Changes in symplastic permeability during adventitious shoot regeneration in tobacco thin cell layers

Thin cell layer (TCL) explants of tobacco (Nicotiana tabacum L.) were cultured in either a regeneration medium that resulted in formation of adventitious vegetative shoots or a non-regeneration (control) medium that maintained the TCLs but did not promote shoot formation. Microinjections were conducted on epidermal cells at 1- or 2-day intervals during the culture period (14 days) and also on meristematic regions as they appeared in regenerating TCLs. A fluorescein isothiocyanate-labelled peptide (F(Glu)₃ MW 799) was used to assess the permeability of the symplast during adventitious shoot regeneration. A period of increased symplastic movement of F(Glu)₃ was detected during day 2 of culture and was significantly greater in regenerating TCLs than in non-regenerating TCLs. This corresponded to the period of the first cell divisions and represents the re-initiation of a meristematic type of symplastic linkage between epidermal cells. A smaller increase in cell-to-cell movement within non-regenerating TCLs indicated a possible stress response as a factor in these changes. Movement of F(Glu)₃ throughout the epidermal symplast of regenerating TCLs returned to pre-culture levels by the time of shoot primordia formation. F(Glu)₃ movement was further down-regulated in non-regenerating TCLs, with a high degree of cell isolation observed. Within newly formed shoots, symplastic movement of F(Glu)₃ cycled between high and low levels.     

Cell-to-cell communication via plant endomembranes

Cell-to-cell communication was investigated in epidermal cells cut from stem internodal tissue of Nicotiana tabacum and Torenia fournieri. Fluorescently labelled peptides and dextrans were microinjected using iontophoresis into the cytoplasm andcortical endomembrane network of these cells. The microinjected endomembrane network was similar in location and structure to the endoplasmic reticulum (ER) as revealed by staining with 3, 3'-dihexyloxacarbocyanine iodide (DiOC(6)). No cell-to-cell movement of dextrans was observed following cytoplasmic injections but injection of dextrans into the endomembrane network resulted in rapid diffusion of the probes to neighbouring cells. It is proposed that the ER acts as a pathway for intercellular communication via the desmotubule through plasmodesmata.     

Structural diversity of Papaver somniferum L. cell surfaces in vitro depending on particular steps of plant regeneration and morphogenetic program

Culture of Papaver somniferum in vitro was used for a characterisation of cell surface structures and mode of cell adhesion and cell separation during cell differentiation and plant regeneration in somatic embryogenesis and shoot organogenesis. In early stages of somatic embryogenesis, cell type-specific and developmentally regulated change of cell morphogenesis was demonstrated. Cell wall of separated embryonic cells were self-covered with external tubular network, whereas morphogenetic co-ordination of adhered cells of somatic proembryos was supported by fine and fibrillar external cell wall continuum of peripheral cells, interconnecting also local sites of cell separation. Such type of cell contacts disappeared during histogenesis, when the protodermis formation took place. Tight cell adhesion of activated cells with polar cell wall thickening, and production of extent mucilage on the periphery were the crucial aspects of meristemoids. Fine amorphous layer covered developing shoot primordia, but we have not observed such comparable external fibrillar network. On the contrary intercellular separation of differentiated cells in regenerated organs, and accepting distinct developmental system of somatic embryogenesis and shoot organogenesis, cell adhesion in early stages and ultrastructural changes associated with tissue disorganisation, and the subsequent reorganisation into either embryos or shoots appear to be regulatory morphogenetical events of plant regeneration in vitro.     

Gating of epidermal plasmodesmata is restricted to the leading edge of expanding infection sites of tobacco mosaic virus (TMV)

Plasmodesmatal gating in epidermal cells of Nicotianatabacum was examined in expanding infection sites of tobacco mosaic virus (TMV) expressing a fusion between the viral movement protein and the green fluorescent protein (MP-GFP). The infection sites were circular in profile and within 3 days post-inoculation had developed a brightly fluorescent leading edge, giving them a characteristic ‘halo’ shape. Co-localization of MP-GFP with callose demonstrated that nearly all epidermal cell plasmodesmata were targeted with MP-GFP. The fusion protein was located in the centre of the plasmodesmal pore, between paired callose platelets. Increase in plasmodesmatal size exclusion limit, as determined by the passage of microinjected 10 kDa Texas Red dextran, was restricted predominantly to cells within the fluorescent halo, and was virtually absent from cells in the centre of the expanding infection site. The plasmodesmata of these cells, however, remained fluorescently labelled with MP-GFP. Injections outside the fluorescent infection site failed to show movement of dextran, while dextran injected into cells at the leading edge moved inwards towards the centre of the lesion but not outwards into cells lacking GFP. Leaf incisions through cells ahead of the infection front halted the advance of the virus, indicating that virus replication was absent in non-fluorescent cells outside the infection site. The data provide the first demonstration that within an expanding infection site plasmodesmatal gating is under temporal control.     

