Monitoring the expression of green fluorescent protein in carrot

Green fluorescent protein (GFP) was successfully used as a visual reporter at various stages of carrot (Daucus carota L.) transformation. GFP-fluorescence was non-invasively observed in protoplasts, callus and plants after the delivery of mgfp5-er gene using two transformation methods: direct DNA transfer into polyethylene glycol (PEG) -treated protoplasts and inoculation of root discs with Agrobacterium rhizogenes. Transient GFP-expression was detected in the treated protoplasts and monitored during the first week of the cell culture until the stable level of expression was observed. It was useful for the comparison of protoplast susceptibility to DNA uptake and the transgene expression as the fluorescence declined with various rates depending on the used carrot genotype and PEG-concentration. GFP-monitoring in callus enabled the selection of stably expressing lines. It also allowed verification of the homogeneous tissue composition with regard to the expression of the transgene. In plants, GFP-performance depended on the assayed tissue and organ despite of the constitutive 35S promoter. The expression was visually detected in both vegetative and generative parts, but particularly strong fluorescence was observed in leaf marginal meristems, petioles, stems, and styles. Those tissues can be convenient for examination of the transgenic plants during their growth. The results encourage that GFP is a valuable reporter and can be routinely used for optimization of transformation protocol, selection of transformants and monitoring transgenic carrot.     

Factors influencing the Agrobacterium tumefaciens-mediated transformation of carrot (Daucus carota L.)

To develop an efficient procedure for Agrobacterium tumefaciens-mediated genetic transformation of carrot (Daucus carota L.) the effects of several factors were studied. Parameters which significantly affected the transformation frequency were the variety, the explant type, and the co-cultivation period. Under optimal conditions, using the A. tumefaciens C58C1 containing either pGSTRN943 or pGSGluc1 and 3 days of co-cultivation, the frequency of transformation of petiole explants of the variety Nanco was greater than 45%. This procedure does not require acetosyringone or prolonged precultivation period. Using kanamycin (100 mg l^-1) for selection, a large number of transgenic plantlets developed from the embryogenic calli within 8–10 weeks of culture on hormone-free medium. Transformation was confirmed by histochemical detection of -glucuronidase activity in the transformed cells, by the ability of petiole segments to produce embryogenic calli in presence of kanamycin, and by Southern hybridization analyses.     

Green fluorescent protein as an efficient selection marker for Agrobacterium rhizogenes mediated carrot transformation

Agrobacterium rhizogenes mediated transformation combined with a visual selection for green fluorescent protein (GFP) has been applied effectively in carrot (Daucus carota L.) transformation. Carrot root discs were inoculated with A4, A4T, LBA1334 and LBA9402 strains, all bearing gfp gene in pBIN-m-gfp5-ER. The results indicate that transformed adventitious roots can be visually selected solely based on GFP fluorescence with a very high accuracy. The method requires no selection agents like antibiotics or herbicides and enables a reduction of labour and time necessary for tissue culture. Moreover, individual transformants can be easily excised from the host tissue and cultured separately. All of the 12 used carrot cultivars produced transformed adventitious roots and the frequency of discs producing GFP expressing adventitious roots varied from 13 to 85%. The highest transformation rate was found for A4T and LBA1334 strains possessing chromosomal background of A. tumefaciens C58. The results encourage that visual selection of transformed, fluorescing adventitious roots can be highly effective and applied routinely for the production of carrot transgenic plants.     

Localization of target cells and improvement ofAgrobacterium-mediated transformation efficiency by direct acetosyringone pretreatment of carrot root discs

Summary Localization of target cells forAgrobacterium-mediated transformation in the carrot root disc model has been achieved after inoculation with a disarmedA. tumefaciens strain harbouring a GUS-intron construct. The first GUS positive cells could be detected on both sides of the discs 48 h after inoculation. The transformed cells were always more numerous on the apical side, mainly localized in the intrafascicular cambium and in the immature phloem strands. The kinetics of free endogenous IAA levels on both sides after wounding have been determined, indicating that rapid IAA accumulation on the apical side was not simply due to polar migration from the basal side. Attempts to optimize transformation efficiency were made by pretreating the discs with various concentrations of acetosyringone (AS) and/or naphthalene acetic acid (NAA). Surprisingly, while 25 M AS applied to bacteria prior to the inoculations was ineffective, the same AS concentration applied as a pretreatment to the discs strongly increased the number of transformed cells in the target tissues and decreased the lag time for the appearance of the first GUS positive cells. NAA pretreatment on the basal side enhanced the AS effect. AS pretreatment was found both to advance the reentry of competent cells with a potential for cell division into the S phase of the cell cycle and to stimulate bacterial attachment to the cell walls. The relationship between transformation efficiency and DNA synthesis in the host cells is discussed. AS treatment of plant tissues prior to inoculation is proposed as a means of increasing the transformation rates.Abbreviations AS acetosyringone - IAA indole acetic acid - NAA naphthalene acetic acid - X-gluc 5-bromo-4-chloro-3-indolyl--D-glucuronide     

