The effect of NaCI stress on the activities of nitrate reductase (NR), glutamate dehydrogenase (GDH) and glutamate synthase (GOGAT) in callus lines ofVigna radiata which differ in salt resistance, was studied at weekly intervals upto 28 d of growth. After 28 d, the NaCI resistant callus (selected at 300 mM NaCI) at NaCI concentrations higher than 200 mM maintained higher NR activity than non-selected line. NaCI stress also affects aminating and deaminating activities of GDH. The NADH-GDH activity in the presence of NaCI was higher in the resistant than non-selected line. On the other hand, NAD-GDH activity in both the lines was completely inhibited after 7 d of growth. The increased activity of NADH-GDH in resistant calli may play a vital role in protecting the cells from toxic effect of increased endogenous level of ammonia which probably accumulates due to efficient NO₃ ^- reduction. NADH-GOGAT activity was found to decrease under salt stress in both the callus lines. Nitrogen assimilation in salt-resistant calli under salt stress was found to be characterized by high NR and NADH-GDH activities, concomitantly with low GOGAT activity.

Standardized laboratory techniques for the vegetative growth of the duckweedSpirodela polyrhiza (Lemnaceaé), and for formation as well as germination of their turions were described. Increasing photon fluence rates of blue or red light increased the yield of turions. A specific stimulating effect of blue light was demonstrated under autotrophic but not under mixotrophic conditions. Therefore the spectral composition of light is not important in mixotrophic formation of turions whereas in autotrophic formation light sources with a higher portion of blue light are recommended. Dark-grown (etiolated) turions showed accelerated germination and higher germination percentage in comparison with light-grown turions after induction by a single red light pulse. This difference was overcome in continuous red light by speeding up the germination response of light-grown turions. Use of Petri dishes (8 cm³ nutrient solution) instead of Erlenmeyer flasks (50 cm³ nutrient solution) retarded germination response. Especially for long term experiments the use of Erlenmeyer flasks is recommended. Storage of turions for 72 h at 25 ‡C following at 5 ‡C in darkness after-ripening resulted in a decreased lag phase of the light-induced germination both after induction by a single light pulse and in continuous light.

Echinochloa colona regeneration via organogenesis in callus cultures derived from leaf base and mesocotyl expiants andin vitro flowering were achived. Shoot bud regeneration was achieved on Murashige and Skoog's (MS) basal medium supplemented with 6.66 μM 6-benzylaminopurine (BAP), 2.68 μM 1-naphthalene acetic acid (NAA) and 3 % (m/v) saccharose. Regenerated shoots were rooted on half strength basal MS medium with 2 % (m/v) saccharose devoid of growth regulators. About 90 -95 % of rooted plantlets survived in the greenhouse.In vitro flowering was induced in the regenerated shoots derived from callus on half strength MS medium supplemented with 4.4 μM BAP, 74.07 μM adeninesulphate, 0.72 μM gibberellic acid, and 3 % (m/v) saccharose. The frequency ofin vitro flowering was 80 - 90 % in three repeated experiments. Fertile seeds were recovered fromin vitro grown plantlets which were subsequently germinated into plants.

Proline content, ion accumulation, cell wall and soluble peroxidase activities were determined in control and salt-treated calli (150 nM NaCl) and whole plants (30 mM NaCl) of two rice cultivars (salt sensitive cv. IKP and salt tolerant cv. Aiwu). Under salinity, the highest accumulation of Na⁺, Cl^- and proline occurred in calli, roots and younger leaves of cv. IKP, coupled with the highest decrease in K⁺ content; accumulations of Na⁺ and Cl^- were restricted to older leaves in cv. Aiwu. Relative growth rates of calli and roots or shoots from both cultivars were not linked to peroxidase activities. High concentrations (1 M) of exogenously applied glycerol did not inhibitin vitro activities of soluble peroxidase extracted from control and salt-treated calli or plants. Conversely, 35-55% (in cv. IKP) or 60-80% (in cv. Aiwu) of soluble peroxidase activities were found in presence of isosmotic proline concentration. There were no differences between proline and glycerol effects onin vitro cell wall peroxidase activities.

Hypocotyls of seedling plants of the sunflower inbred line HNK-81 were used as a source of protoplasts. Optimal conditions of isolation and culture of protoplasts were established. Using the method of individual culture in microdrops, a 77% final plating efficiency was achieved. Cytokinins, especially zeatin, showed a significant influence on the formation of globular embryo-like structures, but these failed to develop into mature embryos. Calli obtained in liquid media containing auxins and cytokinins grew on agar solidified media without growth regulators.

