Jan J. Rybczyński

Somatic embryogenesis of Gentiana genus. I. The effect of the preculture treatment and primary explant origin on somatic embryogenesis of Gentiana cruciata [L.], G.pannonica [Scop.], and G.tibetica [King]

Experiments were carried out on three selected species of Gentiana genus: Gentiana cruciata (L.), G. pannonica (Scop.), and G. tibetica (King). Using MS medium supplemented with 2,4-D and kinetin a somatic embryogenesis system of plant regeneration was developed. Induction and intensity of somatic embryogenesis as the effect of integration of the following factors were studied, specifically: seedling pre-treatment (with and without GA3 treatment), light condition (light versus the dark), and type of explant (root, cotyledon and hypocotyl). Numerous significant differences between studied factors were observed and statistically proved.

Flow Cytometry, HPLC-RP, and metAFLP Analyses to Assess Genetic Variability in Somatic Embryo-Derived Plantlets of Gentiana pannonica Scop

Cytometric and molecular techniques were used to verify genetic uniformity among somatic embryo-derived plantlets of Gentiana pannonica Scop. Cytometric analysis of regenerants revealed absence of chromosomal changes and alterations in ploidy. However, reverse phase high pressure liquid chromatography detected higher levels of methylation in regenerated plants than those of control plants. These changes were further investigated using a quantitative molecular marker-based approach. This revealed that numerous tissue culture-induced variations, ∼3% (epi)mutations, were observed, including sequence variation and changes in methylation patterns. Moreover, complex patterns of variation, including combinations of genetic and epigenetic changes, were relatively high (ca. 9%). Overall, tissue culture-induced variation reached 16%; while, demethylation was lower than de novo methylation in heterozygotic material and similar in all regenerated plantlets.

Cryopreservation enhances embryogenic capacity of Gentiana cruciata (L.) suspension culture and maintains (epi)genetic uniformity of regenerants

The embryogenic cell suspension culture of Gentiana cruciata, cryopreserved by the encapsulation/dehydration method, survived both short- (48xa0h) and long-term (1.5xa0years) cryostorage with more than 80% viability. To assess the influence of cryotreatments on the embryogenic potential, a proembryogenic mass was encapsulated and exposed to the following treatments: (1) osmotic dehydration (OD), (2) ODxa0+xa0air desiccation (AD) and (3) ODxa0+xa0ADxa0+xa0cryostorage (LN). The somatic embryogenesis efficiency increased ten times after osmotic dehydration. The AD and LN cryotreatments did not cause any significant alterations in somatic embryo production. We monitored the (epi)genetic stability of 288 regenerants derived from: non-cryotreated, short-term, and long-term cryostored tissue using metAFLP markers and ten primer combinations. Changes in the sequence and DNA methylation levels were studied by subjecting the DNA to digestion with two pairs of isoschisomer restriction enzymes (KpnI/MseI and Acc65I/MseI). Two new AFLP unique DNA fragments at the DNA sequence level, with no differences at the methylation level, were found between regenerants derived from cryopreserved tissue, compared with the non-cryotreated controls. The Acc65I/MseI methylation levels for the three groups of regenerants were not significantly different. Cluster analysis was capable of identifying a number of sub-clusters. Only one of the sub-clusters comprises almost all regenerants derived from non-cryotreated and short-term cryostored tissue. Plantlets derived from long-term cryostored tissue were grouped into separate clusters. The observed AFLP alterations did not appear to be associated with the use of cryopreservation, but were probably related to the process of in vitro culture.

Genotype and plant growth regulator-dependent response of somatic embryogenesis from Gentiana spp. leaf explants