Expression of the JIM8 cell wall epitope in carrot somatic embryogenesis

Certain single cells in carrot (Daucus carota L.) suspension cultures react with the monoclonal antibody JIM8, and it has been proposed that these cells represent a transitional stage in somatic embryo formation. Shortly after isolation of the single cells by sieving, up to 80% of the cells react with JIM8. Within 4 d, JIM8 labelling becomes restricted to 1% of the single cells. To obtain evidence for the proposed correlation between expression of the JIM8 cell wall epitope and somatic embryo formation the developmental fate of carrot single cells labelled with JIM8 was determined by cell tracking. The results, obtained by recording 43 000 cells, show that only few JIM8-labelled cells give rise to embryos, and most somatic embryos develop from cells devoid of the JIM8 cell wall epitope. We therefore conclude that the presence of the JIM8 cell wall epitope does not coincide with the ability of single suspension cells to form embryos.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - AGP arabino galactan protein - B5-0 Gamborg's B5 medium - B5-0.2 Gamborg's B5 medium supplemented with 0.2 M 2,4-D - FITC fluoresceïn isothiocyanate - PBS phosphate-buffered saline     

Nitrate reductase activity of plasma membranes from cultured carrot cells

Summary Cultured carrot cells (Daucus carota L.) reduced nitrate to nitrite at a slow rate (0.4 moles/g dry wt · h) without any additions to the reaction medium. This rate was doubled or tripled in presence of 100 M NADH. Ethanol and other alcohols stimulated the basal rate 8–10-fold. Isolated carrot plasma membranes also reduced nitrate to nitrite at a rate of 80 nmoles/mg protein · h. This plasma membrane-bound nitrate reductase activity was estimated to be 1.7% of the total activity. Nitrate reduction by carrot cells was inhibited 56% by sodium tungstate, 57% by potassium cyanide, and 87% by gold chloride. It was stimulated by plasma membrane electron transport inhibitors (retinoic acid and chloroquine) and ATPase inhibitors (diethylstilbestrol). From differential effects of some stimulators or inhibitors in the presence or absence of NADH, it can be implied that the nitrate reductase activity of cultured carrot cells was due to a transmembrane enzyme exhibiting an exogenous nitrate reductase activity when NADH was added.Abbreviation DMSO dimethyl sulfoxide - SHAM salicyl hydroxamic acid     

Multiple copies of virG enhance the transient transformation of celery,carrot and rice tissues by Agrobacterium tumefaciens

In an effort to improve the T-DNA-mediated transformation frequency of economically important crops, we investigated the possible enhancement effect of multiple copies of virG genes contained in Agrobacterium tumefaciens strains upon the transient transformation of celery, carrot and rice tissues. Four days after A. tumefaciens infection, we performed histochemical -glucuronidase (GUS) assays to determine the frequency of transient transformation of calli from celery and carrot, and explants from rice and celery. Additional copies of octopine- and agropine-type virG genes in A. tumefaciens strains containing an agropine-type Ti-plasmid enhanced the frequency of transient transformation of celery and rice. This enhancement ranged from 25% to five-fold, depending upon the source of the virG gene and the plant tissues inoculated. For both rice and celery, we observed a greater enhancement of transformation using A. tumefaciens strains containing additional copies of an octopine-type virG gene than with strains harboring additional copies of an agropine-type virG gene. Multiple copies of virG genes contained in A. tumefaciens strains harboring a nopaline-type Ti-plasmid had a smaller enhancing effect upon the transformation of celery tissues, and no enhancing effect upon the transformation of rice. In contrast, we obtained a three-fold increase in the transient transformation frequency of carrot calli using an A. tumefaciens strain harboring a nopaline-type Ti-plasmid and additional copies of an octopine-type virG gene. Our results show that multiple copies of virG in A. tumefaciens can greatly enhance the transient transformation frequency of celery, carrot and rice tissues, and that this enhancement is influenced by both the type of Ti-plasmid harbored by A. tumefaciens and by the infected plant species.Current address: Department of Agronomy, Purdue University     

