Suspension cultures of Habanero pepper (Capsicum chinense Jacq.) were exposed to salicylic acid or methyl jasmonate to change secondary metabolism. Both treatments led to the accumulation of capsaicinoids and their late biosynthetic intermediate, vanillin. Both elicitors had a positive effect on the activities of phenylalanine ammonia lyase and coumarate O-methyltransferase, but none of them represented the main limiting step for capsaicinoid accumulation since vanillin contents were two orders of magnitude higher than those of capsaicinoids.

A simple and reliable protocol for regeneration of okra through somatic embryogenesis from suspension cultures has been developed. Embryogenic callus was obtained from hypocotyl explants cultured on media with Murashige and Skoog (MS) salts, Gamborg (B5) vitamins, 2.0 mg dm^-3 2,4-dichlorophenoxyacetic acid (2,4-D), 1.0 mg dm^-3 naphthaleneacetic acid (NAA), 25 mg dm^-3 polyvinylpyrrolidone and 30 g dm^-3 sucrose. More number and high frequency of healthy embryoids appeared individually in suspension culture containing MS salts, B5 vitamins, 2.0 mg dm^-3 2,4-D and 1.0 mg dm^-3 kinetin. Formation of cell clusters from the single cells was clearly noticed during ontogeny. Matured embryos at the cotyledonary stage were transferred to agar solidified medium for germination. The best conversion of embrya into plantlets (67.3 %) was recorded on media with half strength MS salts, B5 vitamins, 0.2 mg dm^-3 benzylaminopurine (BAP) and 0.2 mg dm^-3 gibberellic acid (GA₃). The plantlets were transferred to soil and hardened in the plastic pots. After proper acclimatization, the plantlets regenerated through somatic embryogenesis were compared to seed grown plants to observe any variation.

Somatic embryogenesis and plant regeneration were successfully established on Nitsch and Nitsch (NN) medium from immature zygotic embryos of six genotypes of grapevine (Vitis vinifera). The optimum hormone combinations were 1.0 mg dm^-3 2,4-dichlorophenoxyacetic acid (2,4-D) for callus induction and 1.0 mg dm^-3 α-naphthalene acetic acid (NAA) + 0.5 mg dm^-3 6-benzyladenine (BA) for embryos production and 0.03 mg dm^-3 NAA + 0.5 mg dm^-3 BA for embryos conversion and plant regeneration. The frequency of somatic embryogenesis varied from 10.5 to 37.5 % among six genotypes and 15.5-42.1 % of somatic embryos converted into normal plantlets. The analysis of DNA content determined by flow cytometry and chromosome counting of the regenerated plantlets clearly indicated that no ploidy changes were induced during somatic embryogenesis and plant regeneration, the nuclear DNA content and ploidy levels of the regenerated plants were stable and homogeneous to those of the donor plants. RAPD markers were also used to evaluate the genetic fidelity of plants regenerated from somatic embryos. All RAPD profiles from regenerated plants were monomorphic and similar to those of the field grown donor plants. We conclude that somaclonal variation is almost absent in our grapevine plant regeneration system.

The influence of different sugars (sucrose, maltose, glucose and fructose, 0.05-0.5 M) on embryogenesis and plant regeneration from cultured anthers of niger [Guizotia abyssinica (L. f.) Cass.] have been studied. Among the different sugars tested, 0.2 M sucrose was the best for embryo induction and plant regeneration. Maximum of 57 embryos per 60 anthers were induced on embryo induction medium [Gamborg's B5 medium supplemented with 10 µM 2,4-dichlorophenoxyacetic acid (2,4-D), 2 µM kinetin (KIN)] containing 0.2 M sucrose. Embryo differentiation was achieved on B5 medium supplemented with 0.5 µM benzyladenine (BA) and 0.09 M sucrose. Embryo maturation was on B5 medium containing 10 µM abscisic acid (ABA) and 0.09 M sucrose. Embryo germination was achieved on B5 medium with 0.09 M sucrose. Embryos that were developed on B5 medium supplemented with 0.2 M sucrose showed highest frequency (68 %) of plant regeneration.