Gentiana kurroo (Royle), Gentiana cruciata (L.), Gentiana tibetica (King. ex Hook. f.), Gentiana lutea (L.), and Gentiana pannonica (Scop.) leaves derived from axenic shoot culture were used as explants. For culture initiation, leaves from the first and second whorls from the apical dome were dissected and cultured on Murashige and Skoog (MS) basal medium supplemented with three different auxins: 2,4-dichlorophenoxyacetic acid, 1-naphthaleneacetic acid (NAA), or 3,6-dichloro-o-anisic acid (dicamba) in concentrations of 0.5, 1.0, or 2.0xa0mg/l; and five different cytokinins: zeatin, 6-furfurylamonopurine (kinetin), N-phenyl-N′-1,2,3-thiadiazol-5-ylurea (TDZ), N-(2-chloro-4-pyridyl)N′-phenylurea, or 6-benzylaminopurine (BAP). The cytokinin concentrations used were dependent on the type of cytokinin and varied between 0.25 and 3.0xa0mg/l. After 2xa0mo. of culture, the morphogenic response of explants was assessed. Frequency of embryogenesis was the highest for G. kurroo (54.7%) and dependent on plant growth hormones (PGRs). This gentian was the only species showing morphogenic capabilities on media supplemented with all applied combinations of PGRs, while none of the 189 induction media permutations stimulated somatic embryogenesis from G. lutea explants. G. tibetica and G. cruciata both produced an average of 6.6 somatic embryos per explant, while G. pannonica and G. kurroo regenerated at 15.7 and 14.2 somatic embryos per explant, respectively. Optimum regeneration was achieved in the presence of NAA combined with BAP or TDZ. This auxin also stimulated abundant rhizogenesis. Somatic embryos were also regenerated from adventitious roots of G. kurroo, G. cruciata, and G. pannonica. Somatic embryos converted into plantlets on half strength MS medium.

Evidence for microspore embryogenesis in wheat anther culture

SummaryIn wheat, plants may be regenerated from microspores via direct embryogenesis or organogenesis or embryogenesis from callus. Light and scanning electron microscopy were used to carefully study morphogenesis of microspore-derived plants from anther culture on modified 85D12 starch medium and to determine whether the plants were formed via organogenesis or embryogenesis. Our results indicate that plants are formed via embryogenesis from microspores. Evidence for embryogenesis included the formation of the epidermis and a suspensorlike structure (21 days after culture), followed by initiation of an apical meristem, differentiation of the scutellum, and embryo elongation. At 28 days in culture, the embryo possessed a well-developed scutellum and axis with suspensor. Embryogenesis was further confirmed by coleoptile and radicle elongation during germination when the embryos were cultured on medium supplemented with kinetin with or without coconut water. In this system, an average 67 microspores per responsive anther began cell division but only 3.69 embryos were formed per responsive anther after 6 wk. Adventitious embryos could be induced if the embryos, once formed, remained on initiation medium for 10 wk instead of being transferred to regeneration medium. Developmental stages which may be amenable to changes that could enhance plant production were identified. The potential to use this information to enhance plant production is discussed.

Factors influencing efficiency of somatic embryogenesis of Gentiana kurroo (Royle) cell suspension

In this paper, we would like to show unexpected morphogenic potential of cell suspensions derived from seedling explants of Gentiana kurroo (Royle). Suspension cultures were established with the use of embryogenic callus derived from seedling explants (root, hypocotyl and cotyledons). Proembryogenic mass proliferated in liquid MS medium supplemented with 0.5xa0mgxa0l−1 2,4-D and 1.0xa0mgxa0l−1 Kin. The highest growth coefficient was achieved for root derived cell suspensions. The microscopic analysis showed differences in aggregate structure depending on their size. To assess the embryogenic capability of the particular culture, 100xa0mg of cell aggregates was implanted on MS agar medium supplemented with Kin (0.0–2.0xa0mgxa0l−1), GA3 (0.0–2.0xa0mgxa0l−1) and AS (80.0xa0mgxa0l−1). The highest number of somatic embryos was obtained for cotyledon-derived cell suspension on GA3-free medium, but the best morphological quality of embryos was observed in the presence of 0.5–1.0xa0mgxa0l−1 Kin, 0.5xa0mgxa0l−1 GA3 and 80.0xa0mgxa0l−1 AS. The morphogenic competence of cultures also depended on the size of the aggregate fraction and was lower when size of aggregates decreased. Flow cytometry analysis reveled luck of uniformity of regenerants derived from hypocotyl suspension and 100% of uniformity for cotyledon suspension.

Effect of sucrose concentration on photosynthetic activity of in vitro cultures Gentiana kurroo (Royle) germlings

In this work, the effect of sucrose on photosynthetic activity during in vitro culture was studied. Experiments were carried out using uniform somatic embryo-derived germlings of Gentiana kurroo (Royle) confirmed by chromosome counting and flow cytometry technique. Photosynthetic activity was measured by chlorophyll a fluorescence and gas exchange method. The efficiency of photosynthetic apparatus as measured by the ratio Fv/Fm, Yield and qP (light phase of photosynthesis) was the highest when the medium was supplemented with 0.3% sucrose which well corresponded with plant gas exchange. Taking all data into consideration for the best development of photosynthetic apparatus and the most efficient of net photosynthesis of studied germlings would be medium supplemented with 0.2–0.4% of sucrose.