Structural analysis of the cell walls regenerated by carrot protoplasts

A procedure was developed to isolate protoplasts rapidly from carrot (Daucus carota L. cv. Danvers) cells in liquid culture. High purity of cell-wall-degrading enzymes and ease of isolation each contributed to maintenance of viability and initiation of regeneration of the cell wall by a great majority of the protoplasts. We used this system to re-evaluate the chemical structure and physical properties of the incipient cell wall. Contrary to other reports, callose, a (1 3)-d-glucan whose synthesis is associated with wounding, was not a component of the incipient wall of carrot protoplasts. Intentional wounding by rapid shaking or treatment with dimethyl sulfoxide initiated synthesis of callose, detected both by Aniline blue and Cellufluor fluorescence of dying cells and by an increase in (1 3)-linked glucan quantified in methylation analyses. Linkage analyses by gas-liquid chromatography of partially methylated alditol-acetate derivatives of polysaccharides of the incipient wall of protoplasts and various fractions of the cell walls of parent cells showed that protoplasts quickly initiated synthesis of the same pectic and hemicellulosic polymers as normal cells, but acid-resistant cellulose was formed slowly. Complete formation of the wall required 3 d in culture, and at least 5 d were required before the wall could withstand turgor. Pectic substances synthesized by protoplasts were less anionic than those of parent cells, and became more highly charged during wall regeneration. We propose that de-esterification of the carboxyl groups of pectin uronic-acid units permits formation of a gel that envelops the protoplast, and the rigid cellulose-hemicellulose frame-work forms along with this gel matrix.Abbreviations DEAE Diethylaminoethyl - DMSO dimethyl sulfoxide - ECP extracellular polymers - EDTA ethylenediaminetetraacetic acid - HGA nomogalacturonan - RG rhamnogalacturonan - Tes N-tris(hydroxymethyl)methyl-2-amino-ethanesufonic acid - TFA trifluoroacetic acid Journal paper No. 11,776 of the Purdue University Agriculture Experiment Station     

Carbohydrate antigens and lectin receptors of the plasma membrane of carrot cells

Summary A monoclonal antibody (JIM 1) has been derived, subsequent to immunization of rats with carrot protoplasts and a hybridoma screen of protoplast immunoagglutination, that recognizes a determinant at the outer face of the plasma membrane of carrot cells. The binding of JIM 1 is readily inhibitable by -D-galactosyl residues. Although weakly cross-reacting with an extracellular arabinogalactan protein, isolated from the conditioned medium of suspension-cultured carrot cells, JIM 1 does not recognize arabinogalactan proteins associated with the plasma membrane. The plasma membrane antigen recognized by JIM 1 was of low molecular weight and was sensitive to both periodate treatment and a protease. JIM 1 therefore defines a new class of galactosyl-residue containing plant cell surface antigen, distinct from the arabinogalactan proteins. However, the extracellular arabinogalactan protein and related plasma membrane-associated glycoproteins are demonstrated to bind the anti-galactose plant lectin peanut agglutinin.Abbrevations AGP arabinogalactan protein - McAb monoclonal antibody - PNA peanut agglutinin     

Optimization of growth performance of freshly induced carrot suspensions concerning PMP production

Carrot suspension cultures are efficient production systems for plant-made pharmaceuticals (PMP); however, frequently, the reduction of transgene expression in long-running transgenic cell lines limits the productivity. Freshly induced carrot suspensions have been identified for a constant and high biomass production with optimization of culture conditions and cultivars. A small-volume monitoring method was adapted to freshly induced carrot suspension that minimized the heterogeneity of freshly induced meristematic carrot cell lines. Using this system combined with the adaptation of growth conditions, we identified the cultivar Rote Riesen as having the highest increase in dry biomass with an average of 6.5 g/L weekly, stable and consistent after 8 wk. As a model PMP, VP60—the capsid protein from the rabbit hemorrhagic disease virus—was produced in a carrot suspension with a maximal accumulation of 2.4 μg/g dry mass. The developed method guarantees comparable investigations of different transgene expression in various freshly induced small-volume carrot cell lines.     

