Cotyledons ofXanthium strumarium, organs with low sensitivity to photoperiodic treatment show a higher free indol-3-ylacetic acid level (by about 35 %) than the first pair leaves, organs with high sensitivity to photoperiodic treatment. This was seen in plants of three different age groups : A. with the first pair of leaves of 15-20 mm in length; B. with the first pair of leaves having finished their growth and C. with the third leaf of 30-40 mm in length.
Changes in free IAA level during the inductive dark period were similar in both cotyledons and leaves of the first pair. The level of IAA rose in the first half of the dark period, began to decrease in the latter half, reaching nearly initial level at its end.
Application of IAA (10^-4 - 10^-2M) to the cotyledons reduced their already low photoperiodic sensitivity resulting in inhibition of flowering (almost 70 % using 10^-4M IAA).
Elevated free IAA level is assumed to be one of the causal factors of low photoperiodic sensitivity of cotyledons.

The insecticide pyrethroid II, representing synthetic pyrethroids of the second generation, was not found to be mutagenic inSalmonella typhimurium strains TA1535, TA100, TA1538, TA98 and TA97. High concentrations of the tested insecticide inhibited the germination and length of roots of germinating seeds, the height of plants cultivatedin vitro, and slightly increased the frequency of aberrant anaphases and telophase in root-tips ofVicia faba andHordeum vulgare.

Potassium (K⁺) and nitrogen (N) supply affect stomatal apertures within the daylength conditions. There is a negative proportion between potassium supply and stomatal pore area: the smallest pores were to be found in the plants with K⁺ surplus, whereas the plants in K⁺ shortage had the largest pores. This is interpreted as a reaction of the plant to get more ions by an increased transpiration stream. With different nitrogen concentrations in the supply solution a similar proportion could be found, with the exception of the condition "N shortage in shortday", and further testing is necessary. The ionic supply has a parallel effect in both daylengths.

Spring barley seedling were grown in the dark for 21 d and respiration rates of the whole plant (including the seed), of the shoots, and of the roots were determined. A function describing the growth and maintenance components of respiration was interpolated through the experimental points and its parameters in plants under different mineral nutrition were compared. The plants grown in a complete nutrient solution showed the highest growth rate in the initial phase of development and thus reached the maximum respiration rate earlier than plants in the other variants. The highest proportion of substrate was respired in the shoot. Plants grown under deficiency of phosphorus and magnesium had a slower respiration rate than plants grown in the complete nutrient solution (NP), whereas the amount of respired substrate in plant parts was similar to that recorded in the NP plants. Plants grown in distilled water showed the lowest growth efficiency and respirated the highest proportion of substrate in the root.

Decrease in leaf irradiance to 50 % due to shading of plants in glasshouse only during clear summer days did not induce significant changes in growth parameters, characteristics of water relations and epidermal conductance of two cyclamen cultivars. Thus the possibility of acclimation of plants to non-stable changes in environmental conditions was not proved.

The content of ATP, ADP, AMP, P_i, the activity of the enzymes involved in the glycolytic pathway, some problems of their regulation by adenine nucleotides and some basic problems connected with tissue energy balance were studied in tobacco plants infected with the potato virus Y (PVY). The contents of ATP and ΣAdN were increased in virus-infected tissues when compared with healthy tissues and correlated with the PVY reproduction curve. ADP and AMP contents decreased just after the inoculation and increased at the end of the experimental period, P_i content was not influenced by the infection.
The activities of the key enzymes of the glycolytic pathway (6-phosphofructokinase, hexosediphosphatase, and pyruvate kinase), determined both in crude homogenates and after partial purification, did not differ during the entire experimental period from the values found in healthy control tissues, similarly as the activities of glucosephosphate isomerase, glyceraldehydephosphate dehydrogenase, phosphoglyceromutase and enolase observed in crude homogenates. The unchanging AEC value in virus-infected tissues simultaneously indicated that no change in the rate of the glycolytic pathway occurred even under "invivo" conditions at the period of the acute stage of infection.

The aim of this paper was to study, in the second leaf of wheat plants with a long ontogenesis (47 d), the activity of the enzyme which catalyzes the synthesis of glutamic acid. The activity of the NADH-dependent glutamate synthase prevailed in young tissues of not yet fully expanded second leaf at the stage of incomplete autotrophy (at this stage, organic carbon and nitrogen substances are transferred into the leaf). This form was completely inhibited by azaserine (1 mmol1^-1). The activity of the ferredoxin-dependent GOGAT increased with increasing leaf blade area, with its peak occuring at the time of maximum expansion of the assimilation area. Thus fd-GOGAT activity was characteristic for the photosynthetic fully autotrophic phase of leaf development which is materialized in completely mature leaf tissues. In plants grown in full-strength Knop's nutrient solution containing nitrogen, fd-GOGAT was active till the early and medium senescence, whereas only to the early senescence in plants grown in a solution lacking nitrogen. No fd-GOGAT could be detected at the stage of late leaf senescence.

