Acid and alkaline invertases in suspension cultures of sugar beet cells

Alkaline invertase was induced during the initiation of suspension cultures of single cells from leaf explants of sugar beets in Murashige-Skoog liquid medium which contained benzyladenine. This activity was barely detectable in the leaves themselves. In suspension cultures, the presence of both acid and alkaline invertases was detected; alkaline invertase was only present in the cytoplasm of the cultured cells, whereas acid invertase was present in the cytoplasm and cell walls, and was also detected in the culture medium. The cell wall contained at least three types of acid invertase; two of these activities were solubilized by saline (saline-released) and EDTA (EDTA-released), respectively, and the third remained tightly associated with the cell wall. Saline-released and EDTA-released invertases from the cell wall showed the significant differences in their properties: the saline-released enzyme had the highest affinity for sucrose among the invertases tested, and was easily bound to cell walls, to DNA, and to a cation exchanger, unlike the EDTA-released enzyme. Sucrose is the source of carbon for plant cells in suspension culture and is probably degraded in the cell wall by the saline-released invertase, which had the highest activity and the highest affinity for sucrose. Hexose products of this degradation would be transported to cytoplasm. Soluble invertase, EDTA-released invertase from the cell wall, and one of two extracellular invertases behaved similarly upon chromatography on DEAE-cellulose. They had similar activity profiles with changing pH, and similar K_m values for sucrose. Thus it appears that they are identical. Two extracellular invertases found in the growth medium of the suspension cultures were probably identical with those in the soluble fraction of callus and seedlings of sugar beets, because they showed similar behaviors during chromatography on DEAE-cellulose, and had similar activity profiles with changing pH and K_m values for sucrose.     

Sucrose metabolism during tobacco callus growth

Activities of soluble and insoluble invertases and sucrose synthetase in tobacco callus increased significantly within the first 3 days of culture. After this period soluble invertase activity declined, while the activities of the insoluble invertase and the sucrose synthetase were relatively unchanged.     

Effects of Carbon Source, Gibberellins and Ethylene on Wall-Bound Invertase Activity in Callus of Convolvulus arvensis

The growth rate of Convolvulus callus on a sucrose-containing medium appeared to be largely independent of the activity of cell wall invertase. The increase of this enzyme activity which occurs upon subculturing was unaffected within the first 24 h by the presence of the substrate sucrose. Neither substitution by glucose or fructose, nor complete deletion of the carbon source had any effect. Gibberellins apparently were not involved in the initiation and/or control of the increase of wall-bound invertase activity occurring upon subculturing. Exogenous ethylene was unable to mimick this effect of subculturing but when applied immediately after subculturing it had a synergistic effect on the increase of invertase. Inhibition occurred, however, when exposure to ethylene was delayed until after 24 h of incubation. These findings suggest a role of ethylene in the control of wall-bound invertase activity.     

Regulation of sucrose storage by amino acid arginine in sugarcane cell suspension cultures

Sugarcane cell cultures were obtained from callus formed on explants derived from young expanding leaves of two early maturing sugarcane varieties viz “CoJ83” and “CoJ86”. The cell cultures were varied with different arginine concentrations in the culture medium. For each cultivar, sucrose content with 20 μM arginine in the culture medium decreased from 3 to 5 days and then increased to 10 days after subculturing. Higher concentration of arginine in the culture medium (60 μM) decreased the sucrose content at different days after subculturing and thus significantly stimulated sucrose mobilization. The activity of sucrose synthase and sucrose phosphate synthase reached maximum while the activity of acid and neutral invertase was minimal in the culture medium with 20 μM arginine. Thus arginine at low concentration (20 μM) enables the cells to accumulate the higher level of sucrose. The optimum level of amino acids can be utilized to regulate the in vivo activity of sucrose synthase, sucrose phosphate synthase and invertase to achieve maximum sucrose accumulation in sugarcane storage tissue.     

