Pectins as mediators of wall porosity in soybean cells

The non-invasive technique of fluorescence redistribution after photobleaching was employed on soybean (Glycine max (L.) Merr.) root cells grown in suspension culture to examine macromolecular transport across plant cell walls. Using both fluorescently derivatized dextrans and proteins of graded size, a functional range of diameters for putative trans-wall channels was determined to be 6.6–8.6 nm. A mild treatment with pectinase apparently enlarged the channels, without adversely affecting cell viability, enabling significantly larger molecules to pass through the wall. Treatment of the cells with cellulysin or protease did not have this enlargement effect. It appears that the organization of pectic substances is a major control element in defining the sieving properties of the wall.Abbreviations EDTA ethylenediaminetetraacetic acid - EGTA ethylene glycol-bis(-aminoethyl ether)-N,N,N,N-tetraacetic acid - Fl-dextran fluorescein-derivatized dextran - FRAP fluorescence redistribution after photobleaching - kDa kilodalton     

Suppression of somatic embryogenesis in Citrus cell cultures by extracellular proteins

Nucellar-derived cell cultures of sour orange (Citrus aurantium L.) proliferate as proembryogenic masses. By a change in the carbon source of the medium from sucrose to glycerol they are induced to undergo synchronous embryogenesis forming embryo initials that develop into globular embryos. The proembryogenic masses released glycoproteins to the medium. Exogenous addition of the glycoproteins to cells in glycerol-containing medium modified the course of embryo development in a dose-dependent manner. Addition of 20 g · ml^–1 of glycoproteins blocked embryogenesis and resulted in an accumulation of embryo initials. When glycoproteins were added to cultures containing advanced globularstage embryos further development was suppressed. The inhibitory component of the glycoproteins was found to be a family of polypeptides with apparent molecular masses of 53–57 kDa. While these proteins normally accumulated only in cultures of proembryogenic masses, they could be induced to accumulate in glycerol-containing medium by the addition of the glycoproteins. Thus, their accumulation was not a direct consequence of the type of growth medium used or the developmental state of the cultures. The results indicate that the 53-to 57 kDa glycoproteins could play a regulatory role in in-vitro embryogenesis in sour orange. The normal progression of embryo development appears to depend, in an obligatory manner, on the absence of these glycosylated extracellular proteins from the medium.Abbreviations kDa kilodalton - PEM proembryogenic masses - SDS-PAGE sodium dodecyl sulphate-polyacrylamide gel electrophoresis - 2D-PAGE Two-dimensional polyacrylamide gel electrophoresis We thank Dr. S. Satoh (Institute of Biological Sciences, Tsukuba, Japan) for sending protein samples of the purified 57-kDa glycoprotein. This research was supported by a grant from the Charles H. Revson Foundation for Basic Research in the Life Sciences of the Israel Academy of Sciences. R.F. is a recipient of the Jack and Florence Goodman Career Development Chair.     

Characterization of a connexin homologue in cultured soybean cells and diverse plant organs

Antibodies were prepared against ratliver connexin (27-kDa polypeptide subunit of cell gap junctions found between contacting animal cells) and a putative soybean (Glycine max (L.) Merr.) connexin (29-kDa polypeptide) previously isolated from cultured soybean root cells (SB-1 cell line). The antibodies were utilized to examine the intracellular localization of soybean connexin in these cultured soybean cells and to probe for the presence of a soybean-type connexin in petals, fruits, and leaves from a variety of plants. As judged by specific reactivity on immunoblots, both antibodies against the 27-kDa polypeptide (ratliver connexin) and against the 29-kDa polypeptide (operationally termed soybean connexin) were utilized to demonstrate immunological relatedness of the 27-kDa (rat liver) and the 29-kDa (soybean) polypeptide. Immunofluorescent localization of the putative soybean connexin in cultured soybean cells utilizing these probes demonstrated a peripherally localized punctate pattern of labeling at areas of contact between cells. Use of antibody to the soybean connexin as a probe on immunoblots of extracts from petals, fruits and leaves demonstrated that the soybean-type connexin is present in a large number of different plants.Abbreviations kDa kilodalton - IgG immunoglobulin G - NEPHGE non-equilibrium pH gradient electrophoresis - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis     

Induction of accumulation and degradation of the 18.4-kDa oleosin in a triacylglycerol-storing cell culture of anise (Pimpinella anisum L.)