Growth of soybean was not altered, whatever the inorganic N-source (NO₃, NH₄ or a NO₃/NH₄ mixture); conversely, growth of Erica x darleyensis plants in vitro decreased more in. NH₄ medium than in a NO₃ medium, compared to a NO₃/NH₄ medium. The GS/GOGAT pathway (in NH₄ medium), the nitrate and nitrite reductase activities (in NO₃ medium), as the contents in free nitrogenous forms and total nitrogen (in NO₃ and NH₄ media) were not more altered in Erica than in soybean, compared to a NO₃/NH₄ medium. PEPCase activity was the highest in soybean irrespective of the N-treatments; the involvement of PEPCase in N-metabolism could be explained by its function in ionic and osmotic balances rather than its function in supplying carboxylates as acceptors for NH₄-assimilation.

Growth rate of leaves of winter barley (Hordeum vulgare L. cv. Efra) plant in thermal time correlated with the final length of the corresponding leaf (r = 0.66). The sum of effective temperatures corresponding to the time of growth of a particular leaf linearly increased with leaf insertion (r = 0.82). Phyllochron value in plants grown in the field with either natural or controlled photoperiod was dependent on phyllochron order, especially up to the double ridge stage (r = 0.89 and r = 0.74, respectively). The mean value of phyllochrons in the field variants showed a very good agreement with the value calculated on the basis of the change in day length at the time of seedling emergence.

Cytokinins in addition to nitrate induce nitrate reductase activity (NRA) in some plants. Effects of cytokinins onNRA was investigated in stem pith parenchyma of kale, intact wheat and barley seedlings and isolated cucumber cotyledons.
The most profound effect onNRA was found in barley and wheat seedlings.NRA in seedlings sprayed with 100 μM 6-benzylaminopurine (BAP) for three subsequent days was increased in leaves and decreased in roots. These changes were further enhanced in seedlings grown in nutrient solution lacking nitrate:NRA in wheat and barley leaves was increased by 57% and 202%, respectively, in plants supplied with nitrate theNRA increase was not significant: in wheat and barley leaves by 22% and 9%, respectively.
Similar effect of BAP and kinetin was found in kale stem parenchyma and cucumber cotyledons. The cytokinin kinetin or BAP alone increasedNRA about twice in kale and three times in cucumber. Addition of nitrate to the medium enhanced the effect of kinetin in kale discs, but the two effects were not additive. Additive effect of nitrate and BAP onNRA was found in cucumber cotyledons in light.
In general NRA was more affected by cytokinins in intact seedlings of wheat and barley as compared to explanted tissue of kale and cucumber, and lack of nitrogen made their effect more expressive.

Changes in total phospholipids and activities of two phosphoric diester hydrolases,i.e. phospholipase C and phospholipase D have been studied in inoculated wheat leaves of 25-day old plants, interacting differentially with three races of brown rust,Puccinia recondita, during early stages of pathogenesis. With progressive rust iafection the lipids and phospholipids were found to decrease in all the three interactions except at later stages (48 h and 72 h) in race 104-interaction. However, total phospholipids at various stages were found to be higher in resistant interaction (race 63) as compared to the other two interactions. An initial increase in activities of phospholipase C and D in all the three interactions was followed by a decline at the intermediate stages which continued in case of phospholipase C activity while a reverse trend was observed in phospholipase D activity towards later stages of infection. Further the enzymatic activities at various stages were found to be higher in the susceptible and intermediate interactions (with races 77 and 104 respectively) as compared to the resistant interaction.

L-tryptophan dehydrogenase (TDH) is a newly found enzyme involved in the metabolism of indole compounds in plants. The substrate specificity of TDH was investigated in extracts prepared fromPisum sativum andProsopis juliflora. The enzyme activity was detected in both plants either in the oxidative or the reductive direction. The occurrence of other dehydrogenases specific to amino acids was also investigated in the experimental plants:e. g. glutamate dehydrogenase was found to be 1.7 to 5.0 times more active than TDH, whereas no activity for phenylalanine dehydrogenase was detected. In pea plants activity of alanine dehydrogenase could be shown as well. In addition to pea and mesquite TDH was also found in wheat, maize, and tomato seedlings, whereas no activity was detected in brassicaceous plants.

