Extensin Secreted into the Culture Medium of Tobacco Cells II. Extensin Subfamilies of Similar Composition

Combining acetic acid extraction and high-performance gel chromatographyin guanidine HCl, extensin secreted into the medium by tobacco(Nicotiana tabacum L. var Xanthi) culture cells was separatedinto three component molecules, namely a major 74-kDa, and twominor 45-and 28-kDa components, in addition to larger oligomers.The sizes of these native extensin molecules were first reasonablyassessed using this gel-chromatography system. After deglycosylationwith hydrogen fluoride, the separation was improved and theestimated molecular sizes were reduced to 52 kDa, 34 kDa and18 kDa, respectively. The amino acid compositions of these componentswere similar, and N-terminal sequences of the 52- and 34-kDacomponents coincided. The relative abundance of the componentswas as follows: oligomers, 46%; 52-kDa, 44%; 34-kDa, 7.7%; 18-kDa,2.2%; respectively, on a protein basis (w/w). Fluorography ofthe acid extract of microsomes from cells labelled with ¹⁴C-prolinerevealed only one precursor band of 110-kDa or 42-kDa underthe glycosylating or non-glycosylating conditions, respectively.The smaller components in the medium may be derived, by proteolyticcleavage, from the major extensin molecule after secretion. (Received October 15, 1990; Accepted May 15, 1991)     

Purification and Characterization of a Galactose-Rich Basic Glycoprotein in Tobacco

We found a galactose-rich basic glycoprotein (GBGP) in the cell walls of cultured tobacco (Nicotiana tabacum) cells. GBGP and extensin were isolated as the major components of basic, salt-extracted cell wall glycoproteins. GBGP and extensin were separated by gel filtration in 6 m guanidine hydrochloride as 49- and 90-kD peaks, respectively, and further purified with reverse-phase chromatography. The protein moiety of GBGP constitutes about one-half of the molecule (w/w) and contains lysine (16%), proline (12%), hydroxyproline (10%), tyrosine (4%), alanine (7%), leucine (6%), and cystine (1.4%). Galactose accounted for 72% of the sugar moiety, arabinose content was low (17%), and a significant amount of mannose (7%) was found. No immunological cross-reaction was detected between GBGP and extensin. The antibody against native GBGP with sugar chains reacted with other glycoproteins on the gel blots, whereas the antibodies against deglycosylated GBGP and native extensin were highly specific. Immunolocalization analysis in tobacco stems showed that GBGP is specific to parenchyma tissue and that extensin localizes in the epidermis. This tissue-specific and exclusive distribution suggests important functions of these basic glycoproteins.     

A repetitive proline-rich protein from the gymnosperm douglas fir is a hydroxyproline-rich glycoprotein

Intact cell elution of suspension cultures derived from Douglas fir, Pseudotsuga menziesii (Mirbel) Franco, yielded two extensin monomers, the first hydroxyproline-rich glycoproteins (HRGPs) to be isolated from a gymnosperm. These HRGPs resolved on Superose-6 gel filtration. The smaller monomer was compositionally similar to angiosperm extensins like tomato P1. The larger monomer had a simple composition reminiscent of repetitive proline-rich proteins (RPRPs) from soybean cell walls and contained proline, hydroxyproline, and sugar; hence designated a proline-hydroxyproline-rich glycoprotein (PHRGP). The simple composition of the PHRGP implied a periodic structure which was confirmed by the simple chymotryptic map and 45-residue partial sequence of the major proline-hydroxyproline-rich glycoprotein chymotryptide 5: Lys-Pro-Hyp-Val-Hyp-Val-Ile-Pro-Pro-Hyp-Val-Val-Lys-Pro-Hyp-Hyp-Val- Tyr-Lys-Pro-Hyp-Val-Hyp-Val-Ile-Pro-Pro-Hyp-Val-Val-Lys-Pro-Hyp-Hyp- Val-Tyr-Lys-Ile-Pro-Pro(Hyp)-Val-Ile-Lys-Pro. Proline-hydroxyproline-rich glycoprotein chymotryptide 5 contained an 18-residue tandem repeat devoid of tetra(hydroxy)-proline or serine; it also contained two instances of the five-residue motif Hyp-Hyp-Val-Tyr-Lys and five of the general Pro-Pro-X-X-Lys motif, thereby establishing its homology with typical angiosperm RPRPs and extensins from tomato, petunia, carrot, tobacco, sugar beet, and Phaseolus. Unlike the nonglycosylated soybean RPRP, the highly purified Douglas fir PHRGP was lightly glycosylated, confirmed by a quantitative hydroxyproline glycoside profile, indicating that extensins can range from highly glycosylated hydroxyproline to little or no glycosylated hydroxyproline. Comparison of extensin sequence data strongly indicates that a major determinant of hydroxyproline glycosylation specificity is hydroxyproline contiguity: extensins with tetrahydroxyproline blocks are very highly arabinosylated (>90% hydroxyproline glycosylated), tri- and dihydroxyproline are less so, and single hydroxyproline residues perhaps not at all. Despite high yields of extensins eluted from intact cells, the Douglas fir cell wall itself was hydroxyproline poor yet remarkably rich in protein (>20%), again emphasizing the existence of other structural cell wall proteins that are neither HRGPs nor glycine-rich proteins.     

