Carbohydrate requirements for the development of black spruce (Picea mariana (Mill.) B.S.P.) and red spruce (P. rubens Sarg.) somatic embryos

Different carbohydrates were investigated for somatic embryo development of black spruce and red spruce. They were tested in a basal maturation medium consisting of Litvay's salts at half-strength containing 1 g l^-1 glutamine, 1 g l^-1 casein hydrolysate, 7.5 M abscisic acid, and 0.9% Difco Bacto-agar. A comparison of different sucrose concentrations showed that 6% was optimal for embryo development. Among the nine carbohydrates tested, sucrose, fructose, glucose, maltose, and cellobiose supported embryo development while arabinose, mannitol, myo-inositol, and sorbitol did not. A comparison of sucrose, glucose, and fructose at three concentrations showed that the general pattern of response for both species followed concentration expressed as a percentage, independent of the molarity of carbohydrate in the medium. Interspecific differences were observed concerning carbohydrate requirements. For red spruce, 6% fructose was found best for embryo development, while no such preference was observed for black spruce. No significant difference was observed in the number of embryos produced with 6% sucrose or 3% sucrose plus an equimolar concentration of either mannitol, sorbitol, or myo-inositol in the maturation medium, suggesting that the effect of the carbohydrate on the maturation was partly osmotic.     

In situ localization of glucose and sucrose in dehydrating leaves of Sporobolus stapfianus

Accumulation of soluble carbohydrates during dehydration stress is thought to be a very important mechanism for the acquisition of desiccation tolerance. Despite the proposed importance of soluble carbohydrate accumulation (especially sucrose), nothing is known about the cellular localization of carbohydrates in desiccation-tolerant plants. The present study proposes a novel and selective method for the in situ localization of sucrose and glucose in the desiccation-tolerant plant Sporobolus stapfianus. The detection of sucrose and glucose is based on a series of coupled enzymatic reactions leading to the formation of NADH. Iodonitrotetrazolium (INT) reacts with NADH, thereby providing the red-colored insoluble INT-formazan. Stained tissue sections were immediately visualized using light microscopy. Localization of the respective sugars was site specific. Sucrose was visualized in all leaf cell types during dehydration: vascular bundles, bundle sheath cells, mesophyll cells and epidermal cells. Similarly, glucose was shown to be localized in the same leaf compartments as reported for sucrose. This is the first report that describes sucrose localization in dehydrating leaf tissues of a "resurrection" plant. We conclude that, during dehydration stress, sucrose accumulates in all viable tissues; these results are in agreement with the previously proposed theories about its function as a cellular protectant.     

Characterising the morphological characters and carbohydrate metabolism of oat culms and their association with lodging resistance

• Lodging resistance can be improved by enhancing the mechanical strength of culms, and culm carbohydrates could improve this mechanical strength. Culm carbohydrates can regulate development of the culm and affect its toughness.
• The present study determines the relationship between lodging and carbohydrate content in oat culms. Field experiments were conducted in alpine regions in 2017 and 2018 using three oat varieties with different lodging resistance. Lodging‐related morphological characteristics were directly determined and culm carbohydrate content and enzyme activity related to cellulose synthesis and sucrose metabolism were evaluated with ultraviolet spectrophotometry.
• Results showed that the lower the gravity height or the lower ratio of gravity height to plant height, the stronger the lodging resistance of the varieties. Higher culm nonstructural (NSC) and structural (SC) carbohydrate content contributed to the ability of culms to resist lodging, especially the content of cellulose and sucrose. PCA showed that sucrose metabolism and SC content were closely related to lodging resistance. Correlation analysis showed that the lodging index (LI) was significantly negatively correlated with NSC. Sucrose content was highly and significantly positively correlated with NSC. Additionally, the activities of sucrose phosphate synthase (SPS) and sucrose synthase (SS) were highly and significantly positively correlated with sucrose and cellulose content.
• The relationship between field characters and oat lodging, as well as the regulatory mechanism of carbohydrate content on lodging resistance of the culm are discussed.