Two closely related anise cell-culture lines, Pa15 and Pa19, differ considerably in growth rate, potential to form somatic embryoids, triacylglycerol (TAG) storage and pattern of lipid-body proteins. Line Pa15 grows very fast (doubling rate: 3 d), mainly as single cells, exhibits a low potential for somatic embryogenesis and its TAG content is relatively low (5–20 mg TAG per g dry weight). In contrast, the line Pa19 shows lower growth rates (doubling rate: 8 d), tends to form clusters of somatic cells, has a higher TAG content (100–150 mg TAG per g dry weight), and somatic embryoids are easily induced. Under defined culture conditions, the TAG content of the line Pa19 can be increased to approximately 70% of that of ripe anise seeds (150 and 220 mg TAG per g dry weight, respectively). Polyclonal antibodies prepared against the most abundant protein (relative molecular mass 18.4 kDa) from the lipid-body fraction of anise seeds (Radetzky et al. 1993, Planta 191, 166–172) react also with a 18.4-kDa protein from the lipid-body fraction of cells of the Pa19 culture. In contrast, only fairly low levels of the 18.4-kDa oleosin were detected in Pal5. Limited sucrose supply in the medium resulted in TAG degradation and the concomitant decrease in the amount of immunodetectible 18.4-kDa protein in the Pa19 cell culture. Treatment with sorbitol, or abscisic acid and sorbitol in combination, enhanced TAG contents and also the amount of immunostained 18.4-kDa protein in the cell culture Pa19, whereas no effect was found on either TAG content or 18.4-kDa protein in the cell-culture line Pa15. The 18.4-kDa protein can be classified as an oleosin, a proposal which is supported by the similarity in molecular mass compared with other known oleosins, its occurrence in the lipid-body fraction and the fact that its amount correlates with the TAG content. The results of this study indicate that the Pa19 cell culture provides a valid model system for investigations of lipid storage and mobilization in higher-plant cells.Abbreviations ABA cis-abscisic acid - TAG triacylglycerol(s) - 2,4-D 2,4-dichlorophenoxyacetic acid The authors thank Christiane Bernshausen for kind technical assistance.     

An epitope of rice threonine- and hydroxyproline-rich glycoprotein is common to cell wall and hydrophobic plasma-membrane glycoproteins

A monoclonal antibody, LM1, has been derived that has a high affinity for an epitope of hydroxyproline-rich glycoproteins (HRGPs). In suspension-cultured rice (Oryza sativa L.) cells the epitope is carried by three major proteins with different biochemical properties. The most abundant is the 95-kDa extracellular rice extensin, a threonine- and hydroxyproline-rich glycoprotein (THRGP) occurring in the cell wall and secreted into the medium. This THRGP can be selectively oxidatively cross-linked in the presence of hydrogen peroxide and an endogenous peroxidase with the result that it does not enter a protein gel. A second polypeptide with the LM1 epitope (180 kDa), also occurring in the suspension-cultured cells and medium, is not oxidatively cross-linked. Three further polypeptides (52, 65 and 110 kDa) with the characteristics of hydrophobic proteins of the plasma-membrane also carry the LM1 epitope as determined by immuno-blotting of detergent/aqueous partitions of a plasma-membrane preparation and immuno-fluorescence studies with rice protoplasts. At the rice root apex the LM1 epitope is carried by four glycoproteins and is developmentally regulated. The major locations of the epitope are at the surface of cells associated with the developing protoxylem and metaxylem in the stele, the longitudinal radial walls of epidermal cells and a sheath-like structure at the surface of the root apex.Abbreviations AGP arabinogalactan protein - ELISA enzyme-linked immunosorbent assay - HRGP hydroxyproline-rich glycoprotein - THRGP threonine- and hydroxyproline-rich glycoprotein This work was supported by The Leverhulme Trust. We also acknowledge support from The Royal Society and thank Prof. L.A. Staehelin for the carrot extensin, N. Stacey for the rice cell culture and Dr. J. Keen for protein sequencing.     

