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1.
Light Regulation of Sink Metabolism in Tomato Fruit : II. Carbohydrate Metabolizing Enzymes 总被引:4,自引:1,他引:3
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Effects of light on carbohydrate levels and certain carbon metabolizing enzyme activities were studied during the early development of tomato (Lycopersicon esculentum) fruit. Sucrose levels were low and continued to decline during development and were unaffected by light. Starch was significantly greater in light. Invertase activity was similar in both light- and dark-grown fruit. Sucrose synthase activity was much lower than invertase and showed a slight decrease in light-grown fruit between days 21 and 28. Light-grown fruit also had higher ADP glucose pyrophosphorylase activity than dark-grown fruit, which was correlated with higher starch levels. The rapidly decreasing activity of ADP glucose pyrophosphorylase during early fruit development in the dark in conjunction with reduced starch levels and rates of accumulation indicates that ADP glucose pyrophosphorylase is crucial for carbon import and storage in tomato. The differential stimulation of ADP glucose pyrophosphorylase activity from light- and dark-grown tissue by 3-phosphoglycerate suggests that this enzyme may be allosterically altered by light. 相似文献
2.
Contrasted responses to carbohydrate limitation in tomato fruit at two stages of development 总被引:5,自引:0,他引:5
P. BALDET C. DEVAUX C. CHEVALIER R. BROUQUISSE D. JUST & P. RAYMOND 《Plant, cell & environment》2002,25(12):1639-1649
The metabolic consequences of long‐term carbohydrate depletion have been well documented in many sink organs but not extensively in fruit. Therefore, in the present study the response to sugar limitation in tomato fruit (Lycopersicon esculentum Mill.) was investigated at two developmental stages; during the cell division and cell expansion phases. First, the response in excised fruit cultured in vitro was characterized. Sugar depletion caused an arrest of growth and an exhaustion of carbon reserves. The proteins that were degraded and the nitrogen released was transiently stored as asparagine and glutamine in both developmental stages and also as γ ‐aminobutyric acid (GABA) in expanding fruit. Fruit at the cell division stage appeared to be more sensitive to sugar limitation. The response to sugar depletion was then characterized in fruit from plants submitted to extended darkness. In planta, the effects of sugar‐limitation were similar to those described in vitro but much more attenuated, especially in expanding fruit, which still accumulated dry matter. The expression of cell cycle genes, sugar‐ and nitrogen‐related genes was reduced by darkness. Only asparagine synthetase gene expression was induced in both dark‐treated fruit. Together the present data revealed that the effects of the carbon limitation are more pronounced in the youngest fruits as it is probably controlled by the relative sink strength of the fruit. 相似文献
3.
Alterations in leaf carbohydrate metabolism in response to nitrogen stress 总被引:18,自引:3,他引:15
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A series of experiments was conducted to characterize alterations in carbohydrate utilization in leaves of nitrogen stressed plants. Two-week-old, nonnodulated soybean plants (Glycine max [L.] Merrill, `Ransom'), grown previously on complete nutrient solutions with 1.0 millimolar NO3−, were transferred to solutions without a nitrogen source at the beginning of a dark period. Daily changes in starch and sucrose levels of leaves were monitored over the following 5 to 8 days in three experiments. Starch accumulation increased relative to controls throughout the leaf canopy during the initial two light periods after plant exposure to N-free solutions, but not after that time as photosynthesis declined. The additional increments of carbon incorporated into starch appeared to be quantitatively similar to the amounts of carbon diverted from amino acid synthesis in the same tissues. Since additional accumulated starch was not degraded in darkness, starch levels at the beginning of light periods also were elevated. In contrast to the starch effects, leaf sucrose concentration was markedly higher than controls at the beginning of the first light period after the N-limitation was imposed. In the days which followed, diurnal turnover patterns were similar to controls. In source leaves, the activity of sucrose-P synthase did not decrease until after day 3 of the N-limitation treatment, whereas the concentration of fructose-2,6-bisphosphate was decreased on day 2. Restricted growth of sink leaves was evident with N-limited plants within 2 days, having been preceeded by a sharp decline in levels of fructose-2,6 bisphosphate on the first day of treatment. The results suggest that changes in photosynthate partitioning in source leaves of N-stressed plants resulted largely from a stable but limited capacity for sucrose formation, and that decreased sucrose utilization in sink leaves contributed to the whole-plant diversion of carbohydrate from the shoot to the root. 相似文献
4.
