Uptake of auxotrophic cells of a heterocyst-forming cyanobacterium by tobacco protoplasts,and the fate of their associations

During imbibition, exogenous myo-inositol (MI) was readily introduced into the free MI pool of germinating wheat (Triticum aestivum L.). Maximum uptake, 70 g per caryopsis or 1.5 mg g^–1 of caryopsis, was reached at 0.05 M MI. Movement of free MI within the germinating caryopsis was traced with [2-³H]MI by two procedures, uptake by imbibition and injection into softened endosperm. The former procedure was useful during initial stages of germination; the latter provided a means of tracing the metabolic fate of MI generated by hydrolysis of phytate during mobilization of reserves within the caryopsis. In both procedures, the bulk of the added label was transferred to the seedling where it appeared in uronosyl and pentosyl units of 80% ethanol-insoluble polysaccharides, 2-O, C-Methylene-MI, an inhibitor of the MI oxidation pathway, blocked the utilization of [2-³H]MI as well as d-[1¹⁴C]glucose for biogenesis of pentose-and uronic-acid-containing polysaccharides.Abbreviations MI myo-inositol - OCM-MI 2-O, C-methylene-myo-inositol     

Biosynthesis of cell-wall polysaccharides in cultured carrot cells

Biosynthesis of the cell wall in carrot cells (Daucus carota L.) cultured in a synthetic liquid medium was studied by measuring the incorporation of radioactive glucose and myo-inositol (MI). When the cells were fed with [¹⁴C]glucose in the presence of 0.01% MI, the label soon appeared in the neutral sugars in the cell wall but little radioactivity was found in the uronic-acid residues even after a prolonged incubation. On the other hand, radioactivity derived from [³H]MI was found to be distributed among uronic acids and pentoses but not in the hexose residues in the wall. The data indicate that MI is an important intermediate for the synthesis of acidic sugars in the wall of cultured carrot cells.Abbreviation MI myo-inositol     

Evidence for a Functional myo-Inositol Oxidation Pathway in Lilium longiflorum Pollen

Addition of myo-inositol to pentaerythritol-based germination media repressed the conversion of d-[1-¹⁴C]glucose to labeled uronosyl and pentosyl units of tube wall pectic substance in lily pollen (Lilium longiflorum Thunb.). Conversion of d-[1-¹⁴C]glucose to labeled glucosyl, galactosyl, and rhamnosyl units was unaffected. The reverse experiment, addition of d-glucose to pentaerythritol-based media, failed to affect the conversion of myo-[2-³H]inositol to uronosyl and pentosyl units although the flow of label into products of myo-inositol-linked glucogenesis was blocked. Results of these experiments are discussed in terms of a functional myo-inositol oxidation pathway.     

Effects of ABA on Synthesis of Cell-Wall Polysaccharides in Segments of Etiolated Squash Hypocotyl I. Changes in Incorporation of Glucose and myo-Inositol into Cell-Wall Components

Externally supplied [³H]myo-inositol and [¹⁴C]glucose were incorporatedin cell-wall fractions of segments of etiolated squash hypocotyl.The extent of incorporation of [¹⁴C]glucose into cell-wall fractionswas very much greater than that of [³H]myo-inositol. Radioactivityfrom [¹⁴C]-glucose was effectively incorporated into hemicelluloseB and cellulose fractions and was incorporated uniformly intohexose, pentose and uronic acid residues, but radioactivityfrom [³H]myo-inositol was incorporated predominantly into uronicacid and pentose residues in the pectin and hemicellulose Bfractions. Exogenously applied ABA significantly suppressed the elongationof segments of squash hypocotyl and the incorporation of radioactivityfrom [^l4C]glucose and [³H]myo-inositol into the segments. Furthermore,ABA significantly inhibited the distribution of incorporatedradioactivity from [¹⁴C]glucose into the cellulose fraction,but did not affect distribution into the pectic fraction. Bycontrast, ABA only slightly inhibited the distribution of theincorporated radioactivity from [³H]myo-inositol into the pecticfraction. These results suggest that most of the cell-wall polysaccharidesin segments of squash hypocotyl are synthesized via the UDP-sugarpathway, and that ABA significantly inhibits the synthesis ofcellulose but not the synthesis of pectic polysaccharides whenABA suppresses the elongation of the segments. (Received March 25, 1988; Accepted November 15, 1988)     