Preparation and characterisation of monoclonal and polyclonal antibodies to maize membrane auxin-binding protein

Binding proteins, thought to be auxin receptors, can be solubilised from maize (Zea mays L.) membranes after acetone treatment. From these crude extracts, receptor preparations of over 50% purity can be obtained by a reliable, straight-forward procedure involving three chromatographic steps — anion exchange, gel filtration and high-resolution anion exchange. Such preparations have been used to immunise rats for subsequent production of monoclonal antibodies. By the further step of native polyacrylamide gel electrophoresis the semi-purified preparations yield homogeneous, dimeric (22-kilodalton, kDa) auxin-binding protein, which has been used to produce a polyclonal rabbit antiserum. The preliminary characterisation of this antiserum and of the five monoclonal antibodies is presented. Two of the monoclonal antibodies specifically recognise the major 22-kDa-binding protein polypeptide whilst the other three recognise, in addition, a minor 21-kDa species. All the monoclonal antibodies recognise the polypeptide rather than the glycan side chain and the polyclonal antiserum also recognises deglycosylated binding protein. The antibodies have been used to quantify the abundance of auxinbinding protein in a number of tissues of etiolated maize seedlings. Root membranes contain 20-fold less binding protein than coleoptile membranes.Abbreviations ABP auxin-binding protein - DEAE diethylaminoethyl - Ig immunoglobulin - kDa kilodalton - NAA naphthalene-1-acetic acid - M_r relative molecular mass - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulfate     

An oat coleoptile wall protein that induces wall extension in vitro and that is antigenically related to a similar protein from cucumber hypocotyls

Plant cell walls expand considerably during cell enlargement, but the biochemical reactions leading to wall expansion are unknown. McQueen-Mason et al. (1992, Plant Cell 4, 1425) recently identified two proteins from cucumber (Cucumis sativus L.) that induced extension in walls isolated from dicotyledons, but were relatively ineffective on grass coleoptile walls. Here we report the identification and partial characterization of an oat (Avena sativa L.) coleoptile wall protein with similar properties. The oat protein has an apparent molecular mass of 29 kDa as revealed by sodium dodecyl sulfate-polyacrylamide gel eletrophoresis. Activity was optimal between pH 4.5 and 5.0, which makes it a suitable candidate for acid growth responses of plant cell walls. The oat protein induced extension in walls from oat coleoptiles, cucumber hypocotyls and pea (Pisum sativum L.) epicotyls and was specifically recognized by an antibody raised against the 29-kDa wall-extension-inducing protein from cucumber hypocotyls. Contrary to the situation in cucumber walls, the acid-extension response in heat-inactivated oat walls was only partially restored by oat or cucumber wall-extension proteins. Our results show that an antigenically conserved protein in the walls of cucumber and oat seedlings is able to mediate a form of acid-induced wall extension. This implies that dicotyledons and grasses share a common biochemical mechanism for at least part of acid-induced wall extensions, despite the significant differences in wall composition between these two classes of plants.Abbreviations ConA concanavalin A - CM carboxymethyl - DEAE diethylaminoethyl - DTT dithiothreitol - Ex29 29-kDa expansin     

Thylakoid-protein phosphorylation during the life cycle of Scenedesmus obliquus in synchronous culture