Under strictly non-inductive photoperiods (24-h photoperiods) floral buds were initiated on plants receiving 25 treatments with Reso (resorcinol) or 8 treatments with GA₃ (gibberellic acid) or GA₃ + Reso, while water treated control plants did not flower at all. Although a single treatment of plants with GA₃ or GA₃ + Reso is not adequate to cause induction under LD conditions, its effect is added to the sub-threshold induction caused by one SD (short day: 8-h photoperiod) cycle. The initiation of floral buds was hastened with an increasing number of SD cycles accompanying respective number of treatments, the effect of GA₃ alone or together with Reso being more pronounced than that of Reso alone. GA₃ increased the number of floral buds more than Reso, the number being the highest in plants receiving the respective number of treatments with the combination GA₃ + Reso under both inductive as well as non-inductive photoperiods.

A salt mixture resistant (SMR) cell line ofVigna radiata (L.) Wilczek was isolated by selection on agar solidified PC-L2 medium supplemented with NaCl, KCl and Na₂SO₄ (8∶1∶1) equimolar to 300 mol m^-3 NaCl, a concentration inhibitory to the wild-type non-selected cells (salt mixture sensitive, SMS). This line retained its resistance after subculture for 3 passages (3 months) on normal medium. The SMR line grew significantly better than SMS line at all the levels of salts, though less in saline medium than the SMR on normal medium. The growth of SMR line was significantly higher than that of SMS line under KCl stress. However, both the lines responded similarly to Na₂SO₄ at a concentration higher than 100 mol m^-3. The SMR line was found to be more sensitive to NaCl than SMS line. The SMR line under salt mixture stress maintained lower levels of Na⁺ and higher levels of K⁺ than SMS line. The SMR line failed to regenerate shoots, although rhizogenesis was observed on PC-L2 medium containing salt mixture (300 mol m^-3).

Chlorophyll deficient plantlets were obtained after the treatment of sugar cane callus cells with 3-azido-l,2-propanediol (AG) and sodium azide with approximately the same frequency. Both mutagenic agents postponed the regeneration of plantlets from calli, the total number of regenerated plantlets following the AG treatment being, however, higher than after the sodium azide treatment and control.

Plants regenerated from callus cultures derived from leaf discs and mesophyll protoplasts ofPetunia hybrida cv. Rose of Heaven exhibit a high frequency of genetic and chromosomal variation. Of twelve leaf disc-derived plants examined, only three had the normal diploid chromosome number (2n=14) while seven were tetraploid and two were aneuploid (16 and 27 chromosomes). Of seventeen plants derived from two protoplasts, none had the diploid chromosome number. Most had 28 chromosomes, one 29, two 27, one 26 and one had variable numbers (14-28) in different root tip cells. In all cases aneuploidy was associated with developmental abnormality. In addition, heritable differences in growth, morphology and flower pigmentation were observed in callus-derived tetraploids and diploids, including one diploid which differed from parent plants in at least four characters. These results are discussed in terms of the importance ofPetunia in genetics research and for studies of somaclonal variation.

Germinated tubers of selected cultivars Kera, Resy, Nicola and Oreb were made healthier by heat treatment. They were derived from germ explants on MS media with the addition of BAP 1 mg 1^-1 and IAA 0.2 mg 1^-1. After sufficient multiplication of stems, optimum conditions of the photoperiod were followed for the induction of axillary microtubers on stem segments in media with BAP 10 mg 1^-1 and 8% sucrose. The ability of tuberization is different: the early cvs. Kera and Resy induce earlier tubers at a long photoperiod and late cvs. Nicola and Oreb tuber rather at a short photoperiod. In suitable photoperiods the inhibitory substances accelerate the induction of axillary tubers and limit the formation of adventitious roots. Synthetic inhibitors applied in induction media increase the number of the tubers.
The quality of tubers was affected by the addition of a mixture of amino acids: aspartic, glutamic, lysine and proline in concentrations of 12.5, 25 and 50 mg.1^-1 into the induction media. In the course of cultivation the types which were growing well, formed tubers and increased the volume were selected. The representation of amino acids in the tubers was not significantly affected, there was only an increase in proline. The higher content of amino acids was reflected in the increase of proteins in the tubers. The selected clones are further multiplied.

