Utilization of Anhydrous Aluminum Phosphate as a Sole Source of Phosphorous by a Selected Carrot Cell Line

Two variants of carrot (Daucus carota L. cv. MS Yonsun) celllines, which had been selected with Al-phosphate as a sole sourceof phosphorous, were characterized on their mechanisms of phosphate-utilizationfrom Al-phosphate. Both cell lines excreted citrate into themedium. The amount of citrate excretion was highly correlatedwith cell growth in the presence of Al-phosphate. There wasabout a 1 to 1 correlation between solublized-Al and excreted-citratein the medium during cell growth. These results suggest that1) the citrate could chelate with Al, at a 1 to 1 ratio, inAl-phosphate, 2) the citrate-chelated Al remains outside thecells, and 3) solublized phosphate from Al-phosphate is utilizedfor the growth of carrot cells. The characteristics of the selectedcells were very stable, since the rate of citrate-excretionshowed no change after subculturing 25 passages without Al-phosphate. (Received August 7, 1989; Accepted October 19, 1989)     

Characterization of citrate transport through the plasma membrane in a carrot mutant cell line with enhanced citrate excretion

The superior ability of citrate excretion in a carrot (Daucus carota L.) mutant cell line, namely IPG (insoluble phosphate grower) [Takita et al. (1999a) Plant Cell Physiol. 40: 489] cells has been characterized in terms of citrate transport at the plasma membrane. IPG cells released about a 20-fold increase in citrate in comparison with malate, while the concentration of malate was only 35% lower than that of citrate in the cell sap. Citrate excretion was sensitive to anion channel blockers, such as niflumic acid and anthracene-9-carboxylic acid. These results indicate that IPG cells release citrate through the plasma membrane using citrate specific anion channels. The rate of citrate release from IPG cells was not affected by the concentration of aluminum (0 and 50 micro M), soluble P(i) (0 or 2 mM) and the pH (4.5-5.6) of the medium, suggesting that anion channels would not be regulated by such external conditions. Citrate excretion correlated with the H(+) efflux, possibly from the action of H(+)-ATPase on the plasma membrane. The activity of plasma membrane H(+)-ATPase was about three times higher in IPG cells than in wild-type cells, and might be involved in the high citrate excretion ability.     

Characteristics of carrot plant regenerated from two cell line selected as either ionic-Al tolerant cell or Al-phosphate utilizing cells

Plantlets of carrot (Daucus carota L.) were regenerated from two types of cell lines. One type was selected as ionic-Al tolerant (IAT) cells, while the second type featured Al-phosphate utilizing cells (IPG). Their tolerance characteristics were investigated. The plantlets from IAT were directly regenerated, whereas those from IPG were regenerated after somatic hybridization with wild-type cells previously inactivated with iodacetamide, because the IPG cells had completely lost the ability to regenerate naturally.The sexual progeny of IAT showed Al-tolerant properties, established by testing their root elongation in the presence of 500 µM Al ions. Most of the calli obtained from the somatic hybrids grew more rapidly than the wild-type cells when Al-phosphate was used as a sole source of phosphorus. Thus, we obtained two types of carrot plantlets, regenerated from IAT and IPG. Both possessed the tolerant characteristics as observed with the stress-selected cells.     

Uptake and Metabolism of Sugars by Suspension Cultured Catharanthus roseus Cells

The uptake and metabolism of sugars by suspension-cultured Catharanthusroseus cells were investigated. Substantially all the sucrosein the culture medium was hydrolyzed to glucose and fructosebefore being taken up by the cells. The activity of invertasebound to cell walls, determined in situ, was high at the earlystage of culture. Glucose was more easily taken up by the cellsthan was fructose. Tracer experiments using [U-¹⁴C]glucose and[U-¹⁴C]fructose indicated that glucose is a better precursorfor respiration than fructose, while fructose is preferentiallyutilized for the synthesis of sucrose, especially in the earlyphase of cell growth. Possible metabolic routes of sugar insuspension-cultured Catharanthus roseus cells are discussedin the context of these results. Catharanthus roseus, Madagascar periwinkle, suspension culture, sucrose, glucose, fructose, metabolism, glycolysis     