Phytosulphokine-{alpha}, a peptidyl plant growth factor, stimulates somatic embryogenesis in carrot

Phytosulphokine- (PSK-) is the first chemically characterized peptide that acts as a plant growth factor. It stimulates the proliferation of asparagus and rice cells, but no information is yet available on its effects on plant morphogenesis. The effects of PSK- on somatic embryogenesis in carrot (Daucus carota L.) were examined. PSK-, when added to the induction medium for somatic embryogenesis, increased the number of somatic embryos. The chemical analogues [2-5]PSK- and tyrosine sulphate ester (Tyr-SO3 H), which have been used as negative controls in other systems, had no effect. Moreover the proliferation of cells during somatic embryogenesis was also enhanced by PSK- these results indicate that PSK- enhanced cell division and, as a consequence, stimulated carrot somatic embryogenesis. PSK- also stimulated the proliferation of embryogenic cells in medium that contained 2,4-dichlorophenoxyacetic acid (2,4-D), in which somatic embryos did not form, as well as the proliferation of non-embryogenic cells (cells that had lost the ability to form somatic embryos) in medium without 2,4-D. These results indicate that PSK- has a stimulatory effect on cell division generally in carrot cell cultures.Key words: Daucus carota, plant growth factor, somatic embryogenesis, sulphated peptide.      

Rapid changes in amplification and methylation pattern of genomic DNA in cultured carrot root explants (Daucus carota L.)

Summary Rapid genomic DNA variation due to methylation and copy number alteration was observed in carrot root explants 6 h after inoculation and during a 36-h period of exponential callus growth. De novo methylation and amplification of restricted BspNI fragments of low molecular weight occurred before cell cycle activation and should, therefore, be independent of progression through the S-phase of the cell cycle. Growth regulators seemed to influence the amplification pattern indirectly by regulating cell division activity. In exponentially growing callus tissue the copy number of most of the repetitive fragments was dramatically reduced. It is presumed that this reduction in the copy number of repetitive fragments is characteristic of rejuvenilization. 3-Indole-acetic-acid (IAA) and inositol in the medium increased the degree of unspecific genomic DNA methylation in growing rhizogenic carrot callus tissue in the absence of kinetin, which inhibits root induction at that stage. A possible relation to the induction of rhizogenesis is considered. The observed reduction in number of repetitive restriction fragments and the increase in DNA methylation are gross changes covering the total genome. The results are discussed in relation to the controversy concerning the general biological significance of the methylation and amplification of DNA sequences.     

Immunochemical comparison of membrane-associated and secreted arabinogalactan-proteins in rice and carrot

Arabinogalactan-proteins (AGPs) occurring in suspension-cultured rice (Oryza saliva L.) cells, their conditioned medium and at the rice root apex were investigated using monoclonal antibodies and the AGP-binding -glucosyl Yariv reagent ( GlcY). A monoclonal antibody, LM2, was generated that recognized an acidic carbohydrate epitope common to two soluble AGPs occurring in the conditioned medium of proliferating rice cells, membrane-associated AGPs (rmAGP) in the cultured cells and two AGPs at the rice root apex. In addition, LM2 recognized AGPs secreted by suspensioncultured carrot (Daucus carota L.) cells. The two AGPs of the rice culture medium, srAGP1 and srAGP2, were discriminated by their mobilities during sodium dodecyl sulfate-polyacrylamide gel electrophoresis, reaction with GlcY, the presence of arabinogalactan epitopes and anion-exchange chromatography. The association of rmAGP with the plasma membrane was investigated by Triton-X-114/aqueous partitioning of both microsomal and plasma-membrane preparations and rmAGP was found to partition into the detergent phase, indicating that AGPs are hydrophobic plasma-membrane proteins in rice. This was in contrast to plasma-membrane AGPs of suspension-cultured carrot cells that partitioned into the aqueous phase. At the rice root apex most of the AGP was associated with the microsomal fraction and also partitioned into the detergent phase, although a distinct highmolecular-mass AGP entered the aqueous phase.Abbreviations AGP arabinogalactan-protein - GlcY -glucosyl Yariv reagent - ELISA enzyme-linked immunosorbent assay We gratefully acknowledge support from the Leverhulme Trust, the UK Biotechnology and Biological Sciences Research Council and the Royal Society.     

