Regulation of starch and protein accumulation in alfalfa (Medicago sativa L.) somatic embryos

Compared to seeds, somatic embryos accumulated relatively low levels and different types of storage carbohydrates. The regulation of starch accumulation was studied to determine its effects on desiccation tolerance and vigor of dry somatic embryos. Somatic embryos of Medicago sativa are routinely matured through three phases: 7 days of development; 10 days of phase I maturation, a rapid growth phase; and 10 days of phase II maturation, a phase leading to the acquisition of desiccation tolerance. The control of starch deposition was investigated in alfalfa somatic embryos by manipulating the composition of the phase I maturation medium with different levels of sucrose, abscisic acid, glutamine and different types of carbohydrates and amino acids. After phase II maturation, mature somatic embryos were collected for desiccation and subsequent conversion, or for biochemical analyses. Starch deposition occurred primarily during phase I maturation, and variations in the composition of this medium influenced embryo quality, storage protein and starch accumulation. A factorial experiment with two levels of glutamine × three levels of sucrose showed that increasing the sucrose concentration from 30 to 80 g/l increased embryo size and starch content, but had minimal effect on accumulation of storage proteins; glutamine also increased embryo size, but decreased starch content and increased accumulation of the high salt soluble S-2 (medicagin) storage proteins. ABA did not influence any of the parameters tested when included in phase I maturation at concentration up to 10 μM. Replicating sucrose with maltose, glucose, or glucose and fructose did not alter embryo size or starch accumulation (mg/g fresh weight), but replacement with fructose alone reduced embryo size, and replacement with glucose alone reduced germination. Suplementation with the amino acids, asparagine, aspartic acid and glutamine increased seedling vigor, but decreased the starch content of embryos. The data indicate that starch accumulation in somatic embryos is regulated by the relative availability of carbon versus nitrogen nutrients in the maturation medium. The quality of mature somatic embryos, determined by the rate of seedling development (conversion and vigor), correlated with embryo size, storage protein and free amino acid but not with starch. Therefore, further improvements in the quality of somatic embryo may be achieved through manipulation of the maturation medium in order to increase storage protein, but not starch deposition.     

Manipulation Through Liquid Culture in the Contents of Sucrose and Glutamine and Their Transformation to Starch and Protein in Wheat Grain

Detached ears of wheat were cultured in liquid medium manipulated for sucrose and glutamine contents, and the accumulation of starch and protein in relation to the activities of sucrose cleaving—, ammonia assimilating—, and transaminating enzymes was studied in the grain. With an increase in the concentrations of sucrose from 44 to 176 mM and glutamine from 6.4 to 25.7 mM (keeping their ratio at a constant value of 7:1), the contents of starch and protein increased in the grains. However, when the grains were cultured in the medium containing 8.5 to 34 mM glutamine and a fixed concentration of 117 mM sucrose, there was a gradual increase in protein and decrease in starch content in the grain. By such manipulation in the liquid medium, the content of free amino acids also increased in the grain up to 12 days culturing. Amongst sucrose cleaving enzymes, the activities of sucrose-UDP glucosyl transferase and soluble alkaline invertase were much lower than the activity of soluble acid invertase. At high concentration (34 mM) of glutamine in the medium, containing 117 mM sucrose, there was drastic decrease in the activities of soluble acid invertase and UDPG pyrophosphorylase but the activities of ADPG pyrophosphorylase, alkaline inorganic pyrophosphatase, glutamate dehydrogenase, glutamate oxaloacetate transaminase and glutamate pyruvate transaminase increased in the grain with increase in glutamine concentration in the culture medium. Evidently, an increase in the level of amino nitrogen, coupled with an optimum sucrose concentration in the grain raised through liquid culturing enhances the conversion of sucrose to protein at the cost of starch accumulation in wheat.     