Metabolism of myo-Inositol and growth in various sugars of suspension-cultured tobacco cells

Tobacco (Nicotiana tabacum L.) cells were cultured in a liquid medium which contained sucrose as a source of carbon and energy. Various cell-wall constituents and wall precursors (L-arabinose, D-xylose, D-galactose, D-mannose, D-glucuronate, myo-inositol) were added to cells growing in this medium to by-pass possible rate-limiting steps in the relevant metabolic pathways. None of these compounds stimulated growth as measured by increase in fresh weight; myo-inositol did cause a slight increase and L-arabinose a decrease in dry weight accumulation compared to controls grown on sucrose only. Although myo-inositol was not needed for rapid growth, tracer level amounts of [2-³H]myo-inositol were rapidly absorbed and metabolized. Label was incorporated into the uronide and pentose residues of cell walls and exocellular polysaccharide.     

Plant regeneration in cotton: A short-term inositol starvation promotes developmental synchrony in somatic embryogenesis

Summary Despite high commercial interest, the success of biotechnological applications in cotton (Gossypium hirsutum) has been limited due to difficulties in genetic transformation. Major problems have been genotype dependence and low frequency of somatic embryogenesis, making it difficult to regenerate plants from transgenic tissue. This study reports an increase in somatic embryogenesis efficiency and the induction of developmental synchrony in embryogenic callus cultures of cotton by a single cycle of myo-inositol depletion in liquid culture. Calluses were initiated on hypocotyl or cotyledon explants of cultivar Coker 312 by culturing these explants on callus-inducing solid medium [Murashige and Skoog salts plus vitamins of Gamborg's B₅ medium, 30 g l⁻¹ glucose, 100 mg l⁻¹ myo-inositol, 2.2 μM 2,4-dichlorophenoxyacetic acid, and 0.88 μM 6-benzyladenine]. The calluses were transferred to an identical liquid basal medium devoid of plant growth regulators. This induced the development of embryogenic cells. Friable clumps of cells formed after 20 d in the medium were selectively collected over filter mesh 40 subjected to one cycle of myo-inositol starvation. This induced a highly synchronized embryogenesis in the culture. The optimized protocol gave 100% embryos at the globular stage, out of which more than 80% developed into bipolar torpedo-stage embryos. About 68% of these were converted to plantlets by subculturing onto a simplified solid medium, and finally grown into healthy, fertile plants.     

Composition of the cell wall formed by protoplasts isolated from cell suspension cultures of Vinca rosea

The biochemistry of cell-wall regeneration in protoplasts obtained from Vinca rosea L. (Catharanthus roseus (L.) G. Don) cells grown in suspension culture by isolating the regenerated wall and the extracellular polysaccharides of protoplasts cultured for various periods, and investigating their composition. Gas-liquid chromatography and tracer studies with D-[U-¹⁴C]glucose showed that the sugar composition of the extracellular polysaccharides was similar to that of the original cell culture, consisting mainly of polyuronide and 3,6-linked arabinogalactan. the regenerated cell wall was composed of non-cellulosic glucans having 1,3- and 1,4-linkages, while its content in pectic and hemicellulosic components was very low.     

Asymmetric Distribution of Glucose and Indole-3-Acetyl-myo-Inositol in Geostimulated Zea mays Seedlings

Indole-3-acetyl-myo-inositol occurs in both the kernel and vegetative shoot of germinating Zea mays seedlings. The effect of a gravitational stimulus on the transport of [³H]-5-indole-3-acetyl-myo-inositol and [U-¹⁴C]-d-glucose from the kernel to the seedling shoot was studied. Both labeled glucose and labeled indole-3-acetyl-myo-inositol become asymmetrically distributed in the mesocotyl cortex of the shoot with more radioactivity occurring in the bottom half of a horizontally placed seedling. Asymmetric distribution of [³H]indole-3-acetic acid, derived from the applied [³H]indole-3-acetyl-myo-inositol, occurred more rapidly than distribution of total ³H-radioactivity. These findings demonstrate that the gravitational stimulus can induce an asymmetric distribution of substances being transported from kernel to shoot. They also indicate that, in addition to the transport asymmetry, gravity affects the steady state amount of indole-3-acetic acid derived from indole-3-acetyl-myo-inositol.     