The changes in the content of free and esterified phenolic acids extracted with methanol and the phenolic acids nonextractable with this solvent were studied during a long term cultivation (4 subcultures, 27 weeks total) of alfalfa callus in darkness and light. The total content of phenolic acids in the callus grown in darkness was lower as compared to their content in callus cultivated under 10/14 h light/darkness regime. It was decreasing during cultivation differently in the two treatments being in light-grown callus dependent on the length of cultivation and decreasing by each subcultivation in darkness. The portion of benzoic acid derivatives related to the total phenolic acids changed with the age of the culture reaching 90 % after the fourth subcultivation in darkness while only 45 % in light. Considerable decrease of the content of esterified form of phenolic acids accompanied by relatively stable content of free and firmly bound phenolic acids caused significant decrease of esters as related to total phenolic acids (from 87 % to 25 %).

In the long-term cultivated callus cultures ofMatricaria recutita L. the identical concentration changes in the biosynthesis of glutathione, glutamate, aspartate, total thiols and proteins were detected within the subculture. The level of oxidized glutathione during the growth of callus culture was low with the highest value 10.66 nmol g^-1 on the 13th day of subculture. The ratio GSH/GSSG which significantly influences the redox processes in a cell, and the activity of glutathione reductase increased from the 8th day. Ascorbate formation was detected on the 17th day, although no relation between the ascorbate synthesis and the concentration of glutathione and glutathione reductase was found.

The effect of different NaCl regimes was examined on the growth and ion accumulation in whole plants and callus cultures ofVigna radiata. Whole plants grown in sand culture were watered with Hoagland's solution supplemented with 0-350 mol m^-3 of NaCl. Callus cultures were initiated from leaves of 7-d old seedlings of the same seed stock and grown in modified PC-L2 medium containing the same levels of NaCl as in Hoagland's solution. Callus showed the same tolerance to salt as did the whole plant suggesting thatV. radiata appears to have a mechanism(s) for salt tolerance which operates at the cellular level. Ion analysis of whole plant showed that root sodium concentrations of the tolerant cultivar G-65 was much higher while shoot sodium was much less than those of salt sensitive cultivar ML-1. Callus cultures of cv. G-65 also accumulated higher Na⁺ levels. Thus, the greater salt tolerance of cv. G-65 was associated with the control of sodium accumulation at the shoot or cellular level.

A method of cultivation and effectiveness of different light sources and light regimes in photoperiodic induction of flowering in non-rosette long-day plantChenopodium murale L. ecotype 197 are described. Under the described conditions of cultivation 5 days, of continuous light produced by incandescent bulbs (TESLA 74 3x40 W, red 4.9 μWcm-²nn-¹, far-red 7.4 μWcn-2nm-¹, blue 0.25 μW cm-²nn-¹) induced flowering in the majority of plants.

Sugar beet protoplasts (Beta vulgaris L.) were isolated from hypocotyl-derived suspension cells and cultured on modified Murashige and Skoog medium supplemented with 5 μM naphthaleneacetic acid (NAA) and 2 μM 6-benzyl-aminopurine (BAP). Protoplasts were plated at a density 1.0-1.5×10⁵ cm^-3 and incubated in either liquid medium or in medium solidified by 1.2% agarose, at 25°C in the dark. Comparison of two methods of culture unequivocally showed the second to be superior. Immobilizing the protoplast in agarose proved to be essential for obtaining sustained protoplast division and reproducible colony formation. The plating efficiency after two weeks of culture, expressed as the percentage of protoplasts which developed to form colonies, reached 40%. Subsequent subcultures of protoplast-derived callus to regeneration media with different concentrations of BAP (5 μM, 10 μM, 20 μM, 30 μM) resulted in very good callus proliferation at the three lowest concentrations, although organogenesis was not achieved.

We have studied the effect of glucose on different enzyme activities in callus cultures of N.plumbaginifolia. We provided evidence that the increase in glucose concentration represses the synthesis of GDH, AcPh and MDH whereas ADH and LDH are unaffected. When glucose repressed cultures were transferred to the low glucose concentration medium the activity of GDH and AcPh resumed to the level shown by non repressed cultures. Sucrose and fructose were as effective as glucose in repressing GDH activity. These results support the hypothesis of the existence of a catabolite dependent regulation of enzyme synthesis in higher plants.

C. rubrum plants of different age were treated with methyl jasmonate (JA-Me), in some cases in combination with photoperiodic flower induction. Plants treated with JA-Me (3×10^-4, 3×10^-5 and 5×10^-7M) showed inhibition of growth and flowering. No effect of JA-Me application on ethylene formation was observed.