The phosphorylation of thylakoid proteins, which comprise apoproteins of the light-harvesting chlorophyll a/b-protein complex (LHCP), was investigated in vivo and in vitro during the development of Scenedesmus obliquus in synchronous cultures. The in-vitro and in-vivo protein phosphorylation exhibited a maximum activity in cells with maximum photosynthetic capacity (8th hour) and miximum activity in cells with minimum photosynthetic capacity (16th hour). The major phosphorylated polypeptides in vivo were the 24/25-kDa and 28–30-kDa apoprotein of the LHCP, a protein of about 32 kDa, and some smaller polypeptides within the range 10 to 20 kDa. In vitro, the main phosphoproteins were the 28–30-kDa apoprotein and the protein characterized by an apparent molecular weight of 32 kDa. Pulse-chase experiments in vivo established that the latter had the fastest radioactivity turnover of the thylakoidal phosphoproteins.Abbreviations DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - LHCP light-harvesting chlorophyll a/b-protein complex - PSII photosystem II Dedicated to Prof. Erwin Bünning on the occasion of his 80^th birthday     

Cytoplasmic reorganization accompanies the deposition of a bipolar cell wall in the large-celled red alga Anotrichium tenue

The filamentous red alga Anotrichium tenue C. Aghard (Naegeli) (formerly Griffithsia tenuis C. Aghard; Baldock, 1976, Aust. T. Bot. 24, 509–593) has large (1–2 mm long), cylindrical, multinucleate cells that exhibit a daily, cyclic redistribution of chloroplasts. Chloroplasts accumulate in the mid-region of each growing cell during the day; consequently, filaments appear banded with a light apical end-band, a dark mid-band and a light basal end-band in each growing cell. Chloroplasts disperse at night so that the bands are no longer visible and the cells appear evenly pigmented. Anotrichium tenue also has a type of cell elongation, known as bipolar band growth, in which new material is added to the microfibrillar part of the wall in bands located at the apical and basal poles of elongating cells. This site of wall growth corresponds to the position of the light-colored end-bands present during the day. Here we examine the structural relationship between the cytoplasmic bands and the wall-growth bands. Our results show that, in addition to the previously described bipolar wall bands, there is a non-microfibrillar wall band in the mid-region of the cell. This wall component apparently branches from near the top of the microfibrillar outer wall and terminates near but not at the bottom of the cell. It contains nodules of sulphated polysaccharide material secreted from a band of vesicles, which co-localize with the chloroplasts in the mid-band. The outer wall appears to enclose the entire cell. Nuclei do not redistribute with the chloroplasts or wall vesicles into the mid-band but remain evenly distributed throughout the cytoplasm. Each wall component grows by a different mechanism. We show that two types of wall growth, diffuse and the bipolar-type of tip growth, occur in the same cell and we propose that the observed segregation of the cytoplasm supports localized growth of the unique inner wall component. Additionally, we show that A. tenue is an excellent model for study of the role and mechanism of cytoplasmic compartmentalization and cell polarity during plant cell growth.We wish to thank Dr. Richard Cloney (University of Washington and Dr. Tom Schroeder (Friday Harbor Laboratories, Friday Harbor, Wash.) for helpful discussions and critical review of this work. We also thank Dr. Susan Waaland (University of Washington) for sharing her original observations on the chloroplast banding phenomenon in Anotrichium tenue. We are grateful to the Friday Harbor Laboratories for the use of their space and facilities. This research was supported by funds from the Washington Sea Grant Program (awarded to J.R.W.) and by the Developmental Biology Training Grant, predoctoral fellowship, National Institutes of Health, No. HD07183 to A.W.S.     