Transport and Metabolism of Indole-3-Acetyl-myo-Inositol-Galactoside in Seedlings of Zea mays

Indole-3-acetyl-myo-inositol galactoside labeled with ³H in the indole and ¹⁴C in the galactose moieties was applied to kernels of 5 day old germinating seedlings of Zea mays. Indole-3-acetyl-myo-inositol galactoside was not transported into either the shoot or root tissue as the intact molecule but was instead hydrolyzed to yield [³H]indole-3-acetyl-myo-inositol and [³H]indole-3-acetic acid which were then transported to the shoot with little radioactivity going to the root. With certain assumptions concerning the equilibration of applied [³H]indole-3-acetyl-myo-inositol-[U-¹⁴C]galactose with the endogenous pool, it may be concluded that indole-3-acetyl-myo-inositol galactoside in the endosperm supplies about 2 picomoles per plant per hour of indole-3-acetyl-myo-inositol and 1 picomole per plant per hour of indole-3-acetic acid to the shoot and thus is comparable to indole-3-acetyl-myo-inositol as a source of indole-acetic acid for the shoot. Quantitative estimates of the amount of galactose in the kernels suggest that [³H]indole-3-acetyl-myo-inositol-[¹⁴C] galactose is hydrolyzed after the compound leaves the endosperm but before it reaches the shoot. In addition, [³H]indole-3-acetyl-myo-inositol-[¹⁴C]galactose supplies appreciable amounts of ¹⁴C to the shoot and both ¹⁴C and ³H to an uncharacterized insoluble fraction of the endosperm.     

Myo-inositol Biosynthesis and Galactose Utilization by Wild Carrot (Daucus carota L. var. carota) Suspension Cultures

Wild carrot (Daucus carota var. carota) cell suspensions (63–120µm in diameter) were grown on a mineral salt medium containingdifferent carbon sources in the presence (10 mM) and absenceof myo-inositol. The data obtained after 14 and 21 days of growthshow that an external supply of myo-inositol is not essentialfor growth and development of wild carrot embryos. A linearrelationship was found between growth (d. wt) and embryo numberin the presence and absence of myo-inositol. Standard stock cell suspensions never exposed to exogenous myo-inositoland grown in the absence of 2, 4-D with glucose or galactoseas the carbon source synthesized radioactive myo-inositol whenexposed to D-[1–¹⁴C]glucose or D-[1–¹⁴C]galactose.Gas chromatographic analyses revealed the presence of myo-inositolin the bulk tissue grown in the presence of 2.25 µM 2,4-D with glucose, galactose, fructose or mannose as the solecarbohydrate. We could not detect any component indicating anisomer or a methylated derivative of an inositol in the tissueextracts. Stock cultures were maintained (with 2, 4-D) successfully forat least three successive sub-cultures on D-galactose as thesole carbohydrate. The growth achieved over this culture periodshowed that wild carrot cells used by us could quickly adaptto grow on D-galactose as rapidly as they grow on sucrose. Daucus carota L., wild carrot, suspension cultures, myo-inositol, galactose     

Attempts to produce solasodine in callus and suspension cultures of Solanum mauritianum Scop.

Callus cultures of Solanum mauritianum Scop. were initiated from green berry explants on a hormone-free Murashige and Skoog (1962) medium excluding glycine, and containing 0.1 g L^–1 myo-inositol and 3% sucrose. Such cultures contained 10.08±0.59 g g^–1 DW of solasodine, which is equivalent to that in the leaves of mature S. mauritianum plants, but far less than that extracted from the green berries (185 g g^–1 DW). In vitro solasodine productivity could be increased by reducing the strength of the medium by half, substituting 3% glucose for 3% sucrose as carbon source, or by the addition of certain combinations of BA and NAA. Phosphate limitation and alterations in the carbon: nitrogen ratio were not able to increase solasodine productivity. Suspension cultures of S. mauritianum were initiated and maintained in a Murashige and Skoog (1962) medium with the RT vitamins of Khanna and Staba (1968), 0.1 g L^–1 myo-inositol, 3% sucrose and 1 mg L^–1 2,4-D. No solasodine was detectable in these cultures, or slight modifications thereof.Abbreviations BA benzyladenine - NAA naphthaleneacetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - MS Murashige and Skoog's (1962) medium     