Plant regeneration through somatic embryogenesis was obtained in chickpea (Cicer arietinum L.) using immature cotyledons and immature embryonal axes as explants. 2,4-dichlorophenoxyacetic acid (2,4-D), 4-amino-3.5-6-trichloropicolinic acid (picloram) and 3.6-dichloro-0-anisc, acid (dicamba) in concentrations 1, 2, 5, 10 mg dm^-3 were found better than naphthaleneacetic acid (NAA) (10-20 mg dm^-3) for the induction of globular and heart-shaped somatic embryos. The embryos developed upto the dicotyledonary stage on medium supplemented with saccharose, mannitol and silver nitrate (AgNO₃) and developed further into plantlets on medium containing gibberellic acid (GA₃) and abscisic acid (ABA). The frequency of somatic embryogenesis was dependent on the genotype and auxins used.

The isoperoxidase and isopolyphenol oxidase patterns were studied in undifferentiated calli and regenerated shoots and roots of two cultivars ofActinidia deliciosa: one female cv. Hayward and one male cv. Matua. One characteristic, very stable isoperoxidase band (0.85<Rf<0.90) was found only in the male callus, shoots and roots cultured on media supplemented with zeatin (ZEA) or indole-3-butyric acid (IBA). In contrary, one isopolyphenol oxidase band (0.35<Rf<0.40) was typical for male callus and shoots cultured on the medium enriched with ZEA and another one (0.85<Rf<0.90) for male shoots and roots cultured on the medium with IBA. These specific bands had never been found in female cultivar.

The ultrastructural aspects of the cell division in the grapevine(Vitis riparia × V.labrusca) calli were studied. A large central vacuole plays a noticeable part in this process. Before its division the nucleus with some encircling cytosol moves into the central vacuole where the small, round-shaped portion of cytosol (phragmosome) originates. In this central mass of cytosol connected with the peripheral one by thin cytosolic strands karyokinesis is carried out and the cell plate formation starts. Before karyokinesis the phragmosome, however, does not exhibit the form of the cytosolic layer completely traversing the cell. No preprophase band of microtubules has been observed in the cells either. The polarity of the mitotic spindle designating the orientation of the new cell wall is random then and it is not determined by the position of the preprophase band of microtubules or by the orientation of phragmosome. The unorganized growth of the grapevine callus reflects this fact.

Net photosynthetic rate (P_N), productivity and the first phases of the fluorescence induction curve were investigated in leaves of two potato cultivars exposed to water stress. Water stress applied to potato plants at the beginning of their development (planting-bud formation) increased productivity but decreased P_N and variable fluorescence (F_v) of leaves. The short-term influence of water stress on the same plants also diminished the F_v.

Plasma membrane H⁺ATPase extracted from leaves of spinach plants induced to flower by gibberellic acid treatments or by a transfer to a photoperiod of 24 h had a lower Km_app than that from vegetative plants grown in short days. The Km_app obtained after inhibition by vanadate was decreased in vegetative plants and increased in induced ones showing a differential effect of this inhibitor on the kinetic properties of the enzyme between vegetative and induced plants. The phospholipid fatty acid analysis of the purified plasma membrane showed an increase of C18:1/C18:2 fatty acid ratio upon induction by light or by gibberellic acid treatments, whereas the saturated to unsaturated fatty acid ratio was kept constant. The decrease in the Km_app observed after induction may be thus interpreted in terms of the observed changes in lipid environment.

Ethylene production and growth of callus cultures of lavandin (Lavandula offidnalis Cham x Lavandula latifolia Villars) cv. Grosso were examined. Callus lines, derived from various kinds of primary expiants (shoot tip, leaf and calyx), exhibited differences in ethylene production patterns independent of callus growth. Moreover these differences could not be ascribed to the expiant source. Within a line, ethylene pattern paralleled callus growth curve. Variations in ethylene evolution were induced in shoot tip callus by means of ACC, AVG and varied amounts of 2,4-D in the culture medium. Following all these treatments callus growth was not altered. Hie decrease in 2,4-D concentration caused changes in Chl a and water content of the tissues.

Paraquat (methylviologen) at concentrations above 0.05 mM inhibited the growth of photoautotrophic cyanobacteriumGleeocapsa sp. in axenic cultures. The growth rate was not affected by concentrations of 0.01 mM or less. This concentration resulted after a lag period in a moderate increase in superoxide dismutase level. After removal of paraquat, the cyanobacterium continued to generate higher levels of superoxide dismutase. There was a lag period of one hour before resumption of normal enzyme activity. Addition of puromycin at concentration of 0.5 mg cm^-3 had no effect on cell survival, but greatly enhanced the sensitivity of the culture to the toxicity of paraquat. The data showed an increase of SOD activity by temperatures above the normal growth temperature level. However, this increase was suppressed by chloramphenicol which revealed that the induction of superoxide dismutase by high temperatures was associated withde novo protein synthesis.