Sucrose‐cleaving enzymes and carbohydrate pools in Lilium longiflorum floral organs

The activities of soluble invertase (EC 3.2.1.26), cell wall invertase (EC 3.2.1.26) and sucrose synthase (EC 2.4.1.13) were determined in Easter lily ( Lilium longiflorum Thunb. cv. Nellie White) floral organs during flower development. These enzyme activities were correlated with dry weight gains and carbohydrate pools to investigate the importance of their expression in maintaining sink strength of floral organs. In the early stages of flower bud development, anthers exhibited the highest rates of dry weight gain and activity of sucrolytic enzymes. Once anther growth was completed, the dry weight gain of tepal, filament, stigma and style increased with a concomitant increase in hexose concentrations and invertase activity. Although all three enzymes capable of catalyzing sucrose cleavage were present in every flower organ of L. longiflorum , soluble invertase was the predominant enzyme in all flower organs except stigma where cell wall invertase dominated. Soluble invertase activity was highly correlated with dry weight gain in most of the flower organs.     

碳源对早花百子莲愈伤组织诱导及其增殖的生理特性影响

为揭示碳源对早花百子莲愈伤组织诱导与增殖的影响机理,该研究以早花百子莲的小花梗为外植体,比较分析30.0 g/L蔗糖、葡萄糖、麦芽糖在愈伤组织诱导、增殖中的效果,测定不同碳源种类处理下愈伤组织增殖相关生理特性,并根据细胞增殖效果、生理指标相关性进行优化验证。结果表明:(1)蔗糖、葡萄糖和麦芽糖碳源处理下,愈伤组织诱导率分别为86.00%、72.00%和59.67%,蔗糖碳源的愈伤组织诱导率比葡萄糖和麦芽糖分别显著提高19.44%和44.13%(P<0.05),蔗糖碳源较葡萄糖和麦芽糖碳源的愈伤组织大小分别显著增加22.44%和90.09%(P<0.05);愈伤组织增殖阶段,蔗糖碳源能够同时维持良好的细胞增殖效率及活性,而葡萄糖碳源的愈伤组织增殖快、状态差,麦芽糖处理增殖慢、状态佳;蔗糖转换葡萄糖碳源后愈伤组织细胞团大小、细胞活性明显下降;蔗糖转换蔗糖、蔗糖转换麦芽糖的效果较好。(2)培养基碳源显著调节愈伤组织增殖阶段的糖代谢、内源激素代谢和氧化胁迫平衡。(3)愈伤组织的主要糖组分为淀粉、葡萄糖;淀粉、麦芽糖含量与细胞团大小相关性高,以蔗糖为碳源的培养基中添加麦芽糖,愈伤组织...     

Sucrose accumulation and enzyme activities in callus culture of sugarcane

The activities of sucrose phosphate synthase (SPS), sucrose synthase (SUSY), neutral invertase (NI) and soluble acid invertase (SAI) were measured in callus cultures of four Mexican sugarcane cultivars (Saccharum spp.) with a different capacity to accumulate sucrose in stem parenchyma cells. The results indicated that sucrose accumulation in callus was positively correlated to the activity of SPS and SUSY and negatively to the activity of SAI and NI while SPS explained most of the variation found for sucrose accumulation and NI least.The research was funded by the department of Biotechnology and Bioengineering CINVESTAV Mexico City, and F. G.-M. received grant-aided support from CONACyT, Mexico.     

Wall-bound enzymes in callus of Convolvulus arvensis

Isolated cell walls of Convolvulus callus contain α- and β-galactosidase, α- and β-glucosidase, α- and β-mannosidase, acid invertase and acid phosphatase activities. No neutral invertase or alkaline phosphatase activities could be detected. Acid invertase activity per mg cell wall increased considerably during incubation of callus fragments in nutrient solution, as opposed to the activities of the other enzymes mentioned.     

植物叶片愈伤组织形成的可能机制

分析了植物叶片在组培条件下形成愈伤组织的过程.文中提出,培养基配方中的酸性物质使植物叶片处于酸性环境中并导致植物正常细胞首先发生细胞壁酸性降解,随后出现原生质体脱离细胞壁,进一步发生细胞器重组或细胞重建,人工培养基的酸性环境使细胞壁强制性地降解后,植物原生质体失去细胞壁的包被后直接处于较酸性的环境中,可能会促使原生体出现酸性快速分裂.因此,植物细胞壁是控制植物细胞完成正常细胞周期的信号载体.     