     

Changes in soluble carbohydrates and starch amounts during somatic and zygotic embryogenesis of Acca sellowiana (Myrtaceae)

Comparative analysis of zygotic and somatic embryogenesis of Acca sellowiana showed higher amounts of sucrose, fructose, raffinose, and myo-inositol in zygotic embryos at different developmental stages than in corresponding somatic ones. These differences were mostly constant. In general, glucose levels were significantly lower than the other soluble carbohydrates analyzed, showing minor variation in each embryo stage. Despite the presence of sucrose in the culture medium, its levels conspicuously diminished in somatic embryos compared with the zygotic ones. Raffinose enhanced parallel to embryo development, regardless of its zygotic or somatic origin. Analysis of the soluble carbohydrate composition of mature zygotic cotyledon used as explant pointed out fructose, glucose, myo-inositol, sucrose, and raffinose as the most important. Similar composition was also found in the corresponding somatic cotyledon. Total soluble carbohydrates varied inversely, decreasing in zygotic embryos and increasing in somatic embryos until the 24th d, at which time they increased rapidly about sixfold in zygotic embryos until the 27th d, a period coinciding with the zygotic proembryos formation. Such condition seems to reflect directly the variation of endogenous sucrose level, mainly because glucose and fructose diminished continuously during this time period. This means that, in terms of soluble sugars, zygotic embryo formation occurred under a situation represented by high sucrose amounts, simultaneously with low fructose and glucose levels, while in contrast, somatic embryo formation took place under an endogenous sugar status characterized by a substantial fructose enhancement. Starch levels increased continuously in zygotic embryos and decreased in somatic ones, the reverse to what was found in fructose variation. Starch accumulation was significantly higher in somatic torpedo and cotyledonary embryos than in the corresponding zygotic ones.     

罗汉果果肉中糖类物质组成与含量分析

罗汉果果实中富含糖分,糖类物质的组成及其含量对果实的内在品质有重要影响,然而多年来对其品质的研究多集中在罗汉果苷上,果实中可溶性糖种类与含量迄今尚未见有系统地报道。该研究以干燥的罗汉果果实为材料,采用PMP柱前衍生化一高效液相色谱紫外检测法、高效液相色谱示差折光检测法分别检测果肉中可溶性糖的种类与含量,并进行方法学考察。结果表明:PMP柱前衍生化一高效液相色谱紫外检测法只能检出罗汉果果实中存在的2种还原性醛糖——葡萄糖、甘露糖;而高效液相色谱示差折光检测法则可一次性检出葡萄糖、果糖、蔗糖、棉籽糖、多糖5种糖分。与柱前衍生化法相比,高效液相色谱示差折光检测法更适合用来全面分析罗汉果果实中糖分的种类和含量。不同罗汉果品种果实中糖的组分一致,但含量有显著差别。另外,样品的干燥方式会影响果实中的总糖及各组分的相对含量。冻干果肉中蔗糖和葡萄糖相对含量最高,烘干则导致蔗糖和葡萄糖下降,果糖与多糖相对含量增加。     

Activity and localisation of sucrose synthase and invertase in ovules of sexual and apomicticBrachiaria decumbens