Protein and oil concentration of soybean seed cultured in vitro using nutrient solutions of differing glutamine concentration

Oil and protein are the most valuable components of soybean seed. Evidence indicates that growth and composition of soybean seed are controlled by supplies of carbon and nitrogen provided by the maternal plant to the seed, but it is difficult experimentally to control and quantify the precise amount of carbon and nitrogen provided to the seed by the whole plant. To examine whether oil and protein concentrations are affected by the supply of nitrogen to the seed, immature soybean seeds (Glycine max cv. Williams 82) were grown in vitro in nutrient solutions containing 20, 40, 60 or 80 mM of glutamine. The seeds were incubated in Erlenmeyer flasks for 8 days at 25°C. The rate of dry matter accumulation changed from 7.2 to 8.3 mg seed⁻¹ day⁻¹ as the glutamine concentration increased from 20 to 80 mM but the differences were not significant (P 0.05). Seed protein concentration increased as glutamine concentration increased from 294 mg g⁻¹ at 20 mM glutamine to as high as 445 mg g⁻¹ at 80 mM glutamine. Typical in vivo protein concentration of mature soybean seeds is about 400 mg g⁻¹. Oil and protein concentrations were negatively correlated (r²= 0.44), which indicates that oil and protein synthesis are interrelated. Protein synthesis was favoured over oil synthesis when nitrogen became more abundant. The seeds used in this study clearly demonstrated a capacity to respond to nitrogen availability with changes in seed protein concentration.     

Independence of nitrogen supply and seed growth in soybean: studies using an in vitro culture system

The effect of N supply on soybean (Glycine max L. Merrill) seedgrowth was investigated using an in vitro liquid culture system.Sucrose was maintained at 200 mM and N was supplied by asparagineand methion-ine in a 6.25:1 molar ratio. Media N concentrationsfrom zero to 270 mM had little effect on cultured cotyledondry matter accumulation rate for 7 or 14 d, but rates approachedzero after 21 d when there was no N in the media. Only 17 mMN was required for maximum cotyledon growth rate up to 21 d.Cotyledon N accumulation and concentration increased in directproportion to the N concentration in the media. The N concentrationin cotyledons from a high protein genotype was higher than anormal genotype at all media N levels (0–270 mM). Solublesugar and oil concentrations in the cotyledons were highestat zero media N and decreased as media N increased. These datasuggest that the concept of seed N demand, which is thoughtto cause senescence in soybean, is incorrect. Soybean seedscan accumulate dry matter without accumulating N and apparentlyneed only minimal supplies of N (17 mM) to maintain the metabolicenzymes necessary to sustain dry matter accumulation. Geneticdifferences in seed protein concentration seem to be regulatedby the cotyledons not the supply of N. Key words: Seed N demand, seed dry matter accumulation, in vitro culture     

Regulation of Starch and Protein Synthesis in Wheat Grains by Feeding Sucrose and Glutamine to Detached Ears Cultured in vitro

Three experiments of in vitro ear culture were conducted to evaluate how the substrates of C (carbon) and N (nitrogen) supply in liquid medium regulate the grain growth and synthesis of protein and starch in two winter wheat cultivars. Increasing glutamine supply with constant sucrose concentration increased the contents of total protein and protein components of albumin and globulin in grain, and the activity of glutamate pyruvate transaminase (GPT) across most treatments, while markedly reducing the contents of total starch and components of amylose and amylopectin as well as the activities of soluble starch synthase (SSS) and granule bounded starch synthase (GBSS). The opposite patterns were observed in the experiment of increasing sucrose supply at constant glutamine concentration. When simultaneously increasing sucrose and glutamine supply at constant ratio, the contents of total protein, albumin and globulin in grain were slowly enhanced, whereas the contents of total starch, amylose and amylopectin and the activities of SSS, GBSS and GPT increased only to a certain extent and then decreased. Negative correlations were found between the contents of protein or protein components in grains and the relative ratio of sucrose to glutamine concentrations in the culture medium, while positive correlations were seen between the contents of total starch or starch components and the ratio of sucrose to glutamine. These results implied that the composition of protein and starch in wheat grain could be readily manipulated by varying the concentrations of sucrose and glutamine and their ratio in the culture medium.     