Reduced Na+/K+ ATPase transport activity,resting membrane potential,and bradykinin-stimulated phosphatidylinositol synthesis by polyol accumulation in cultured neuroblastoma cells

In these studies we examined the effect of polyol accumulation on neural cellmyo-inositol metabolism and properties. Neuroblastoma cells were cultured for two weeks in media containing 30 mM glucose, fructose, galactose or mannose with or without 0.4 mM sorbinil or 250 Mmyo-inositol. Chronic exposure of neuroblastoma cells to media containing 30 mM glucose, galactose, or mannose caused a decrease inmyo- inositol content and myo-[2-³H]inositol accumulation and incorporation into phosphoinositides compared to cells cultured in unsupplemented medium or medium containing 30 mM fructose as an osmotic control. These monosaccharides each caused an increase in intracellular polyol levels with galactitol > sorbitol = mannitol accumulation. Chronic exposure of neuroblastoma cells to media containing 30 mM glucose, galactose, or mannose caused a significant decrease in Na⁺/K⁺ ATPase transport activity, resting membrane potential, and bradykinin-stimulated³²P incorporation into phosphatidylinositol compared to cells cultured in medium containing 30 mM fructose. In contrast, basal incorporation of³²P into phosphatidylinositol or basal and bradykinin-stimulated³²P incorporation into phosphatidylinositol 4,5-bisphosphate were not effected. Each of these cellular functions as well asmyo-inositol metabolism and content and polyol levels remained near control values when 0.4 mM sorbinil, an aldose reductase inhibitor, was added to the glucose, galactose, or mannose supplemented media.myo-Inositol metabolism and content and bradykinin-stimulated phosphatidylinositol synthesis were also maintained when media containing 30 mM glucose, galactose, or mannose was supplemented with 250 Mmyo-inositol. The results suggest that polyol accumulation induces defects in neural cellmyo-inositol metabolism and certain cell functions which could, if they occurred in vivo, contribute to the pathological defects observed in diabetic neuropathy.     

myo-Inositol Synthesis from [1-H]Glucose in Phaseolus vulgaris L. during Early Stages of Germination

Radiolabeled d-[1-³H]glucose was fed by imbibition under sterile conditions to bean (Phaseolus vulgaris L.) seeds. After 72 and 96 hours of feeding, the ³H was located in uronic acid and pentose residues as well as hexose residues of cell wall polysaccharides in growing hypocotyl and root. Free myo-inositol present in cotyledons, hypocotyl, and root also contained ³H, showing that de novo synthesis of myo-inositol from [1-³H]glucose did occur during the first 72 hours of germination. More than 90% of the labeled, free myo-inositol was present in the cotyledons. The ³H percentage in trifluoroacetic acid-soluble arabinose residues of cell wall polysaccharides from 72-hour-old bean hypocotyls was only half of their mole percentage. On the other hand, ³H percentages in hexose residues were higher than their mole percentages. The results suggest that myo-inositol is synthesized from reserve sugars during the very early stages of germination, and that the newly synthesized myo-inositol, as well as that stored in cotyledons, can be used for the construction of new hypocotyl and root cell wall polysaccharides after conversion into uronic acids and pentoses via the myo-inositol oxidation pathway.     

Carbohydrate oxidation by leucoplasts from suspension cultures of soybean (Glycine max L.)