Effect of crowding by dextrans and Ficolls on the rate of alkaline phosphatase-catalyzed hydrolysis: a size-dependent investigation

The cell cytosol is crowded with macromolecules such as proteins, nucleic acids, and membranes. The consequences of such crowding remain unclear. How is the rate of a typical enzymatic reaction, involving a freely diffusing enzyme and substrate, affected by the presence of macromolecules of different sizes, shapes, and concentrations? Here, we mimic the cytosolic crowding in vitro, using dextrans and Ficolls, for the first time in a variety of sizes ranging from 15 to 500 kDa, in a concentration range 0–30% w/w. Alkaline phosphatase–catalyzed hydrolysis of p‐nitrophenyl phosphate (PNPP) was chosen as the model reaction. A pronounced decrease in the rate with increase in fractional volume occupancy of dextran is observed for larger dextrans (200 and 500 kDa) in contrast to smaller dextrans (15–70 kDa). Our results indicate that, at 20% w/w, smaller dextrans (15–70 kDa) reduce the initial rate moderately (1.4‐ to 2.4‐fold slowing), while larger dextrans (>200 kDa) slow the reaction considerably (>5‐fold). Ficolls (70 and 400 kDa) slow the reaction moderately (1.3‐ to 2.3‐fold). The influence of smaller dextrans was accounted by a combination of increase in viscosity as sensed by PNPP and a minor offsetting increase in enzyme activity due to crowding. Larger dextrans apparently reduce the frequency of enzyme substrate encounter. The reduced influence of Ficolls is attributed to their compact and quasispherical shape, much unlike the dextrans. © 2006 Wiley Periodicals, Inc. Biopolymers 83: 477–486, 2006 This article was originally published online as an accepted preprint. The “Published Online” date corresponds to the preprint version. You can request a copy of the preprint by emailing the Biopolymers editorial office at biopolymers@wiley.com     

Identification and localisation of a nucleoporin-like protein component of the plant nuclear matrix

Salt-detergent extraction of purified plant nuclei yields a fraction enriched in putative structural proteins known as the nuclear matrix. Compared with mammalian nuclear matrices, which contain three major proteins, plant nuclear matrices are complex, containing at least 100 polypeptides. In order to characterise more fully the plant nuclear matrix we have used antibodies raised against both yeast (Saccharomyces cerevisiae) and mammalian (rat) nuclear pore proteins. We have shown that the nuclear matrix of carrot (Daucus carota L.) contains at least one nucleoporin-like protein of about 100 kDa which is immunologically related to both the yeast nuclear pore protein NSP1 and mammalian nucleoporins (p62). Antibody labelling of a variety of plant cells at the light-microscope and electron-microscope levels confirms that this antigen is located at the nuclear pores. This, to our knowledge, is the first identification of a nuclear pore protein in plants.Abbreviations IgG immunoglobulin G - kDa kilodaltons - DAPI 4,6-diamidino-2-phenylindole - FITC fluorescein isothioganate The authors would like to thank Dr. E. Hurt (European Molecular Biology Laboratory, Heidelberg, FRG) for antibodies against yeast nucleoporins, and Dr. L. Davis (Whitehead Institute for Biomedical Research, Cambridge, Mass., USA) for the monoclonal antibodies MAb 414 & 350. We thank Brian Wells for useful advice on electron microscopy. We also thank Peter Scott, Andrew Davis, and Nigel Hannant for photography, and Sue Bunnewell for development and printing of electronmicrographs.     

Subcellular localization of β-1,3-glucanase in Puccinia recondita f.sp. tritici-infected wheat leaves

An antiserum raised against the purified 33-kDa β-1,3-glucanase of wheat (Triticum aestivum L.) was employed to investigate the ultrastructural localization of the enzyme in wheat leaves infected with Puccinia recondita Rob. ex Desm. f.sp. tritici Eriks. and Henn. using a post-embedding immunogold labelling technique. In both compatible and incompatible interactions, β-1,3-glucanase was detected in the host plasmalemma and in the domain of the host cell wall near the plasmalemma of the mesophyll cells, but higher concentrations of the enzyme were detected in infected resistant wheat leaves than in infected susceptible ones. β-1,3-Glucanase was also found in the secondary thickening of xylem vessels and in the walls of guard cells, epidermal cells and phloem elements, while no labelling was observed in host organelles, viz. vacuoles, mitochondria, endoplasmic reticulum, Golgi bodies, nuclei and chloroplasts. A low concentration of the enzyme was detected on the intercellular hyphal wall and in the hyphal cytoplasm. In the compatible interaction, β-1,3-glucanase was demonstrated to accumulate predominantly in the haustorial wall and extrahaustorial matrix. In the incompatible interaction, strong labelling for β-1,3-glucanase was found in host cell wall appositions, in the extracellular matrix in the intercellular space, and in electron-dense structures of host origin which occurred in the incompatible interaction only. Received: 22 July 1997 / Accepted: 16 August 1997     

