Interaction of a hydroxyproline-rich glycoprotein from tobacco callus with potential pathogens

A hydroxyproline-rich glycoprotein was isolated from tobacco (Nicotiana tabacum L.) callus tissue cultures by an acidic-ethanol extraction procedure and purified to about 95% homogeneity by ion exchange chromatography on carboxymethyl cellulose. This glycoprotein agglutinated cells of an avirulent strain (B-1) of the bacterial pathogen Pseudomonas solanacearum but not its parental, virulent isolate (K-60). Bacterial lipopolysaccharide (from K-60 strain) inhibited this agglutination. The tobacco glycoprotein also agglutinated zoospores of both compatible and incompatible races of Phytophthora parasitica var. nicotianae. Although 34 potential haptens were tested, no low-molecular-weight carbohydrate that inhibited bacterial or fungal agglutination was found. The agglutination activity of the tobacco glycoprotein was sensitive to pronase and sodium periodate. The apparent molecular weight of the glycoprotein was 120,000. The protein moiety was basic (12% lysine and 5% histidine) and contained 38% hydroxyproline. The carbohydrate moiety comprised 26% (by weight) of the glycoprotein, and contained 87% arabinose, 8% galactose, and 5% glucose. The glycoprotein labeled with fluorescein isothiocyanate bound significantly better to the avirulent isolate (B-1) of P. solanacearum than to the virulent strain (K-60). Binding to the avirulent cells was inhibited by incubation in a higher ionic strength medium (e.g. 0.2 m NaCl). The labeled glycoprotein also bound to cystospores and mycelia of both races of P. parasitica var. nicotianae. This fungal-glycoprotein interaction was inhibited by the lipopolysaccharide from strain K-60 and by higher ionic strength conditions.     

The major antigen of elastin-associated microfibrils is a 31-kDa glycoprotein

The major antigen derived from elastic fiber microfibrils was identified as a Mr = 31,000 glycoprotein, using immunoblotting and immunohistochemical techniques with antisera raised to "reductive guanidine extracts" of fetal bovine nuchal ligament, and to subfractions of these. A second, elastic fiber-derived, but unidentified, antigen of large molecular size (Mr greater than 200,000) was present in these extracts. Antisera raised to the purified 31-kDa glycoprotein were shown, by immunoelectron microscopy, to localize specifically to the elastin-associated microfibrils. Thus, the macro-molecule was called "microfibril-associated glycoprotein" or MAGP. MAGP is an acidic glycoprotein with a distinctive amino acid composition, being exceptionally rich in glutamic acid, rich in cystine, and low in glycine. MAGP was extractable from tissue homogenates using NaCl, urea, or guanidine hydrochloride solutions, only if a strong reducing agent was present. Thus, disulfide bonding is important for the strong association of MAGP with elastic fibers. Immunoblotting with anti-MAGP antiserum identified two additional reactive species, of Mr = 60,000 and Mr approximately 300,000, in tissue extracts. As only the 31-kDa species was detected in fibroblast culture medium, these additional species were probably aggregates, rather than precursors. MAGP did not react with antilysyl oxidase antiserum on immunoblots or by enzyme-linked immunosorbent assay. MAGP is the first macromolecule to have been established to be a constituent of elastin-associated microfibrils in both developing and mature elastic tissues.     

Differential modulation of root formation in wheat embryogenic callus culture by indoleacetic acid-degrading compounds

Root overproduction in embryogenic calli of wheat cv. ‘ChineseSpring’ was controlled by the addition of IAA-degradingcompounds (citric acid, MnSO4 or EDTA) to the culture media.In the presence of 20 gl^–1 sucrose, the number of rootson calli decreased significantly when media for either callusmaintenance or plant regeneration were amended with citric acid.EDTA was less effective in reducing the number of roots thancitric acid. An increase in the amount of a 31kDa (P1) polypeptideunder conditions which favoured a reduction in root formationwas observed. Key words: Wheat, Triticum aestivum, IAA-degrading compounds, indoleacetic acid, root number.     

Increase of embryogenic callus formation in cucumber by initial culture on high concentration of 2,4-dichlorophenoxyacetic acid

Cucumber (Cucumis sativus L.) leaf explants were cultured either continuously on standard medium containing 4.5 µM 2,4- dichlorophenoxyacetic acid (2,4-d) and 4.4 µM benzylaminopurine, or first cultured for various periods at different levels of 2,4-d, picloram or naphthaleneacetic acid (NAA), and then transferred to standard medium. When cultured continuously on standard medium, less than 10% of the explants formed embryogenic callus. Initial culture on picloram or NAA, or on 2,4-d at a low concentration (1.4 µM) did not result in any embryogenic callus formation. Embryogenic callus formation increased to 40% if during the initial phase of the culture (10 days), the 2,4-d concentration was raised to 14 µM. Prolonged culture on 14 µM 2,4-d resulted in less embryogenic callus formation.Abbreviations BA benzylaminopurine - 2,4-d 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid     

Proteins related with embryogenic potential in callus and cell suspensions of sugarcane (Saccharum sp.)