The aim of this work was to discover how leucoplasts from suspension cultures of soybean (Glycine max L.) oxidize hexose monophosphates. Leucoplasts were isolated from protoplast lysates on a continuous gradient of Nycodenz with a yield of 28% and an intactness of 80%. Incubation of the leucoplasts with ¹⁴C-labelled substrates led to ¹⁴CO₂ production, that was dependent upon leucoplast intactness, from [U-¹⁴C]glucose 6-phosphate, [U-¹⁴C]glucose 1-phosphate, [U-¹⁴C] fructose 6-phosphate and [U-¹⁴C]glucose+ATP, but not from [U-¹⁴C]fructose-1,6-bisphosphate or [U-¹⁴C]triose phosphate. The yield from [U-¹⁴C]glucose 6-phosphate was at least four times greater than that from any of the other substrates. When [1-¹⁴C]-, [2-¹⁴C]-, [3,4-¹⁴C]-, and [6-¹⁴C]glucose 6-phosphate were supplied to leucoplasts significant ¹⁴CO₂ production that was dependent upon leucoplast intactness was found only for [1-¹⁴C]glucose 6-phosphate. It is argued that soybean cell leucoplasts oxidize glucose 6-phosphate via the oxidative pentose phosphate pathway with very little recycling, and that in these plastids glycolysis to acetyl CoA is negligible.S.A.C. thanks the Science and Engineering Research Council for a research studentship.     

Identification of 3-hydroxy-6-methyl-2H-pyran-2-one from pyrolysis of phosphoric acid-treated cellulosic materials

The hydrogen isotope-effect that occurs in vitro during myo-inositol 1-phosphate synthase-catalyzed conversion of d-[5-³H]glucose 6-phosphate into myo-[2-³H]inositol 1-phosphate has been used to compare the functional role of the nucleotide sugar oxidation-pathway with that of the myo-inositol oxidation-pathway in germinating lily pollen. Results reveal a significant difference between the ³H/¹⁴C ratios of glucosyl and galactosyluronic residues from pectinase-amyloglucosidase hydrolyzates of the 70 % ethanol-insoluble fraction of d-[5-³H, 1-¹⁴-C]glucose-labeled, germinating lily pollen. This isotope effect at C-5 of d-glucose that occurred during its conversion into d-galactosyluronic residues of pectic substance is not explained by loss of ³H when UDP-d-[5-³H, 1-¹⁴C]glucose is oxidized by UDP-d-glucose dehydrogenase from germinating lily pollen. The evidence obtained from this study favors a functional role for the myo-inositol oxidation pathway during in vivo conversion of glucose into galactosyluronic residues of pectin in germinating lily pollen.     

Metabolic Studies on Intermediates in the myo-Inositol Oxidation Pathway in Lilium longiflorum Pollen: III. Polysaccharidic Origin of Labeled Glucose

myo-Inositol-linked glucogenesis in germinated lily (Lilium longiflorum Thunb., cv. Ace) pollen was investigated by studying the effects of added l-arabinose or d-xylose on metabolism of myo-[2-³H]inositol and by determining the distribution of radioisotope in pentosyl and hexosyl residues of polysaccharides from pollen labeled with myo-[2-¹⁴C]inositol, myo-[2-³H]inositol, l-[5-¹⁴C]arabinose, and d-[5R,5S-³H]xylose.     

Effect of Osmolality and myo-Inositol Deprivation on the Transport Properties of myo-Inositol in Primary Astrocyte Cultures

myo-Inositol uptake measured in primary astrocyte cultures was saturable in the presence of Na⁺ with a Km of 13–18 M and a Vmax of 9.4 nmoles/mg protein/hour in myo-inositol-fed cells, indicating a high affinity transport system. In myo-inositol-deprived cells, Km was about 53 M with a Vmax of 13.2 nmoles/mg protein/hour. Decreasing osmolality decreased the Vmax to about 1.9 nmoles/mg protein/hour whereas increasing osmolality increased Vmax about 5-fold, while Kms were essentially unchanged in myo-inositol fed cells. In cells deprived of myo-inositol, Vmax decreased in hypotonic medium and increased in hypertonic medium almost 10-fold, but with more than a doubling of the Km regardless of the osmolality. Glucose (25 mM) inhibited myo-inositol uptake 51% whereas the other hexoses used inhibited uptake much less. Our findings indicate that myo-inositol uptake in astrocytes occurs through an efficient carrier-mediated Na⁺-dependent co-transport system that is different from that of glucose and its kinetic properties are affected by myo-inositol availability and osmotic stress.     