Summary Brachiaria decumbens has sexual and apomictic reproduction. Apomixis is facultative and of the aposporic type. In early stages of ovule development, differences in the pattern of callose deposition between sexual and apomictic plants were observed which points to possible differences in carbohydrate metabolism. Therefore, a comparative study on carbohydrate metabolism between a sexual diploid ecotype and an apomictic tetraploidB. decumbens was made. A histochemical determination of two enzymes responsible for sucrose degradation, sucrose synthase and invertase, was performed for all stages of ovule development. In addition, the concentrations of sucrose, glucose, and fructose were measured for each stage of ovule development, both for sexual and apomictic plants. The enzymes were localised by immunohistochemistry with heterologous antibodies. A distinct difference between sexual and apomictic plants was observed in the localisation of sucrose synthase activity as well as in the amount of activity, especially in the early stages of ovular development. Invertase activity localisation was comparable between ovules of the sexual and apomictic plants, but its activity is clearly higher in ovules of sexual plants. The localisation of the enzymes coincided with the place of activity. For both sexual and apomictic plants the amount of sucrose in the ovaries increased with the stage of ovule development. Differences in the amount of sucrose between sexual and apomictic plants in ovaries with ovules in comparable stages of development were detected. A delay in the onset of carbohydrate metabolism during early stages of ovule development characterises the apomictic plant.Abbreviations MMC megaspore mother cell - MC meiocyte - MS megaspore - AI apospore initial - CO coenocyte - MES mature embryo sac - SuSy sucrose synthase - INV invertase - BMM buthylmethyl methacrylate - DTT dithiothreitol - DAPI 4,6-diamidino-2-phenylindole - PBS phosphate-buffered saline     

Studies on isoenzyme pattern during differentiation (spherulation) of Physarum polycephalum

Plasmodial homogenates of the true slime mold Physarum polycephalum grown on a liquid medium contain carbohydrates which form a complex with protein under conditions of acrylamide electrophoresis and thus make isoenzyme studies from those extracts impossible. A method, using mild homogenization and centrifugation on top of a 30% sucrose solution was developed. This treatment leaves most of the soluble cytoplasmic enzymes in the upper layer above the sucrose, which then can be used for successful isoenzyme or protein studies with polyacrylamide electrophoresis.The activity changes and isoenzyme pattern of 16 different enzymic activities were studied during differentiation (spherulation) of Physarum polycephalum, induced either by starvation or by mannitol. Only one enzyme, esterase, exhibited a conspicuous change in isoenzyme pattern during development.     

Examining the interaction of light,nutrients and carbohydrates on seed germination and early seedling development of <Emphasis Type="Italic">Bletia purpurea</Emphasis> (Orchidaceae)

The effects of carbohydrate availability, carbohydrate source, nutrient availability and illumination on germination and early development of Bletia purpurea (Orchidaceae) seeds were investigated using asymbiotic seed germination. Of special interest was determining the minimum nutritional and light requirements for the completion of germination. Germination and development was limited when seeds were cultured in darkness without sucrose. Seeds were able to germinate under illuminated conditions even in the absence of sucrose and this effect was enhanced when mineral nutrients were incorporated into media. Sucrose, fructose, glucose and trehalose enhanced germination and seedling development while mannitol and sorbitol did not. These data suggest that carbohydrates, either as products of photosynthesis, from symbiotic fungi in situ or as exogenously supplied sugars in vitro, play an important role in regulating seed germination by fulfilling an energy requirement. This hypothesis has been often expressed but rarely satisfactorily tested. Mineral nutrients appear to be less important for germination than carbohydrates. The differential effect of sucrose, fructose, glucose and trehalose at two different concentrations on rhizoid production indicates carbohydrates may play a role in regulating rhizoid production.     

Effect of growth regulator and culture conditions on shoot multiplication and rhizome formation in ginger (Zingiber officinale Rosc.) in vitro

Summary Shoot multiplication of Zingiber officinale cv. V₃S₁₈ was achieved by meristem culture on a Murashige and Skoog (MS) basal medium supplemented with 26.6 μM 6-benzylaminopurine (BA), 8.57 μM indole-3-acetic acid (IAA), and 1111.1 μM adenine sulfate and 3% (w/v) sucrose. In vitro rhizome formation from in vitro-raised shoots was achieved on MS medium supplemented with 4.44 μM BA, 5.71 μM IAA, and 3–8% (w/v) sucrose after 8 wk of culture. Cultural variations such as photoperiod, carbohydrate, nutrient composition, and growth regulators were tested for the maximum yield of rhizomes. Among the different photoperiods used, a 24-h photoperiod helped in the formation of more rhizomes as compared with other photoperiods. Of the different carbohydrates used, sucrose helped to achieve rhizome formation as compared to other carbohydrates. The microrhizomes sprouted in a soil mixture within 2 wk of planting. The sprouted plantlets survived under field conditions with normal growth.     