Using detached leaves of potato plants (Solanum tuberosum cv. Bintje) it was shown that abscisic acid (ABA) induced an oriented transport of ions (⁸⁶Rb,³²P and^3SS) towards the hormone-treated leaflet. In order to understand the hormone effect on cell permeability, pretreatment of discs with hormonal solution was conducted. The pretreatment with ABA stimulated the uptake of K⁺ simultaneously with the decrease of efflux.
The effect of ABA on ion uptake is compared with the action of other hormones, benzylaminopurine (BAP), gibberellic acid (GA₃) known to act over a long distance transport, too.
Three kinds of specificity are underlined: - hormonal specificity (stimulation by ABA and inhibiton by BAP of K⁺ uptake by foliar tissues); - ionic specificity (ABA increase⁸⁶Rb influx, but inhibits³²P and^3SS influx); - tissue specificity shown by a comparative study between foliar tissues (source) and tuber tissues (sink). The autoradiography of foliar discs demonstrated that a treatment of foliar discs can be used, at least for Rb⁺ (K), to study role of ABA in long-distance transport.

Protein complex patterns of cloves and esterase isoenzyme patterns of apical buds of cloves were studied with Czechoslovak virus-free cultivars ofAllium sativum L. and the wild speciesA. longicuspis Regel, Similarly, four clones-regenerants obtained using explant culture techniques from A.sativum L. cv. Bzenecký paličák (two somaclones and two clones derived from plants regenerated from meristem cultures treatedin vitro with colchicine) differing in their ploidy, morphology, and yields were studied. Immunophoreograms of protein complexes of theA. sativum L. cultivars under investigation differed from one another in the number and mobility of protein fractions in both the cathodic and anodic regions and thus these cultivars can be distinguished. On the basis of esterase isoenzyme patterns, the Czechoslovak cultivars of A. sativum L. can be arranged into three groups - bolting winter cultivars with broad leaves, non-bolting winter cultivars with broad leaves, and non-bolting spring cultivars with narrow leaves. All the clones-regenerants showed the same protein complex and esterase isoenzyme patterns as their original cultivar.A. longicuspis Regel markedly differed in its protein complex and esterase isoenzyme patterns from all the other genotypes studied.Received May 17, 1989: accepted January 5,1990

Curves relating net photosynthetic rate to irradiance [P(I) curve relation] were estimated and analysed inMercurialis perennis L. plants stemming from three forest (spruce, beech and ash) stands with different tree leaf canopy development and different light regime.
The saturating irradiance (I_s) reached the highest values in plants of all three stands in spring (spruce forest: 438 W m^-2, beech forest: 440 W m^-2 and ash forest: 367 W m^-2), it declined sharply in the middle of the growing season (283, 285 and 297 W m^-2, respectively) and this I_s level persisted until autumn. A pronounced dynamics in plants from spruce and beech forests made itself manifest also in the adaptation (I_a) and compensating (I_c) irradiances, respectively. After a sudden decline in summer, values in autumn were close to those of the vernal season.
The most pronounced parameter, which optimally expressed the adaptation ofMercurialis perennis to various light conditions, was the photosynthetic efficiency (α) calculated as the slope of the linear part of the curve relating net photosynthetic rate to irradiance.
At the time of the highest P_{N sat.} value in course of the growing season (August) (spruce forest: 100, beech forest: 98.7 and ash forest: 85.8 μg CO₂ m^-2 s^-1), R_D was in its minimum; in autumn P_{N sat.} reached the lowest values which corresponded to the most intensive R_D.
It was found thatMercurialis perennis plants stemming from forest stands with different light conditions did not make use equally of the altering light conditions in the course of the growing season. By the underlying analysis of P(I) curves this rhizomatous perennial herb (geophyte) may be characterized as a shade tolerant species.