Somatic embryogenesis from callus cultures of <Emphasis Type="Italic">Terminalia chebula</Emphasis> Retz.: an important medicinal tree

Somatic embryogenesis was obtained from cotyledon and mature zygotic embryo callus cultures of Terminalia chebula Retz. Callus cultures of cotyledon and mature zygotic embryo were initiated on induction medium containing Murashige and Skoog (MS) nutrients with 1.0 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D) either 0.01 or 0.1 mg/l Kinetin and 30 g/l sucrose. Induction of somatic embryogenesis, proliferation and development was obtained through different culture passages. Embryogenic cotyledon callus with globular somatic embryos was obtained on MS basal medium supplemented with 50 g/l sucrose. Globular somatic embryos were observed from mature zygotic embryo callus on induction medium. Different stages of somatic embryo development from cotyledon and mature zygotic embryo calluses were observed on MS basal medium supplemented with 50 g/l sucrose after 4 weeks of culture. Histological studies have revealed the developmental stages of somatic embryos. A maximum of 40.3±1.45 cotyledonary somatic embryos/callus was obtained from mature zygotic embryo compared to 7.70±0.37 cotyledonary somatic embryos/callus initiated from cotyledons. Germination of somatic embryos and conversion to plants were achieved. Highest frequency of germination (46.66±0.88) of somatic embryos was obtained on MS basal medium containing benzyladenine (0.5 mg/l) with 30 g/l sucrose.     

Sucrose mobilization in relation to essential oil biogenesis during palmarosa (<Emphasis Type="Italic">Cymbopogon martinii</Emphasis> Roxb. Wats. var.<Emphasis Type="Italic">motia</Emphasis>) inflorescence development

Palmarosa inflorescence with partially opened spikelets is biogenetically active to incorporate [U-¹⁴C]sucrose into essential oil. The percent distribution of¹⁴C-radioactivity incorporated into geranyl acetate was relatively higher as compared to that in geraniol, the major essential oil constituent of palmarosa. At the partially opened spikelet stage, more of the geraniol synthesized was acetylated to form geranyl acetate, suggesting that majority of the newly synthesized geraniol undergoes acetylation, thus producing more geranyl acetate.In vitro development of palmarosa inflorescence, fed with [U-¹⁴C]sucrose, resulted in a substantial reduction in percent label from geranyl acetate with a corresponding increase in free geraniol, thereby suggesting the role of an esterase in the production of geraniol from geranyl acetate. At time course measurement of¹⁴CO₂ incorporation into geraniol and geranyl acetate substantiated this observation. Soluble acid invertase was the major enzyme involved in the sucrose breakdown throughout the inflorescence development. The activities of cell wall bound acid invertase, alkaline invertase and sucrose synthase were relatively lower as compared to the soluble acid invertase. Sucrose to reducing sugars ratio decreased till fully opened spikelets stage, concomitant with increased acid invertase activity and higher metabolic activity. The phenomenon of essential oil biosynthesis has been discussed in relation to changes in these physiological parameters.     

Regulation of invertase levels in Avena stem segments by gibberellic Acid, sucrose, glucose, and fructose

Gibberellic acid and sucrose play significant roles in the increases in invertase and growth in Avena stem segments. About 80% of invertase is readily solubilized, whereas the rest is in the cell wall fraction. The levels of both types of invertase change in a similar manner in the response to gibberellic acid and sucrose treatment. The work described here was carried out with only the soluble enzyme. In response to a treatment, the level of invertase activity typically follows a pattern of increase followed by decrease; the increase in activity is approximately correlated with the active growth phase, whereas the decrease in activity is initiated when growth of the segments slows. A continuous supply of gibberellic acid retards the decline of enzyme activity. When gibberellic acid was pulsed to the segments treated with or without sucrose, the level of invertase activity increased at least twice as high in the presence of sucrose as in its absence, but the lag period is longer with sucrose present. Cycloheximide treatments effectively abolish the gibberellic acid-promoted growth, and the level of enzyme activity drops rapidly. Decay of invertase activity in response to cycloheximide treatment occurs regardless of gibberellic acid or sucrose treatment or both, and it is generally faster when the inhibitor is administered at the peak of enzyme induction than when given at its rising phase. Pulses with sucrose, glucose, fructose, or glucose + fructose elevate the level of invertase significantly with a lag of about 5 to 10 hours. The increase in invertase activity elicited by a sucrose pulse is about one-third that caused by a gibberellic acid pulse given at a comparable time during mid-phase of enzyme induction, and the lag before the enzyme activity increases is nearly twice as long for sucrose as for gibberellic acid. Moreover, the gibberellic acid pulse results in about three times more growth than the sucrose pulse. Our studies support the view that gibberellic acid, as well as substrate (sucrose) and end products (glucose and fructose), play a significant role in regulating invertase levels in Avena stem tissue, and that such regulation provides a mechanism for increasing the level of soluble saccharides needed for gibberellic acid-promoted growth.     

