Cell wall glycoproteins from Chlamydomonas reinhardii,and their self-assembly

We have investigated the in vitro reassembly of the salt soluble, hydroxyproline rich, glycoproteins from the cell wall of Chlamydomonas reinhardii, into structured cell wall fragments. We have devised an assay which has been used to follow the reassembly of the unfractionated and fractionated (2BI and 2BII) cell wall glycoproteins. Reassembly has a pH optimum of 5, a temperature optimum of 20°C, and the final size of the reassembled fragments appears to be promoted by the minor component 2BI. Periodate oxidation experiments show that sugar residues, in particular mannose, are important for accurate reassembly. Using electron microscopy, the structure of the reassembled products has been elucidated, as have intermediate stages in the reassembly process.Abbreviations TRIS Tris(hydroxymethyl)-methylamine - SDS Sodium dodecyl sulphate - PAGE Polyacrylamide gel electrophoresis This is the fifth paper in a series entitled Structure composition and morphogenesis of the cell wall of Chlamydomonas reinhardii. The last paper in this series was Catt et al. (1976)     

Studies on Chlorella protoplasts

Protoplasts of Chlorella saccharophila (Krüger) Nadson were obtained by cellulase digestion of the microfibrillar inner compount of the cell wall after the resistant outermost layer had been scratched with sea sand. The absence of the cell wall was demonstrated immunologically, electron microscopically and by staining, thus confirming the protoplastic nature of the treated cells. After transfer to an enzyme-free medium regeneration of a thin cell wall was observed. The regeneration of the cell wall obviously followed the same steps as does the cell wall development of the autospores. At least 50% of the protoplasts were able to form colonies when plated on a suitable agar medium.     

Cellulose and 1,3-glucan synthesis during the early stages of wall regeneration in soybean protoplasts

Protoplasts isolated from cultured soybean cells (Glycine max (L.) Merr., cv. Mandarin) were used to study polysaccharide biosynthesis during the initial stages of cell wall-regeneration. Within minutes after the protoplasts were transferred to a wall-regeneration medium containing [¹⁴C]glucose, radioactivity was detected in a product which was chemically characterized as cellulose. The onset and accumulation of radioactivity into cellulose coincided with the appearance fibrils on the surface of protoplasts, as seen under the electron microscope. At these early stages, a variety of polysaccharide-containing polymers other than cellulose were also synthesized. Under conditions where the protoplasts were competent to synthesize cellulose from glucose, uridine diphosphate-[¹⁴C]glucose and guanosine diphosphate-[¹⁴C]glucose did not serve as effective substrates for cellulose synthesis. However, substantial amounts of label from uridine diphosphate glucose were incorporated into 1,3-glucan.Abbreviations ECM extracellular material - GLC gas liquid chromatography - GDP-glucose guanosine diphosphate glucose - UDP-glucose uridine diphosphate glucose - U enzyme units as defined by Sigma Chemical Corp., St. Louis, Mo., USA     

Ultrastructural research on cell wall regeneration by cultured pollen protoplasts of Lilium longiflorum

Summary Protoplasts from pollen grains of Lilium longiflorum regenerate amorphous cellulosic cell walls in culture, during which some precursors of cellulose are polymerized, thus producing progressively harder cellulosic cell walls as the period of culture continues. It is presumed that the components of the cell wall regenerated during 1 week in culture differ from those of the intine of the pollen grain wall. The regenerated cell wall is formed by means of large smooth vesicles; in addition, numerous coated vesicles and pits aid in wall regeneration. The pollen tube that germinates from the 8-day-old cultured protoplast has numerous Golgi bodies and many vesicles which build the pollen tube wall. The tube wall has two layers just like a normal pollen tube wall.     

A study of cell wall regeneration of protoplasts inMarchantia polymorpha L.

Protoplasts ofMarchantia polymorpha L. were isolated from suspension cells. Regeneration of cell walls on the surface of the protoplasts began within a few hr of cultivation. New cell walls completely covered the surface of the protoplasts within 48 hr. Coumarin and 2,6-dichlorobenzonitrile treatment inhibited the formation of the new cell wall. In the initial stage of cell wall regeneration, endoplasmic reticula developed remarkably close to the plasma membrane in the protoplasts, but no development of Golgi bodies was observed at the same locus. This may suggest that the Golgi bodies do not play an active role in the cell wall formation, at least not in very early periods of cell wall regeneration. The development of endoplasmic reticula and an ultrastructural change of plasma membrane from smooth to rough may be important in the cell wall formation of protoplasts.     