Seed Water Relations and the Regulation of the Duration of Seed Growth in Soybean

Soybean [Glycine max (L.) Merrill] seeds and cotyledons weregrown in an in vitro culture system to investigate the relationshipsbetween cell expansion (net water uptake by the seed) and drymatter accumulation. Seeds or cotyledons grown in a completenutrient medium containing 200 mol m^–3 sucrose continueddry matter accumulation for up to 16 d after in planta seedsreached physiological maturity (maximum seed dry weight). Seedor cotyledon water content increased throughout the cultureperiod and the water concentration remained above 600 g kg^–1fresh weight. These data indicate that the cessation of seeddry matter accumulation is controlled by the physiological environmentof the seed and is not a pre-determined seed characteristic.Adding 600 mol m^–3 mannitol to the medium caused a decreasein seed water content and concentration. Seeds in this mediumstopped accumulating dry matter at a water concentration ofapproximately 550 g kg^–1. The data suggest that dry matteraccumulation by soybean seeds can continue only as long as thereis a net uptake of water to drive cell expansion. In the absenceof a net water uptake, continued dry matter accumulation causesdesiccation which triggers maturation. Key words: Glycine max (L.) Merrill, solution culture, duration of seed growth, water content, dry matter accumulation     

Response of sugar interconversion, starch and protein accumulation to supplied metabolites during pod filling in chickpea

Detached chickpea inflorescences bearing pods at 20 days after flowering (DAF) were cultured for 5 days in complete liquid medium supplemented separately with asparate, myo-inositol, alpha-ketoglutarate and phytic acid. Effect of these metabolites on sugar interconvestion and starch and protein accumulation in developing pods was studied. Substituting asparate (62.5 mM) for glutamine in culture medium decreased relative proportion of sucrose in all pod tissues but increased the level of sugars, starch and protein in pod wall and cotyledons. In cotyledons, whereas myo-inositol (75 mM) reduced the accumulation of starch without affecting protein level, alpha-ketoglutarate (44 mM) increased both starch and protein accumulation. Both myo-inositol and alpha-ketoglutarate increased relative proportion of sucrose in cotyledons. Phytic acid (1 mM) decreased in cotyledons 14C incorporation from glucose into EtOH extract (principally constituted by sugars), amino acids and proteins but increased the same into starch. In cotyledons, phytic acid also increased 14C incorporation from glutamate into amino acids but this increase was negatively correlated with protein synthesis. Phytic acid decreased the relative distribution of 14C from glucose and glutamate into sucrose from pod wall but enhanced the same into EtOH extract from embryo. Based on the results, it is suggested that mode of metabolic response to exogenously supplied metabolites widely differs in pod tissues of chickpea.     

Grain size,sucrose level and starch accumulation in developing rice grain

Five rices (Oryza sativa L.) differing in final grain size were studied at the midmilky stage to determine if any factor could be identified which might limit rate of starch accumulation. Only UDP glucose pyrophosphorylase activity increased with increasing grain size. Detached rice panicles incubated in liquid medium containing 1% sucrose and 0.1% glutamine, in addition to minerals and vitamins, produced grains similar to those on intact plants. Sucrose level (0–1.5%) in the medium determined the extent of dry matter and starch accumulation and influenced physiological development of the ripening grains. Chemical and enzymic composition of the grain were similar to previously reported levels in grains of intact panicles analysed at regular intervals after anthesis. Addition of 3-P glycerate or K⁺ to the medium did not improve dry matter accumulation in the developing grain.     