Production of polysaccharides by Silene vulgaris callus culture depending on carbohydrates of the medium

Sources of carbohydrate nutrition such as sucrose, glucose, and galactose, with the exception of arabinose, were shown to influence positively callus growth and polysaccharide (pectin silenan and acidic arabinogalactan) biosynthesis. Galactose was found to cause a stimulatory effect on yield and productivity of arabinogalactan. Low concentrations of sucrose failed to support the cell growth and polysaccharide biosynthesis. Increasing sucrose concentrations led to biomass accumulation but failed to enhance efficiency of the substrate utilization. The optimal medium for the campion cell culture growth was found to be one containing 30 g/liter of sucrose or a mixture of sucrose with glucose (in 15 g/liter). Increasing sucrose concentrations in the medium from 30 to 100 g/liter failed to significantly influence the polysaccharide yields while the polysaccharide productivity per liter of the medium grew due to promotion of culture productivity in biomass. Variations of the carbon sources in the nutrient media were shown to influence insignificantly the biochemical characteristics of arabinogalactan and silenan while an increase in the sucrose concentration to 50-100 g/liter led to a diminution of the galacturonic acid content in silenan and to changes in contents of the neutral monosaccharide residues in silenan and arabinogalactan.     

Wall-bound Invertase Activity in Convolvulus Callus: Increase after Subculturing, and Paradoxical Effects of Actinomycin D, Cycloheximide, and Thienylalanine

The wall-bound invertase activity increased 3.3-fold upon transfer of fragments of Convolvulus callus to fresh solid nutrient medium and 7.7-fold upon transfer to liquid nutrient medium. Addition of actinomycin D, cycloheximide or the amino acid analogue thienylalanine brought about a further stimulation of the invertase content of the cell walls. The rise of wall-bound invertase activity was not due to redistribution of invertase activity between cytoplasm and cell walls, and appeared to be dependent on metabolic energy. An equation is presented to calculate the half-life of enzymes from their time-course. Applied on the time-courses of wall-bound invertase activity, a half-life of about 12 h was obtained in callus transferred to fresh solid medium and of about 5.4 h in tissue transferred to liquid medium. It is argued that the increase of invertase content of the cell walls is due to an enhanced rate of invertase synthesis.     

Co-ordinated induction of mRNAs for extracellular invertase and a glucose transporter in Chenopodium rubrum by cytokinins

Extracellular or cell wall invertase is regarded as crucial to supply sink tissues with carbohydrates via an apoplastic pathway. A cell wall invertase from Chenopodium rubrum was purified to homogeneity and the corresponding cDNA encoding CIN1 was identified via peptide sequences. The CIN1 mRNA was found to be highly induced by physiological concentrations of both adenine- and phenylurea-derived cytokinins in suspension culture cells. This was paralleled both by a higher steady-state protein level and a higher enzyme activity of the extracellular invertase. The cytokinin-inducible accumulation of CIN1 mRNA in tissues of C. rubrum plants supports the physiological significance of this regulatory mechanism. In contrast to the extracellular sucrose cleaving enzyme, the mRNA levels of the two putative intracellular invertases CIN2 and CIN3 and of sucrose synthase were not elevated. In addition, it has been found that the accumulation of mRNA for one out of three hexose transporters present in the suspension culture cells is induced co-ordinately with the mRNA for extracellular invertase by cytokinins. It has been shown that this regulatory mechanism results in higher uptake rates both for sucrose, via the hexose monomers, and for glucose. The increased level of both extracellular invertase and hexose transporters and the resulting higher carbohydrate supply are discussed with respect to the control of carbohydrate partitioning by plant hormones and the molecular basis for known physiological cytokinin responses such as the stimulation of cell division.     