Summary Previous results have shown that some proteins secreted in the culture medium are involved with the formation of embryogenic cells and can modify somatic embryo differentiation. Undifferentiated cell suspensions grown in the presence of 13 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and obtained from embryogenic and non-embryogenic callus were used to study these events in sugarcane plants (cv.PR-62258). The cell suspension growth curves were determined and soluble proteins were extracted from embryogenic and non-embryogenic callus and culture medium from cell suspensions. In embryogenic callus we detected 1.43 times more protein than in non-embryogenic callus and the electrophoretic protein patterns show specific polypeptides for both callus types. In embryogenic callus we detected a cluster of four polypeptides in the range of 38–44 kDa and another polypeptide of 23 kDa that were not observed in non-embryogenic callus. In nonembryogenic callus there is a 35-kDa polypeptide that was not detected in embryogenic callus. In the case of extracellular proteins, the medium from embryogenic cell suspensions contained four polypeptides of 41, 38, 34 and 28 kDa that were slightly detected in the medium from non-embryogenic cell cultures; we also detected a band at 15 kDa that could not be observed in the medium from non-embryogenic cell suspensions. These results suggest that the development of embryogenic callus and cell suspensions is related to the type and amount of intracellular proteins in the callus cells and to the secreted proteins from these cells into the medium.     

Cytological changes related with salt tolerance in embryogenic callus of Citrus limon

Electron microscopy observations of salt-tolerant embrogenic calli of Citrus limon [(L.) Burm. f.] showed several changes in cell ultrastructure when compared with control calli. Both types of calli comprised clusters of meristematic cells, but salt-tolerant calli had several structural differences: thick cell walls, ring-shaped mitochondria, an increased content of lipid bodies, microbodies and parallel accumulation of rough endoplasmatic reticulum. These structural features seem to be related with salt tolerance in Citrus limon cells.     

Development of a plant regeneration system based on friable embryogenic callus in the ornamental Alstroemeria

 Stem segments of seedlings from two Alstroemeria breeding lines, cultured on media supplemented with 4 mg/l 2,4-dichlorophenoxyacetic acid and 0.5–1.0 mg/l 6-benzylaminopurine (BA), initiated soft callus, which became compact after subculture on a medium with only 0.5 mg/l BA. Friable embryogenic calli were initiated from compact callus on a medium supplemented with 10 mg/l picloram. Proembryos developed from friable embryogenic calli via embryos into plants after subculture on medium supplemented with 0.1 mg/l BA. The proembryos formed friable embryogenic calli again after culture on medium supplemented with 10 mg/l picloram. The total time needed to regenerate a complete plantlet from friable callus was approximately 6 months. This system for the production of embryogenic material is considered to have valuable applications for genetic transformation in Alstroemeria. Received: 22 April 1999 / Revision received: 16 July 1999 · Accepted: 20 July 1999     

Selective enhancement of Ipomoea batatas Poir. embryogenic and non-embryogenic callus growth and production of embryos in liquid culture

Embryogenic callus cultures of Ipomoea batatas Poir. produce fast growing non-embryogenic material which soon dominates the cultures. Our objective was to selectively enhance the proliferation of the embryogenic fraction. For this, the effect of BAP and 2,4-D concentrations on growth of embryogenic and non-embryogenic callus were studied and consequently, nutrient media for the production and indefinite maintenance of embryogenic callus without embryo formation were defined. Selective proliferation of embryogenic callus was obtained on solid media with 10 M 2,4-D and 1 M BAP and in liquid media with 5 M 2,4-D. Selective proliferation of non-embryogenic callus occurred in liquid medium with 1 M 2,4-D. In embryogenic liquid culture, embryos were produced with 0–2 M 2,4-D. Increasing 2,4-D concentration from 0 to 2 M in these cultures restricted embryo development.Abbreviations 2,4-D = 2,4-dichlorophenoxyacetic acid - BAP = 6-benzylaminopurine     

Optimization of a mature embryo-based in vitro culture system for high-frequency somatic embryogenic callus induction and plant regeneration from japonica rice cultivars