Purification of extensin from cell walls of tomato (hybrid of Lycopersicon esculentum and L. peruvianum) cells in suspension culture

Extensin, a hydroxyproline-rich glycoprotein comprising substantial amounts of -l-arabinose-hydroxyproline glycosidic linkages is believed to be insolubilized in the cell wall during host-pathogen interaction by a peroxidase/hydroperoxide-mediated cross-linking process. Both extensin precursor and extensin peroxidase were ionically eluted from intact water-washed tomato (hybrid) of Lycopersicon esculentum Mill. and L. peruvianum L. (Mill.) cells in suspension cultures and purified to homogeneity by a rapid and simple procedure under mild and non-destructive experimental conditions. The molecular weight of native extensin precursor was estimated to be greater than 240–300 kDa by Superose-12 gel-filtration chromatography. Extensin monomers have previously been designated a molecular weight of approximately 80 kDa. Our results indicate that salt-eluted extensin precursor is not monomeric. Agarose-gel electrophoresis, Superose-12-gel-filtration, extensin-peroxidase-catalysed cross-linking, Mono-S ion-exchange fast protein liquid chromatography (FPLC), and peptide-sequencing data confirmed the homogeneity of the extensin preparation. Evidence that the purified protein was extensin is attributed to the presence of the putative sequence motif — Ser (Hyp)₄ — within the N-terminal end of the protein. Treatment of extensin with trifluoroacetic acid demonstrated that arabinose was the principal carbohydrate. The amino-acid composition of the purified extensin was similar to those reported in the literature. The cross-linking of extensin in vitro upon incubation with extensin peroxidase and exogenous H₂O₂ was characteristic of other reported extensins. Furthermore, Mono-S ion-exchange FPLC of native extensin precursor resolved it into two isoforms, A (90%) and B (10%). The amino-acid compositions of extensin A and extensin B were found to be similar to each other and both extensins were cross-linked in vitro by extensin peroxidase.Abbreviations CM-cellulose carboxymethyl-cellulose - FPLC fast protein liquid chromatography - HF hydrogen fluoride - HRGP hydroxyproline-rich glycoprotein - Hyp hydroxyproline - V_c retention volume - TCA trichloroacetic acid - TFA tri-fluoroacetic acid This work was supported by a A.F.R.C. postdoctoral assistantship to Michael D. Brownleader. We thank Dr. Anthony K. Allen (Department of Biochemistry, Charing Cross and Westminster Hospital, London, UK) for performing the amino-acid analysis and Mrs. Margaret Pickering (Department of Biochemistry, Royal Holloway) for performing the peptide-sequence analysis of extensin. We also express our gratitide to Dr. A. Mort (Oklahoma State University) for performing the HF-deglycosylation of extensin.     

Isolation of extensin precursors by direct elution of intact tomato cell suspension cultures