Cell-to-cell transport via the lumen of the endoplasmic reticulum

Plasmodesmata are plasma membrane‐lined channels through which cytoplasmic molecules move from cell‐to‐cell in plants. Most plasmodesmata contain a desmotubule, a central tube of endoplasmic reticulum (ER), that connects the ER of adjacent cells. Here we demonstrate that molecules of up to 10.4 kDa in size can move between the ER lumen of neighbouring leaf trichome or epidermal cells via the desmotubule lumen. Fluorescent molecules of up to 10 kDa, microinjected into the ER of Nicotiana trichome cells, consistently moved into the ER and nuclei of neighbouring trichome cells. This movement occurred more rapidly than movement via the cytoplasmic pathway. A fluorescent 3‐kDa dextran microinjected into the ER of a basal trichome cell moved into the ER and nuclei of epidermal cells across a barrier to cytoplasmic movement. We constructed a 10.4‐kDa recombinant ER‐lumenal reporter protein (LRP) from a fragment of the endogenous ER‐lumenal binding protein AtBIP1. Following transient expression of the LRP in the ER of Tradescantia leaf epidermal cells, it often moved into the nuclear envelopes of neighbouring cells. However, green fluorescent protein targeted to the ER lumen (ER‐GFP) did not move from cell to cell. We propose that the ER lumen of plant cells is continuous with that of their neighbours, and allows movement of small ER‐lumenal molecules between cells.     

Cellulose and pectin localization in roots of mycorrhizalAllium porrum: labelling continuity between host cell wall and interfacial material

Two different types of contacts (or interfaces) exist between the plant host and the fungus during the vesicular-arbuscular mycorrhizal symbiosis, depending on whether the fungus is intercellular or intracellular. In the first case, the walls of the partners are in contact, while in the second case the fungal wall is separated from the host cytoplasm by the invaginated host plasmamembrane and by an interfacial material. In order to verify the origin of the interfacial material, affinity techniques which allow identification in situ of cell-wall components, were used. Cellobiohydrolase (CBH I) that binds to cellulose and a monoclonal antibody (JIM 5) that reacts with pectic components were tested on roots ofAllium porrum L. (leek) colonized byGlomus versiforme (Karst.) Berch. Both probes gave a labelling specific for the host cell wall, but each probe labelled over specific and distinct areas. The CBH I-colloidal gold complex heavily labelled the thick epidermal cell walls, whereas JIM 5 only labelled this area weakly. Labelling of the hypodermis was mostly on intercellular material after treatment with JIM 5 and only on the wall when CBH I was used. Suberin bands found on the radial walls were never labelled. Cortical cells were mostly labelled on the middle lamella with JIM 5 and on the wall with CBH I. Gold granules from the two probes were found in interfacial material both near the point where the fungus enters the cell and around the thin hyphae penetrating deep into the cell. The ultrastructural observations demonstrate that cellulose and pectic components have different but complementary distributions in the walls of root cells involved in the mycorrhizal symbiosis. These components show a similar distribution in the interfacial material laid down around the vesicular-arbuscular mycorrhizal fungus indicating that the interfacial material is of host origin.     

Development of the adult leg epidermis in <Emphasis Type="Italic">Manduca sexta</Emphasis>: contribution of different larval cell populations

During metamorphosis of the tobacco hornworm Manduca sexta, the simple thoracic legs of the larva are remodeled into the more complex adult legs. Most of the adult leg epidermis derives from the adult primordia, small sets of epidermal cells located in specific regions of the larval leg, which proliferate rapidly in the final larval instar. In contrast, the contribution of the epidermal cells outside the primordia is unknown. In this study we have determined their contribution to the adult leg by labeling them with 5-bromodeoxyuridine (BUdR) and following their fate. Although the labeled cells diminished drastically in number, small groups of these cells persisted into the midpupal stage suggesting that they do contribute to the adult leg epidermis. We also found that during the wandering stage the adult primordia went through active proliferation and very little cell death, while the cells outside the primordia went through extensive cell death accounting for the decrease in their number. Our results indicate that two distinct cell populations exist outside the adult primordia. Most cells belong to the first population, which is larval-specific and disappears through apoptosis early in metamorphosis. The second population consists of polymorphic cells that contribute to the larval, pupal and adult leg epidermis.Edited by D. Tautz     