Pathways of Uptake and Accumulation of Sugars in Tomato Fruit

The route of sucrose unloading from the conducting tissue, theregulation of sucrose hydrolysis and the uptake and subsequentmetabolism of sugars were investigated in the rapidly growingtomato fruit. During the first two weeks of fruit enlargement, the vacuoleaccounted for more than 85% of the protoplast volume and theintercellular space accounted for 20% of the fruit placentaltissue. The plasmodesmatal frequency was highest between phloemparenchyma cells and lowest between phloem sieve cells and phloemparenchyma. The total invertase activity was about 8 µmolglucose g^–1 d. wt min^–1 during the rapid growingperiod and increased six-fold at ripening. The wall-bound invertaseaccounted for less than 11% of the total activity. Invertaseactivity increased with increasing sucrose concentrations (upto 50 mM) in the incubation medium, but decreased at higherconcentrations. Sucrose synthase activity could only be detectedwhen fruit was older than 19 d. The uptake and metabolism of sugars by fruit cells were investigatedby incubation of fruit slices with ¹⁴C-sugars for 3 h. The uptakeof sucrose increased with the sucrose concentration up to 200mM. The rate of glucose uptake and its conversion to the ethanol-insolublefraction were higher than those of sucrose. The uptake of sucrosedid not compete with that of glucose or vice versa, providedthe osmotic potential of the incubation solution was maintainedconstant. The uptake of sucrose was not inhibited by metabolicinhibitors such as PCMBS, CCCP, sodium azide or vanadate. TheATPase activity in the fruit tissue was low. These findings did not identify conclusively the mode of sucroseunloading. However, the uptake of sugars by fruit cells is non-specificand does not appear to require a membrane carrier or plasmalemmaATPase to provide energy for sucrose uptake. Fruit, invertase, Lycopersicon esculentum, phloem unloading, plasmodesmata, sucrose     

Overexpression of mitochondrial citrate synthase in Arabidopsis thaliana improved growth on a phosphorus-limited soil

The gene for mitochondrial citrate synthase (CS) was isolated from Daucus carota (DcCS) and introduced into Arabidopsis thaliana (strain WS) using Agrobacterium tumefaciens-mediated transformation. Characteristics of citrate excretion were compared between T3 transgenic plants, which were derived from the initial transgenic plants by self-fertilization and homozygous for DcCS, and the control plants that had no DcCS. The highest CS activity 0.78 micromol protein min(-1) exhibited by the transgenic plants was about threefold greater than that found in the control plants (0.23-0.28 micromol protein min(-1)). Western analysis of the transgenic plants showed two CS signals corresponding to signals obtained from both D. carota and A. thaliana. Thus, it appears that the CS polypeptides by ectopic expression of DcCS were processed into the mature form and localized in the mitochondria of A. thaliana. The signal corresponding to the mature form of DcCS were greater in the transgenic plants having higher levels of CS activity. When the transgenic plants were grown in Al-phosphate media, a correlation between the levels of CS activity and the amounts of citrate excreted into the medium. The highest value (5.1 nmol per plant) was about 2.5-fold greater than that from control plants (1.9 nmol per plant). Both growth and P accumulation were greater in transgenic plants with high CS activity than that in control plants when they were grown on an acid soil where the availability of phosphate was low due to the formation of Al-phosphate. It appears that the overexpression of CS in A. thaliana improves the growth in phosphorous limited soil as a result of enhanced citrate excretion from the roots.     