Cell-wall-bound lytic activity in Chlorella fusca: function and characterization of an endo-mannanase

A cell-wall-degrading activity was solubilized from young cells and from mother cell walls of Chlorella fusca by treatment with LiCl. The cytoplasmic enzyme hexokinase was not detectable in these extracts. The LiCl-solubilized activity increased in the cell cycle parallel to the release of autospores. The enzyme was purified on a chromatofocusing column followed by gel filtration. Sodium dodecyl sulfate/polyacryl amide gel electrophoresis of the purified enzyme revealed a molecular weight of 44 kDa, whereas gel filtration indicated a molecular weight of 25 kDa. Cell-wall-lytic activity and -1,4-mannanase activity coeluted in gel filtration and were separated from -d-fucosidase activity. The enzyme degraded isolated cell walls and ivory nut mannan primarily to oligosaccharides with an estimated degree of polymerization 6. The soluble degradation products of the cell wall consisted of 92–96% mannose and 4–8% glucose. It is concluded that the cell-wall-lytic activity is caused by an endo-mannanase. In vivo, this enzyme probably degrades the mother cell wall and, after autospore release, remains bound to it as well as to the surface of the daughter cells by ionic forces. The identity of this bound enzyme with a soluble wall-degrading enzyme previously obtained from mother cells is discussed.     

The levels of two distinct species of phytochrome are regulated differently during germination in Avena sativa L.

The abundance and molecular mass of phytochrome in germinating embryos of A. sativa (oat) grown in light or darkness have been monitored using immunoblot and spectrophotometric assays. Immunoblot analysis shows that imbibed but quiescent embryos have two immunochemically distinct species of phytochrome with monomeric molecular masses of 124 and 118 kDa (kdalton). The 118-kDa species has the properties of the 118-kDa phytochrome extracted from fully green oat tissue (J.G. Tokuhisa, S.M. Daniels, P.H. Quail, 1985, Planta 164, 321–332), whereas the 124-kDa polypeptide appears similar to the well-characterized photoreceptor of etiolated tissue. The capacity of antibodies directed against etiolated-oat phytochrome to immunoprecipitate the 124-kDa species but not the 118-kDa species has been exploited to quantitate the levels of each separately over a 72-h time course of germination and seedling development. The abundance of the 124-kDa molecule increases at least 200-fold in etiolated seedlings over 72 h whereas in light-grown seedlings the level of this molecule is relatively constant. In contrast, the amount of the 118-kDa species increases only twofold in both dark- and light-grown seedlings over the same period of time. These data indicate that whereas the abundance of 124-kDa phytochrome is regulated at the protein level by the well-documented, differential stability of the red- and far-red-absorbing forms in vivo, the 118-kDa molecule is present at a low constitutive level, presumably reflecting no such difference in the stability of the two spectral forms.Abbreviations ELISA enzyme-linked immunosorbent assay - Ig immunoglobulin - kDa kilodalton - Pfr, Pr far-red-absorbing and red-absorbing forms of phytochrome, respectively - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Acid invertase in Nicotiana tabacum crown-gall cells: Molecular properties of the cell-wall isoform