Dilute salt solutions eluted peroxidase and hydroxyproline-rich glycoproteins (HRGP's) very rapidly (60 % within 10s) from the surface of intact tomato cells grown in suspension culture. Further purification of the HRGPs based on (a) their solubility in 10% trichloroacetic acid and (b) chromatography on carboxymethyl cellulose, gave two components (P1 and P2) rich in serine, tyrosine, lysine and arabinosylated hydroxyproline. The sum of the hydroxyproline arabinoside profiles of P1 and P2 approximated that of the wall. P1, unlike P2, was histidine-rich and also contained proline. Significantly, isodityrosine (IDT) was absent from P1 and P2 but present in cell wall hydrolysates where, the Hyp:IDT molar ratio was ca 15: 1. In cells 4 days after subculture, ³H-proline pulse-chase data indicated turnover of P1 and P2 presumably resulting from covalent attachment to the wall as neither P1 nor P2 appeared in the growth medium. At day four the cell mean generation time (MGT) was 4.6 days, the cell hydr oxyproline content was 0.7 % (w/w), the half lives of P1 and P2 were both ca 12 hr, and the combined CaCl₂ elutable P1 and P2 precursor pools contained ca 400 μg Hyp/g cells (dry weight). Calculated from the MGT and Hyp content, the cell demand was 44.μg Hyp/g cells (dry weight)/hr. The precursor pool size was therefore sufficient for 9 hours growth. However the pool turnover calculated from half life and pool size was 5.6 %/hr or 22.4μg Hyp/g cells (dry weight)/hr. Thus the supply of P1 and P2 precursors met > 50 % of the cell wall demand. Corroborative experiments showed that after depletion of the P1 and P2 pools by salt elution, washed cells resuspended in growth medium repleted the precursor pools at a rate corresponding to a synthesis of 43μg Hyp/g cells (dry weight)/hr, or 98 % of the demand. These data allow us to make the following suggestions: P1 and P2 represent monomeric extensin precursor subunits. Salt elution of P1 and P2 indicates their ionic binding by pectic carboxyl groups. The rapidity of elution indicates a high diffusivity of these extended rodlike macromolecules through the cell wall. This may imply a preferred orientation for P1 and P2 perpendicular rather than parallel to the plane of the wall. The lack of IDT in P1 and P2 implies that IDT forms in muro, possibly via peroxidase. We speculate that some of these IDT residues may crosslink an extensin precursor ‘tweft’ around a cellulose microfibrillar ‘twarp’. Such formation of heteromultimeric extensin interpenetrated by microfibrils would create a mechanically coupled extensin-cellulose network.     

Purification and Partial Characterization of a Hydroxyproline-Rich Glycoprotein in a Graminaceous Monocot, Zea mays

Graminaceous monocots generally contain low levels of hydroxyproline-rich Glycoproteins (HRGPs). As HRGPs are often at the cell surface, we used the intact cell elution technique (100 millimolar AlCl₃) to isolate soluble surface proteins from Zea mays cell suspension cultures. Further fractionation of the trichloroacetic acid-soluble eluate on the cation exchangers phospho-cellulose and BioRex-70 gave several retarded, hence presumably basic fractions, which also contained hydroxyproline (Hyp). One of these fractions yielded a pure HRGP after a final purification step involving Superose-6 gel filtration. As this HRGP was unusually rich in threonine, (25 mole%) we designated it as a threonine-hydroxyproline-rich glycoprotein (THRGP); it contained about 27% carbohydrate occurring exclusively as arabinosylated Hyp, predominantly as the monosaccharide (15%), and trisaccharide (25%) with 48% Hyp nonglycosylated—a characteristically graminaceous monocot profile. Amino acid analysis confirmed the basic character, and gave a low alanine content. Reaction with Yariv artificial antigen was negative. These characteristics show that the THRGP is not an arabinogalactan protein. On the other hand, antibodies raised against tomato extensin P1 cross-reacted significantly with the THRGP; this cross-reactivity and the above analytical data provide the best evidence to date for the presence of extensin in a graminaceous monocot.     

胡萝卜愈伤组织伸展蛋白纯化及某些生化特性的研究

本文报道了胡萝卜愈伤组织伸展蛋白的柱色谱纯化,电泳性质,氨基酸组成及其电镜观察结果。用CM-cellulose柱色谱纯化胡萝卜愈伤组织伸展蛋白时,仅发现有一个组分;它的电泳性质与胡萝卜根产生的第一种类型伸展蛋白相同;它的羟脯氨酸/絲氨酸克分子数比例大约为4/1(羟脯氨酸,42.1mol％;丝氨酸,12.8mol％);此外,在电子显微镜下观察,伸展蛋白具有典型棒状分子结构。     

The hydroxyproline‐rich glycoprotein domain of the Arabidopsis LRX1 requires Tyr for function but not for insolubilization in the cell wall

Extensins, hydroxyproline‐rich repetitive glycoproteins with Ser–Hyp₄ motifs, are structural proteins in plant cell walls. The leucine‐rich repeat extensin 1 (LRX1) of Arabidopsis thaliana is an extracellular protein with both a leucine‐rich repeat and an extensin domain, and has been demonstrated to be important for cell‐wall formation in root hairs. lrx1 mutants develop defective cell walls, resulting in a strong root hair phenotype. The extensin domain is essential for protein function and is thought to confer insolubilization of LRX1 in the cell wall. Here, in vivo characterization of the LRX1 extensin domain is described. First, a series of LRX1 extensin deletion constructs was produced that led to identification of a much shorter, functional extensin domain. Tyr residues can induce intra‐ and inter‐molecular cross‐links in extensins, and substitution of Tyr in the extensin domain by Phe led to reduced activity of the corresponding LRX1 protein. An additional function of Tyr (or Phe) is provided by the aromatic nature of the side chain. This suggests that these residues might be involved in hydrophobic stacking, possibly as a mechanism of protein assembly. Finally, modified LRX1 proteins lacking Tyr in the extensin domain are still insolubilized in the cell wall, indicating strong interactions of extensins within the cell wall in addition to the well‐described Tyr cross‐links.     