Gastric emptying time and absorption of simple and complex carbohydrates in Macaca mulatta

Recent studies of nonhuman primates have shown that the amount and type of dietary carbohydrate influences the development of atherosclerotic lesions. In an effort to examine the gastrointestinal handling of simple and complex carbohydrates, measurements of gastric emptying times and uptake of C¹⁴ labeled carbohydrates were made for six female Macaca mulatta. A significantly smaller volume of sucrose solutions remained in the stomach after 60 minutes than solutions containing an equal amount by weight of dextrin. Similarly, when solutions of equal osmotic pressures but unequal weights of sucrose and dextrin were used, a significantly smaller volume of the sucrose solution remained in the stomach after 60 minutes. These findings are consistent with the idea that breakdown of dextrin by pancreatic amylase results in an increase in osmotic pressure of the intestinal contents and a slowing of gastric emptying. No significant differences in the levels of glucose or total C¹⁴ labeled carbohydrates were found in the peripheral blood following ingestion of C¹⁴ labeled sucrose or dextrin. This finding suggests that although an initial difference in the rate of gastric emptying of these carbohydrates exists, other factors, such as the rate of production and activity of pancreatic amylase, activity of intestinal disaccharidases, and intestinal mucosal transport, tend to equalize the rate of absorption of these sugars.     

Carbohydrate formation in rewetted terrestrial cyanobacteria

Summary In the terrestrial cyanobacterium Nostoc commune Vauch. formation of carbohydrate polymers was measured upon rewetting the mats in a light-dark regime. To discriminate between carbohydrates of different physiological function, total carbohydrate was determined as anthrone-reactive material (ARM) and storage carbohydrate (glycogen) assayed by an enzymic test. In the dry thalli glycogen was found to represent less than one tenth of the ARM. After rewetting an increase of total carbohydrate was observed in illuminated samples. Only glycogen, however, showed a regular pattern of synthesis and degradation during a 12:12 h light-dark cycle. This indicates that most carbohydrates detected by anthrone belong to the metabolically inert sheath material.When illuminated colonies were kept submerged after rewetting glycogen was hydrolyzed indicative of being used in the rapid recovery of cellular functions as observed in rewetted colonies. Apparently, photosynthesis allowed for net glycogen synthesis only, provided the mats were sufficiently aerated. These findings give evidence that the (carbohydrate) sheath plays an important role in water retention in an organism bound to a terrestrial habitat.     

Repetitive somatic embryogenesis and plant recovery in white clover

Summary Breeding and selection was used to generate a population of white clover (Trifolium repens L.) from cultivar Osceola with a high embryogenic capacity. Somatic embryos were obtained from immature cotyledons of white clover placed onto EC6 basal medium containing 40 mg L^–1 of 2,4-D and 6% sucrose. The effects of 2,4-D at 20 and 40 mg L^–1 and of the carbohydrates, sucrose and maltose, were evaluated for their influence in the establishment of repetitive somatic embryogenesis. To determine the optimal protocol for plant recovery from somatic embryos, the effects of MS vs. EC6 basal salts, sucrose vs. maltose, B5 vitamins vs. yeast extract, and inclusion or exclusion of activated charcoal were evaluated. Repeated subculture of white clover somatic embryos on EC6 basal medium containing 6% sucrose with 2,4-D at 20 or 40 mg L^–1 effectively maintains repetitive embryogenesis. Medium containing MS salts with 6% maltose as the carbohydrate source was the most efficient for plant recovery.     