The effect of temperature on sucrose uptake, and changes inlevels of starch, hexoses and sucrose in detached tomato fruitswas used to investigate the role of the sink in regulation ofcarbon import. Sucrose uptake was lower at 5 °C and greaterat 40 °C than at 25 °C. Conversion of radioactive componentsto starch was lower at both 5 °C and 40 °C than at 25°C, while the levels of non-radioactive starch was similarat all three temperatures. There was a depletion of glucoseand fructose in fruits at 40 °C. Uptake of sucrose froman agar medium by detached tomato fruits was negatively correlatedwith initial sucrose content of the fruit. The results indicatethat carbon import by tomato fruits is largely determined bysucrose levels which can be affected by metabolic activity. Lycopersicon esculentum L., tomato, fruit, sucrose uptake, temperature, carbon metabolism 相似文献
5.
Leaf Carbohydrate Status and Enzymes of Translocate Synthesis in Fruiting and Vegetative Plants of Cucumis sativus L 总被引:4,自引:2,他引:2
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Carbon partitioning in the leaves of Cucumis sativus L., a stachyose translocating plant, was influenced by the presence or absence of a single growing fruit on the plant. Fruit growth was very rapid with rates of fresh weight gain as high as 3.3 grams per hour. Fruit growth was highly competitive with vegetative growth as indicated by lower fresh weights of leaf blades, petioles, stem internodes and root systems on plants bearing a single growing fruit compared to plants not bearing a fruit. Carbon exchange rates, starch accumulation rates and carbon export rates were higher in leaves of plants bearing a fruit. Dry weight loss from leaves was higher at night from fruiting plants, and morning starch levels were consistently lower in leaves of fruiting than in leaves of vegetative plants indicating rapid starch mobilization at night from the leaves of fruiting plants. Galactinol, the galactosyl donor for stachyose biosynthesis, was present in the leaves of fruit-bearing plants at consistently lower concentration than in leaves of vegetative plants. Galactinol synthase, and sucrose phosphate synthase activities were not different on a per gram fresh weight basis in leaves from the two plant types; however, stachyose synthase activity was twice as high in leaves from fruiting plants. Thus, the lower galactinol pools may be associated with an activation of the terminal step in stachyose biosynthesis in leaves in response to the high sink demand of a growing cucumber fruit. 相似文献
6.
The rates of carbon import by fruits were measured over 48 has the sum of the change in the total organic carbon contentof the fruit and the respiratory loss of carbon. Over a rangeof fruit sizes from 2090 per cent of the maximum volumethe smaller fruits imported carbon at an absolute rate (mgCfruit1 h1) nearly twice that of the larger fruits.The imported leaf assimilates, identified as the 14C-compoundsalong the pathway between a 14CO2-fed leaf and a young fruit,comprised 90 per cent sucrose and 10 per cent glutamic acid,aspartic acid and malic acid. Within the fruit the imported14C-sucrose was hydrolysed into hexoses. The changes in thelevels of starch and insoluble residue in the fruit were positivelycorrelated with the carbon import rates. In the largest fruitswith the lowest import rates, there was breakdown of insolubleresidue and less accumulation of starch, but a significant increasein the level of sucrose. The sink strength of a tomato fruitis dependent more on sink activity than on sink size. 相似文献
7.