Cell migration and differentiation during wound healing and regeneration in Microstomum lineare (Turbellaria)

Using transmission electron microscopy and serial sections with light-microscopic autoradiography, I have investigated the ultrastructure of wound healing, the distribution of cells preparing for proliferation, and the fates of cells labelled with exogenous tritiated thymidine ([³H]T) in Microstomum lineare undergoing wound healing and regeneration. Immediately after decapitation the open wound was reduced to a minimum by strong contraction of circular muscle fibers. The wound epidermis was cellular, consisting of thin parts of epidermal cells from the epidermis around the wound. These epidermal cells maintained close adhesive contact with one another through zonulae adherentes and septate junctions. No proliferating cells were found in the old epidermis. The only cells taking up [³H]T were mesenchymal and gastrodermal neoblasts which proliferated and migrated towards the surface. The final epidermis was formed by conjunction of the wound epidermis and newly differentiated epidermal cells. Regeneration in Microstomum, in contrast to that of planarians, occurs mainly by morphallaxis, without the formation of a regeneration blastema, but also through continuous cell proliferation, migration, and differentiation.     

Permeability and disruption of the peritrophic matrix and caecal membrane from Aedes aegypti and Anopheles gambiae mosquito larvae

In mosquito larvae, the peritrophic matrix (PM) separates the gut contents from the intestinal epithelium. This report describes a new in vivo assay for estimating PM permeability. The assay also allows for assessment of the permeability of the caecal membrane, a structure that separates each caecum from the gut lumen. Permeability was estimated by the appearance of fluorescently-labeled dextrans (size range 4,400 to 2 million Da) within the gastric caecae of mosquito larvae. While the intact peritrophic matrix was impermeable to 2 million Da dextran particles, it was permeable to dextran particles of 148 kDa and smaller. The caecal membrane appears to have considerably smaller pores, being permeable only to dextrans of 19.5 kDa and smaller. The assay was also used to devise a treatment that disrupts the PM sufficiently to allow the passage of virus-sized particles. Dithiothreitol and to a lesser extent, chitinase were effective in disrupting the PM. Cycloheximide had a small effect; Polyoxin D, Pronase and calcofluor did not alter the permeability to 2 million Da dextran particles. Disruption of the PM is discussed in the context of infecting mosquitoes with retroviral transformation vectors.     

Gap-junctional Hemichannels Are Activated by ATP Depletion in Human Renal Proximal Tubule Cells

We present evidence suggesting that gap-junctional hemichannels (GJH) may be involved in acute ischemic injury of human renal proximal tubule cells (hPT cells). Two GJH, from neighboring cells, join to form an intercellular gap junction channel (GJC). Undocked GJH are permeable to hydrophilic molecules up to 1 kDa, and their opening can significantly alter cell homeostasis. Both GJC and GJH formed by connexin 43 (Cx43) are activated by dephosphorylation. Hence, we tested whether GJH activation during ATP depletion contributes to cell damage in renal ischemia. We found that hPT cells in primary culture express Cx43 (RT-PCR and Western-blot analysis) at the plasma membrane region (immunofluorescence). Divalent-cation removal or pharmacological ATP depletion increased cell loading with the hydrophilic dye 5/6 carboxy-fluorescein (CF, 376 Da) but not with fluorescein-labeled dextran (>1500 Da). Endocytosis and activation of P2X channels were experimentally ruled out. Several GJC blockers inhibited the loading elicited by PKC inhibition. Double labeling (CF and propidium iodide) showed that both Ca(2+) removal and ATP depletion increase the percentage of necrotic cells. Gadolinium reduced both the loading and the degree of necrosis during divalent-cation removal or ATP depletion. In conclusion, GJH activation may play an important role in the damage of human renal proximal tubule cells during ATP depletion. These studies are the first to provide evidence supporting a role of GJH in causing injury in epithelial cells in general and in renal-tubule cells in particular.     