Wachstum und N-Stoffwechsel sowie Anderungen des Isoenzymspektrums der Glutamatdehydrogenase (GDH) in batchvermehrten, licht- und dunkelkultivierten Zellsuspensionen von Pisum sativum

Growth, N-metabolism and isoenzyme pattern of glutamate dehydrogenase in batch-cultures of Pisum sativum cells under light and dark conditions. Cell suspension cultures of Pisum sativum L. derived from root and shoot sections of seedlings have been prepared and cultured in defined nutrient medium. Both the cells and the media were analysed daily for the N-fractions and carbohydrates during the growth period. The data obtained indicate specific correlations between growth and nitrogen and carbohydrate metabolism. At the beginning of the growth cycle ammonia as compared to nitrate was favoured in uptake. An increased uptake of nitrate occurred at the end of the linear growth phase when carbohydrate in the media was depleted. The uptake of sucrose was rapid during the whole growth cycle, only in the range of the linear growth phase the uptake stagnated for 3 or 4 days. During increased biosynthesis of nitrogenous compounds at the beginning of the growth cycle up to seven isoenzymes of the glutamate dehydrogenase could be separated by polyacrylamide gel electrophoresis. The isoenzyme pattern changed during the stationary growth phase, especially when the carbohydrate content in the medium decreased. There is some evidence that the isoenzyme pattern is influenced by carbohydrate metabolism.     

Carbohydrates as regulatory factors on the rooting of <Emphasis Type="Italic">Eucalyptus saligna</Emphasis> Smith and <Emphasis Type="Italic">Eucalyptus globulus</Emphasis> Labill

Comparisons between related species with different rooting capacities can provide insights into the mechanisms controlling adventitious root development. The availability of carbohydrates is often considered exclusively as an energetic requirement to drive root development; the major regulatory role in the process is often attributed to phytohormones, particularly auxin. The roles of light quantity (irradiance) and carbohydrate supply available to young aseptic donor-plants on the adventitious rooting response of Eucalyptus globulus (rooting recalcitrant) and Eucalyptus saligna (easy-to-root) were examined. The effects of the type of carbohydrate supply (sucrose or glucose) on the rooting response of cuttings was also evaluated. Light intensity supplied to mother-plants (30 or 60 mol m^–2 s^–1) had limited influence on the rooting response of both species, whereas dark periods were detrimental, particularly for E. globulus. In E. globulus, rooting was promoted by the absence of sucrose in donor-plant media. Presence of sucrose in donor plant medium promoted root number but did not affect rooting percentage of E. saligna. A positive effect of glucose on cutting rhizogenesis was found if this hexose was supplied during the root induction phase, followed by sucrose in the root formation step, especially for E. globulus. The same effect was not seen with fructose. The beneficial effect of glucose in the induction phase on root number was also evident under suboptimal auxin concentrations.     

The effect of medium composition on ovary-slice culture and ovule culture in intraspecific Tulipa gesneriana crosses

The effect of several media components on the germination percentage of ovules in intraspecific T. gesneriana L. crosses was studied by using two embryo rescue techniques, viz. ovary-slice culture followed by ovule culture and direct ovule culture. The addition of 9% sucrose to medium for ovary-slice culture, started at 3 or at 5 weeks after pollination (WAP), significantly improved the germination percentage as compared to 5% sucrose. The germination percentage did not differ between both sucrose concentrations (3% and 5%) used in ovule culture started 4 weeks later with ovules excised from the ovary-slices (at 9 WAP). Similar germination percentages were obtained with media containing the full or half of the concentrations of micronutrients and macronutrients of the MS-medium during ovary-slice culture and ovule culture. For direct ovule culture, started at 4, at 6, and at 8 WAP, the germination percentages did not differ between ovules cultured on media with 3%, 6% or 9% sucrose. The addition of the cytokinin BAP (0.01 or 0.1 mg l^-1) had no effect on the germination percentage. The use of liquid-shaken culture resulted in germination percentages which were similar to those on agar-solidified media. Analysis of the carbohydrate concentration of the media revealed that, in both media for ovary-slice culture and for ovule culture, ultimately all sucrose is converted into glucose and fructose. The total concentration of carbohydrates decreased with 19%–48% in the media for ovary-slice culture, whereas the total concentration of carbohydrates did not decrease remarkably in media for ovule culture.     