Differential effects of glutamine and arginine on 7S globulin accumulation during the maturation of oil palm somatic embryos

The low vigour of plantlets resulting from oil palm somatic embryos may be due to insufficient levels of deposited storage proteins. Thus, in order to improve embryonic maturation and the vigour of regenerated plantlets, we investigated the effects of modifying the culture conditions with respect to the accumulation of the major oil palm storage proteins, the 7S globulins. In this study, the effect of arginine and glutamine on globulin accumulation was studied using somatic embryos of two different genotypes. Arginine and glutamine were both found to enhance protein accumulation but in different ways, which were best illustrated by measurements of soluble proteins per embryo and 7S globulin content per dry weight. Arginine increased the level of soluble proteins by 46% irrespective of the clone, and glutamine by 19% and 63% depending on the clone. The clone which accumulated the least protein in the presence of glutamine was that which contained the more protein initially. Only arginine favoured the accumulation of 7S globulin content per dry weight, irrespective of the clone considered (+26%). This study will enable further investigations of specific storage proteins as potential markers for regenerated plantlets vigour. Received: 22 July 1997 / Revision received: 6 January 1998 / Accepted: 1 December 1998     

Long-term somatic embryogenesis and maturation of somatic embryos in Hevea brasiliensis

A high frequency of secondary embryogenesis was induced from isolated early cotyledonary-stage somatic embryos of Hevea brasiliensis. A long-term embryogenic line was established by the use of recurrent embryogenesis and maintained for 3 years on hormone-free medium by the transfer of selected proembryogenic masses every 10 days.

The addition of 234 mM sucrose as stress with sucrose and 10⁻⁵ M abscisic acid (ABA) to the culture medium enhanced the maturation of somatic embryos. Under these culture conditions, the embryo population was composed of 45% globular, 18% oblong and 37% torpedo-stage embryos. These somatic embryos had well-formed tissue structure, a well-defined epidermis, protein storage bodies, and a high accumulation of starch. The triglyceride content was five times as high in the torpedo-stage embryos that developed on medium supplemented with 234 mM sucrose and 10⁻⁵ M ABA as in embryos obtained on basal medium with 58 mM sucrose.     

Culture of soybean fruit explants: growth conditions and efficiency of nitrogen sources for reserve protein synthesis

A system was devised for the in vitro culture of soybean fruits. The culture system consisted of a single fruit attached to a short piece of stem through which the nutrients were supplied. The fruit explants were taken when pods were fully expanded and the seeds at initial stages of growth. During a 7-day culture period, the seeds accumulated dry matter and protein in quantities comparable to those in situ. Omission of the C source (sucrose) from the medium resulted in no dry matter accumulation in the seeds, but omission of the N source (glutamine) still led to some protein accumulation, indicating mobilization of N from other parts of the fruit explant. Optimum protein accumulation occurred when glutamine was supplied at 1.2 mg N ml^-1. Protein accumulation in the seeds was highly dependent on the nature of the N source. Glutamine, asparagine and the ureide, allantoin, were equally the most efficient sources, whereas several other amino acids tested showed lower degrees of efficiency. The data indicate a high metabolic capacity of the fruit tissues for principal N transport compounds of soybean, namely allantoin, asparagine and glutamine. The culture system described should prove useful for developmental and metabolic studies where the complex influence of the rest of the plant is to be avoided.Abbreviations ALN allantoin - ALC allantoic acid Preliminary report presented at the IV World Soybean Research Conference, Buenos Aires, Arggentina, March 1989.     

