Characterization of chromoplasts and carotenoids of red- and yellow-fleshed papaya (<Emphasis Type="Italic">Carica papaya</Emphasis> L.)

Chromoplast morphology and ultrastructure of red- and yellow-fleshed papaya (Carica papaya L.) were investigated by light and transmission electron microscopy. Carotenoid analyses by LC–MS revealed striking similarity of nutritionally relevant carotenoid profiles in both the red and yellow varieties. However, while yellow fruits contained only trace amounts of lycopene, the latter was found to be predominant in red papaya (51% of total carotenoids). Comparison of the pigment-loaded chromoplast ultrastructures disclosed tubular plastids to be abundant in yellow papaya, whereas larger crystalloid substructures characterized most frequent red papaya chromoplasts. Exclusively existent in red papaya, such crystalloid structures were associated with lycopene accumulation. Non-globular carotenoid deposition was derived from simple solubility calculations based on carotenoid and lipid contents of the differently colored fruit pulps. Since the physical state of carotenoid deposition may be decisive regarding their bioavailability, chromoplasts from lycopene-rich tomato fruit (Lycopersicon esculentum L.) were also assessed and compared to red papaya. Besides interesting analogies, various distinctions were ascertained resulting in the prediction of enhanced lycopene bioavailability from red papaya. In addition, the developmental pathway of red papaya chromoplasts was investigated during fruit ripening and carotenogenesis. In the early maturation stage of white-fleshed papaya, undifferentiated proplastids and globular plastids were predominant, corresponding to incipient carotenoid biosynthesis. Since intermediate plastids, e.g., amyloplasts or chloroplasts, were absent, chromoplasts are likely to emerge directly from proplastids.     

CHROMOPLASTS OF TOMATO FRUITS. I. ULTRASTRUCTURE OF LOW-PIGMENT AND HIGH-BETA MUTANTS. CAROTENE ANALYSES

Three pigment lines of the tomato cultivar ‘Pearson’ with isogenic backgrounds were studied to determine the relationship between certain carotenoids and the development of chromoplasts during fruit ripening. The lines were normal red (r⁺/r⁺), in which about 90% of the carotenoids in the ripe fruit is lycopene; high-beta (B/B) mutant, in which beta-carotene is the major pigment and the mature fruit color is deep orange ; and low-pigment (r/r) mutant, in which carotenoids are drastically reduced and the mature fruit is pale yellow-orange. This paper reports pigment analyses for the three lines and the ultrastructural changes in plastids of the two mutant lines. Very young, pale green fruits contain proplastids with limited lamellar structure. As the fruits reach the mature green stage, the plastids in all three lines develop into typical chloroplasts. Differences in pigment content and in ultrastructure among the lines are not apparent until ripening commences. In the low-pigment mutant carotenoids are reduced as ripening progresses and no carotenoid crystalloids are formed. As chlorophyll decreases the fruits become pale yellow. The grana become disorganized and the thylakoids appear to separate at the partitions and tend to be arrayed in lines, some still with their ends overlapping. Globules increase slightly in number. In the high-beta mutant the grana break down during ripening and globules increase greatly in size and number. Beta-carotene, presumed to be largely in the globules, crystallizes into elongated or druse type forms which may distort the globules. The crystals may affect the shape of the chromoplasts; long crystals may extend the length of the plastid to over 15 μ. Thylakoid plexes with a regular lattice structure sometimes occur in the chromoplasts of the high-beta mutant. Granules resembling aggregations of phytoferritin particles occur in the chromoplasts of both of these mutants.     