The cell wall of Chlamydomonas reinhardtii gametes: Composition,structure and autolysin-mediated shedding and dissolution

The cell walls of Chlamydomonas gametes are multilayered structures supported on frameworks of polypeptides extending from the plasma membrane. The wall-polypeptide catalogue reported by Monk et al. (1983, Planta 158, 517–533) and extended by U.W. Goodenough et al. (1986, J. Cell Biol. 103, 405–417) was re-evaluated by comparative analysis of mechanically isolated cell walls purified from several strains. The extracellular locus of wall polypeptides was verified by in vivo iodogen-catalysed iodination and by autolysin-mediated elimination of the bulk of these polypeptides from the cell surface. Three (w15, w16, w17) and possibly four (w14) polypeptides were located to the most exterior aspect of the wall because of their susceptibility to Enzymobeadcatalysed iodination and their retention by a cell-wall-less mutant. The composition of shed walls stabilised with ethylenediaminetetraacetic acid during natural mating and kinetic analysis of the dissolution of walls purified from a bald-2 mutant demonstrated the rapid and specific destruction of polypeptide w3. Differential solubilisation of wall polypeptides occurred after loss of w3. Wall dissolution, characterised by the generation of fishbone structures from the W2 layer, gave as many as four additional polypeptides. Charged detergents and sodium perchlorate extracted a comparable range of polypeptides at room temperature from mechanically isolated walls, i.e. components of the W4–W6 layers, hot sodium dodecyl sulphate solubilised framework polypeptides, while reducing agent was required to solubilise the W2 layer. A model of wall structure is presented.Abbreviations DTE dithioerythritol - EDTA ethylenediaminetetraacetic acid - M_r relative molecular mass - SDS-PAGE sodium dodecyl sulphate-polyacrylamide gel electrophoresis - Tris 2-amino-2-(hydroxymethyl)-1,3-propanediol     

Taxol maintains organized microtubule patterns in protoplasts which lead to the resynthesis of organized cell wall microfibrils

Summary We have investigated the effects of microtubule stabilizing conditions upon microtubule patterns in protoplasts and developed a new method for producing protoplasts which have non-random cortical microtubule arrays. Segments of elongating pea epicotyl tissue were treated with the microtubule stabilizing drug taxol for 1 h before enzymatic digestion of the cell walls in the presence of the drug. Anti-tubulin immunofluorescence showed that 40 M taxol preserved regions of ordered microtubules. The microtubules in these regions were arranged in parallel arrays, although the arrays did not always show the transverse orientation seen in the intact tissue. Protoplasts prepared without taxol had microtubules which were random in distribution. Addition of taxol to protoplasts with random microtubule arrangements did not result in organized microtubule arrays. Taxol-treated protoplasts were used to determine whether or not organized microtubule arrays would affect the organization of cell wall microfibrils as new walls were regenerated. We found that protoplasts from taxol-treated tissue which were allowed to regenerate cell walls produced organized arrays of microfibrils whose patterns matched those of the underlying microtubules. Protoplasts from untreated tissue synthesized microfibrils which were disordered. The synthesis of organized microfibrils by protoplasts with ordered microtubules arrays shows that microtubule arrangements in protoplasts influence the arrangement of newly synthesized microfibrils.Abbreviations DIC differential interference contrast - DMSO dimethyl sulfoxide - FITC fluorescein isothiocyanate - IgG immunoglobulin G - PIPES piperazine-N,N-bis[2-ethane-sulfonic acid] - PBS phosphate buffered saline     

Monoclonal antibodies to the major structural glycoprotein of the Chlamydomonas cell wall

A family of monoclonal antibodies (McAb) has been raised to the major cell-wall structural glycoprotein of the green alga Chlamydomonas reinhardii. The work represents an approach using McAb to the structure and function of plant cell wall-components. On the basis of cross-competition assays, the McAb have been subdivided into six groups. Various lines of evidence indicate that some of these group's e.g. group III, contain McAb which recognise specific oligosaccharide side chains of the glycoprotein. Heterogeneity of the oligosaccharide side chains is demonstrated, by probing Western blots of separated glycoproteins and glycopeptides with the McAb. The results are discussed in relation to the possibility of raising McAb as probes for the structure and function of higher-plant cell-wall oligosaccharides, which are increasingly being shown to be important in cell-cell recognition phenomena and host-pathogen interactions.Abbreviations McAb monoclonal antibody (bodies) - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Oligosaccharide side chains of wall molecules are essential for cell-wall lysis in Chlamydomonas reinhardtii