Sucrose Synthase in Wild Tomato, Lycopersicon chmielewskii, and Tomato Fruit Sink Strength 总被引:10,自引:5,他引:5
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Here it is reported that sucrose synthase can be readily measured in growing wild tomato fruits (Lycopersicon chmielewskii) when suitable methods are adopted during fruit extraction. The enzyme also was present in fruit pericarp tissues, in seeds, and in flowers. To check for novel characteristics, the wild tomato fruit sucrose synthase was purified, by (NH4)2SO4 fraction and chromatography with DE-32, Sephadex G-200, and PBA-60, to one major band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The following characteristics were obtained: native protein relative molecular weight 380,000; subunit relative molecular weight 89,000; Km values with: sucrose 53 millimolar, UDP 18.9 micromolar, UDP-glucose 88 micromolar, fructose 8.4 millimolar; pH optima between 6.2 to 7.3 for sucrose breakdown and 7 to 9 for synthesis; and temperature optima near 50°C. The enzyme exhibited a high affinity and a preference for uridylates. The enzyme showed more sensitivity to divalent cations in the synthesis of sucrose than in its breakdown. Sink strength in tomato fruits also was investigated in regard to sucrose breakdown enzyme activities versus fruit weight gain. Sucrose synthase activity was consistently related to increases in fruit weight (sink strength) in both wild and commercial tomatoes. Acid and neutral invertases were not, because the published invertase activity values were too variable for quantitative analyses regarding the roles of invertases in tomato fruit development. In rapidly growing fruits of both wild and commercially developed tomato plants, the activity of sucrose synthase per growing fruit, i.e. sucrose synthase peak activity X fruit size, was linearly related to final fruit size; and the activity exceeded fruit growth and carbon import rates by at least 10-fold. In mature, nongrowing fruits, sucrose synthase activities approached nil values. Therefore, sucrose synthase can serve as an indicator of sink strength in growing tomato fruits. 相似文献
8.
Contrasting evidence has accumulated regarding the role of acid invertase and sucrose synthase in tomato fruit sink establishment and maintenance. In this work the relationships among the activities of sucrose synthase and acid invertase, Lycopersicon esculentum Mill cv UC-82B fruit growth, and starch accumulation were analyzed in fruit at 0 to 39 d after anthesis. Sucrose synthase, but not acid invertase, was found to be positively correlated with tomato fruit relative growth rate and with starch content in the pericarp tissue. A similar association between sucrose synthase activity and starch accumulation was also evident in the basal portion of the stem. Heat-shock treatments, which inhibited the increase in sucrose synthase activity at the beginning of the light period and had no effect on acid invertase activity, were used to examine the importance of sucrose synthase in relation to sucrose metabolism and starch synthesis. After the heat-shock treatment, concomitantly with the suppressed sucrose synthase activity relative to the controls, there was a reduction in sucrose cleavage and starch accumulation. These data substantiate the conclusion that, during the early phases of tomato fruit development, sucrose synthase rather than acid invertase is the dominant enzyme in metabolizing imported sucrose, which in turn plays a part in regulating the import of sucrose into the fruit. 相似文献
9.
Transgenic tomato plants with decreased sucrose synthase are unaltered in starch and sugar accumulation in the fruit 总被引:17,自引:0,他引:17
Chengappa Sumant Guilleroux Morgane Phillips Wendy Shields Robert 《Plant molecular biology》1999,40(2):213-221
Sucrose is the photoassimilate transported from the leaves to the fruit of tomato yet the fruit accumulates predominantly glucose and fructose. Hydrolysis of sucrose entering the fruit can be accomplished by invertase or sucrose synthase. Early in tomato fruit development there is a transient increase in sucrose synthase activity and starch which is correlated with fruit growth and sink strength suggesting a regulatory role for sucrose synthase in sugar import. Using an antisense sucrose synthase cDNA under the control of a fruit-specific promoter we show that sucrose synthase activity can be reduced by up to 99% in young fruit without affecting starch or sugar accumulation. This result calls into question the importance of sucrose synthase in regulating sink strength in tomato fruit. 相似文献
10.