Vir-115 gene product is required to stabilize D1 translation intermediates in chloroplasts

The nuclear gene mutant of barley, vir-115, shows a developmentally induced loss of D1 synthesis that results in inactivation of Photosystem II. Translation in plastids isolated from 1 h illuminated vir-115 seedlings is similar to wild type. In wild-type barley, illumination of plants for 16 to 72 h results in increased radiolabel incorporation into the D1 translation intermediates of 15–24 kDa. In contrast, these D1 translation intermediates were not observed in vir-115 plastids isolated from plants illuminated for 16–72 h. In addition, after 72 h of illumination, radiolabel incorporation into D1 was undetectable in vir-115 plastids. The level and distribution ofpsbA mRNA in membrane-associated polysomes was similar in wild-type and vir-115 mutant plastids isolated from plants illuminated for 16–72 h. Toeprint analysis showed similar levels of translation initiation complexes onpsbA mRNA in vir-115 and wild-type plastids. These results indicate that translation initiation and elongation of D1 is not significantly altered in the mutant plastids. Ribosome pausing onpsbA mRNA was observed in wild-type and vir-115 mutant plastids. Therefore, the absence of D1 translation intermediates in mutant plastids is not due to a lack of ribosome pausing onpsbA mRNA. Based on these results, it is proposed that vir-115 lacks or contains a modified nuclear-encoded gene product which normally stabilizes the D1 translation intermediates. In wild-type plastids, ribosome pausing and stabilization of D1 translation intermediates is proposed to facilitate assembly of cofactors such as chlorophyll will D1 allowing continued D1 synthesis and accumulation in mature chloroplasts.     

Pigment composition and plastid structure in leaves of carotenoid mutants of maize

Summary In monogenic, recessive chloroplast mutants of maize which contain chlorophylls, and lycopene or -carotene but no normal carotenoids, great variability in the size of plastids was associated with a number of ultrastructural abnormalities. In the mutant accumulating lycopene some plastids contain dense bundles of lamellae, whereas the chloroplasts of the -carotene mutant show poor thylakoid development. Neither of the mutants was able to form normal grana.A comparison of chlorophyll/carotenoid ratios in different chloroplast fractions of normal and mutant leaves showed that plastids of small size and delicate structure contain relatively less chlorophyll than fully differentiated chloroplasts.     

Ultramorphometric study of the plastids in apical tuber cells of original and transgenic potato plants treated with ambiol

Ultramorphometric characteristics of plastids in cells of apical tuber meristems of original and defensin gene-transfected potato (Solanum tuberosum L.) plants, either maintained under normal conditions or subjected to treatment with the antioxidant ambiol, were compared. Under normal conditions, the tuber cells of the original and transgenic potato plants differed in neither the number nor size of the plastids. Only certain quantitative distinctions in the development of individual ultrastructural characteristics of plastids were detected. Treatment with ambiol enhanced the differentiation of the internal membrane system of plastids in the cells of original and transgenic plants, especially the tubular membrane systems. Certain differences in the responses to ambiol of cell plastids of original and transgenic plants were related to plastid sizes and development of individual intraplastid structures. The results comply with earlier data on varying responses of mitochondria of original and transgenic plants to ambiol treatment.__________Translated from Prikladnaya Biokhimiya i Mikrobiologiya, Vol. 41, No. 3, 2005, pp. 330–339.Original Russian Text Copyright © 2005 by Platonova, Evsyunina, Belikov, Korableva.     

An ecological study of the macrophytic vegetation of the Doodhadhari Lake,Raipur, M. P., India

Summary Physical factors operating in Doodhadhari Lake were studied periodically during 1967–68. Thermal stratification in the lake was found to be induced by solar radiation during daytime and destroyed by nocturnal cooling and mixing of the lake waters as evidenced by temperature records. Light intensities at different strata were found to be reduced by plant growth. At 0.5 m depth and 1 m depth considerable reduction in light intensities was found. The floating-leaved rooted plants and free-floating sudd communities curtailed the light transmission to 0.0 – 0.1% at 0.5 m depth. Visibility also decreases considerably owing to shading by the plants at different stations.A part of the thesis submitted for the Degree of Doctor of Philosophy.     