The glycoproteins of the cell walls of Chlamydomonas are lysed during the reproductive cycle by proteases (autolysins) which are specific for their substrates. The autolysin which digests the wall of sporangia to liberate the zoospore daughter cells in the vegetative life cycle is a collagenase-like enzyme which attacks only selected domains in its wall substrates containing (hydroxy)-proline clusters. Cell-wall fractions obtained by salt-extraction (NaClO₄) and oxidizing agents (NaClO₂) and the insoluble residue were tested as substrates. The most-crosslinked insoluble inner part of the wall is the best substrate for the sporangia autolysin. Oligosaccharides obtained from the insoluble cell-wall fraction of sporangia by hydrolysis with Ba(OH)₂ inhibit autolysin action. We conclude that the oligosaccharide side chains of wall substrates are essential for forming the reactive enzyme-substrate complex.Abbreviations CSW chlorite-soluble cell-wall fraction - ICW insoluble cell-wall fraction - PSW salt-soluble fraction - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Cell-wall abnormalities of a Chlamydomonas reinhardtii mutant strain under suboptimal growth conditions

Sporangia were accumulated in autotrophically and mixotrophically growing cultures of the Chlamydomonas reinhardtii mutant strain ls entering the stationary phase. Such an accumulation of sporangia was never observed in stationary-phase cultures of wildtype strains. Sporangia harvested from stationary-phase cultures of the mutant strain ls released their zoospores after being resuspended in fresh culture medium. Liberation of zoospores was also observed during fixation of these sporangia with glutaraldehyde and OsO₄. Release of zoospores during fixation was prevented by pretreatment with 3 mol·l^–1 LiCl. Ultrastructural analyses of these LiCl-pretreated sporangia revealed that they contained abnormal sporangial walls: sporangia containing sporangia and sporangia surrounded by additional multilayered cell walls have been observed. Similar abnormal cell-wall structures were found in sporangia accumulated at the end of the dark period, when the mutant strain ls was grown photoautotrophically under a 12 h light-12 h dark regime with suboptimal aeration. When grown under optimal conditions, this particular mutant did not show any abnormal wall structures.This work has been supported by a grant from the Deutsche Forschungsgemeinschaft. The authors thank Mrs. C. Adami for the photographic work.     

Changes in phosphatase activity associated with cell wall defects in Chlamydomonas reinhardi

Experiments were performed to isolate mutants lacking alkaline phosphatase in Chlamydomonas reinhardi. Mutants with null enzyme activity were obtained. A cytological study of these mutants however revealed cell wall defects, suggesting that the loss of phosphatase activity in these strains is not due to the inactivation of the corresponding phosphatase structural gene but rather to the leakage of this enzyme as a consequence of the cell wall abnormality. Incidentally, this finding provides the basis of a convenient method for selecting easily cell wall mutants of Chlamydomonas.Chercheur qualifié du Fonds National Belge de la Recherche Scientifique.     

Composition of the cell wall formed by protoplasts isolated from cell suspension cultures of Vinca rosea

The biochemistry of cell-wall regeneration in protoplasts obtained from Vinca rosea L. (Catharanthus roseus (L.) G. Don) cells grown in suspension culture by isolating the regenerated wall and the extracellular polysaccharides of protoplasts cultured for various periods, and investigating their composition. Gas-liquid chromatography and tracer studies with D-[U-¹⁴C]glucose showed that the sugar composition of the extracellular polysaccharides was similar to that of the original cell culture, consisting mainly of polyuronide and 3,6-linked arabinogalactan. the regenerated cell wall was composed of non-cellulosic glucans having 1,3- and 1,4-linkages, while its content in pectic and hemicellulosic components was very low.     