Cell-wall invertase (CWI; EC 3.2.1.26) was salt-eluted from non-disrupted Agrobacterium tumefaciens-transformed Nicotiana tabacum L. cells and purified to homogeneity. More than 90% of total cellular invertase activity (measured at pH 4.8) was recovered in the NaCl-eluted fraction whereas for the cytoplasmic marker glucose-6-phosphate dehydrogenase 96% of total activity could be extracted from the tissue after salt-elution, indicating absence of appreciable stress-induced cell disruption. Likewise, appreciable contamination of CWI with vacuolar acid invertase could be excluded. Tobacco CWI cross-reacted with an antiserum directed against deglycosylated carrot CWI; however, during some purification steps CWI enzyme activity did not correlate with CWI immunosignal. In fractions of low CWI activity and strong immunosignal, a putative inhibitor peptide with an apparent M_r of 17 kDa was detected after sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and silver staining (Weil et al. 1994, Planta 193, 438–445). The CWI of transformed tobacco cells has an apparent M_r of 69 kDa (SDS-PAGE) and is a basic (pI 9.5) glycoprotein. Gel-permeation chromatography indicated that enzymatically active CWI is a monomer. Deglycosylation of the denatured CWI by treatment with endo--N-acetylglucosaminidase, peptide-N-glycosidase F and trifluoromethanesulfonic acid indicated the presence of two high-mannose and two complex glycans. In partially purified CWI fractions the carrot CWI antiserum cross-reacted with one other tobacco cell-wall peptide (M_r 28 kDa). To address the possibility of a second invertase isoenzyme cross-reacting with the carrot antiserum, intact CWI and the 28-kDa peptide were digested in vitro with Staphylococcus aureus V8 protease and cyanogen bromide. A comparison of the resulting peptide patterns identified the 28-kDa polypeptide as a cleavage product of CWI. Running electroeluted CWI (69 kDa) on a second SDS-polyacrylamide gel led to substantial formation of the 28-kDa peptide. This suggests that the intrinsic 28-kDa cleavage product is the result of an intrinsic lability of tobacco CWI, rather than being a proteolytic degradation product.Abbreviations Con A concanavalin A - CWI cell-wall invertase - Endo H endo--N-acetylglucosaminidase - Glc-6-P-DH glucose-6-phosphate dehydrogenase - 1-OMG methyl -d-glucopyranoside - p17 17 kDa peptide - pI isoelectric point - PNGase F peptide-N-glycosidase F - TFMS trifluoromethanesulfonic acid This work was supported by grants from the Deutsche Forschungsgemeinschaft. The gift of an antiserum directed against carrot cellwall invertase from Dr. Arnd Sturm (Friedrich-Miescher-Institut, Basel, Switzerland) is kindly acknowledged. Furthermore, the authors thank Sigrid Ranostaj for excellent technical assistence.     

A pathway for cell wall anchorage of Saccharomyces cerevisiae alpha-agglutinin.

Saccharomyces cerevisiae alpha-agglutinin is a cell wall-anchored adhesion glycoprotein. The previously identified 140-kDa form, which contains a glycosyl-phosphatidylinositol (GPI) anchor (D. Wojciechowicz, C.-F. Lu, J. Kurjan, and P. N. Lipke, Mol. Cell. Biol. 13:2554-2563, 1993), and additional forms of 80, 150, 250 to 300, and > 300 kDa had the properties of intermediates in a transport and cell wall anchorage pathway. N glycosylation and additional modifications resulted in successive increases in size during transport. The 150- and 250- to 300-kDa forms were membrane associated and are likely to be intermediates between the 140-kDa form and a cell surface GPI-anchored form of > 300 kDa. A soluble form of > 300 kDa that lacked the GPI anchor had properties of a periplasmic intermediate between the plasma membrane form and the > 300-kDa cell wall-anchored form. These results constitute experimental support for the hypothesis that GPI anchors act to localize alpha-agglutinin to the plasma membrane and that cell wall anchorage involves release from the GPI anchor to produce a periplasmic intermediate followed by linkage to the cell wall.     