THE EFFECT OF LOW TEMPERATURE ON THE DEVELOPMENT OF THE LAMELLAR SYSTEM IN CHLOROPLASTS

The influence of low temperature (3°C.) on development of submicroscopic structure in plastids of Zea m. leaves was studied. Leaves from 8-day old etiolated plants, with plastids showing the prolamellar body and few lamellae, were floated for 1 day on tap water both in the dark and in the light, at 26°C and at 3°C. The structures remain unchanged in the dark, independent of temperature. Whereas in the light at 26°C., normal development of parallel compound lamellae and formation of grana occurs, in light at 3°C. ring structures are formed. Under the latter conditions protochlorophyll is converted to chlorophyll, although the in situ absorption maximum is different from the one for chlorophyll in plants grown in light at 26°C. When leaves were transferred from light at 3°C. to light at 26°C., ring structures in the plastids disappeared and normal development occurred. The possibility is discussed that development of parallel-arranged compound lamellae is due both to photochemical and synthetic processes, involving not only accumulation of chlorophyll, but also synthesis of other compounds.     

The preferred colours of surfaces and light intensities suitable for oviposition by Prays citri

Laboratory experiments on the preferences of Prays citri females to surfaces of different colours for oviposition, showed that the insects preferred blue, yellow, white, black and red in that order. Similar results were obtained in conjunction with different light intensities for oviposition. Although slight differences were observed between deep blue, which was preferred at light intensities >200 lux, and light blue, preferred at intensities <200 lux, yellow and white were in both instances the second preference. A comparison of the effect of two light intensities on the oviposition responses of females, showed the higher value (within the range 0.5–300 lux) to be preferred over the lower one. By contrast, within the range 200–450 lux the lower value of light intensity was preferred.

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Résumé Des expériences de laboratoire ont montré que les femelles de Pray citri préfèrent dans l'ordre, pour pondre, les surfaces colorées suivantes: bleu, jaune, blanc, noir et rouge. Des résultats semblables ont été obtenus en faisant intervenir simultanément différentes intensités lumineuses. De légères différences ont été notées entre le bleu foncé et le bleu clair, le premier étant préféré pour des intensités lumineuses de moins de 200 lux, le second pour des intensités supérieures à 200 lux; mais dans les deux cas le jaune et le blanc restent classés en seconde préférence.La comparaison des effets de deux gammes d'intensités lumineuses différentes sur le comportement de ponte, montre que pour la gamme de 0,5 à 300 lux ce sont les valeurs les plus élevées qui sont préférées, alors que pour la gamme de 200 à 450 lux, ce sont les valeurs les plus faibles.

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Contribution from The Volcani Center, Agricultural Research Organization. Bet Dagan, Israel. 1972 Series, No. 9240-E.     

A bimodal temperature response and effect of light intensity in the photocontrol of germination of seeds in Jussiaea suffruticosa

Summary A bimodal temperature response is observed in the germination of seeds in Jussiaea suffruticosa, both under continuous and cyclic light treatments. Germination exhibits two maxima at around 25° C and at 40°, and a minimum in the region of 30–35°. The response depends on light intensity both under continuous and intermittent light treatments. This dependence is much more noticeable in the region of minimum germination (30°). Both preincubation in darkness at 35° and high light intensities (15 500 lux) tend to eliminate the bimodal temperature response.     

Growth characteristics of non-heterocystous cyanobacterium Plectonema boryanum with N2 as nitrogen source