Boron deficiency effects on peroxidase, hydroxyproline, and boron in cell walls and cytoplasm of Helianthus annuus L. hypocotyls

Boron-deficient sunflower hypocotyls have, on a fresh weightbasis, more cytoplasmic and cell wall peroxidase, more cytoplasmichydroxyproline but equal cell wall hydroxyproline, and slightlyless cell wall boron, than controls. Incubation of either Bdeficientor control cell wall suspensions with Sclerotium rolfsii culturenitrate released 80% of the peroxidase activity, but only 14to 30% of the hydroxyproline. This differential extraction suggeststhat the hydroxyproline-containing protein of cell walls isnot identical with peroxidase. Boron deficiency increased thesusceptibility of cell walls to degradation by fungal enzymes,as measured by release of peroxidase and hydroxyproline, butnot by reduction in dry weight. ¹Scientific article No. A1847, Contribution No. 4756 of theUniversity of Maryland Agricultural Experiment Station. Thisresearch represents part of a thesis for the M.S. degree, Universityof Maryland, by J.B.S., Jr. This paper is dedicated to ProfessorHugh G. Gauch on the occasion of his sixtieth birthday. (Received December 5, 1972; )     

Distribution and metabolism of protein-bound hydroxyproline in an elongating tissue, the Avena coleoptile

A study has been made of the distribution and metabolism of protein-bound hydroxyproline in an elongating tissue, the excised Avena coleoptile. The hydroxyproline-containing proteins of this tissue have been separated into 3 fractions on the basis of their solubilities. The cytoplasmic, trichloroacetic acid-insoluble proteins (S-fraction) contain the bulk of the proline of the cells but only 20% of the hydroxyproline. The cytoplasm also contains a previously unrecognized trichloroacetic acid-soluble, non-dialyzable fraction (DS-fraction) which is low in proline but contains 20% of the hydroxyproline. The remaining 60% of the hydroxyproline is in the wall-bound, cold alkali-soluble fraction (extensin).

Incorporation of free proline into the proline and hydroxyproline of all fractions is linear with time for at least 12 hours. The specific activity of the proline at any time is the same in all 3 fractions while the specific activity of the hydroxyproline is 4-times greater in the S-fraction than in the W-fraction. During a pulse-chase experiment the specific activity of the proline decreases 25 to 40% in all fractions during the chase. The labeling of hydroxyproline in the wall increases during the chase while that of the DS-fraction remains constant. In the S-fraction, the labeling in hydroxyproline rapidly drops 30 to 35% during the chase but then remains constant. It is concluded that the majority of the hydroxyproline-proteins in the cytoplasm are not transported to the wall. It is suggested that a sizeable portion of the cytoplasmic hydroxyproline may be located in enzymatic proteins.

     

The Isolation and Characterization of a Cytochrome b6f Complex from the Cyanobacterium Spirulina sp.

A cytochrome b₆f complex was isolated and purified from Spirulinasp. The complex was solubilized with n-heptyl ß-D-thioglucosideand chromatographed on a DEAE-Toyopearl 650M column. The purifiedcomplex contained a small amount of chlorophyll and carotenoid.At least four polypeptides were present in the complex: cytochromef (29 kDa), cytochrome b₆(23 kDa), iron-sulfur protein (ISP,23 kDa), and a 17 kDa polypeptide. Each polypeptide was separatedfrom the complex treated with 2-mercaptoethanol or urea. Theabsorption spectra of cytochrome b₆ and cytochrome f were similarto those of Anabaena and spinach as expected. The complex wasactive in supporting ubiquinol-cytochrome c oxidoreductase activity.Fifty percent inhibition of the activity was accomplished by1 µM dibromothymoquinone (DBMIB). The K_m values for ubiquinol-2and cytochrome c (horse heart) were 5.7 µM and 7.4 µM,respectively. (Received August 15, 1988; Accepted November 14, 1988)     