Protoplasts isolated from wild cotton Gossypium davidsonii were cultured in KM₈P medium supplemented with different phytohormones. The most effective combination was 0.45 µM 2,4-dichlorophenoxyacetic acid, 2.68 µM α-naphthaleneacetic acid and 0.93 µM kinetin and the division percentage at the 8^th day was 30.78 ± 3.04 %. The density of protoplasts at 2-10 × 10⁵ cm^-3 was suitable for protoplast division and calli formation, with a division percentage of 32.21 ± 3.64 % and a plating efficiency of 9.12 ± 2.61 % at the 40^th day. The optimal osmotic potential was achieved using 0.5 M glucose or 0.1 M glucose plus 0.5 M mannitol. Protoplasts were cultured in three ways, a double-layer culture system, with liquid over solid medium was proved to be the best way. Embryo induction was further increased by addition of 0.14 µM gibberellic acid.

A method for plant regeneration in Robinia pseudoacacia L. from cell suspension culture was established. Non regenerative friable callus from hypocotyls and cotyledon explants from in vitro raised seedling induced on solid Murashige and Skoog (MS) medium supplemented with 0.05 mg dm^-3 2,4-dichlorophenoxyacetic acid (2,4-D) was used for initiation of cell suspension cultures on same MS medium but without agar. Single cells were isolated after 3 d and the optimum cell density was 1-3 × 10⁴ cells per cm³ of the liquid MS medium. Plating efficiency was 29.6 % and callus formed within 4 weeks was subcultured and transferred to solid MS medium supplemented with 0.6 mg dm^-3 benzyladenine (BA) along with 0.05 mg dm^-3 α-naphthalene-1-acetic acid (NAA) for the induction of adventitious bud primordia. The shoots developed were isolated and re-cultured on MS medium containing 0.6 mg dm^-3 BA. These microshoots after dipping in 1-2 cm³ of 10 mg dm^-3 indole-3-butyric acid (IBA) for 24 h in dark were cultured on half strength solid MS medium supplemented with 0.05 % charcoal and showed 80-82 % rooting within 4 weeks.

Non-transformed and transformed embryogenic cultures of alfalfa (Medicago sativa L. cv. Zaječarska 83), long-term maintained on growth regulator-free medium, were histologically analyzed. In all examined cultures, somatic embryos at various stages of development were observed and secondary embryos were formed in the cotyledonary, hypocotylary and radicular region of the primary embryos. Detailed histological analysis of the torpedo shape somatic embryo revealed that secondary somatic embryos arose directly from single epidermal cells of hypocotylary axis after an unequal periclinal division. Bipolar proembryos were composed of one smaller cytoplasm rich cell and one larger more vacuolated cell. Further cell division pattern was similar for both non-transformed and transformed embryos. However, multicellular origin of secondary embryos in a direct process and even from callus can not be excluded.

Exogenous salicylic acid has been shown to confer tolerance against biotic and abiotic stresses. In the present work the ability of its analogue, 4-hydroxybenzoic acid to increase abiotic stress tolerance was demonstrated: it improved the drought tolerance of the winter wheat (Triticum aestivum L.) cv. Cheyenne and the freezing tolerance of the spring wheat cv. Chinese Spring. Salicylic acid, however, reduced the freezing tolerance of Cheyenne and the drought tolerance of Chinese Spring, in spite of an increase in the guaiacol peroxidase and ascorbate peroxidase activity. The induction of cross tolerance between drought and freezing stress was observed: drought acclimation increased the freezing tolerance of Cheyenne plants and cold acclimation enhanced the drought tolerance. The induction of drought tolerance in Cheyenne was correlated with an increase in catalase activity.