Influence of abscisic acid on nitrogen partitioning, sucrose metabolism and nitrate reductase activity of chicory suspension cells

Batch suspension cultures of chicory cells (Cichorium intybusL. var. Witloof) possess a NADH-specific nitrate reductase activitythat peaks on day 3 of a 10 d growth cycle. When both nitrateand ammonium are used as nitrogen sources, chicory cells absorbnitrate irst. Ammonium uptake becomes predominant at day 3,even though NO₃^– was still present in the medium. Althoughabscisic acid impairs growth as well as ¹⁵NO₃^– uptakeand reduction, it promotes nitrate reductase activity as measuredboth in vivo and in vitro. Specific activity is 50% higher inABA-treated cells than in controls. These conflicting data maybe explained either in erms of nitrate reductase levels or bythe availability of reducing power and energy. Since NRA isgenerally controlled by the availability of the reducing power,the energy status of the cell, the adenylate nucleotide pools,were measured simultaneously with the carbohydrate levels withinthe cell and the growth medium. The energy charge was not modifiedduring the growth cycle, regardless of the rowth conditions.Yet ABA modified the intracellular carbohydrate metabolism andinhibited the acidic invertase, the sucrose synthase and thesucrose phosphate synthase activities. Modified assimilationrates of nitrate in chicory cells grown in the presence of ABA,were probably correlated to modified carbohydrate metabolismpathways leading to increased availability of reducing power,energy and C-skeletons. Key words: Abscisic acid, Cichorium intybus L, nitrate reductase, reductase, invertase, sucrose synthase, sucrose phosphate synthase     

Characteristics of the Photosynthetic Metabolism of Carbon in Deuterated Chlorella ellipsoidea C-27

The photosynthetic metabolism of carbon in fully deuteratedcells of Chlorella ellipsoidea C-27 (D-Chlorella), obtainedby culture in medium prepared with 100 mol% D₂O, was characterizedby examining the activities of several enzymes and the levelsof metabolic regulators in a comparison with those of ordinarycells (H-Chlorella). The cellular content of starch in D-Chlorellawas more than twice that in H-Chlorella, whereas those of sucroseand glucose were significantly lower in D-Chlorella. Deuterationof Chlorella caused marked alterations in the activities ofenzymes involved in starch metabolism. There was a significantdecrease in the activity of phosphorylase, a catabolic enzyme,and a significant increase in the activity of starch synthase,an anabolic enzyme. These alterations are probably responsiblefor the increase in the amount of starch in cells. By contrast,no marked changes were observed in the activities of enzymesand the levels of metabolic inhibitors that are involved inthe synthesis of sucrose. It seems likely, therefore, that thedecrease in the amount of sucrose in D-Chlorella was causedmainly by a deficiency in sources of carbon in the cytoplasm,as a consequence of an increase in levels of starch in chloroplasts. (Received May 13, 1992; Accepted December 1, 1992)     

Establishment and physiological analyses of photoautotrophic callus cultures of the fern Platycerium coronarium (Koenig) Desv. under CO2 enrichmen

Gametophyte-derived callus cultures of Platycerium coronariumcould be maintained under photoautotrophic conditions on Murashigeand Skoog medium supplemented with 2µM 2,4-dichlorophenoxyaceticacid (2,4-D) and with CO₂ enrichment. Progressive reductionof sucrose from the medium resulted in a reduction in growth,but an increase in total chlorophyll content. When subculturingwas delayed beyond 2 weeks, callus cells differentiated intogametophytes on the medium with 0.2 sucrose and no CO₂ enrichment.Enriching the photoautotrophic cultures on 2µM 2, 4-Dwith 1% CO₂ resulted in about 1.7-fold increase in fresh weightwithin 42 d. Total chlorophyll content was generally higherwith 1% CO₂ enrichment than with 10%. F_v/F_m ratio was higherfor callus on low levels of sucrose (>0.5%) than that onsucrose 1.0%. An increase in autofluorescence of chloroplasts,but not the size, was observed with decreasing sucrose levelsin the medium. Autofluorescence decreased with increase in CO₂from 0.03%. Our data are in agreement with the view that long-termexposure to high levels of decrease in photosynthetic capacity. Key words: Platycerium coronarium, stag's horn fern, autofluorescence of chloroplasts, confocal laser scanning microscope, F_v/F_m ratio, photoautotrophic callus     

Expression of a heterologous SnRK1 in tomato increases carbon assimilation, nitrogen uptake and modifies fruit development