Morphogenic capability of Gentiana kurroo Royle seedling and leaf explants

Experiments have been carried out on seedling and primary leaf explants of Gentiana kurroo Royle. Morphogenic capacities of cotyledons, hypocotyls and roots were investigated using MS (1962) medium supplemented with 4.64xa0μM kinetin and 2.26, 4.52 or 9.04xa0μM 2,4-D. Percentage of callusing explants for each combination was inversely proportional to numbers of obtained embryos. Cotyledons showed the highest morphogenic capabilities. To assess the morphogenic potential of leaf explants, 189 combinations of auxin (NAA, dicamba and 2,4-D) and cytokinin (kinetin, BAP, zeatin, CPPU and TDZ) in different concentrations were tested. The presence of NAA with BAP and dicamba with zeatin produced the greatest number of differentiated somatic embryos. Microscopic analysis of responsive explants led to identifying rhizogenic centers, non-embryogenic and embryogenic cells. The best embryo conversion into germlings was obtained on MS medium containing 4.46xa0μM kinetin, 1.44xa0μM GA3 and 2.68xa0μM NAA or ½ MS. Both media were supplemented with 4.0% sucrose and 8.0% agar. Depending on explant origin and conversion medium, 55.8–71.0% of somatic embryos developed into germlings and plants.

Somatic embryogenesis of Gentiana genus. III. Characterization of three-year-old embryogenic suspensions of G.pannonica originated from various seedling explants

Experiments were carried out with three-year-old embryogenic suspension culture of Gentiana pannonica Scop. The initial explant for the suspension determinated both the embryogenic character and embryo production. Cultures were initiated by culture of hypocotyl, cotyledon and root explants on MS (Murashige and Skoog 1962) medium supplemented with 1.0 mg·l−1 Kinetin and 0.5 mg·l−1 2,4-D, later transferred and maintained in liquid MS medium with 1.0 mg·l−1 Dicamba, 0.1 mg·l−1 NAA, 2.0 mg·l−1 BAP and 80.0 mg·l−1 AS. Regeneration medium included 0.0–1.0 mg·l−1 GA3+0.0−2.0 mg·l−1 Kin.+0.0−160 mg·l−1 AS.In these culture conditions, the effect of the explant was found to be the most important factor. The curve of growth, growth coefficient and % of participation of various size aggregates differed in the studied suspensions. Flow cytometry revealed various DNA content in nuclei from praembryogenic mass depending on the explant origin. To complete embryogenesis the medium was changed from liquid to solidified in the presence of the same plant growth regulators combination required. The most embryogenic culture appeared hypocotyl-derived and it yielded the highest number of somatic embryos. The suspension culture originating from root proliferated the highest number of embryogenic cell clusters but did not produce embryos for fraction 120–450 µm. One hundred mg of suspension of the fraction that was larger than 450 µm yielded 309, 175, 123 embryos for the following suspensions: root-, cotyledon-, hypocotyl-derived, respectively. Almost 50 % of non-deformed fully developed embryos from all studied suspensions passed conversion into germling stage and finally plants were regenerated.

Characterization of ploidy levels of wheat microspore-derived plants using laser flow cytometry

SummaryThe purpose of this study was to determine simply and accurately ploidy levels as estimated by changes in nuclear DNA content of wheat (Triticum aestivum L.) plants regenerated from microspore-derived embryos. Using flow cytometry, the nuclear DNA content of green (83) and albino (222) plants derived using anther culture of ‘Bobwhite’ and ‘Pavon 76’, and of their reciprocal F1 hydrids was estimated. The average DNA concent of the Bobwhite and Pavon 76 standards was 32.46 and 31.28 per nucleus, respectively. Microspore-derived haploid (3X), doubled-haploid (6X), nanoploid (9X), and dodecaploid (12X) plants contained on average 15.44, 30.56, 45.57, and 60.27 pg of DNA, respectively, at a ratio of 1∶1.98∶2.99∶3.90. The frequency of haploids (43.6%) was similar to that of doubled haploids (43.0%), and much larger than the frequency of endopolyploids [nanoploid (1.3%) and dodecaploid (1.0%)] and various aneuploids (11.1%). In terms of genetic stability, green plants had less chromosomal variation than albino plants. The procedure is suitable for rapid determination of the ploidy levels of wheat microspore-derived plants. The knowledge about DNA content or genome size of plants obtained here provides useful information to plant breeders and geneticists interested in using anther culture.