Reduction of hyperhydricity in sunflower tissue culture

In order to reduce the occurrence of hyperhydrated shoots, the response of three sunflower inbred lines was examined on regeneration media containing various concentrations of kinetin, silver nitrate, and casein hydrolysate, calcium nitrate and cobalt nitrate. There were differences among the inbred lines for all the parameters taken into account to outline the in vitro efficiency. Percentage of hyperhydrated primordia, average number of shoots and of primordia per total explants, and percentage of hyperhydrated shoot traits differed among all media. The genotype × culture media interaction was significant for average number of shoots and primordia per total explants, regeneration percentage and percentage of hyperhydrated primordia. Among all media tested, those containing silver nitrate significantly reduced hyperhydricity in a dose-dependent way. The addition of silver nitrate showed to be useful in improving the quality of sunflower micropropagated plants by reducing this undesirable phenomenon.     

Evidence that actin filaments are involved in controlling the permeability of plasmodesmata in tobacco mesophyll

The role of actin filaments in regulating plasmodesmal transport has been studied by microinjection experiments in mesophyll cells of tobacco (Nicotiana tabacum L. cv. Samsun). When fluorescent dextrans of various molecular sizes were each co-injected with specific actin filament perturbants cytochalasin D (CD) or profilin into these cells, dextrans up to 20 kilodalton (kDa) moved from the injected cell into surrounding cells within 3–5 min. In contrast, when such dextrans were injected alone or co-injected with phalloidin into the mesophyll cells, they remained in the injected cells. Phalloidin co-injection slowed down or even inhibited CD- or profilin-elicited dextran cell-to-cell movement. Dextrans of 40 kDa or larger were unable to move out of the injected cell in the presence of CD or profilin. These data suggest that actin filaments may participate in the regulation of plasmodesmal transport by controlling the permeability of plasmodesmata.     

Endocytotic uptake of fluorescent dextrans by pollen tubes grown in vitro

Summary Pollen tubes grow by tip growth, with high levels of exocytosis at the apex. The commercial availability of FITC labelled -linked dextrans provides a source of biologically inert tracers for endocytotic activity in pollen tubes. Growing tubes ofNicotiana andTradescantia were transferred to media containing 1% FD-4 for varying period of time before washing in control media and observation in a fluorescence microscope. Fluorescent material appeared to enter the pollen tubes only at the tip region, and to accumulate in vacuoles, starting with smaller vacuoles near the tip and spreading to the main vacuolated part of the tube. Mature tubes, with callose plugs, were only labelled up to the first complete plug from the tip, younger tubes without plugs were labelled into the pollen grain vacuole. The fluorescent material within the pollen tubes was shown to represent uptake of intact high molecular weight dextran by the following criteria: (i) free FITC and low molecular weight dextrans could not be detected in any of the media or pollen tubes using thin layer chromatography and (ii) pollen tube growth rates were unaffected by the fluorescent dextran, but were severely inhibited by low levels of free FITC. It was concluded that the dextrans entered the tubes by endocytosis, possibly in the tip region, and were then transferred to the vacuole system of the pollen tube.Abbreviations FITC fluorescein isothiocyanate - FD fluorescent dextran     

Plasmodesmal-mediated cell-to-cell transport in wheat roots is modulated by anaerobic stress

Summary Cell-to-cell transport of small molecules and ions occurs in plants through plasmodesmata. Plant roots are frequently subjected to localized anaerobic stress, with a resultant decrease in ATP. In order to determine the effect of this stress on plasmodesmal transport, fluorescent dyes of increasing molecular weight (0.46 to 10 kDa) were injected into epidermal and cortical cells of 3-day-old wheat roots, and their movement into neighboring cells was determined by fluorescence microscopy. Anaerobiosis was generated by N₂ gas or simulated by the presence of sodium azide, both of which reduced the ATP levels in the tissue by over 80%. In the absence of such stress, the upper limit for movement, or size exclusion limit (SEL), of cortical plasmodesmata was <1 kDa. The ATP analogue TNP-ADP (mw 681) moved across the plasmodesmata of unstressed roots, indicating that plasmodesmata may be conduits for nucleotide (ATP and ADP) exchange between cells. Upon imposition of stress, the SEL rose to between 5 and 10 kDa. This response of plasmodesmata to a decrease in the level of ATP suggests that they are constricted by an ATP-dependent process so as to maintain a restricted SEL. When roots are subjected to anaerobic stress, an increase in SEL may permit enhanced delivery of sugars to the affected cells of the root where anaerobic respiration could regenerate the needed ATP.Abbreviations F-dextran fluorescein-coupled dextran - LYCH Lucifer Yellow CH - SEL size exclusion limit - TNP-ADP 2-O-(trinitrophenyl)adenosine-5-diphosphate     