Overexpression of sucrose phosphate synthase increases sucrose unloading in transformed tomato fruit 总被引:6,自引:1,他引:5
Sucrose unloading and sink activity were examined in tomato plants
(Lycopersicon esculentum) overexpression sucrose
phosphate synthase (SPS; EC 2.3.1.14). Like the leaves, the fruit of the
transformed tomato plants had elevated (2.4-fold) SPS activity. SPS
over-expression in tomato fruit did not significantly change acid
invertase, and only slightly reduced ADPglc ppase activity, but enhanced
sucrose synthase activity by 27%. More importantly, the amount of sucrose
unloaded into the fruit was considerably increased. Using
[3H]- (fructosyl)-sucrose in in
vitro unloading experiments with harvested 20-d-old fruit, 70%
more sucrose was unloaded into the transformed fruits compared to the
untransformed controls. Furthermore, the turnover of the sucrose unloaded
into the fruit of transformed plants was 60% higher than that observed in
the untransformed controls. Taken together, these results demonstrate that
SPS overexpression increases the sink strength of transformed tomato
fruit. 相似文献
11.
12.
A mathematical model of carbon accumulation by growing fruitis presented. The model implicitly incorporates the conceptsof sink activity and sink size but avoids the need to stipulatesink strength. In addition to sink activity and size, carbonaccumulation depends on characteristics such as photosynthesisand respiration of the fruit itself as well as carbon supplyvia the peduncle attachment. Simulations with prescribed limitationsof carbon supply show similar results to field observations.The proposed model coupled with a carbon distribution/supplymodel could simulate the growth of individual fruit within aheterogeneous canopy.Copyright 1999 Annals of Botany Company Fruit growth, model, carbon partitioning, source:sink, relative growth rate. 相似文献
13.
Background and Aims
Fruit set in indeterminate plant species largely depends on the balance between source and sink strength. Plants of these species show fluctuations in fruit set during the growing season. It was tested whether differences in fruit sink strength among the cultivars explained the differences in fruit-set patterns.Methods
Capsicum was chosen as a model plant. Six cultivars with differences in fruit set, fruit size and plant growth were evaluated in a greenhouse experiment. Fruit-set patterns, generative and vegetative sink strength, source strength and the source : sink ratio at fruit set were determined. Sink strength was quantified as potential growth rate. Fruit set was related to total fruit sink strength and the source : sink ratio. The effect of differences observed in above-mentioned parameters on fruit-set patterns was examined using a simple simulation model.Key Results
Sink strengths of individual fruits differed greatly among cultivars. Week-to-week fruit set in large-fruited cultivars fluctuated due to large fluctuations in total fruit sink strength, but in small-fruited cultivars, total fruit sink strength and fruit set were relatively constant. Large variations in week-to-week fruit set were correlated with a low fruit-set percentage. The source : sink threshold for fruit set was higher in large-fruited cultivars. Simulations showed that within the range of parameter values found in the experiment, fruit sink strength and source : sink threshold for fruit set had the largest impact on fruit set: an increase in these parameters decreased the average percentage fruit set and increased variation in weekly fruit set. Both were needed to explain the fruit-set patterns observed. The differences observed in the other parameters (e.g. source strength) had a lower effect on fruit set.Conclusions
Both individual fruit sink strength and the source : sink threshold for fruit set were needed to explain the differences observed between fruit-set patterns of the six cultivars. 相似文献14.