Cell wall regeneration and galactomannan biosynthesis in protoplasts from carob

Protoplast isolation from endosperms of developing carob (Ceratonia siliqua L.) seeds is reported for the first time. These protoplasts regenerated cell walls within 12 h. In order to assess their potential for galactomannan biosynthesis, the incorporation of radioactivity in the regenerated cell wall polysaccharides (CWP) and extracellular polysaccharides (ECP), after feeding these protoplasts with D-[U-¹⁴C]glucose or D-[U-¹⁴C]mannose was studied. The pattern of the radioactive label distribution in the neutral sugars of the trifluoroacetic acid (TFA) hydrolysate of CWP was different from that of the ECP. In the TFA hydrolysis products of the CWP, immediately after protoplast isolation, the greatest level of radioactivity (approximately 90%) was detected in glucose, galactose and mannose. After 2 days protoplast culture, the label in mannose increased. In contrast, immediately after protoplast isolation, approximately 90% of radioactivity of the ECP was detected in galactose and mannose. However, during culture, the radioactivity incorporation in mannose dropped to one third, while that in galactose and arabinose increased significantly. Hydrolysis of the CWP and ECP with -galactosidase and endo--mannanase confirmed that, at least part of mannose and galactose belonged to galactomannan molecules. These results were compared with those obtained upon feeding developing endosperm tissue with D-[U-¹⁴C]mannose. From our results we concluded that protoplasts from endosperm tissues of developing carob seeds, retained the ability of their original explant to synthesize galactomannan, making protoplasts candidates for the study of galactomannan biosynthesis.     

Extraction by lithium chloride of hydroxyproline-rich glycoproteins from intact cells of Chlamydomonas reinhardii

A procedure has been developed to isolate and analyse the cell-wall glycoproteins of Chlamydomonas reinhardii. Under appropriate conditions, cell-wall glycoproteins can be quantitatively extracted from intact cells by aqueous LiCl. Although proteins and glycoproteins, which are presumably not related to the cell wall, are coextracted with the cell-wall subunits, these components can be readily identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis as demonstrated by comparative analysis of LiCl-extracts from wild-type cells and the cell-wall-deficient mutant CW-15. Apart from the high-molecular-weight cell-wall components, two glycoproteins with apparent molecular weights (M_rs) of 36000 and 66000 were found to be present in LiCl-extracts of wild-type cells but absent in LiCl-extracts from the cell-wall-less mutant. Pulse-labeling experiments with [³H]proline and [³⁵S]methionine revealed that the LiCl-extracts contained — in addition to the well-known cell-wall subunits — proteins of lower molecular weight, which are also preferentially labeled with [³H]proline. Protein components with M_rs of 68000, 44000, 36000, 26000 and 22000 were found to be more strongly labeled with [³H]proline than with [³⁵S]methionine, whereas protein components with M_rs of 57000 and 52000 were more prominent after labeling with [³⁵S]methionine. The portion of cell-wall subunits within the total amount of proteins extracted by LiCl was calculated to be at least 10% on the basis of the amount of hydroxyproline. Self-assembly of cell walls could be demonstrated after dialysis against water of a mixture of crude LiCl-extract and purified, insoluble, inner wall layers. Cell-wall glycoproteins could be enriched by gel exclusion chromatography of crude LiCl-extracts on Sepharose CL-4B columns equilibrated with 1 mol l^-1 LiCl.Abbreviations EDTA ethylenediaminetetraacetic-acid - PAGE polyacrylamide gel electrophoresis - PAS periodic acid Schiff's reagent - SDS sodium dodecyl sulfate - TCA trichloroacetic acid - Tris 2-amino-2-(hydroxymethyl)-1,3-propanediol     

Plant regeneration from protoplasts of Enteromorpha intestinalis (Chlorophyta, Ulvophyceae) as seedstock for macroagal culture

A continuous micropropagation was established from protoplasts of thegreen alga Enteromorpha intestinalis. The effects of two differentcrude enzymes and the osmolarity at different concentrations of the enzymesolution on algal protoplast yields were tested. The optimal enzymecomposition for cell wall digestion and protoplast viability was 2%cellulase R 10 Onozuka and 2% Aplysie with 0.5 m mannitol. Largenumbers of Enteromorpha protoplasts were released (10.0 × 10⁶protoplasts from 1 g fresh thalli) and settled on a rangeof substrata. Regeneration of the protoplasts followed the normal patternfor this species. Conditions for pure cultures and efficient systems offloating supports with nets were determined to optimise the product qualityof plantlets of Enteromorpha. A promising storage process has beendeveloped which involves including protoplasts in beads of alginic acid gel.Plants regenerated from protoplasts may also be used as seedstock tofacilitate propagation for macroalgal culture.     

Studies on the growth and development of protoplasts of the moss,Physcomitrella patens,and its control by light

Protoplasts prepared from protonemal cultures of the moss Physcomitrella patens begin to regenerate a new cell wall within 1 h of removal from cellulase. The wall is seen as a gradually thickening mat of fibres when examined by scanning electron microscopy. Development of filaments from protoplasts takes place in the majority of cases only after one or more cell divisions have occurred. The direction of emergence of filaments is random in uniform light, but strongly negatively phototropic in bright unidirectional horizotal light. Filament growth is also strongly negatively phototropic. The influence of unidirectional light can be destroyed by incubating protoplasts in the presence of colchicine. Filaments growing in unidirectional light have cytoplasmic microtubules running along their long axes and in close association with large organelles. These results are discussed in terms of the potential for this system for the study of polarity in plants.     