Optimization of the conditions for an efficient induction of somatic embryogenic calli and regeneration of plants from mature seeds of japonica rice cultivars was attempted. The number, color, size, shape, and appearance time of the induced embryogenic calli varied among the rice cultivars depending on the type of basal medium (LS, MS, N6). Presence of adequate amount of sucrose in the medium was an absolute requirement for embryogenic callus formation and shoot induction. Induction of the embryogenic calli, whose overall rates ranged from 30 to 56%, was most efficient in N6 medium supplemented with 3.0 mg l^–1 of 2,4-D and 30 g l^–1 of sucrose. Agar concentration in the regeneration medium was also critical for the shoot induction. Kinetin was found to be more effective for shoot regeneration compared with BA, while the highest shoot regeneration frequencies were observed when either cytokinin was combined with high concentration (2.0 mg l^–1) of NAA. The optimal concentration of kinetin for the highest shoot regeneration frequency (6777%) was different among the cultivars tested. The embryogenic calli-derived shoots rooted on a plant growth regulator-free MS medium were successfully established in soil, producing fertile seeds.     

Induction of green ash embryogenic cultures with potential for scalable somatic embryo production using suspension culture

Key message

The developmental sequences of zygotic embryos of green ash collected from the same tree were widely asynchronous and an intermediate developmental stage was the best explant for inducing somatic embryogenesis.

Abstract

All North American ash (Fraxinus) species are under threat of extirpation from their native ranges by the emerald ash borer (EAB; Agrilus planipennis), an exotic wood-boring beetle that has already destroyed millions of ash trees in 15 U.S. states and Canada. We tested treatments aimed at initiating embryogenic cultures from seeds of green ash (F. pennsylvanica), with the long-term goal of using these cultures to aid in research to generate EAB-resistant ash trees for restoration. In preparation for somatic embryogenesis induction experiments, we first defined specific stage(s) of green ash zygotic embryo development using time-tracing sampling by collecting samaras of two green ash trees from May to August in 2012. Seed development was divided into seven stages according to both seed and embryo size, and the numbers of seeds and embryos in each stage were recorded for each collection date. Surprisingly, a broad range of seed and embryo developmental stages could be found in samaras collected from the same tree on the same date, in particular for the later collection dates. Using this information, single-date collections of seeds with embryos at various stages of development were made from three local Athens, GA green ash trees and one horticultural cultivar and cultured on two different basal media with different combinations of plant growth regulators (PGRs). A low percentage of zygotic embryo explants at an intermediate stage of development from all three local source trees produced proembryogenic masses (PEMs) when cultured on a modified Woody Plant Medium with 2,4-dichlorophenoxyacetic acid and benzyladenine. Although embryogenesis was also induced from explants of the horticultural cultivar, these cultures failed to produce germinable somatic embryos. Transfer of PEMs to PGR-free medium resulted in highly dense production of somatic embryos, some of which were germinated to produce somatic seedlings.     

Purification and characterization of 31-kDa palm pollen glycoprotein (Ela g Bd 31 K), which is recognized by IgE from palm pollinosis patients

A basic glycoprotein, which was recognized by IgE from oil palm pollinosis patients, has been purified from oil palm pollen (Elaeis guineensis Jacq.), which is a strong allergen and causes severe pollinosis in Malaysia and Singapore. Soluble proteins were extracted from defatted palm pollen with both Tris-HCl buffer (pH 7.8) and Na-acetate buffer (pH 4.0). The allergenic glycoprotein was purified from the total extract to homogeneity with 0.4% yield by a combination of DEAE- and CM-cellulose, SP-HPLC, and gel filtration. The purified oil palm pollen glycoprotein with molecular mass of 31 kDa was recognized by the beta1-2 xylose specific antibody, suggesting this basic glycoprotein bears plant complex type N-glycan(s). The palm pollen basic glycoprotein, designated Ela g Bd 31 K, was recognized by IgE of palm pollinosis patients, suggesting Ela g Bd 31 K should be one of the palm pollen allergens. The preliminary structural analysis of N-glycans linked to glycoproteins of palm pollens showed that the antigenic N-glycans having alpha1-3 fucose and alpha1-2 xylose residues (GlcNAc(2 to approximately 0)Man3Xyl1Fuc(1 to approximately 0)GlcNAc2) actually occur on the palm pollen glycoproteins, in addition to the high-mannose type structures (Man(9 to approximately 5)GlcNAc2).     