PHUC T. DO PIERRE BALDET GUILLAUME MENARD CHRISTOPHE ROTHAN CAPUCINE MASSOT HÉLÈNE GAUTIER JAWAD AARROUF ALISDAIR R. FERNIE REBECCA STEVENS 《Plant, cell & environment》2013,36(1):159-175
The regulation of carbon allocation between photosynthetic source leaves and sink tissues in response to stress is an important factor controlling plant yield. Ascorbate oxidase is an apoplastic enzyme, which controls the redox state of the apoplastic ascorbate pool. RNA interference was used to decrease ascorbate oxidase activity in tomato (Solanum lycopersicum L.). Fruit yield was increased in these lines under three conditions where assimilate became limiting for wild‐type plants: when fruit trusses were left unpruned, when leaves were removed or when water supply was limited. Several alterations in the transgenic lines could contribute to the improved yield and favour transport of assimilate from leaves to fruits in the ascorbate oxidase lines. Ascorbate oxidase plants showed increases in stomatal conductance and leaf and fruit sugar content, as well as an altered apoplastic hexose : sucrose ratio. Modifications in gene expression, enzyme activity and the fruit metabolome were coherent with the notion of the ascorbate oxidase RNAi lines showing altered sink strength. Ascorbate oxidase may therefore be a target for strategies aimed at improving water productivity in crop species. 相似文献
15.
Source--sink Relationships and Carbon Metabolism in Tomato Leaves 1. 14C Assimilate Compartmentation
Effects of the interaction between assimilate availability andsink demand on the metabolism of 14C assimilates in tomato leaveshave been examined in plants where the sourcesink relationshipof assimilates was simplified to one leaf and one fruit truss. During experimentation the source leaf was exposed to either80 or 20 W m2 (PAR), while the truss was either retainedor removed. Under these four source-sink conditions, a timecourse study was made on 14C assimilate distribution in thesource leaf over a period of 23 h after pulse feeding with 14CO2. While truss removal caused a temporary increase of 14C sucrosein leaves under both irradiances, the principal assimilatesaccumulated were starch and hexoses. Decreased 14C export followingtruss removal was observed within a day in well-illuminatedleaves but after 3 days in leaves under low light. The accumulationof 14C sucrose at the end of the light period was affected bytruss removal in high light leaves only 3 days later. These observations suggest that while the compartmentation ofnewly fixed assimilate was affected rapidly by the change ofsourcesink relationship, carbon export, as measured by14C loss, was affected only gradually. The possible effect of sucrose accumulation on photosynthesisis discussed. 相似文献
16.
Reduction of MDHAR activity in cherry tomato suppresses growth and yield and MDHAR activity is correlated with sugar levels under high light
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Vincent Truffault Noé Gest Cécile Garchery Alexandra Florian Alisdair R. Fernie Hélène Gautier Rebecca G. Stevens 《Plant, cell & environment》2016,39(6):1279-1292
Ascorbate is oxidized into the radical monodehydroascorbate (MDHA) through ascorbate oxidase or peroxidase activity or non‐enzymatically by reactive oxygen species. Regeneration of ascorbate from MDHA is ensured by the enzyme MDHA reductase (MDHAR). Previous work has shown that growth processes and yield can be altered by modifying the activity of enzymes that recycle ascorbate; therefore, we have studied similar processes in cherry tomato (Solanum lycopersium L.) under‐ or overexpressing MDHAR. Physiological and metabolic characterization of these lines was carried out under different light conditions or by manipulating the source–sink ratio. Independently of the light regime, slower early growth of all organs was observed in MDHAR silenced lines, decreasing final fruit yield. Photosynthesis was altered as was the accumulation of hexoses and sucrose in a light‐dependent manner in plantlets. Sucrose accumulation was also repressed in young fruits and final yield of MDHAR silenced lines showed a stronger decrease under carbon limitation, and the phenotype was partially restored by reducing fruit load. Ascorbate and MDHA appear to be involved in control of growth and sugar metabolism in cherry tomato and the associated enzymes could be potential targets for yield improvement. 相似文献
17.