Precocious Germination during In Vitro Growth of Soybean Seeds

Immature Glycine max (L.) Merrill seeds were grown and matured in liquid medium at 25°C under fluorescent light. In standard medium containing minerals, 146 millimolar sucrose and 62.5 millimolar glutamine (osmolality 0.24), precocious germination seldom occurred with a starting seed size of less than 300 milligrams fresh weight. Frequency of precocious germination increased with increased starting seed size. Sucrose concentration strongly affected precocious germination while glutamine concentration had no effect. Starting with 300 to 350 milligrams fresh weight seeds, treatments which reduced the sucrose concentration or lowered the osmolality of the culture medium stimulated precocious germination, and increased the fresh weight growth but not the dry weight growth of seeds. Increasing the osmolality to 0.38 with sucrose or mannitol prevented precocious germination without reducing dry weight accumulation in seeds. In medium with initially low osmolality, precocious germination was inhibited by addition of 1 to 100 micromolar abscisic acid to the medium without a reduction in seed growth. During growth and maturation of large soybean seeds in vitro, precocious germination and other abnormal tissue growth can be prevented by high sucrose or mannitol concentrations in the medium or by addition of abscisic acid.     

Evidence that the hexose-to-sucrose ratio does not control the switch to storage product accumulation in oilseeds: analysis of tobacco seed development and effects of overexpressing apoplastic invertase

Wild-type tobacco (Nicotiana tabacum L.) seed development was characterized with respect to architecture and carbohydrate metabolism. Tobacco seeds accumulate oil and protein in the embryo, cellular endosperm and inner layer of the seed coat. They have high cell wall invertase (INV) and hexoses in early development which is typical of seeds. INV and the ratio of hexose to sucrose decline during development, switching from high hex to high suc, but not until most oil and all protein accumulation has occurred. The oil synthesis which coincides with the switch is mostly within the embryo. INV activity is greater than sucrose synthase activity throughout development, and both activities exceed the demand for carbohydrate for dry matter accumulation. To investigate the role of INV-mediated suc metabolism in oilseeds, genes for yeast INV and/or hexokinase (HK) were expressed under a seed-specific napin promoter, targeting activity to the apoplast and cytosol, respectively. Manipulating the INV pathway in an oilseed could either increase oil accumulation and sink strength, or disrupt carbohydrate metabolism, possibly through sugar-sensing, and decrease the storage function. Neither effect was found: transgenics with INV and/or HK increased 30-fold and 10-fold above wild-type levels had normal seed size and composition. This contrasted with dramatic effects on sugar contents in the INV lines.     

碳氮源对花榈木胚性愈伤组织诱导、发育及有机物积累的影响

为探讨花榈木体胚发生过程中不同碳氮源处理对胚性愈伤组织诱导、发育和有机物积累的影响,并筛选出有利于花榈木体胚发生的碳氮源,优化体胚发生体系,该研究以成熟胚为外植体,通过单因素试验分析3种碳源、4种蔗糖浓度和6种氮源处理下胚性愈伤组织诱导、发育和有机物积累的差异。结果表明:(1)蔗糖中胚性愈伤组织诱导率显著高于葡萄糖和麦芽糖,但其体胚诱导率、体胚分化率、胚性愈伤组织可溶性糖、淀粉和可溶性蛋白含量差异不显著。(2)随着蔗糖浓度的升高,胚性愈伤组织、体细胞胚(体胚)诱导率、体胚分化率、胚性愈伤组织重量和可溶性蛋白含量呈先升高后降低的趋势,均以添加30 g·L^-1蔗糖最高,而胚性愈伤组织可溶性糖和淀粉含量呈增加的趋势。(3)在6种氮源处理中,胚性愈伤组织诱导率以添加500 mg·L^-1谷氨酰胺的处理最高,体胚诱导率则以添加谷氨酰胺和水解酪蛋白的处理较高,但不同氮源处理间体胚分化率无差异; 添加有机氮源的处理其胚性愈伤组织可溶性蛋白含量显著高于无氮源处理。总之,不同的碳氮源通过影响花榈木胚性愈伤组织的诱导、发育和有机物的积累,从而影响其体胚诱导率,但对体胚分化率影响不显著。初步认为30 g·L^-1蔗糖和500 mg·L^-1谷氨酰胺作为碳氮源可促进花榈木体胚发生诱导。     