Cell wall polysaccharides from Talaromyces species

The neutral sugars and amino sugars, released by acid hydrolysis of walls and polysaccharidic fractions, of six species of Talaromyces and the infrared spectra have been used to study their interspecific relationships. In whole cell walls neutral sugars ranged from 23 to 39.6% dry weight and were identified as glucose, galactose and mannose. Glucosamine varied from 8 to 19.8% in the samples. Galactosamine (2% or less) was found in T. emersonii and T. rotundus and no galactosamine in the other species. Sequential fractionation of the cell walls with alkali and acid gave several polysaccharidic fractions. The main differences among species were found in the alkali-soluble fraction at 20° (F1). This fraction represented 8 to 33.2% of the whole cell wall and was characterized as an -glucan in T. bacillisporus, T. emersonii, T. luteus and T. rotundus (Group A) and as a -galactofuranosyl containing glucan in T. ohiensis and T. stipitatus (Group B). The alkali-insoluble residue (F4) represented the bulk of the cell wall in all species tested (33.2% to 57.3%) and was characterized as a -glucan/chitin complex. The results may indicate degrees of interspecific relationship in the genus Talaromyces.Abbreviations CWM cell wall material - GLC gas-liquid chromatography - IR infrared - wt weight - CBS Centraal Bureau voor Schimmelcultures (Baarn. The Netherlands) - Ara arabinose - Xyl xylose - Man mannose - Gal galactose - Glc glucose - GlcNH₂ glucosamine - GalNH₂ galactosamine     

The role of microtubules and cell-wall deposition in elongation of regenerating protoplasts of Mougeotia

Protoplasts of the filamentous green alga Mougeotia sp. are spherical when isolated and revert to their normal cylindrical cell shape during regeneration of a cell wall. Sections of protoplasts show that cortical microtubules are present at all times but examination of osmotically ruptured protoplasts by negative staining shows that the microtubules are initially free and become progressively cross-bridged to the plasma membrane during the first 3 h of protoplast culture. Cell-wall microfibrils areoobserved within 60 min when protoplasts are returned to growth medium; deposition of microfibrils that is predominantly transverse to the future axis of elongation is detectable after about 6 h of culture. When regenerating protoplasts are treated with either colchicine or isopropyl-N-phenyl carbamate, drugs which interfere with microtubule polymerization, they remain spherical and develop cell walls in which the microfibrils are randomly oriented.     

Plant regeneration fromArabidopsis thaliana protoplasts

Summary Arabidopsis thaliana protoplasts, isolated from a cell suspension, regenerated cell walls and then exhibited sustained cell divisions. Within 10 days after isolation as many as 40% of the protoplast-derived cells divided. Protoplast-derived calli exhibited a wide range of developmental responses, including apparent embryogenesis. The cell suspension has been cryopreserved.     

Ultrastructure of the cell wall regeneration of isolated protoplasts of Skimmia japonica thunb

Isolated protoplasts obtained from leaves and from stem callus cultures of Skimmia japonica were cultivated for 72 h to regenerate a new cell wall. During this process the structural changes in the protoplasts and at the surface of the plasmalemma were studied in ultrathin sections and after freeze-fracturing and deep-etching.The cultured protoplasts show an apparent increase in cell organelles compared to the freshly isolated protoplasts. In particular, mitochondria, endoplasmic reticulum, and ribosomes, many of them appear as polysomes, become numerous. Moreover, special connections between the ER and the plasmalemma are visible. Most important are the fracture faces of the plasmalemma with two different arrangements of membrane-bound particles: (1) particles in hexagonal arrays and (2) rows of ca. 14 particles. Their orientation usually conforms with that of the regenerated microfibrils of the cell wall. According to these results the following model for microfibril synthesis and orientation in higher plants is proposed: While the cytoplasmic activity is involved in the production of cellulose precursors and enzymes, the hexagonal arrays may respresent specialized regions for the outward passage of these cellulose precursors. The rows of membrane-associated particles may function as a linear enzyme complex (matrix) for microfibril biosynthesis and orientation.Abbreviations ER endoplasmic reticulum - IAA -indolylacetic acid - 2,4-D 2,4-dichlorophenoxy acetic acid