Regeneration abilities of buds on shoot segment explants isolated from adult trees of oak (Quercus robur), aspen (Populus tremula), black locust (Robinia pseudacacia), Japan pagoda tree (Sophora japonica), and English walnut (Ailanthus glandulosa) were studied during the growing season. Optimum BAP concentrations for the regeneration of oak bud meristems were dependent on the date of sampling. Axillary shoots could be induced from winter and summer buds of oak and aspen on Dustan and Short media supplemented with activated charcoal and BAP at concentrations from 0.5 to 2 mg 1^-1. More intensive rooting of segments of newly formed shoots was observed on MS medium diluted to one half and supplemented with 2 % sucrose and 0.2 mg 1^-1 of IBA.Populus tremula formed longer axillary shoots on DS media supplemented with 0.5 mg 1^-1 of BAP and 1 mg 1^-1 of GA₃.
Regeneration capacities of black locust, Japan pagoda tree, and English walnut were higher. In addition to the induction of multiple shoots from buds, shoots could also be obtained from calluses formed on basal segment parts. Asparagine and glutamine at a concentration of 25 mg 1^-1 stimulated the percentage of differentiated stems on callus surface. Inhibitory effects of substances which accumulated in buds in the second half of the growing season could be reduced by means of pulse treatments in 50 mg 1^-1 BAP solutions or using short-term dipping into 0.1 % AgNO₃ solution.

D-amino acid were searched in wilted tomato leaves. D-Isomers of free amino acids were not revealed by the treatment with L- and D-amino acid oxidases. The noncationic fraction of the extract contained N-malonyl-D-tryptophan and no other N-acylated amino acids. A special search for endogenous N-malonyl-D-phenylalanine gave negative results. Exogenous¹⁴C-malonate was only incorporated in one Chromatographic zone corresponding to N-malonyl-D-tryptophan. It is concluded that drought stress does not induce the appearance of D-amino acids except for D-tryptophan which is accumulated in the malonylated form.

Chenopodium rubrum L. ecotype 184 is a qualitative short-day plant with critical length of the night of eight hours that must be exceeded in order to flower: Five days after sowing, the plants were exposed to a various number of inductive cycles (14/10 h of däy/night cycle) to test the optimal photoperiodic conditions for flowering. In our experimental conditions the plants flowered with high percentage after more than four received inductive cycles, but there was no flowering below that. The plants grown on the herbicide Norflurazon (photobleached plants) showed different photoperiodic characteristics. There was negligible flowering of photobleached plants in the same experimental conditions as for the green ones.

Methylmethanesulfonate induced chromosomal aberrations in callus culture ofCrepis capillaris. The clastogenic effect was markedly decreased when calli were pretreated with dimethylsulfoxide.

Long-term callus cultures of crownvetch (Coronilla varia L.) grown on the Murashige and Skoog's medium with 2,4-D (1 mg 1^-1) and cultures of somatic embryos cultivated on the same basic medium but with IAA (1.0 mg I^-1) were exposed to ionizing irradiation. The irradiation caused a growth inhibition excepting the lowest dose of 2.5 Gy. The highest dose of 160 Gy induced browning of the culture but this colour change was not lethal. The amount of "giant cells" present in both cultures was dependent on the dose of irradiation.

Multiple shoots (16-20 shoots per expiant) were induced from cotyledonary node region ofAnogeissus acuminata (Roxb. ex DC.) Guill. & Perr. on Murashige and Skoog's (MS) medium containing IAA 0.1 mg 1^-1 + BAP 1.5 mg 1^-1 and ascorbic acid 50 mg 1^-1, citric acid 25.0 mg 1^-1, arginine 25 mg 1^-1 and adenine sulphate 25 mg 1^-1. From the first node of seedling only 4-6 shoots per expiant were proliferated. Segments ofin vitro produced shoots were used as expiants for further multiplication of shoots upto 16 successive cultures at an interval of 4 week on MS medium with IAA 0.1 mg 1^-1 + BAP 1.0 mg 1^-1 and additives. The original cotyledonary expiant was repeatedly subcultured upto 4 times after harvesting crop of shoots, each time.In vitro produced shoots were rooted on half strength MS medium containing 0.5 mg 1^-1 IBA. Plantlets were transferred to pots. Other expiants (cotyledons, hypocotyl, and leaf) produced callus on medium containing auxins and cytokinins. The calluses differentiated into embryo like structures or roots on MS medium.