Changes in free IAA level were studied in the leaves of the central stem zone of short-day tobacco (Mcotianatabacum, cv. Maryland Mammoth) and long-day tobacco(Nicotiana silvestris) in inductive photoperiodic regime after 10, 20, 30 and 40 d, respectively. The leaves of SD tobacco Mammoth showed a high free IAA level in vegetative plants kept under long days but it significantly decreased (by ca. 50 %) after 10, 30 and 40 short days, respectively. After 20 short days the IAA level was as high as in the leaves of plants at the beginning of inductive treatment. The changes of freeIAA level in the leaves of LD tobacco N.silvestris were similar to those of SD Mammoth, but the IAA level in this species was significantly lower than that of Mammoth throughout the investigated period. Consequently, the changes observed in N. silvestris were much less pronounced. Plants of both tobacco species were fully induced to flowering by 30 inductive days and this was associated with differentiation of the flower organs.
Application of 10 -4 M IAA during the last 10 d of the inductive treatment of 30 d significantly reduced flowering in SD tobacco Mammoth without changing the stem length and apex width. Apex length was slightly reduced. IAA application elicited almost no effect inN. silvestris. The results are discussed with respect to the possible role of IAA in flower induction in SD and LD plants.

Several examples of transmission of rapid signals within plants are described. Most of these signals may be inhibited by pretreating plants with LiCl, with inhibitors of ionic permeability, or with substances interfering with Ca²⁺. Accordingly, they are dependent on ionic changes. LiCl also prevents or delays the onset of flowering in long-day plants. In addition isolated organs or tissues most often do not react to an external stimulus as do similar organs or tissues within an intact plant. All these facts lead to the conclusion that plants are highly integrated organisms. Any change in the ionic equilibrium occurring in one part of these organisms has rapid consequences in other parts. This hypothesis may be applied to the floral process: after perception of the appropriate environmental conditions, the leaves modify the orientation of meristem differentiation by promoting the redistribution of ions (especially Ca²⁺, which has a "second messenger" function).

The growth of primordia of marginal buds (marginals) which differentiate on leaf margins is correlatively inhibited on intactBryophyllum crenatum plants. Following leaf isolation, the marginals are released from this correlative inhibition, which process is accompanied within 2 to 10 h after leaf isolation with a decrease in the content of endogenous IAA in the leaf blade. This decrease can be enhanced by transversal cutting of the leaf blade into three parts which also results in enhanced subsequent growth of the marginals. The growth which follows after the release of the marginals from correlative inhibition is accompanied in cut leaf blades with an increased content of endogenous IAA in the period from 12 h to 7 d after leaf isolation when compared with uncut leaf blades. The highest content of endogenous IAA was recorded in the middle section, and the lowest IAA content in the basal section of the leaf blade.

Potato plants were transformed by the A.tumefaciens vector which integrates into the plant genome two foreign genes only: pTi C58 T-DNA gene 4 (ipt) responsible for elevated synthesis of cytokinins and kanamycin resistance gene. Three teratoma clones studied showed approximately 3 times, 6 times and 9 times increased levels of zeatin riboside and zeatin in comparison with untransformed controls and slight increase of the IAA level. Shoots formed roots in agar cultures sporadically, if the increase of zeatin riboside and zeatin levels was not higher than 6 times the control level. The chlorophyll content and net photosynthetic rate decreased with increasing levels of zeatin and zeatin riboside.

The present paper deals with the hormonal regulation of reproductive development,i.e. flowering and sex manifestation. Representation of hormonal regulation of flowering is based on the concept of florigen as a two-component, complementary system of flowering hormones, which consists of gibberellins and anthesins. Data are presented on the effect of extracts of gibberellin- and anthesin-type substances from the leaves of flowering and vegetatively growing plants under non-inductive conditions of day length. Experiments with flowering of plants under the influence of graftings serve as a basis for considering the question about the common nature of one of the florigen components - anthesins, for various plant species.
The mechanism controlling tuberization in both intact and grafted plants is based on the participation of all the components of the hormonal system and constitutes one of the most vivid manifestations of integration of all the organs in the whole organism.

Evidence is presented to support the generalization that gibberellin A₁ is the main 'gibberellin hormone' that is activeper se in the control of elongation growth in higher plants. The evidence is based on a combination of chemical and genetic studies using single gene mutants of maize, pea and rice.

Lemon plants (Citrus limonum L. cv. Verna) were grown in the field under two different flood irrigation treatments. The dry treatment received four irrigations per year (March, July, September and November) and the wet treatment one monthly. The amounts of water applied per year for dry and wet treatments were 340.0 mm and 1020.0 mm, respectively. The effects of the two treatments on certain aspects of the plant water relations during the period between flowering and the end of rapid fruit growth (critical period) were studied. Soil matric potential (ψm) and leaf water potential (ψi) values in the dry treatment revealed development of water stress during the experimental period. The water supply in the wet treatment seems sufficient to achieve the crop water requirements. The g₁ values in July were higher in the wet than dry treatments. Pronounced oscillations in g₁ from sunrise to afternoon were found especially in the dry treatment.