Biosynthesis of cell-wall polysaccharides in cultured carrot cells

Biosynthesis of the cell wall in carrot cells (Daucus carota L.) cultured in a synthetic liquid medium was studied by measuring the incorporation of radioactive glucose and myo-inositol (MI). When the cells were fed with [¹⁴C]glucose in the presence of 0.01% MI, the label soon appeared in the neutral sugars in the cell wall but little radioactivity was found in the uronic-acid residues even after a prolonged incubation. On the other hand, radioactivity derived from [³H]MI was found to be distributed among uronic acids and pentoses but not in the hexose residues in the wall. The data indicate that MI is an important intermediate for the synthesis of acidic sugars in the wall of cultured carrot cells.Abbreviation MI myo-inositol     

Biosynthesis of p-hydroxybenzoic acid in elicitor-treated carrot cell cultures

Carrot (Daucus carota L.) cells respond to treatment with fungal elicitors by synthesizing wallbound p-hydroxybenzoic acid (p-HBA). The biosynthetic pathway to p-HBA is still hypothetical. Tracer experiments with l-phenylalanine indicate the involvement of the general phenylpropanoid pathway. 3,4 (Methylenedioxy) innamic acid, an inhibitor of hydrocycinnamate CoA ligase, inhibits the accumulation of anthocyanins in carrot, while it does not interfere with p-HBA synthesis. Thus p-HBA biosynthesis does not appear to involve CoA thioesters. In the present report the sequence of enzymic reactions leading to p-HBA was investigated in vitro using protein preparations from cells treated with a fungal elicitor from Pythium aphanidermatum (Edson) Fitzp. The side-chain degradation from p-coumaric acid to p-HBA is not analogous to the -oxidation of fatty acids and involves p-hydroxybenzaldehyde as an intermediate. The final step from p-hydroxybenzaldehyde to p-HBA is catalyzed by an NAD-dependent p-hydroxybenzaldehyde dehydrogenase (EC 1.2.1.-). This reaction was characterized with regard to cofactor requirements, pH and temperature optima. The in-vitro formation of p-HBA from p-coumaric acid and the activity of the hydroxybenzaldehyde dehydrogenase are moderately elicitor-induced but to a much lesser extent than phenylalanine ammonialyase, which is the starting enzyme of the general phenylpropanoid pathway.Abbreviations HPLC high-performance liquid chromatography - MDCA 3,4-(methylenedioxy)-cinnamic acid - p-HBA p-hydroxybenzoic acid This work was supported by a grant from the Deutsche Forschungsgemeinschaft and a sholarship of the Land Baden-Württemberg (J.-P. S.).     

Electric field mediated stable transformation of carrot protoplasts with naked DNA

We have developed an electroporation procedure for the transformation of carrot protoplasts with Ti-plasmid DNA from Agrobacterium tumefaciens. The uptake of pTiC58 into carrot protoplasts was mediated by high voltage electrical pulses at field strengths from 0.5 to 3.8 kV/cm. Protoplast regeneration, somatic embryogenesis and plantlet regeneration were unaffected by the electroporation conditions selected for DNA uptake. Uptake of plasmid pTiC58 resulted in hormone independent regeneration of carrot protoplasts. Transformed somatic embryos were detected in carrot cultures 45 days after electroporation. The transformed somatic embryos developed into teratomas which synthesized nopaline. Hybridization was obtained between a labeled T-DNA fragment from pTiC58 and DNA fragments from 4 month old teratomas regenerated from electro-transformed protoplasts. Based on the number of somatic embryos regenerated after electro-transformation, a frequency of 1.6×10² transformants/10⁴ somatic embryos/g pTiC58 DNA was obtained.Abbreviations PEG polyethylene glycol - 2,4-D 2,4-dichlorophenoxyacetic acid - MES morpholinoethane sulfonic acid - DMSO dimethyl sulfoxide - HSV Herpes Simplex virus - TK thymidine kinase     