This article describes the complete microsporogenesis and pollen formation in cassava (Manihot esculenta Crantz) at the various developmental stages (pollen mother cell, meiosis, tetrads, early free spore, mid uninucleate, late uninucleate, binucleate and mature pollen grain). Light microscopy, transmission electron microscopy and confocal laser scanning microscopy were used for the study. Floral bud size and other inflorescence characteristics were correlated with specific stages of the microspore development. This association allows a rapid selection of floral buds with similar microspore developmental stages, useful when a large number of homogeneous cells are needed for analysis and for in vitro induction of androgenesis. This article also compares methods for digestion the exine wall in microspores.

Induction of pumpkin (Cucurbita maxima Duch.) glutathione S-transferases (GSTs) by different stresses and endogenous trans-2-hexenal content were determined in search of a common signal for GST induction. All of the stresses showed significant induction, As₂O₃ causing the highest induction followed by trans-2-hexenal. The trans-2-hexenal content was highest in trans-2-hexenal-treated seedlings and next-highest in methyl jasmonate-treated seedlings, whereas high temperature- and As₂O₃-treated seedlings had trans-2-hexenal contents lower than that of control seedlings. Induction of GST, lipoxygenase (LOX) and hydroperoxide lyase (HPL) was compared, since trans-2-hexenal and methyl jasmonate are the products of the LOX pathway. All four stresses showed weak LOX induction, high temperature causing the highest induction. However, only methyl jasmonate caused weak HPL induction. Both antioxidants or oxidants induced GST to different degrees. Glutathione contents of reduced glutathione (GSH) or oxidized glutathione (GSSG)-treated seedlings were significantly higher than the content of control seedlings, whereas those treated with other antioxidants or oxidants had contents similar to or less than control seedlings. The GSH:GSSG ratio was lowest in GSSG-treated seedlings and next-lowest in GSH-treated seedlings. The results of this study suggest that pumpkin GSTs are not induced through a common signalling pathway and that redox perturbation plays a role in pumpkin GST induction.

Dark-grown seedlings of Picea abies (L) Karst. are able to accumulate the highest amounts of chlorophyll (Chl) and its precursor protochlorophyllide (Pchlide) in all Pinaceae, but calli derived from 14-d-old green cotyledons of P. abies are completely white during the cultivation in the dark. Pchlide reduction is catalysed in the dark by light-independent protochlorophyllide oxidoreductase (DPOR). This enzyme complex consists of three protein subunits ChlL, ChlN and ChlB, encoded by three plastid genes chlL, chlN and chlB. Using semiquantitative RT-PCR, we observed very low expression of chlLNB genes in dark-grown calli. It seems, that chlLNB expression and thus Chl accumulation could be modulated by light in P. abies calli cultures. This hypothesis is supported by the fact, that we observed low contents of glutamyl-tRNA reductase and Flu-like protein, which probably affected Chl biosynthetic pathway at the step of 5-aminolevulinic acid formation. ChlB subunit was not detected in dark-grown P. abies calli cultures. Our results indicated limited ability to synthesize Chl in callus during cultivation in the dark.

Efficiency of the method for improving repetitive somatic embryogenesis and plant recovery of Algerian fir (Abies numidica De Lann.) was investigated by evaluating of induction frequency, maturation capacity and germination. Individual zygotic embryos differed only slightly in induction frequencies (6.8 %) from somatic embryos of the first (5.7 %) and second cycle (5.5-9.0 %). The yield of mature embryos differed significantly among the cell lines of the same cycle and among cell lines of the different cycles. Percentage of abnormalities was lowest in the first cycle of somatic embryos, whereas the second and the third cycles of somatic embryos were branded by a higher frequency of abnormalities. The differences in germination of well developed somatic embryos depended on cell lines rather than on cycle of somatic embryos.