Embryogenic callus which has maintained its embryogenic ability on media without growth regulators for three years has been induced at the base of shoots of a genotype with CMS propagated for a long timein vitro by transferring the shoots onto media richer in inorganic and organic components. The effect of two basal media (MS and PG₀) on the intensity and completeness of the proliferation of somatic embryos was examined with different combinations of growth regulators. Pollen fertility was evaluated in 87 plants regenerated from somatic embryos. Cytoplasmic male sterility was conserved in all of them.

Spontaneous recovery of regeneration abilities was observed in a long-term (about two-year-old) crownvetch (Coronilla varia L.) tissue culture permanently grown on MS medium containing 1 mg 1^-1 IAA. Somatic embryos and later complete plants differentiated from initially regenerating roots. The formation and development of embryos was accompanied by a 10- to 20-fold increase in the content of cardioactive glycosides hyrcanoside and deglucohyrcanoside in the culture biomass. The effect of auxins (IAA, NAA, 2,4-D) and cytokinins (6-BAP) on calogenesis and somatic embryogenesis was examined; further development of somatic embryos was enhanced by light. Primary explants which were newly isolated from sterile R₁ plantlets showed differential, organ-specific ability of somatic embryogenesis which was highest in root cuttings. Regenerated plants were transferred to field culture; two-year-old cultures of regenerated plants showed in most cases phenotypic deviations from the original material, especially dwarfism.

Haploid tobacco plants (cv. Samsun) form inflorescences with a larger number of flowers than diploid plants. Leaves of haploid plants were shown to have lower free IAA level (by 40 %), higher peroxidase (by 160 %) and IAA-oxidase (by 70 %) activities and produce less ethylene (by 25 %) than leaves of corresponding diploid plants. The increase of peroxidase activity in haploids was due to the increase in the activity of the cathodic isozyme which is known to have high IAA-oxidase activity. It is proposed that higher peroxidase/IAA-oxidase activity in haploid plants may take part in IAA catabolism, at least duringin vitro culture of haploid explants. Lowered IAA level and ethylene production may then be directly correlated with a larger number of flower buds; as a higher IAA level is generally considered to act as a background inhibitor of flowering.

There are several differences between monocotyledonous and dicotyledonous plants. The sensitivity towards added galactose which inhibits auxin-induced coleoptile elongation but not stem elongation is one of the conspicuous differences between the two types of plants. InAvena coleoptile segments, galactose, probably as galactose-1-phosphate, inhibits the formation of UDP-glucose from glucose-l-phosphate. The inhibition of UDP-glucose formation due to galactose is not found inPisum epicotyl segments. InAvena UTP: α-D-glucose-1-phosphate uridyltransferase (EC 2.7.7.9) which catalyzes the reaction from glucose-1-phosphate to UDP-glucose seems to be inhibited by galactose-1-phosphate.

Various regimes of predominantly chloride and sulphate salinity reduced chlorophyll (Chl) (a +b) content and net photosynthetic rate (Pn) in two cultivars ofCicer arietinum L. However, the rate of respiration (Rd) was stimulated up to 6 dS m^-1 of salinity and thereafter it declined with increase in salinity levels. Chloride salinity was more detrimental than the sulphate one as far as Chl (a +b) and Pn were concerned, but R_D was reduced more under sulphate salinity in cv. H-75-35 especially in 110 d-old plants. The cultivar L-144 was relatively more salt sensitive than the cv. H-75-35.

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.

The need of the study of the transport of water molecules and of solutions in the biological system and shortcomings in the contemporary modelling of bioflows led us to the construction of a new mathematical model which would more precisely characterize the bioflows controlled by natural sources (for example the gradient of hydrostatic and osmotic pressure, of electric potential and of temperature) without limiting thermodynamic conditions. The model issues from the reality of the biosystem as a black box. It uses those input quantities which are attainable. It has been verified with white birch branches, the primary root and the roots of the first node of 24-day-old maize plants under conditions of the action of external force in the form of temperature gradient. The results obtained during the study of conductances, ultrafiltration and reflection properties of the above tissues suggest that these properties are dependent on the stage of tissue development. The osmotic flow is higher in white birch branches than the volume flow which is on the contrary higher in maize roots. The heat flow is higher in maize roots than in white birch branches and its course is synchronized with the volume flow. White birch branch tissues also show a higher reflection ability under these conditions than maize roots. The reflection abilities of all the above tissues decrease with increasing temperature gradient. Lower values of this gradient correspond to higher reflection abilities.