In vitro stimulation of human endothelial cells by derivatized dextrans

Summary Derivatized dextrans exert a stimulatory effect on the in vitro growth of human umbilical vein endothelial cells (HUVEC). Measurements of growth were monitored by [³H]thymidine uptake and cell numbers. Our results show that some derivatized dextrans at 4 μg/ml (88 nM) increase the [³H]thymidine incorporation, whereas starting dextran (40 000 Da), dextran sulfate, and carboxymethyl dextran have no effect. In addition, heparin under similar experimental conditions shows a slight inhibitory effect on the HUVEC growth. The stimulatory effect of derivatized dextrans was also found when HUVEC grew during 7 days in medium containing 2% fetal bovine serum. We also observed that derivatized dextrans had no effect on the mitogenic activity of acidic fibroblast growth factor, a mitogenic factor for several cell types including HUVEC. By assessment of [³H]thymidine uptake at 48 h without serum, we concluded that the exogenous growth factors were not involved in the proliferative activity of these components. The stimulatory effects are related to the chemical nature and the proportion of substituents on the synthetic polysaccharides. The data indicate that benzylamide sulfonated groups play a key role in the stimulation of HUVEC growth. Neither carboxyl nor sulfate groups alone exhibit this effect. Thus, the stimulatory capacity of dextran derivatives depends strongly on the respective ratios of the functional groups.     

Permeabilization of the plasmalemma and wall of soybean root cells to macromolecules

A technique has been developed that results in the reversible permeabilization of the cell wall and plasmalemma of soybean (Glycine max (L.) Merr.) root cells grown in suspension and callus culture. Cells in culture are treated with saponin (0.1 mg/ml) for 15 min at room temperature. They are then coincubated in separate experiments with fluorescent-derivatized dextrans (20–70 kDa) or fluorescein-conjugated goat anti-rabbit immunoglobulin G to ascertain the exclusion size of macromolecules capable of diffusing across the cell wall and plasmalemma into the cytoplasm. Following an incubation period of 30 min, it was observed by conventional and confocal fluorescence microscopy that all derivatized macromolecules tested (20–140 kDa) could be incorporated into the cytoplasm, but not into the vacuole. This procedure did not appear to affect cell viability adversely. A normal doubling time was observed for these cells following the permeabilization procedure.Abbreviations FDA fluorescein diacetate - FITC-20 kDa, FITC-40 kDa, FITC-70 kDa dextrans fluorescein-derivatized 20-kDa, 40-kDa, and 70-kDa dextrans - IgG immunoglobulin G - kDa kilodalton Paramjit K. Gharyal wishes to thank the Nitrogen Availability Program at Michigan State University for financial support. We also thank Edwin de Feijter of Meridian Instruments for technical assistance in performing the confocal measurements. This work was supported by a grant from the U.S. — Israel Binational Agricultural Research and Development Fund (BARD project No. US-1384-87).     

An improved micropropagation of <Emphasis Type="Italic">Spilanthes acmella</Emphasis> L. through transverse thin cell layer culture

An efficient and improved in vitro propagation system for Spilanthes acmella L. using transverse thin cell layer (tTCL) culture system was established. The frequency of shoot regeneration from tTCL nodal segments was affected by concentrations of plant growth regulators and orientation of the explant. MS (Murashige and Skoog in Physiol Plant 15:473–497, 1962) medium with 5.0 mg dm⁻³ BAP was optimal for shoot regeneration. Upon this medium, the explant inoculated in the upright orientation exhibited a high frequency of shoot regeneration (about 97%), and the highest number of shoots (31.5) per explant. The intact node (1.0–1.5 cm) cultured on the same medium had significantly lower shoot multiplication ability with only 4.5 shoots per responsive explant. As compared to BAP alone, the combination of BAP and Kin or NAA did not have positive effects on shoot multiplication from tTCL nodal segments. Rooting of shoots was achieved on growth regulator free full-strength MS medium. Plantlets were transplanted into soil with 90–100% survival rate.     