Regulation by sucrose of storage compounds breakdown in germinating seeds of yellow lupine (Lupinus luteus L.), white lupine (Lupinus albus L.) and Andean lupine (Lupinus mutabilis Sweet): I. Mobilization of storage protein

Research of the regulatory function of sucrose in storage protein breakdown was conducted on isolated embryo axes, excised cotyledons and whole seedlings of three lupine species grown in vitro on medium with 60 mM sucrose or without the sugar. Sucrose stimulated growth of yellow, white and Andean lupine isolated embryo axes and cotyledons but growth of seedlings was inhibited. Dry matter content was higher in sucrose-fed isolated organs and in seedling organs. Ultrastructure research revealed that lack of sucrose in the medium caused enhancement in storage protein breakdown. Protein deposits in cotyledons were smaller as well as soluble portion content in all studied organs was lower when there was no sucrose in the medium. In the same conditions, the activity of glutamate dehydrogenase was significantly higher. Increase in vacuolization of cells of white lupine root meristematic zone cells was observed and induction of autophagy in young carbohydrate-starved embryo axes is discussed.     

An Analysis of Seed Development in Pisum sativum: VIII. DOES ABSCISIC ACID PREVENT PRECOCIOUS GERMINATION AND CONTROL STORAGE PROTEIN SYNTHESIS?

The influence of abscisic acid (ABA) on the precocious germinationand storage protein production of pea seeds has been examinedusing embryo and pod culture. The precocious germination ofembryos in culture could not be inhibited fully by ABA on apermissive medium (2% sucrose) even at 0.1 mol m^–3. However,increasing the sucrose concentration to 5% caused near completeinhibition when ABA was added to the medium. Embryos of differentweights cultured on a high osmoticum (mannitol-containing medium),equivalent to 10% sucrose, did not show any consistent differencein ABA content. When fluridone was added to a non-permissiveculture medium, no decrease in ABA content of the embryos couldbe observed and no precocious germination was induced. In contrast,fluridone was able to prevent the accumulation of ABA in seedspresent in pods cultured in its presence from an early stageof development. These seeds, however, grew normally and reachedmaturity, did not germinate precociously in vivo, were desiccationtolerant and still produced storage protein message whetheror not ABA was included in the culture medium. It does not appear,therefore, that ABA regulates normal development or storageprotein synthesis in pea embryos. Key words: Abscisic acid, peas, Pisum sativum, seed development     

The differential transport of amino acids into the phloem of Ricinus communis L. seedlings as shown by the analysis of sieve-tube sap

The cotyledons of castor bean (Ricinus communis L.) act as absorption organs for amino acids, which are supplied to the medium. The analysis of the sieve-tube sap, which exudes from the cut hypocotyl, demonstrated the ability of the cotyledons to load particular amino acids into the phloem and to reject the loading of others. The sieve-tube sap of cotyledons, which were embedded in the endosperm, contained 150 mM amino acids, with 50 mM glutamine as the major amino acid, and 10–15 mM each of valine, isoleucine, lysine and arginine. Removal of the endosperm led to a drastic decline in the amino-acid content of sieve-tube sap down to 16 mM. Addition of single amino acid species to the medium increased the amino acid concentration in the sieve-tube sap in specific manner: glutamine caused the largest increase (up to 140 mM in exudate), glutamate and alanine smaller increases (up to 60 mM), and arginine the smallest. In addition, the amino acid composition of the sieve-tube sap changed, for instance, glutamine or alanine readily appeared in the sieve-tube sap upon incubation in glutamine or alanine, respectively, whereas glutamate was hardly discernible even in the case of incubation with glutamate; arginine was loaded into the sieve tubes only reluctantly. In general, glutamine and alanine accumulated four- to tenfold in the sieve tubes. The uptake of amino acids and of sucrose into the sieve tubes was interdependent: the loading of sucrose strongly reduced the amino acid concentration in the sieve-tube exudate and loading of amino acids decreased the sucrose concentration. Comparison of the concentrations of various amino acids on their way from the endosperm via the cotyledon-endosperm interface, through the cotyledons and into the sieve tubes showed that glutamine, valine, isoleucine and lysine are accumulated on this pathway, whereas glutamate and arginine are more concentrated in the cotyledons than in the sieve tubes. Obviously the phloem-loading system has a transport specificity different from that of the amino acid uptake system of the cotyledon in general and it strongly discriminates between amino acids within the cotyledons.     