Seasonal and spatial variation of carbohydrates in mistletoes (Viscum album) and the xylem sap of its hosts (Populus x euamericana and Abies alba)

In the present field study we analysed the seasonal pattern of carbohydrate composition and contents in the xylem sap of Viscum album and the xylem sap of a deciduous ( Populus × euramericana ) and a coniferous ( Abies alba ) host tree species. The results were compared with the soluble carbohydrate composition and contents of mistletoe tissues. On both hosts significant amounts of glucose, fructose, and sucrose were found in the xylem sap of Viscum throughout the seasons. The general seasonal pattern of sugar contents, i.e. high concentrations in spring and lower concentrations in other seasons on Populus , and intermediate concentrations throughout the year on Abies , largely reflected the xylem sap carbohydrate composition and contents of the respective host. These observations provide indirect evidence for carbohydrate flux from the xylem sap of the host into the mistletoe. However, in both hosts xylem sap seems to be deviated into the mistletoe without specific control of carbohydrate flux. Differences observed between the seasonal pattern of xylem sap carbohydrate concentrations in Viscum on Populus and Abies may originate from the different time of leaf development of these species. A clear-cut seasonal pattern of soluble carbohydrates was not observed in the leaves of Viscum on both hosts. Still soluble carbohydrates seem to be reallocated from the senescing to the newly developed leaves of Viscum indicating that the seasonal requirement of carbohydrate for growth and development can only completely be met by carbohydrate acquisition from the host and their own photosynthesis.     

Monoclonal antibodies as molecular probes for cell wall antigens of the brown alga,Fucus

Monoclonal antibodies to cell wall carbohydrates were produced against carbohydrates extracted from the brown alga, Fucus distichus ssp. edentatus (de la Pyl.) Powell. Mouse spleen cells were immunized in vitro with alginate and fucans, and hybridoma cultures were screened by enzyme immunoassay. Most antibodies were immunoglobulin (Ig)M and one was IgA. Antigens were localized on methacrylate sections of Fucus tissues by indirect immunofluorescence. Each antibody labelled tissues with a distinctive distribution pattern in cell walls and extracellular matrix regions, demonstrating that each antibody was specific for a different extracellular epitope (i.e., antigenic determinant). Most antibodies also labelled intracellularly on at least one cell type. Punctate, fibrous or clumped labelling was characteristic of individual antibodies and provided information related to carbohydrate structure and solubility. These antibodies are molecular probes for small regions on cell wall polymers and should be valuable in studies of cell wall synthesis, secretion, assembly and modification as well as carbohydrate fine structure and function.Abbreviations EDTA ethylenediaminetetraacetic acid - EIA enzyme immunoassay - Ig immunoglobulin (IgG, IgM and IgA are immunoglobulin types)     

Light effects on α-amylase activity and carbohydrate content in relation to lipid mobilization during the seedling growth of sunflower

The changes in α-amylase activity and in starch and free sugar content were investigated in correlation with lipid mobilization inHelianthus annuus during the first 15 days of seedling growth in discontinuous light and in darkness. Throughout the seedling development α-amylase activity increased more significantly in light than in darkness. It was always lower in cotyledons than in other tissues of the embryo axis. In both culture conditions, most of the transitory carbohydrates accumulated in germinating cotyledons were very likely synthesized by gluconeogenesis from the stored lipid breakdown. Nevertheless, in light-grown cotyledons, photosynthesis contributes to increase the carbohydrate levels. The study of several soluble sugars indicates that 1) sucrose stored in cotyledons of mature seeds was used at the onset of seedling growth, more rapidly in light than in darkness, 2) galactose and xylose, both involved as precursors of some cell-wall polysaccharides, remained at a very low level throughout the 15 days and 3) glucose, fructose and maltose accumulated in old etiolated cotyledons in contrast to what occurred in the light.     