Wagner de Melo Ferreira Rogério M. Suzuki Rosete Pescador Rita de Cássia L. Figueiredo-Ribeiro Gilberto B. Kerbauy 《In vitro cellular & developmental biology. Plant》2011,47(3):420-427
In general, plant material grown in vitro has low photosynthetic ability to achieve positive carbon balances. Therefore, a continuous supply of carbohydrates from
the culture medium is required, and sucrose has been the most commonly used carbon source. In this paper, we investigate the
effects of different sucrose concentrations and the presence and absence of light on the endogenous levels of soluble carbohydrates
and starch as well as on the proliferation and growth of Dendrobium Second Love (Orchidaceae) in vitro. The possibility of using etiolated stem segments as a means for micropropagating this hybrid was also verified. The results
obtained indicated that the presence and absence of light and the sucrose concentrations used influenced the amounts of soluble
carbohydrates and starch and the proliferation of D. Second Love shoots and roots. An increase in sucrose concentration caused
a progressive increase in the amounts of total carbohydrates and starch. Under both light conditions, sucrose was the main
sugar found in the shoots followed by glucose and fructose. The addition of sucrose to the culture medium up to 2% and 4%
was advantageous to the number of shoots produced per explant and the root longitudinal growth in the presence and absence
of light, respectively. Shoot and root dry matter and the number of roots formed per explant increased as sucrose concentration
was raised up to 6% in both light treatments. The use of dark-grown shoot segments proved to be a useful and reliable alternative
for the micropropagation of this hybrid. 相似文献
18.
To characterize the movement of sugars during kernel development in maize, a newly devised in vitro kernel development scheme was utilized. Viable seeds of wild type maize (Zea mays L.) as well as the mutant shrunken-2 (sh2) were found to mature when grown in culture with reducing sugars or sucrose as the carbon source. However, wild type and sh2 kernels had greater germination, starch content, and seed weight when sucrose, rather than reducing sugars, was the carbon source. By the use of labeled sucrose it was shown that sucrose can move into endosperm tissue without intervening degradation and resynthesis. These results show that when grown in vitro the maize seed can utilize reducing sugars for development, but it prefers sucrose. 相似文献
19.
Youjun Zhang Feng Sun Joerg Fettke Mark Aurel Schöttler Lawrence Ramsden Alisdair R. Fernie Boon Leong Lim 《FEBS letters》2014
Changes in carbon flow and sink/source activities can affect floral, architectural, and reproductive traits of plants. In potato, overexpression (OE) of the purple acid phosphatase 2 of Arabidopsis (AtPAP2) resulted in earlier flowering, faster growth rate, increased tubers and tuber starch content, and higher photosynthesis rate. There was a significant change in sucrose, glucose and fructose levels in leaves, phloem and sink biomass of the OE lines, consistent with an increased expression of sucrose transporter 1 (StSUT1). Furthermore, the expression levels and enzyme activity of sucrose-phosphate synthase (SPS) were also significantly increased in the OE lines. These findings strongly suggest that higher carbon supply from the source and improved sink strength can improve potato tuber yield. 相似文献
20.
Diurnal Pattern of Translocation and Carbohydrate Metabolism in Source Leaves of Beta vulgaris L 总被引:20,自引:17,他引:3
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Transitions in carbohydrate metabolism and translocation rate were studied for evidence of control of export by the sugar beet (Beta vulgaris L. Klein E.) source leaf. Steady-state labeling was carried out for two consecutive 14-hour light periods and various quantities related to translocation were measured throughout two 24-hour periods. Starch accumulation following illumination was delayed. Near the end of the light period, starch stopped accumulating, whereas photosynthesis rate and sucrose level remained unchanged. At the beginning of the dark period there was a 75-minute delay before starch was mobilized. The rate of import to the developing sink leaves at night was similar to that during the day, whereas export decreased considerably at night.
Starch accumulation and degradation seemed to be initiated in response to the level of illumination. Cessation of starch accumulation before the end of the light period was initiated endogenously. Exogenous control appeared to be mediated by the level of sucrose in the source leaf while endogenous control seemed to be keyed to photoperiod or photosynthetic duration.
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