SnRK1 (sucrose non-fermenting-1-related protein kinase 1) plays an important role in plant carbon metabolism and development. To understand the mechanism of carbon and nitrogen metabolism regulated by MhSnRK1 from pingyitiancha (Malus hupehensis Rehd. var. pinyiensis Jiang), two transgenic lines (T2-7 and T2-9) over expressing this gene in tomato were studied. SnRK1 activity in the leaves of 2 transgenic lines was increased by 15-16% compared with that in the wild-type. The leaf photosynthetic rate in transgenic tomatoes was higher than the wild-type. The activity of sucrose synthase breakdown and ADP-glucose pyrophosphorylase was also increased, by approximately 25-36% and 44-48%, respectively, whereas sucrose synthase synthesis and sucrose phosphate synthase activities were unchanged. The content of starch in the leaves and red-ripening fruits was higher than that of the wild-type. The transgenic fruit ripened ～10 days earlier than the wild-type. The nitrate reductase activity (mgplant?1 h?1) shows no significant difference between the transgenic plant and the wild-type, but the N-uptake efficiency and root/shoot ratio in the T2-9 line were 15% and 35% higher than that in the wild-type, respectively. These results suggest that over expressing MhSnRK1 can increase both the carbon and nitrogen assimilation rate of the plant as well as regulate the development of fruit.     

Uptake and Utilization of Sugars in Cultured Rice Cells

Suspension cultured cells of rice (Oryza sativa) were grownin a medium containing sucrose. Sucrose was rapidly hydrolyzedextracellularly in the early stage of subculture with a concomitantdecrease in the medium pH. The hydrolysis may be due to cellwall associated acid invertase and may be promoted by acidificationof the medium. The resulting glucose and fructose seemed tobe utilized equally. The cells grown on either sucrose, glucoseor fructose contained each of these sugars and possessed cellwall associated invertase activity. Protoplasts prepared bycell wall degrading enzymes utilized preferentially glucoseor fructose rather than sucrose. These results suggest thatexogenous sucrose is hydrolyzed by the cell wall associatedinvertase to hexoses, which are then taken up and metabolized. (Received November 25, 1987; Accepted February 8, 1988)     

A mutation at the rb gene, lowering ADPGPPase activity, affects storage product metabolism of pea seed coats

Seed coat development was studied on two nearisogenic linesof peas (Pisum sativum L.): RbRb (wild type, round seed) andrbrb (wrinkled seed). A mutation at the rb locus modifies thedry seed shape and reduces the starch content of the embryo.This mutation is now known to affect the activity of ADPGlucosepyrophosphorylase, a key enzyme in the starch biosynthetic pathway.We have investigated the effects of the rb mutation on seedcoat development and found that the mutation reduces the growthrate and starch content in this organ. However, experimentson the kinetics of ¹⁴C-sucrose loading showed that starch synthesisfrom unloaded sucrose occurred in the seed coat for both mutantand wild-type lines. In addition, the sucrose concentrationwas increased and amino acid concentration decreased such thatthe nutritional balance of the embryos was affected. However,osmolality of the seed coat cells was not affected, suggestinga regulatory process which allows the maintenance of the importof assimilates in the seeds of either line. Key words: ADPGlucose pyrophosphorylase, seed coat, seed development, starch metabolism, wrinkled seed     

Nudeotide Pools and Purine Metabolism in Tissue Cultures of Wild-Type Datura innoxia and Adenine-Requiring Auxotroph

Cells of the auxotrophic mutant, Ad1, of Datura innoxia requiredadenine, adenosine, or inosine for their growth on solid agarmedium which contained Murashige-Skoog salts, 2,4-dichloro-phenoxyaceticacid, and sucrose. Thirteen purine and pyrimidine nucleotidesin extracts of wild-type and Ad1 cells were separated and quantifiedby HPLC. Levels of ADP-glucose and UMP were significantly higherin Ad1 than in wild-type cells, but those of other nucleotideswas found when Ad1 cells were transferred to fresh medium withoutadenine. The rate of the biosynthesis de novo of purines, asestimated from the rate of incorporation of ¹⁴C from [2-¹⁴C]-glycine and [¹⁴C]formate into adenine nucleotides, was reducedin Ad1 cells to 21 and 13% of the wild-type rate, respectively.The activities involved in the salvage of adenine and adenosinein Ad1 cells were similar to those in wild-type cells. Ad1 cellshad the capability to convert adenine to guanine nucleotidesand guanine to adenine nucleotides. ¹ Part 27 of the series, "Metabolic Regulation in Plant CellCulture". (Received March 7, 1988; Accepted August 3, 1988)     