Plant regeneration from tissue cultures of Pokkali rice is promoted by optimizing callus to medium volume ratio and by a medium-conditioning factor produced by embryogenic callus

The frequency of plant regeneration from seed-derived Pokkali rice callus has been substantially increased. Four conclusions were drawn from the study: (1) Non-embryogenic callus consisting of elongated, highly-vacuolated cells did not produce regenerated plants. Embryogenic callus consisting of small, non-vacuolated cells produced somatic embryos and regenerated plants. (2) The numbers of plants could be markedly increased by optimizing a medium for embryogenic callus production and a second medium for plant regeneration from embryogenic callus. (3) The optimization of callus to medium volume ratio of 6.5 mg embryogenic callus per 1.0 ml of medium significantly increase plant production on regeneration medium. (4) A further significant increase was obtained by using regeneration medium previously conditioned for one or two weeks by optimal amounts of embryogenic callus. At present, the callus derived from a single seed in six months could theoretically be used in the seventh month to produce 127500 plants.This research was supported by the Agency for International Development under Contract No. AID/DSAN-C-0273     

Orderly arrangement of ribosomes in the embryogenic callus tissue of Corylus avellana L

Cultured callus tissue of hazel (Corylus avellana L.), which has the potency of somatic embryogenesis, was used for the study of cell ultrastructure in the course of callus growth and embryoid formation. The meristematic cells of this tissue exhibit a specific organization of rough endoplasmic reticulum (RER), stacked into extensive parallel sheets. The membranes of the aggregated RER are associated with orderly arrays of bound ribosomes. The high regularity of the alignment of the attached ribosomes seems to be influenced by the distance between the two neighbouring membranes in the RER aggregate. The RER aggregates with orderly attached ribosomes are more frequently found in callus cells and in early embryogenesis than in the advanced stages of embryo development.     

Identification of a potential structural marker for embryogenic competency in the Brassica napus spp. oleifera embryogenic tissue

The Brassica napus secondary embryogenesis system requires no exogenous growth regulator to stimulate embryo development. It is stable embryogenically over a long period of culture and has a distinct pre-embryogenic stage. This system was used to investigate the morphological and cellular changes occurring in the embryogenic tissue compared to non-embryogenic tissue using various microscopy techniques. A unique ultrastructural feature designated the extracellular matrix (ECM) was observed on the surface of pre-embryogenic embryoids but not on the non-embryogenic individuals. The ECM layer was found to be dominant in the pre-embryogenic stage and reduced to fragments during embryo growth and development in mature embryogenic tissue. This is a novel aspect of the phenotype previously unreported in the Brassica system. This structure might be linked to acquisition of embryogenic competence.     

白Qian胚性愈伤组织长期继代培养中的分化能力及染色体稳定性 …

白Ｑｉａｎ（Ｐｉｃｅａ ｍｅｙｅｒｉ Ｒｅｈｄ．ｅｔ．Ｗｉｌｓ．）的胚性愈伤组织ＭＳ＋２,４－Ｄ１ｍｇ／Ｌ＋ＫＴ１ｍｇ／Ｌ的培养基上继代３年,增殖能力和分化潜力仍保持在原来的水平,没有明显降低的趋势。但随着继代时间的增长,胚性愈伤组织内有细胞的染色体数目发生了无规律的变化,而再生植株根尖细胞染色体数目比较稳定（２ｎ＝２８）。     

Auxin-regulated gene expression and embryogenic competence in callus cultures of sweetpotato, Ipomoea batatas (L.) Lam.

High levels of 2,4-dichlorophenoxyacetic acid (2,4-D, 10 µM) and sucrose (3%) are required for both the induction and maintenance of callus for somatic embryogenesis in sweetpotato. Newly inducted embryogenic callus lines in sweetpotato cv. White Star produce competent embryos that convert readily into plantlets. With age, these embryogenic callus lines produce a greater proportion of incompetent embryos with poor conversion potential. One hypothesis for this change is that auxin- and/or sugar-responsiveness may be altered with aging. A comparison of two older embryogenic lines (K592 and M892) to two new lines (K1194 and K195) addressed the relationship between extent of embryo conversion and relative abundance of mRNAs hybridizing with heterologous auxin- or sugar-responsive gene probes. The respective cDNAs utilized were the auxin-responsive pJCW1 and pJCW2 and the sugar-responsive Ivr2 and Sh1. Embryos from new callus lines formed more shoots, roots, and viable plantlets than embryos from older callus lines. In addition, new callus lines had greater relative levels of mRNAs hybridizing to auxin-responsive cDNAs. These sweetpotato mRNAs were themselves found to be 2,4-D-responsive in dosage analyses. In contrast, differences between young and old cultures were not evident for mRNAs hybridized to sugar-regulated genes. Our results support the suggestion that desensitization of auxin-responsiveness is a central feature of reduced embryogenic competence in callus lines following prolonged exposure to 2,4-D and elevated sucrose levels.