrophic plants were regenerated; of these 94 were tested for Petunia chloroplast traits and all but one had Petunia chloroplasts based on their sensitivity to the fungal toxin, tentoxin. Chloroplast DNA was analysed for 3 of the sensitive plants and was shown to be identical to Petunia chloroplast DNA. Most of the plants (about 70%) appeared to be normal N. tabacum plants, based on morphology and chromosome number. They were fully fertile with normal pollen viability, seed set, and seed viability. The remaining 30% of the plants showed varying degrees of vegetative and reproductive abnormalities.The techniques of somatic cell genetics have led to many possible nuclear-organellar combinations that may be considered as cybrids. In this paper, we use the term to include the combination of nucleus from one species and chloroplast from another species     

Preferential digestion of chloroplast nuclei (nucleoids) during senescence of the coleoptile ofOryza sativa

Summary The coleoptile ofOryza sativa develops, grows and ages within 4 days that follow imbibition. It is, thus, a very useful system for experimental analysis of the life cycle of organelles, for example, the development, growth and aging of plastids in higher plants. We examined the behavior and levels of DNA and chlorophyll in the plastid by epifluorescence microscopy after staining with 4-6-diamidino-2-phenylindole (DAPI), and by fluorimetry with a video-intensified-photon counting system (VIMPCS). The whitish yellow coleoptile appeared soon after imbibition and, between the first 24 and 60 h that followed imbibition, it grew markedly in a longitudinal direction, with concomitant elongation of the cells, and an increase in the volume of plastids and in the amount of DNA in the plastids. The chlorophyll content per plastid began to increase when the coleoptile turned green, 48 h after imbibition, and reached a plateau value when the coleoptile was 3.5 mm in length, 72 h after imbibition. More than 12 h later, the chlorophyll disappeared just before the breakdown of chloroplasts was initiated. Proplastids in young coleoptiles, contained a plastid nucleus which was located in the central area of the plastids and each nucleus consisted of approximately 6 copies of plastid DNA (ptDNA). The number of copies of ptDNA per plastid increased gradually, with a concomitant increase in the volume of the plastids after imbibition, and reached approximately 130 times the value in the young proplastids, 60 h after imbibition, when the plastid developed into a chloroplast. However, each plastid nucleus did not scatter throughout the entire interior region of each chloroplast. The disappearance of each plastid nucleus occurred more than 12 h before the degeneration of the chloroplasts. The number of plastids per cell increased from 10 to 15 in young coleoptiles within 12 h after imbibition. Yet the number remained constant throughout subsequent growth and aging of the coleoptile. Thus the preferential reduction in the amount of chloroplast DNA was not due to the division of the plastid but could, perhaps, be associated directly with the aging of the cells of the coleoptile which precedes senescence of the coleoptiles.     

Inheritance of chloroplast and mitochondrial DNA in Picea and composition of hybrids from introgression zones

Summary The cloning of white spruce (Picea glauca) mitochondrial DNA homologous to the cytochrome oxidase II and ATPase genes of maize is described. These probes were used to define restriction fragment length polymorphisms which distinguish the white, Engelmann (P. engelmannii) and Sitka spruce (P. sitchensis) populations that occur in British Columbia. Analysis of progeny from crosses between the species revealed that mitochondrial DNA was maternally inherited in all cases (32 progeny from five independent crosses). The inheritance of chloroplast DNA was determined using a probe described previously; in this case, all progeny exhibited paternal inheritance (27 progeny from four crosses). Mitochondrial and chloroplast probes were used to test trees from zones of introgression between coastal (Sitka) and interior spruces (white and Engelmann). In most cases mitochondria and chloroplasts within individuals were contributed by different species. The data shows that there is a significant Sitka spruce component in trees east of the coastal watershed in British Columbia.     

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     

Protoplast-fusion-mediated transfer of organelles from Microcitrus into Citrus and regeneration of novel alloplasmic trees

Summary Iodoacetate-treated Citrus protoplasts from embryogenic nucellar calli of Sour orange (C. aurantium) or from Rough lemon (C. jambhiri) were fused with -irradiated protoplasts from a related genus, Microcitrus. The fused protoplasts were cultured to obtain colonies and micro-calli. Micro-calli derived from these two fusion combinations were isolated, propagated and differentiated into embryos, which subsequently regenerated trees having the morphology of Sour orange or Rough lemon. These intergeneric fusions resulted in mitochondria with novel DNA, indicating recombination between the chondriomes of Citrus and Microcitrus. Chloroplast DNA analyses of fusion-derived embryos indicated that they contained the chloroplasts of either fusion-partner or a mix of these chloroplasts. Later plastome analyses of leaves from fully differentiated plants showed that cybrids having Rough lemon morphology had either Rough lemon or Microcitrus chloroplast DNA, indicating complete sorting out of chloroplasts. Likewise, sorting out of Microcitrus chloroplasts was detected in a cybrid plant having Sour orange morphology.Contribution from the Agricultural Research Organization, The Volcani Center, Bet Dagan, 50250 Israel. No. 2663-E, 1989 series     

Annual reproductive cycle and rate of the spermatogenic process in male mosquitofish <Emphasis Type="Italic">Gambusia affinis</Emphasis>

The present study investigates the relationship between the annual cycle of testicular development and external environment and the rate of spermatogenesis in the mosquitofish Gambusia affinis based on histological observations of testes. The annual reproductive cycle of the mosquitofish was divided into two periods, i.e., the spermatogenic period (May–October) and resting period (October–April). In the spermatogenic period, the transition from spermatogonia to spermatocytes begins and meiosis actively progresses. In the resting period, the transition from spermatogonia to spermatocytes ceases, meiosis of spermatocytes that already shifted by this period gradually progresses, and a considerable number of sperm balls are produced. Onset of spermatogenesis seems to be related to both a rise in water temperature and a prolonged photoperiod. 5-bromo-2-deoxyuridine (BrdU) was a useful in vivo marker of DNA synthesizing spermatogenic cells. The results of immunohistochemical detection of injected BrdU indicated that 5 days are needed for the conversion of spermatocytes to spermatids, 5 days for spermatids to spermatozoa, and 10 days for spermatozoa to sperm balls.