Effects of Inorganic Phosphate on the Utilization of Sucrose by Suspension-cultured Catharanthus roseus Cells

The metabolic fate of [U-¹⁴C]sucrose in suspension culturesof Catharanthus roseus cells was monitored for 96 h after thecells were transferred to fresh complete (‘+Pi’)or to phosphate-deficient Murashige and Skoog (‘–Pi’)medium. Sucrose was hydrolysed extracellularly to glucose andfructose. The rate of uptake of sugars by the cells was 1.5–3times higher in ‘+Pi’ culture than in ‘–Pi’culture. Little difference in the rate of incorporation of radioactivityinto the ethanol-soluble fraction was found between the ‘+Pi’and ‘– Pi’ cultures during the initial 24h of culture, but after 48 h the rate in ‘ +Pi’cultures was higher than that in ‘–Pi’ cultures.Incorporation of radioactivity into ethanol-insoluble macromoleculeswas always significantly higher in the cells in ‘+Pi’cultures than in those in ‘–Pi’ cultures.The results suggest that Pi strongly affects the utilizationof sugars by cultured plant cells through the stimulation oftransport of sugars as well as through the activation of metabolism. Catharanthus roseus, Madagascar periwinkle, suspension culture, inorganic phosphate, sucrose, transport, metabolism     

粘虫飞行肌中与能量代谢有关的酶活性研究

该文报道粘虫Mythimna separata (Walker ) 蛹及不同日龄成虫飞行肌中与3 种代谢途径有关的5 种酶,即3-磷酸甘油醛脱氢酶(GAPDH)、3-磷酸甘油脱氢酶(GDH)、乳酸脱氢酶(LDH)、3-羟酰辅酶A 脱氢酶(HOAD)、柠檬酸合成酶(CS)活性的变化。成虫羽化后,这5 种酶的活性大多数都高于蛹期,表明成虫飞行肌与能量代谢有关的活动比蛹期高。不同日龄成虫飞行肌的能量代谢特点为：成虫羽化后糖酵解循环的活性增加;1 日龄进行糖酵解的能力较强,2 日龄即具备较强的脂肪代谢能力,2～5日龄糖及脂肪代谢的能力基本相当,但7日龄脂肪代谢的能力较强。1～7日龄粘虫蛾飞行肌具有较高的GDH 和LDH活性,这既是粘虫蛾飞行肌能进行高度有氧代谢的重要标志,也是其具有一定无氧代谢能力的最好说明,而飞行肌中较高的CS活性则是粘虫蛾具有较强飞行能力的重要保证。对成虫GAPDH∶HOAD 活性进行分析比较的结果还显示,粘虫蛾持续飞行的能源物质既有脂类也有糖类,而不仅仅只限于脂类。     

Re-evaluation of characteristics of a carrot cell line previously selected as aluminum-tolerant cells

A carrot ( Daucus carota L. cv. MS Yonsun) cell line previously selected to be tolerant to Al supply was re-evaluated by culturing with hardly soluble or ionic Al. When insoluble Al-phosphate (2.0 m M ) was supplied as a sole source of phosphate at an initial pH of 5.6, the selected cell line, but not wild-type cells, grew normally corresponding to the growth of the cells supplied with Na-phosphate in the absence of Al Under these conditions, the selected cells excreted large amounts of citrate into the medium. Insoluble Fe-phosphate could also be utilized as a phosphate source by the selected cells. Excretion of citrate was, however, not detected when the cells were cultured in the absence of insoluble phosphate. The selected cells were less tolerant against soluble. Al ions than the wild-type cells.     

The Effect of Temperature and Carbon Metabolism on Sucrose Uptake by Detached Tomato Fruits

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