Strains of filamentous, non-heterocystous cyanobacteria from the Pasteur Culture Collection (PCC), able to synthesize nitrogenase under anaerobic test conditions, were tested for growth with N₂ as sole nitrogen source at low O₂ partial pressure (less than 0.05%). Plectonema boryanum (PCC 73110) exhibited exponential growth under these conditions. This capacity was restricted to light intensities not exceeding 500 lux. Growth rates were 0.014/h at 200 and 0.023 at 500 lux and similar to those of anaerobic and aerobic control cultures with nitrate as N-source. For N₂-fixing cultures incubated at 200 and 500 lux, acetylene reduction rates were 4–8 and 5–14 nmol C₂H₄ per mg protein per min, respectively. The ratio of phycocyanine to chlorophyll was higher (200 lux) or slightly reduced (500 lux) in N₂-fixing cultures as compared to control cultures with nitrate as N-source. On the basis of epifluorescence microscopy and microfluorimetry, no differences in pigment contents were found between individual cells or filaments of N₂-fixing cultures. Also no noteworthy differences were observed between the pycobiliprotein composition of individual cells in N₂ fixing cultures as compared to nitrate-grown controls. Thus the observed exponential growth of P. boryanum at low light intensities implies simultaneous nitrogen fixation and oxygenic photosynthesis. Additional continuous culture experiments showed that N₂-fixing exponential growth was dependent on O₂ partial pressures lower than 0.2–0.4%.The other strains tested (PCC 6412, 6602, 7403, 7104) did not grow under such conditions.Abbreviations Chl chlorophyll - PBP phycobiliproteins - PC phycocyanin - PCC Pasteur Culture Collection - OD optical density     

Somatic instability of carotenoid biosynthesis in the tomato ghost mutant and its effect on plastid development

The tomato (Lycopersicon esculentum (L.) Mill.) ghost plant is a mutant of the San Marzano cultivar affected in carotenoid biosynthesis. ghost plants exhibit a variable pattern of pigment biosynthesis during development. Cotyledons are green but true leaves are white. Green sectors, which appear to be clonal in origin, are frequently observed in the white tissue. Because of the lack of photosynthesis ghost plants have a very low viability in soil. We have developed a strategy for propagating ghost plants that employs organ culture to generate variegated green-white plants which, supported by the photosynthetic green areas, develop in soil to almost wild-type size. These plants were used to analyze the pigment content of the different tissues observed during development and plastid ultrastructure. Cotyledons and green leaves contain both colored carotenoids and chlorophyll but only the colorless carotenoid phytoene accumulates in white leaves. the plastids in the white tissue of ghost leaves lack internal membrane structures but normal chloroplasts can be observed in the green areas. The chromoplasts of white fruits are also impaired in their ability to form thylakoid membranes.     

Aspects of the biochemistry and ultrastructure of a cytoplasmically inherited plastid defect (Dp1) of tobacco

Dpl, a cytoplasmically inherited plastid defect of Nicotiana tabacum L., has been further characterized by pigment and ribulose diphosphate carboxylase (RuDPCase) assays and electron microscopy. RuDPCase activity was reduced in defective plastids to 20–67% of that in normal chloroplasts. The chlorophyll content was reduced to 5% or less of that in normal chloroplasts. Leaf areas with only defective plastids were very light green for several days after the leaf began to expand but eventually turned white. This loss of chlorophyll was correlated with a reduction in internal plastid lamellae, but there was much less reduction in RuDPCase activity. The presence of cells with both mutant and normal plastids indicate that the plastid and not some other cytoplasmic factor was the site of the controlling unit.Scientific Paper No. 3812, College of Agriculture, Washington State University, Pullman, Projects 1916 and 1920. Supported in part by funds provided for medical and biological research by Washington State Initiative Measure 171.     

Ultrastructural study of an olive necrotic mutant of maize

Summary Ultrastructural surveys, carried out into an olive necrotic maize mutant (Neuffer E 283 B) grown under a 16 hours photoperiod, have shown remarkable morphological alterations in the plastids. Such alterations, affecting both the mesophyll and the bundle sheath plastids, appear to be photodependent. Quite normal etioplasts are present in dark-grown mutant seedlings. Moreover, light appears also to inhibit the overall growth of mutant plants. 12-day-old mutant plants grown under illumination are 4 cm in comparison with the 10 cm of the wild type, while corresponding dark-grown seedlings of both types are 12 cm high.Supported by a grant of C.N.R.     