The effects of temperature (25-45 °C) and pH (7.5-5.5) on photosystem (PS) 2 was studied in spinach (Spinacia oleracea L.) thylakoid membranes using chlorophyll a fluorescence induction kinetics. In high temperature and low pH treated thylakoid membranes a decline in the variable to maximum fluorescence ratio (F_v/F_m) and PS 2 electron transport rate were observed. More stacking in thylakoid membranes, studied by digitonin fractionation method, was observed at low pH, while the degree of unstacking increased under high temperature conditions. We conclude that the change in pH does not significantly affect the donor/acceptor side of PS 2 while high temperature does. Fluorescence emission spectra at 77 K indicated that low pH is associated with energy redistribution between the two photosystems while high temperature induced changes do not involve energy re-distribution. We suggest that both, high temperature and low pH, show an inhibitory effect on PS 2 but their mechanisms of action are different.

Lettuce plants were treated with gibberellic acid (GA₃) and uniconazole (UZ; a gibberellin synthesis inhibitor) to investigate the influence of GA₃ on cell division frequency in the shoot apical meristem (SAM) during stem elongation and flower initiation in lettuce (Lactuca sativa) grown in a greenhouse. GA₃ (0.1 mM) was sprayed on the surface of outer leaves and uniconazole solution (0.86 mM) was applied to the soil. GA₃ increased cell division frequency in the peripheral zone and the rib meristem of shoot apices, and this was associated with the stimulation of stem elongation. UZ treatment decreased cell division frequency in the peripheral zone, rib meristem and subapical pith, and this was associated with restricted stem elongation. Treatment with UZ and GA₃ together induced minor stem elongation. Flower induction occurred 3 d earlier in the GA₃ and UZ+GA₃ treatments than in the control, while the UZ treatment delayed flower initiation for more than 9 d relative to the control.

Pseudomonas fluorescens was used as a biological control agent against bacterial wilt disease caused by Ralstonia solanacearum. Activities of phenylalanine ammonia lyase (PAL), guaiacol peroxidase (POX), polyphenol oxidase (PPO) and lipoxygenase (LOX) increased in P. fluorescens pretreated tomato seedlings, which were later inoculated with R. solanacearum and activities of PAL, POX, PPO and LOX reached maximum at 12, 9, 15 and 9 h, respectively, after inoculation. Reverse transcription - polymerase chain reaction (RT-PCR) confirmed the maximum induction of all these enzymes in P. fluorescens pretreated seedlings.

The induction of haploid plants by in vitro gynogenesis is a promising practice in onion breeding. In order to increase the frequency of embryo regeneration and haploid plant production in Valcatorce INTA, Cobriza INTA and Navidena INTA cultivars, putrescine and CCC were used, either as a component of the culture media or by spraying or injecting them to the umbels. Additionally, two concentration of gellam gum were tested. A higher number of gynogenic embryos was achieved by using 7 g dm^-3 gellam gum, and this number was not affected by the addition of putrescine to the media. CCC sprayed at the umbels significantly increased the gynogenic embryo rate, which was more than three times higher than the control. Cobriza INTA showed the highest induced embryo rate (4.76 %).

Dendrobium Sonia 17 calluses were used for co-transformation study using particle bombardment. The bombarded transformed callus tissues were selected using half-strength MS medium containing 25 mg dm^-3 hygromycin. Expression of green fluorescent protein (GFP) was observed in the callus and protocorm-like body (PLBs) tissues survived on the selection medium. The presence of green fluorescence protein (sgfp), hygromycin-B-phosphotransferase (hptII) and β-glucuronidase (uidA) genes in the transformed tissues were verified using PCR, Southern blot and dot blot analyses. Based on the results from PCR and expression of sgfp and uidA genes in the calluses and PLBs survived from hygromycin selection, we reported the co-transformation of sgfp, hptII and uidA genes into Dendrobium Sonia 17. GFP-expressing tissues were also observed in the regenerated transformed plantlets.