Ultrastructure of infection-thread development during the infection of soybean by Rhizobium japonicum

The location and topography of infection sites in soybean (Glycine max (L.) Merr.) root hairs spot-inoculated with Rhizobium japonicum have been studied at the ultrastructural level. Infections commonly developed at sites created when the induced deformation of an emerging root hair caused a portion of the root-hair cell wall to press against an adjacent epidermal cell, entrapping rhizobia within the pocket between the two host cells. Infections were initiated by bacteria which became embedded in the mucigel in the enclosed groove. Infection-thread formation in soybean appears to involve degradation of mucigel material and localized disruption of the outer layer of the folded hair cell wall by one or more entrapped rhizobia. Rhizobia at the site of penetration are separated from the host cytoplasm by the host plasmalemma and by a layer of wall material that appears similar or identical to the normal inner layer of the hair cell wall. Proliferation of the bacteria results in an irregular, wall-bound sac near the site of penetration. Tubular infection threads, bounded by wall material of the same appearance as that surrounding the sac, emerge from the sac to carry rhizobia roughly single-file into the hair cell. Growing regions of the infection sac or thread are surrounded by host cytoplasm with high concentrations of organelles associated with synthesis and deposition of membrane and cell-wall material. The threads follow a highly irregular path toward the base of the hair cell. Threads commonly run along the base of the hair cell for some distance, and may branch and penetrate into subjacent cortical cells at several points in a manner analagous to the initial penetration of the root hair.     

A major stress-inducible Mr-42000 wall glycoprotein of French bean (Phaseolus vulgaris L.)

A major wall protein of suspension-cultured cells of French bean has been isolated and characterised. It can be prepared from walls or the culture filtrate and in composition it is particularly rich in proline, valine and glutamic acid/glutamine and contains appreciable amounts of hydroxyproline. The N-terminus shows some glycosylation, while following chemical deglycosylation the first 38 residues were found to be identical to those of proline-rich proteins from soybean. However, the composition of the highly purified M_r-42000 bean protein differs considerably from the soybean proteins and must contain its own specific domains. An antibody was raised and used to demonstrate the inducibility of the M_r-42000 bean protein in response to elicitor action. The protein was found to be mainly localised in the intercellular spaces of the cortical cells of bean hypocotyls and at the wall-plasmalemma interface of xylem vessels, another potentially accessible compartment for pathogens. Following wounding, the protein was found to be generally distributed in the wall of epidermal and cortical cells of the hypocotyls. The M_r-42000 protein is cross reactive with antibodies raised to glycoproteins of the Rhizobium infection thread and the chitin-binding hydroxyproline-rich glycoprotein, potato lectin. These common epitopes together with the previously demonstrated chitin-binding properties of the bean protein indicate a role in host-microbial interactions. Furthermore, the M_r-42000 protein itself bound to the growing hyphal tips of the bean pathogen, Colletotrichum lindemuthianum.Abbreviations FITC fluorescein isothiocyanate - IgG immunoglobulin G - PAL phenylalanine ammonia-lyase We thank Dr Nick Brewin for advice on interpretation of immunolocalisations and for the gift of MCA 265. We thank Dudley Fernandino for carrying out the confocal microscopy. GPB thanks the Science and Engineering Research Council for funding.     

Immunoprecipitation of phytochrome from green Avena by rabbit antisera to phytochrome from etiolated Avena

Thirty-nine antiserum preparations from eight rabbits were screened for their ability to precipitate the immunochemically distinct phytochrome that is obtained from green oat (Avena sativa L.) shoots. The antisera were obtained from rabbits immunized with either proteolytically degraded, but still photoreversible, 60-kDa (kilodalton) phytochrome, or approx. 120-kDa phytochrome, both of which were purified from etiolated oat shoots. The ability of these antisera to precipitate phytochrome from green oats was independent of the size of phytochrome used for immunization. While crude antisera immunoprecipitated as much as 80% of the phytochrome isolated from green oat shoots, antibodies immunopurified from these sera with a column of highly purified, approx. 120-kDa phytochrome from etiolated oats precipitated no more than about 5–10%.Abbreviations kDa kilodalton - mU milliunit