Phenotypic analysis and molecular cloning of discolored-1 (dsc1), a maize gene required for early kernel development

Recessive mutations in the maize dsc1 locus prevent normal kernel development. Solidification of the endosperm in homozygous dsc1– mutant kernels was undetectable 12 days after pollination, at which time the tissue was apparently completely solidified in wild-type kernels. At later times endosperm did solidify in homozygous dsc1– mutant kernels, but there was a marked reduction in the volume of the tissue. Embryo growth in homozygous dsc1– kernels was delayed compared to wild-type kernels, but proceeded to an apparently normal stage 1 in which the scutellum, coleoptile, and shoot apex were clearly defined. Embryo growth then ceased and the embryonic tissues degraded. Late in kernel development no tissue distinctions were obvious in dsc1– mutant embryos. Immature mutant embryos germinated when transplanted from kernels to tissue culture medium prior to embryonic degeneration, but only coleoptile proliferation was observed. The dsc1 gene was isolated by transposon tagging. Analysis of the two different dsc1– mutations confirmed that transposon insertion into the cloned genomic locus was responsible for the observed phenotype. Dsc1 mRNA was detected specifically in kernels 5–7 days after pollination. These data indicate Dsc1 function is required for progression of embryo development beyond a specific stage, and also is required for endosperm development.     

Gravitropism in a starchless mutant of Arabidopsis

The starch-statolith theory of gravity reception has been tested with a mutant of Arabidopsis thaliana (L.) Heynh. which, lacking plastid phosphoglucomutase (EC 2.7.5.1) activity, does not synthesize starch. The hypocotyls and seedling roots of the mutant were examined by light and electron microscopy to confirm that they did not contain starch. In upright wild-type (WT) seedlings, starch-filled plastids in the starch sheath of the hypocotyl and in three of the five columellar layers of the root cap were piled on the cell floors, and sedimented to the ceilings when the plants were inverted. However, starchless plastids of the mutant were not significantly sedimented in these cells in either upright or inverted seedlings. Gravitropism of light-grown seedling roots was vigorous: e.g., 10^o curvature developed in mutants rotated on a clinostat following a 5 min induction at 1 · g, compared with 14^o in the WT. Curvatures induced during intervals from 2.5 to 30 min were 70% as great in the mutant as the WT. Thus under these conditions the presence of starch and the sedimentation of plastids are unnecessary for reception of gravity by Arabidopsis roots. Gravitropism by hypocotyls of light-grown seedlings was less vigorous than that by roots, but the mutant hypocotyls exhibited an average of 70–80% as much curvature as the WT. Roots and hypocotyls of etiolated seedlings and flower stalks of mature plants were also gravitropic, although in these cases the mutant was generally less closely comparable to the WT. Thus, starch is also unnecessary for gravity reception in these tissues.Abbreviations PAR photosynthetically active radiation - PAS periodic acid-Schiff's reagent - PGM phosphoglucomutase - WT wild-type     

Anionen-Influx,ATP-Spiegel und CO2-Fixierung in Limnophila gratioloides und Chara foetida

Summary Influx of anions (5x10^–4 M Cl^– or SO₄ ^2–) across the plasmalemma, ATP levels and CO₂ fixation in Limnophila and Chara have been measured in a comparative study.In Limnophila, influx, ATP level and CO₂ fixation were progressively reduced by increasing concentrations of carbonyl cyanide m-chlorophenylhydrazone (CCCP) in the light (4000 lux) as well as in the dark. In Chara, not only influx but also ATP levels were much less reduced in the light than in the dark.At 5x10^–4 M external salt concentration the action of light or dark is to change active influx of anions. Thus this study provides strong evidence to support the view that active anion uptake is directly dependent on ATP rather than on electron flow or NADPH. The possible significance of differences in the photophosphorylation systems of various plants is stressed.     