Grape (Vitis vinifera L.) seedlings grown in vitro were treated with either 200 mM NaCl or 350 mM mannitol for 7 d. Both salinity and osmotic stress caused significant increase in electrolyte leakage. From the three commonly occurring free polyamines (PA), only conspicuous accumulation of putrescine was found in the NaCl-treated seedlings. Four PA biosynthetic genes encoding arginine decarboxylase (pVvADC), S-adenosylmethionine decarboxylase (pVvSAMDC), spermidine synthase (pVvSPDS) and spermine synthase (pVvSPMS) were successfully isolated. While induction of pVvADC was observed from the 1^st day of salt treatment, pVvSAMDC and pVvSPMS were induced only at late stage of stress. As for expression levels of genes in the mannitol-treated seedling, either temporary (pVvADC at day 1) or late (pVvSPMS at days 5 and 7) induction was observed.

A reliable method for the long-term conservation of date palm tissue cultures is described. In vitro shoot bud and callus culture were successfully stored for 12 months at 5°C in the dark. At this conditions high percent of cultures remained viable without serious signs of senescence. However, the growth rate decreased as storage period increased. The role of sorbitol as osmotic agent in storage was examined. Health shoot bud cultures were obtained after 6 months of storage on medium containing 40 g dm^-3 sorbitol. This period extended for 9 months in case of callus cultures.

A novel gene induced during hypersensitive reaction (HIR) in wheat was identified using in silico cloning and designated as TaHIR2. The TaHIR2 gene was deduced to encode a 284-amino acid protein, whose molecular mass and isoelectric point (pI) were 31.05 kD and 5.18, respectively. Amino acid sequence analysis demonstrated the presence of stomatins, prohibitin, flotillins, HflK/C (SPFH) domain and prohibitin homologue for the TaHIR2 protein. Phylogenetic analysis of 13 HIR genes from different monocots indicated that TaHIR2 was highly homologous to HvHIR2. Transient expression analysis using particle-mediated bombardment showed that the TaHIR2 fusion protein was located in the onion epidermal cells. Quantitative RT-PCR analyses revealed that TaHIR2 transcripts were significantly accumulated in adult wheat leaves with maximum induction at 18 h post inoculation with the stripe rust, whereas slightly up-regulation could also be observed in the compatible reaction at the seedling stage. These results suggest that TaHIR2 may play an active role in wheat defense against stripe rust.

Anther-derived pre-embryogenic masses (PEMs) of callus, established via suspension cultures, were encapsulated to form synthetic seeds suitable for cryopreservation. The synchronised suspension culture proliferation necessitated the optimisation of plant growth regulators for different cultivars. The growth phase and density of the culture were also important as well as the exposure of cells to vitrification solution containing 0.75 M sucrose with 0.1 M CaCl₂ and 2.0 % sodium alginate (pH 5.7). Pre-treatment of the encapsulated cells for 2 d with Nitsch and Nitsch (NN) medium containing 0.75 M sucrose solution followed by dehydration for 4 h in a laminar flow box provided maximum cell viability, which varied from 0 to 40 %. The embryo proliferation from the cryopreserved beads involved warming them and then transfer to NN medium containing glutamine (50 mg dm^-3) and activated charcoal (2.5 %). The maximum number of embryos obtained was 31-53 per bead. Subculture into the same medium induced secondary embryogenesis, which was initiated from the meristematic region, radicle, and root cap. Proliferation and maturation of secondary embryos was faster than of primary embryos. No phenotypic variation or abnormal structures compared to the control were observed in the regenerated plantlets.