Raffinose oligosaccharide concentrations measured in individual cell and tissue types in Cucumis melo L. leaves: implications for phloem loading

Raffinose, stachyose, and galactinol are synthesized in intermediary cells (specialized companion cells) of the minor-vein phloem of cucurbits. To better understand the role of these carbohydrates and the regulation of their synthesis and transport, we measured the concentrations of each of the components of the raffinose oligosaccharide synthetic pathway in mesophyll and sieve element-intermediary cell complexes (SE-ICCs) in the leaves of melon (Cucumis melo L. cv. Hale's Best Jumbo). These concentrations are consistent with a polymer-trapping mechanism for phloem loading, with sucrose diffusing from mesophyll into intermediary cells and being made into raffinose and stachyose, which are too large to diffuse back to the mesophyll. To determine carbohydrate concentrations, we developed a method involving microdissected tissues. Blind endings of areoles, and mesophyll surrounding these veins, were separately removed from lyophilized leaf tissue. Carbohydrates were quantitated by high-performance liquid chromatography with pulsed amperometric detection. A small amount of mesophyll remained attached to the blind endings; the carbohydrate contribution of these cells to the vein sample was eliminated by subtraction, based on the amount of chlorophyll. Volumes of cells and subcellular compartments were calculated by morphometric analysis and were used to calculate carbohydrate concentrations. Assuming no subcellular compartmentation, the additive concentration of sugars in the SE-ICCs of minor veins is about 600 mM. Stachyose and raffinose concentrations are about 330 mM and 70 mM, respectively, in SE-ICCs; concentrations of these sugars are much lower in mesophyll (0.2 and 0.1 mM). This is consistent with the view that stachyose and raffinose are unable to pass through the plasmodesmata between intermediary cells and bundle-sheath cells. Sucrose levels appear to be higher in the SE-ICC (about 130mM) than in the mesophyll (about 10 mM), but if compartmentation is taken into account the gradient for sucrose is probably downhill from mesophyll to intermediary cells. Flux through plasmodesmata between the bundle sheath and intermediary cells was calculated and was found to be within the range of values of flux through plasmodesmata reported in the literature.Abbreviations BS-IC bundle sheath-intermediary cell - PC plasmodesmatal channel - SE-ICC sieve element-intermediary cell complex - SEL size exclusion limit We would like to thank Gayle Volk, Philip Laible, Canan Inan, Esther Gowan, Richard Medville, Nathan Wilson, Jessica Plant, and Steven Boese for their help, Thomas Owens, M.V. Parthasarathy, and Ian Merwin for use of equipment, and Nancy Haritatos for suggestions. This research was supported by U.S. Department of Agriculture Competitive Grant 94-37306-0351 (R.T.), the Swiss National Foundation (F.K.), and a NSF/DOE/USDA Cornell Plant Science Center fellowship (E.H.).     

Alterations in photosynthesis in <Emphasis Type="Italic">Arabidopsis</Emphasis> lacking IMMUTANS,a chloroplast terminal oxidase

Green and white variegation in the Arabidopsis immutans (im) mutant is caused by a nuclear recessive gene. The green sectors contain cells with normal-appearing chloroplasts, while cells in the white sectors have photooxidized plastids lacking organized lamellae. In the present experiments, we found that the green im sectors have enhanced rates of carbon assimilation (monitored by ¹⁴CO₂ uptake) and that there are corresponding increases in the activities of Rubisco and SPS, elevated starch and sucrose pool sizes, and an altered pattern of carbohydrate partitioning that favors sucrose over starch. We hypothesize that these increases are due, at least in part, to interactions with white sectors, perhaps to compensate for reductions in total source tissue. Consistent with this idea, the im white sectors accumulate low levels of sucrose and acid invertase activities are markedly increased in the white versus green cells. This suggests that there is a sucrose gradient between the green and white sectors, and that sucrose is transported from the green to white cells in response to sink demand. The expression of photosynthetic genes is not appreciably altered in the green im sectors versus wild type, but rather there is an up-regulation of genes involved in defense against oxidative stress and down-regulation of genes involved in cell wall biosynthesis. We postulate that changes in photosynthesis in the im green cells are driven by a need for photoprotection (especially early in chloroplast biogenesis) and due to source-sink interactions. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.