Synthesis of ultrasmall superparamagnetic iron oxides using reduced polysaccharides

Investigation into the effect of the reducing sugar of dextran on formation and stability of dextran-coated ultrasmall superparamagnetic iron oxides (USPIO) has demonstrated that reduction of the terminal reducing sugar can have a significant effect on particle size, coating stability, and magnetic properties. Four aspects of polysaccharide-coated USPIO particle synthesis were investigated: (i) the effect reduction of the terminal polysaccharide sugar has upon polysaccharide usage, particle size, stability, and magnetic susceptibility; (ii) the effect an exogenous reducing sugar can have upon particle synthesis; (iii) the effect the molecular weight of the reduced polysaccharide has on particle synthesis; and (iv) the effectiveness of reduced and native dextrans in stabilizing a preformed magnetic sol. For low molecular weight dextrans (MW 20,000 x 10(-6) cgs). Similar results were obtained with a 12 kDa pullulan. The effect of polysaccharide molecular weight on particle size was studied, wherein higher molecular weight reduced dextrans produced larger particles. The effectiveness of the reduced and native dextrans in stabilizing a preformed magnetic sol was compared. Reduced dextrans were found to be superior for stabilizing the magnetic sol. The observed effects of reduction of the terminal sugar in dextran compared with the native dextran were modeled using the Langmuir adsorption isotherm. A good fit of experimental data with this model was found.     

In vitro regeneration from bulb explants of Indian squill,Urginea indica Kunth

Callus cultures were established from bulb explants of diploid Urginea indica Kunth (Indian squill) on a modified basal medium of Murashige and Skoog (1962) supplemented with either 2 mg/l^-1 2,4-D+15% (v/v) CM or 4 mg/l^-1 2,4-D+2 mg/l^-1 NAA+2 mg/l^-1 KN+1 g/l^-1 YE. Shoot primordia developed after 2–3 subcultures in that medium. Increased growth of shoot primordia was obtained in media containing less auxins and vitamins. Rooted bulbous plantlets obtained were maintained in MS medium with 0.5% sucrose.Adventitious shoots were induced from adaxial epidermal cells of outer scales of regenerated bulbs used as secondary expiants in presence of 1 mg/l^-1 of 2,4-D with slightly higher concentration of the three vitamins of MS medium. From each scale leaf, approximately 400 bulblets were produced in 18 weeks in liquid culture. 90% of the plants transferred to potted soil have survived.     

Pectin esterification is spatially regulated both within cell walls and between developing tissues of root apices

Monoclonal antibodies recognizing un-esterified (JIM5) and methyl-esterified (JIM7) epitopes of pectin have been used to locate these epitopes by indirect immunofluorescence and immunogold electron microscopy in the root apex of carrot (Daucus carota L.). Both antibodies labelled the walls of cells in all tissues of the developing root apex. Immunogold labelling observed at the level of the electron microscope indicated differential location of the pectin epitopes within the cell walls. The un-esterified epitope was located to the inner surface of the primary cell walls adjacent to the plasma membrane, in the middle lamella and abundantly to the outer surface at intercellular spaces. In contrast, the epitope containing methyl-esterified pectin was located evenly throughout the cell wall. In root apices of certain other species the JIM5 and JIM7 epitopes were found to be restricted to distinct tissues of the developing roots. In the root apex of oat (Avena sativa L.), JIM5 was most abundantly reactive with cell walls at the region of intercellular spaces of the cortical cells. JIM7 was reactive with cells of the cortex and the stele. Neither epitope occurred in walls of the epidermal or root-cap cells. These pattern of expression were observed to derive from the very earliest stages of the development of these tissues in the oat root meristem and were maintained in the mature root. In the coleoptile and leaf tissues of oat seedlings, JIM5 labelled all cells abundantly whereas JIM7 was unreactive. Other members of the Gramineae and also the Chenopodiaceae are shown to express similar restricted spatial patterns of distribution of these pectin epitopes in root apices.Abbreviations CDTA 1,2-diaminocyclohexane tetraacetic acid - RG rhamnogalacturonan J.P.K. was supported by the Agricultural and Food Research Council Cell Signalling and Recognition Programme. We thank J. Cooke and N. Stacey for technical assistance, H.A. Schols, Drs. P. Albersheim and A. Darvill for pectic polysaccharides, and Dr. R.R. Selvendran and M. McCann for useful discussions.