Exposure of pea plants to high irradiance (HI) for 60 min caused a reversible photoinhibition as shown by changes in variable to maximum fluorescence ratio (F_v/F_m). A significant decline in F_m was observed in leaves from both pea cultivars subjected to HI, the decrease being higher in JI281 than in JI399 plants. The values recovered during the post-stress period in both cultivars. In both cultivars, minimal fluorescence (F₀) increased under HI, but in cultivar JI399 F₀ recovered to initial value during the post-stress period. The expression of antioxidant enzyme genes was higher in JI399 than in JI281, both in control and stressed plants. In JI281, after 60 min of HI, an induction of the transcripts of CAT, chlMDHAR, cytAPX and cytCu,Zn-SOD was observed, whereas there was a slight increase in PHGPX, stAPX and chlCu,Zn-SOD mRNAs. After 24 h of the recovery period, the induction of some transcripts was not maintained (CAT, cytAPX and cytCu,Zn-SOD), whereas the induction of others was maintained (PHGPX and chlCu,ZnSOD) or even increased (cytGR, stAPX and chlMDHAR). In JI399, CAT and cytAPX were increased strongly after 60 min of HI, and slight increases were observed in cytGR, chlGR and chlMDHAR. In the post-stress period the expression of stAPX, cytGR and chlMDHAR was even slightly higher than after 60 min of HI, however, expression of CAT, cytAPX, cytCu,ZnSOD, chlCu,ZnSOD and chlGR decreased.

Photosynthetic rate (P_N) and chlorophyll (Chl) fluorescence induction of source leaves in response to a low sink demand created by girdling the branch (GB) between the root-tuber-system and the leaves were studied in Dahlia pinnata L. cv. Rigolet during the stage of rapid tuber growth in the greenhouse. GB resulted in significantly lower values of P_N, stomatal conductance (g_s), and transpiration rate (E), but in higher leaf temperature (T_l) compared with those of controls. With exception of maximum quantum yield of photosystem 2 (PS 2) photochemistry (F_v/F_m) and maximum ratio of quantum yields of photochemical and concurrent non-photochemical processes in PS 2 (F_v/F₀), no significant differences were observed in Chl fluorescence parameters between girdled and control leaves on days 1 and 2 after GB, indicating no apparent damage in the photosynthetic apparatus. However, longer girdling duration resulted in higher non-photochemical Chl fluorescence quenching (NPQ), but lower F_v/F₀, actual efficiency of energy conversion in PS 2 under steady-state conditions (Φ_PS2), and photochemical quenching coefficient (qP) in comparison with controls from 10:00 to 16:00 or 15:00 on days 4 and 5, respectively, indicating reversible injury in the photosynthetic apparatus.

Induction of somatic embryogenesis in leaf explants from young mangosteen seedlings using different concentrations and combinations of 6-benzylaminopurine (BAP) and thidiazuron (TDZ) was investigated. The best medium inducing the formation of globular structures (40 %) was Murashige and Skoog medium with 0.7 mg dm^-3 BAP and 0.7 mg dm^-3 TDZ. For their further development, subculturing onto different maturation media was carried out, but these globular structures did not develop futher stages of somatic embryogenesis. However, they developed shoots after 90 d of culture on the original medium. Morphological and histological analyses were performed, and showed that the globular structures resembled closely the undifferentiated structure of the mangosteen seed. We propose that the development of mangosteen somatic embryos does not follow the typical course of somatic embryogenesis, but the course of development that is natural for mangosteen seed, where procambium is the only structure observed and there is no differentiated embryo.

Several polypeptides were induced in leaves of Sesbania sesban var. bicolor under water stress (desiccation). Among them, the SDS-PAGE resolved a few high molecular mass polypeptides along with one major of 66 kDa. After boiling the total protein fraction, some low molecular mass polypeptides (10 - 30 kDa) as well as the one of 66 kDa remained stable. The latter (66 kDa) polypeptide is also regulated by exogenous application of ABA, indicating its significant role in adaptation of sesban to drought.