A sensitive radioisotopic assay of myo-inositol: Its application to rat pancreatic islets

A radioisotopic procedure for the assay of myo-inositol is presented. It is based on the generation of NADH from NAD⁺ in the reaction catalyzed by myo-inositol dehydrogenase and the subsequent NADH-dependent conversion of 2-[U-¹⁴C]ketoglutarate to ¹⁴C-labeled l-glutamate in the reaction catalyzed by glutamate dehydrogenase. This method was applied to the measurement of myo-inositol in rat pancreatic islets. The myo-inositol islet content was decreased when the animals were fed a diet deprived of myo-inositol. When incubated in the absence of exogenous d-glucose, pancreatic islets, like parotid cells, released myo-inositol in the incubation medium. Over 90 min of incubation, a rise in extracellular d-glucose concentration increased the myo-inositol islet content, which was decreased, however, after incubation in the presence of carbamylcholine. These findings indicate that the myo-inositol content of islets is affected by nutritional and other environmental factors.     

Quantitation of gibberellins and the metabolism of [3H]gibberellin A1 during somatic embryogenesis in carrot and anise cell cultures

In a carrot (Daucus carota L.) cell line lacking the ability to undergo somatic embryogenasis, and in carrot and anise (Pimpinella anisum L.) cell lines in which embryogenesis could be regulated by presence or absence of 2,4-dichlorophen-oxyacetic acid (2,4-D), in the medium (+2,4-D=no embryogenesis,-2,4-D=embryo differentiation and development), the levels of endogenous gibberellin(s) (GA) were determined by the dwarfrice bioassay, and the metabolism of [³H]GA₁ was followed. Embryos harvested after 14 d of subculture in-2,4-D had low levels (0.2–0.3 g g^-1 dry weight) of polar GA (e.g. GA₁-like), but much (3–22 times) higher levels of less-polar GA (GA_4/7-like); GA₁, GA₄ and GA₇ are native to these cultures. Conversely, the undifferentiated cells in a non-embryogenic strain, and proembryos of an embryogenic strain (+2,4-D) showed very high levels of polar GA (2.9–4.4 g g^-1), and somewhat reduced levels of less-polar GA. Cultures of anise undergoing somatic embryo development (-2,4-D) metabolized [³H]GA₁ very quickly, whereas proembryo cultures of anise (+2,4-D) metabolized [³H]GA₁ slowly. The major metabolites of [³H]GA₁ in anise were tentatively identified as GA₈-glucoside (24%), GA₈ (15%), GA₁-glucoside (8%) and the ¹⁽¹⁰⁾GA₁-counterpart (2%). Thus, high levels of a GA₁-like substance and a reduced ability to metabolize GA₁ are correlated with the absence of embryo development, while lowered levels of GA₁-like substance and a rapid metabolism of GA₁ into GA₈ and GA-conjugates are correlated with continued embryo development. Exogenous application of GA₃ is known to reduce somatic embryogenesis in carrot cultures; GA₄ was found to have the same effect in anise cultures. Thus, a role (albeit negative) in somatic embryogenesis for a polar, biologically active GA is implied.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - GA gibberellin(s) or gibberellin-like substances - GC-RC gas chromatography-radiochromatogram counting - HPLC high-presare liquid chromatography - Rt retention time - TLC thinlaver chromatography     

Redistribution of Tritium during Germination of Grain Harvested from myo-[2-H]Inositol- and scyllo-[R-H]Inositol-Labeled Wheat

Wheat kernels from myo-[2-³H]inositol- or scyllo-[R-³H]inositol-labeled plants (Sasaki and Loewus 1980 Plant Physiol 66: 740-745) were used to study redistribution of ³H into growing regions during germination. Most of the labeled 1-α-galactinol (or the analogous scyllo-inositol galactoside) was hydrolyzed within 1 day. Water-soluble phytate was dephosphorylated within 3 days. A large reserve of bound phytate continued to release myo-inositol over several days. Translocation of free myo-inositol to growing regions provided substrate for the myo-inositol oxidation pathway and incorporation of ³H into new cell wall polysaccharides.