Photosynthetic plasticity in Potamogeton pectinatus L. from Argentina: strategies to survive adverse light conditions

Argentine Potamogeton pectinatus L. was grown in The Netherlands under laboratory conditions at four light intensities (50, 100, 150 and 200 µE m^–2 s^–1), and photosynthetic performance was evaluated after about 1, 2 and 3 months of growth. At these moments, chlorophyll-a and -b and tissue N and P content were also determined. During the growing period, plant lengths and number of secondary shoots were measured. In the field in Argentina, photosynthetic performance of P. pectinatus was also measured at different light intensities created by artificial shading at various times during the growing season. Field and laboratory photosynthetic results were in good agreement. P. pectinatus showed a significant plasticityin its photosynthesis, rather than in morphology. A fairly constant maximum photosynthetic rate with reduced light enabled the plants to maintain netproduction rates rather unaffected at low light intensities. Still, it can be predicted that increasing turbidity from 1–2 m^–1 at present to 3 m^–1 could lead to a strongly light-limited growth which should reduce the present weed problem considerably. Such a turbidity increase might be achieved by the introduction of a fairly dense bottom-feeding fish population like Common carp (Cyprinus carpio L.).     

Characterization of the thylakoid membranes of the tobacco aurea mutant Su/su and of three green revertant plants

Phenotypic characterizations of the semidominant aurea tobacco (Nicotiana tabacum L.) mutant Su/su, the homozygous mutant Su/Su and three green revertants (R1, R2, and R3) are presented. The leaf color of Su/su plants varies from yellow to light-green when grown under high and low energy fluence rates (33.0 and 3.3 W m^–2), respectively. The change in visual phenotype under high-light conditions is correlated with decreased content of chlorophyll per leaf area, agranal chloroplast ultrastructure, changes in the number of chlorophyll-protein complexes, and absence of two or more of the light harvesting chlorophyll-polypeptides of 25,000–29,000 dalton. The homozygous mutant grown under low light was shown to be completely lacking in grana stacks and to be deficient in chlorophyll-protein complexes. Revertant R1 was found to be identical to wild-type plants in all parameters examined (leaf color, chloroplast ultrastructure, chlorophyll-protein complexes, chlorophyll-protein complex polypeptides) except in chlorophyll content. It did not show an increased chlorophyll and carotenoid content as did the wild-type plants when exposed to high light. Revertants R2 and R3 were similar to the heterozygous mutant Su/su in most of the parameters examined. They yellowed because of a loss of chlorophyll and an increase in the amount of carotenoids, had agranal chloroplasts, and had variant chlorophyll-protein complexes when grown under high light intensities. However, each appeared to contain some of the light-harvesting pigment-protein complex polypeptides found to be absent in Su/su when grown under high-light conditions.Abbreviations HL high light - LL low light - SDS sodium dodecyl sulfate This paper is part of a Ph.D. thesis by P.J.K. in the Program in Genetics, Michigan State University     

Ultrastructural changes in isolated plastids

Summary Etio-chloroplasts were isolated from greening maize leaves and their ultrastructure was investigated immediately after isolation, as well as at intervals of several hours after their exposure to light or darkness. The following ultrastructural changes have been observed:In plastids isolated from etiolated leaves illuminated for 1–2 hours, the crystalline structure of the prolamellar bodies is partly restored during the isolation. In some plastids, regions with a regular, crystalline structure of densely packed tubules are even observed. The prolamellar bodies do not change further, either in light or in darkness.In young chloroplasts—i.e., in plastids isolated from etiolated leaves, illuminated for 6 or 15 hours—many prolamellar bodies, usually lying between the grana, appearde novo during isolation. These prolamellar bodies do not disappear in light either. They do not develop at all, however, if the isolation is performed at low temperature (4 °C).The results of the present paper indicate that in isolated etio-chloroplasts some tubular structures are newly formed, but that the conversion of this material into the thylakoids is not possible under the experimental conditions used.