The primary objective of this work was to investigate the role of polyamines (PAs) on root formation and growth in two sweet orange (Citrus sinensis L. Osb.) cultivars Pineapple and Pêra. Adventitious shoots (30-d-old) derived from epicotyl explants were transferred to root induction medium containing Murashige and Skoog salts at different strengths and supplemented with different concentrations and combinations of auxins. Root formation and development decreased in both sweet orange cultivars concomitant with the reduction of medium strength. The α-naphtaleneacetic acid was important during the root differentiation phase, but its combination with indole-3-butyric acid was essential for root elongation. The addition of PAs significantly improved root formation and/or growth, depending on their concentration, whereas the presence of inhibitor of PAs biosynthesis α-difluoromethylornithine (DFMO) inhibited these processes. The rooting impairment caused by DFMO was partially reversed by the supplementation of putrescine. Aminoethoxyvinylglycine AVG and AgNO₃ also inhibited in vitro rooting in both sweet orange cultivars, indicating that ethylene was likewise important for rhizogenesis in sweet orange.

Programmed cell death (PCD) was induced by the Yariv reagent in Nicotiana tabacum cv. Bright Yellow-2 cell suspension. The analyses of proteins extracts by 2-D electrophoresis clearly show massive protein degradation which was mainly due to cysteine protease activity. In contrast, some proteins remained unchanged up to 72 h after PCD induction. Peptide mass fingerprints of these proteins, obtained by MALDI-TOF, identified calreticulin, heat shock protein (HSP) 60, HSP70, malate dehydrogenase and mitochondrial ATP synthase β-subunit.

The objective of this study was to examine the role of NADPH oxidase on superoxide radical production under waterlogging in mung bean (Vigna radiata) cvs. T 44 (tolerant) and Pusa Baisakhi (PB) (susceptible), and wild species Vigna luteola. Two days of waterlogging caused decline in superoxide radical (O₂ ^.-) contents in all the genotypes, however, further waterlogging up to 8 d caused significant increase in O₂ ^.- contents. In control and revived plants O₂ ^.- contents were higher in PB, while under waterlogging stress T 44 and V. luteola showed greater increases in the O₂ ^.- contents. During waterlogging the increase in O₂ ^.- content was found to be due to the diphenylene iodonium chloridesensitive NADPH oxidase (NOX). This was further confirmed by the waterlogging induced increase in NOX activity, which was higher in tolerant genotypes T 44 and V. luteola compared with PB. Gene expression studies showed enhanced expression of NOX in the roots of waterlogged V. luteola and T 44, while little expression was observed in control or treated plants of PB. PCR band products were cloned and sequenced, and partial cDNAs of NOX was obtained. Results suggest that increase in O₂ ^.- content during waterlogging could be due to the induction of membrane linked NOX.

Efficient plant regeneration system from leaf base segments of wheat (Triticum aestivum L.) was developed. The factors affecting the callus formation and regeneration capacity of leaf segments of two genotypes; Bobwhite and Pavon 76, were investigated. The highest number of somatic embryos (SE) was obtained on Murashige and Skoog medium supplemented with 2 mg dm^-3 2,4-dichlorophenoxyacetic acid + 1 mg dm^-3 naphthalenacetic acid (14.7 SE per segment). Highest frequency of embryogenic callus (96 %) and somatic embryo formation (24.3 SE per segment) were achieved in the first segments. The highest plantlet regeneration was obtained after transfer of embryogenic calli to regeneration medium supplemented with 1 mg dm^-3 kinetin (6.3 plantlets per segment).

The effect of five antibiotics: carbenicillin, chloramphenicol, cefotaxime, kanamycin and hygromycin on the organogenesis from callus cultures of Coryphantha elphantidens (Lem.) Lem. have been studied. Carbenicillin and cefotaxime stimulated shoot regeneration from callus. All antibiotics under study suppressed rooting of in vitro formed shoots. After five sequential subcultures on kanamycin supplemented medium, antibiotic resistant callus was obtained. To study the impact of kanamycin on resistant callus, total protein content was also studied. Selected callus showed a remarkable increase in callus mass. Antibiotic resistant plants have been selected by screening callus pieces on kanamycin supplemented media. Total protein content increased with subsequent subcultures in kanamycin resistant callus. The kanamycin selected shoots withstood the stability test after 2 months on antibiotic free medium. Plants were raised from the callus, which formed roots in 20 mg dm^-3 kanamycin, which was under study.