Microtubule-binding proteins from carrot

Microtubules (MTs) participate in several processes of fundamental importance to growth and development in higher plants, yet little is known about the proteins with which they associate. Information about these molecules is important because they probably play a role in mediating functional and structural differences between various MT arrays. As a first step in gaining insight into this problem, we have isolated, from suspension-cultured cells of carrot (Daucus carota L.), non-tubulin proteins which bind to and affect microtubules (MTs) in vitro. These proteins were isolated using taxol-stabilized neuronal MTs as an affinity substrate. They cause MT bundling at substoichiometric concentrations, support the assembly of tubulin in vitro, and at low concentrations, decorate single MTs in a periodic fashion. The bundled MTs formed in vitro share similarities with those seen in situ in a variety of plant cells, including a center-center spacing of 34 nm, cold stability, resistance to anti-microtubule drugs, and sensitivity to calcium. The bundling activity is specific; other cationic proteins, as well as poly-L-lysine, do not behave in a similar manner. The bundling activity is insensitive to ATP. By assaying bundling activity with dark-field microscopy and employing standard biochemical procedures, a small number of polypeptides involved in the bundling process were identified. Affinity-isolated antibodies to one of these polypeptides (M_r=76000) were found to co-localize with MTs in the cortical array of protoplasts. Our findings are discussed with reference to the importance of these proteins in the cell and to their relationship to microtubule-associated proteins in other eukaryotes.Abbreviations DEAE diethylaminoethyl - MAP(s) microtubule-associated protein(s) - MT(s) microtubule(s) - M_r relative molecular mass - OD optical density - PM 50 mM 1,4-piperazinediethanesulfonic acid (Pipes), pH 6.9, 1 mM magnesium sulphate, 1 mM ethylene glycol-bis(-aminoethyl ether)-N,N,N,N-tetraacetic acid (EGTA) - SDS-PAGE sodium dodecyl sulphate-polyacrylamide gel electrophoresis     

Ethanol production and toxicity in suspension-cultured carrot cells and embryos

The process of carrot (Daucus carota L.) somatic embryogenesis is highly sensitive to exogenously added ethanol, since 5 mM ethanol inhibits this process by 50%, whereas the growth of proliferating carrot cells is inhibited to the same extent by 20 mM ethanol. This is consistent with the fact that proliferating cultures produce ethanol and release it into the medium at concentrations up to 20 mM, whereas embryogenic culture medium contains less than 1 mM ethanol. Data are presented showing the influence of cell density and 2,4-dichlorophenoxyacetic acid on ethanol production and on the presence of an alcohol-dehydrogenase (EC 1.1.1.1.) inactivator in carrot embryos.Abbreviations ADH alcohol dehydrogenase - 6-BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - DTT dithiothreitol - FW fresh weight     

Centrifugation Assisted Agrobacterium tumefaciens-mediated Transformation (CAAT) of embryogenic cell suspensions of banana (Musa spp. Cavendish AAA and Lady finger AAB)

Centrifugation-assisted Agrobacterium-mediated transformation (CAAT) protocol, developed using banana cultivars from two economically important genomic groups (AAA and AAB) of cultivated Musa, is described. This protocol resulted in 25-65 plants/50mg of settled cell volume of embryogenic suspension cells, depending upon the Agrobacterium strain used, and gave rise to hundreds of morphologically normal, transgenic plants in two banana cultivars from the two genomic groups. Development of a highly efficient Agrobacterium-mediated transformation protocol for a recalcitrant species like banana, especially the Cavendish group (AAA) cultivars, required the identification and optimisation of the factors affecting T-DNA delivery and subsequent plant regeneration. We used male-flower-derived embryogenic cell suspensions of two banana cultivars (Cavendish and Lady Finger) and Agrobacterium strains AGL1 and LBA4404, harbouring binary vectors carrying hpt (hygromycin phosphotransferase) and gusA (-glucuronidase) or nptII (neomycin phosphotransferase) and a modified gfp (green fluorescent protein) gene in the T-DNA, to investigate and optimise T-DNA delivery and tissue culture variables. Factors evaluated included pre-induction of Agrobacterium, conditions and media used for inoculation and co-cultivation, and the presence of acetosyringone and Pluronic F68 in the co-cultivation media. One factor that led to a significant enhancement in transformation frequency was the introduction of a centrifugation step during co-cultivation. Post co-cultivation liquid-media wash and recovery step helped avoid Agrobacterium overgrowth on filters supporting suspension culture cells. Marker-gene expression and molecular analysis demonstrated that transgenes integrated stably into the banana genome. T-DNA:banana DNA boundary sequences were amplified and sequenced in order to study the integration profile.     

Identification and isolation of a unique esterase from the medium of non-embryogenic cell line of cultured carrot cells

A unique esterase isozyme z with very low electrophoretic mobility on the anionic polyacrylamide gel (PAGE) was found in the medium of a non-embryogenic (Ca-4) line of cultured carrot (Daucus carota L.) cells. The protein corresponding to this esterase isozyme z was purified by electroelution from preparative PAGE and the esterase migrated as a single band with an apparent M _r of 35 000 on SDS-PAGE. The purified esterase isozyme z exhibited at least 350-fold higher specific activity than that in the total medium proteins.Dedicated to Dr. Friedrich Constabel on the occasion of his 60th birthday