Effect of Sugars and Amino Acids on Androgenesis of Cucumis sativus

The effects of sugars (sucrose, maltose, glucose and fructose) and amino acids (glutamine, glycine, arginine, asparagine and cysteine) on embryogenesis and plantlet regeneration from cultured anthers of Cucumis sativus L. cv. Calypso and Green Long were studied. Type and concentration of sugar and amino acid influenced embryogenesis. Among the different sugars tested, sucrose was the best for embryo induction with an optimal concentration of 0.25 M. Maximum of 72 and 80 embryos per 60 anthers of Calypso and Green Long, respectively, were induced on embryo induction medium [B5 (Gamborg, Miller and Ojima (1968) Exp. Cell Res. 50: 151–158) supplemented with 2.0 μM 2,4-dichlorophenoxyacetic acid (2,4-D), 1.0 μM 6-benzyladenine (BA)] containing 0.25 M sucrose. The addition of amino acids to the embryo induction medium improved embryo yield with a combination of amino acids (glutamine, glycine, arginine, asparagine and cysteine of 1.0 mM each) giving the best response. Embryo differentiation was achieved on B5 medium supplemented with 0.25 μM of α-naphthaleneacetic acid (NAA), 0.25 μM kinetin (KN) and 0.09 M sucrose. Embryos were converted on B5 medium supplemented with abscisic acid (ABA) (10 μM) and 0.09 M sucrose. Embryos that developed on B5 medium supplemented with a combination of amino acids (glutamine, glycine, arginine, asparagine and cysteine of 1.0 mM each) exhibited the highest plantlet regeneration frequency.     

<Emphasis Type="Italic">Narcissus</Emphasis> bulblet formation <Emphasis Type="Italic">in vitro</Emphasis>: effects of carbohydrate type and osmolarity of the culture medium

Shoot clump cultures of Narcissus cultivars St. Keverne and Hawera were used to investigate the effects of culture medium carbon supply, type of carbohydrate and osmolarity on in vitro bulblet development. Increasing the medium osmolarity using mannitol or sorbitol, which did not act as substrates for growth, failed to stimulate bulblet formation with either cultivar. An exception to this was a relatively small increase in total bulblet dry weight per culture, in the cultivar Hawera only, caused by adding 30 g l ^–1 sorbitol in combination with 30 g l^–1 sucrose. Simultaneously increasing the medium osmolarity and carbon supply using the metabolisable carbohydrate sources, sucrose, glucose, fructose or an equimolar mixture of glucose and fructose stimulated bulblet production, total dry matter accumulation and partitioning into bulblets. At comparable levels of carbon supply up to 19.0 g l^–1, bulblet development of both cultivars was similar with monosaccharide and sucrose media. This indicates that substrate supply is more important for bulblet development than osmolarity of the culture medium. The cultivar Hawera also showed similar responses to monosaccharide and sucrose media supplying 37.9 g C l^–1, despite the high osmolarity of monosaccharide media (c. 650 m Osm kg^–1, equivalent to –1.6 MPa, compared to 380 m Osm kg^–1 for sucrose medium). However in St. Keverne total dry matter accumulation and dry weight per bulblet were further stimulated only by increasing the sucrose supply from 19.0 to 37.9 g C l^–1, not by increasing the monosaccharide supply. Implications of the findings for Narcissus micropropagation are discussed.