Properties of the Invertases of Cultured Sycamore Cells and Changes in Their Activity during Culture Growth

When cultured sycamore cells are homogenised in a phosphate-citrate buffer at pH 7.0 and the homogenate centrifuged two fractions are obtained both of which show the presence of an acid (opt. pH 4.0–4.5) and a neutral (opt. pH 7.0–7.4) invertase. The activity of the insoluble pellet appears to be located in its cell wall fragments. The acid and neutral invertases of the soluble fraction can be separated by fractional precipitation with (NH₄SO₄. The activities of these enzymes are low in stationary phase cells but they increase following subculture to reach peaks of activity towards the end of the period of most active cell growth and division and then decline again as the cells begin to enter stationary phase. The activities of both enzymes are higher in the cell wall than in the soluble fraction and the acid invertase reaches higher levels of activity than the neutral enzyme in both fractions. When cells are subcultured there occurs within a few hours an increase in the acid invertase and a decline in the neutral invertase activity in the cell wall fraction and a decline in the acid invertase of the soluble fraction prior to the large net increases in the activities of both enzymes in both locations which occurs as the cells embark upon cell division. The pattern of changes in the invertase activities through the growth cycle of batch propagated cultures is similar whether the cells are grown in sucrose, or glucose, or sucrose plus glucose; the highest levels of activities were recorded in the glucose-grown cells. The total yield of invertase activities and the distribution of activities between the soluble and cell wall fractions of the homogenates are affected by the pH of the extraction medium (within the range pH 4.0–8.0). It has not proved possible to completely remove the invertases from the cell wall fraction; upwards of 50 % of the acid invertase was recovered from this fraction by treatment with Triton-X followed by urea, but these treatments inactivated a high proportion of the neutral enzyme. These findings are compared with other studies on the activity and intra-cellular distribution of plant invertases and the possible roles of these enzymes discussed.     

Differential sugar uptake by cell suspension cultures of <Emphasis Type="Italic">Rudgea jasminoides</Emphasis>, a tropical woody Rubiaceae

The primary utilization of carbohydrates by cell suspension cultures of Rudgea jasminoides, a native woody Rubiaceae from tropical forests, was investigated. Sucrose, glucose + fructose, glucose, or fructose were supplied as carbon sources. The growth curves of R. jasminoides cultured in glucose + fructose, glucose, or fructose showed similar patterns to that observed when sucrose was supplied to the cells, except that an increase in dry mass was observed at the beginning of the stationary growth phase in the media containing only one monosaccharide. The increase in hexose levels in the media during the early stages of the cultures indicated extracellular hydrolysis of sucrose, which was further supported by the increase in the activity of acid invertase bound to the cell wall. Glucose was preferentially taken up, whereas uptake of fructose was delayed until glucose was nearly depleted from the medium. Measurements of intracellular sucrose content and cytoplasmatic and vacuolar invertases indicate that the enzymatic activity seems to be correlated with a decrease in the hexose flux into the cells of R. jasminoides. Our results indicate that the behavior of cell suspension cultures of R. jasminoides regarding sugar utilization seems to be similar to other dicotyledonous undifferentiated cell suspension cultures.     

Differential regulation of grain sucrose accumulation and metabolism in Coffea arabica (Arabica) and Coffea canephora (Robusta) revealed through gene expression and enzyme activity analysis

* Coffea arabica (Arabica) and Coffea canephora (Robusta) are the two main cultivated species used for coffee bean production. Arabica genotypes generally produce a higher coffee quality than Robusta genotypes. Understanding the genetic basis for sucrose accumulation during coffee grain maturation is an important goal because sucrose is an important coffee flavor precursor. * Nine new Coffea genes encoding sucrose metabolism enzymes have been identified: sucrose phosphate synthase (CcSPS1, CcSPS2), sucrose phosphate phosphatase (CcSP1), cytoplasmic (CaInv3) and cell wall (CcInv4) invertases and four invertase inhibitors (CcInvI1, 2, 3, 4). * Activities and mRNA abundance of the sucrose metabolism enzymes were compared at different developmental stages in Arabica and Robusta grains, characterized by different sucrose contents in mature grain. * It is concluded that Robusta accumulates less sucrose than Arabica for two reasons: Robusta has higher sucrose synthase and acid invertase activities early in grain development - the expression of CcSS1 and CcInv2 appears to be crucial at this stage and Robusta has a lower SPS activity and low CcSPS1 expression at the final stages of grain development and hence has less capacity for sucrose re-synthesis. Regulation of vacuolar invertase CcInv2 activity by invertase inhibitors CcInvI2 and/or CcInvI3 during Arabica grain development is considered.