Distribution and abundance of hyperiid amphipods in relation to summer mesoscale features in the southern Gulf of Mexico

Seventy-one hyperiid species were identified from 97 zooplanktonsamples collected in the southern Gulf of Mexico during July1988. About 91% of the adult individuals belonged to five species:Lestrigonus bengalensis (86.56% of total hyperiid numbers),Anchylomera blossevillei (1.20%), Phronimopsis spinifera (1.05%),Hyperioides longipes (1.00%) and Hyperietta vosseleri (0.99%).Overall, up to 74% of the hyperiids were collected at night,although a reverse migration was observed in the anticyclones.The mean abundance was 5-fold higher at the neritic stationsthan in the oceanic areas. This tendency was even more markedat night. Night samples yielded about the same number of speciesas during the daytime (56 taxa versus 61). Four mesoscale features(two anticyclones, one cyclone and one upwelling) characterizedthe oceanic mesoscale circulation in the surveyed area. Theabundance of the oceanic hyperiid community showed significantdifferences related to some of the mesoscale features activein the area, i.e. the abundance in the Lazy Eddy anticyclonewas lower than that in the cyclone (day and night). Overall,the upwelling areas showed a tendency to have higher abundancesthan the downwelling features (anticyclones). Cluster analysisindicated neritic–oceanic differences rather than mesoscalefeature-related differences in the local hyperiid community.The neritic community showed differences that were attributedto the effect of upwelling. The summer and spring hyperiid communitieshad important differences in the same area, thus suggestinga seasonal succession of the gulf hyperiid community.     

A possible role of hydroxyproline-protein in oxygen-sensitive growth

Exposure of Avena coleoptile sections to 8% O₂ brought aboutrespiration decrease, resulting in a decrease of ATP production.The pH at the cell wall surface slightly rose in sections exposedto 8% O₂, while their growth was greatly accelerated. Moreover,this growth acceleration was observed even in sections treatedwith CCCP known to make membranes permeable for protons. Weconcluded that the growth acceleration with reduction of O₂concentration is probably not the result of secretion of H₊ions into cell wall compartments. Results of this study provided evidence to support the hypothesisthat there is an inverse relationship between hydroxyproline-proteinlevel and the ability of a cell to undergo rapid cell elongation.Total labeling of the cell wall fraction with ¹⁴C-proline wasunaffected by 8% O₂ treatment, although the radioactivitiesof hydroxyproline incorporated into this fraction during thetreatments fell to about 45% of the control. Moreover, the radioactivitiesof hydroxyproline incorporated into the SLS-insoluble cell wallfraction of sections exposed to 8% O₂ decreased to about 30%of the control. This decrease of hydroxyproline was also observedin sections treated with cycloheximide, which inhibits the secretionof H₊ ions into the cell wall compartment. Reduction of O₂ concentrationin the surrounding atmosphere affects not only the hydroxylationof peptidyl proline, but also the binding of hydroxyproline-protein(s)to cell wall polysaccharides, and the resulting decrease ofthe protein rigidly bound to them may induce cell elongation. (Received December 5, 1975; )     

Synthesis of Arabinose-Containing Cell Wall Precursors in Suspension-Cultured Tobacco Cells II. Partial Purification and Some Physical Characterization of an Intracellular Precursor of Cell Wall Glycoproteins

Arabinose-containing macromolecules accumulate in the Golgiapparatus prior to their secretion into the cell wall. Theseintracellular macromolecules of suspension-cultured tobaccocells were labelled with ¹⁴C-arabinose, extracted and partiallycharacterized. The major component is a glycoprotein, in whicharabinose is linked to hydroxyproline residues as oligosaccharides,among them mainly as disaccharides. A pulse-chase experimentshowed the major glycoprotein to be a precursor of cell-wallmaterials. The glycoprotein has a density of 1.65 g/cm³, indicatinga high content of carbohydrate (90%), of which arabinose, galactoseand uronates are the major components. The glycoprotein is highlyacidic (pI1.3), probably due to the presence of uronate. Thelarge stokes' radius, equivalent to a 5 ? 10⁵-dalton protein,and a small S value (6.5 S) indicate a swollen structure forthe molecule. These data indicate a close similarity of theglycoprotein to an extracellular arabinogalactan protein secretedinto the culture medium. Present address: Institute for Plant Virus Research, TsukubaScience City, Yatabe, Ibaraki 305, Japan. (Received April 12, 1982; Accepted October 20, 1982)     

The role of carbohydrate in maintaining extensin in an extended conformation

Monomers of the plant cell wall glycoprotein extensin are secreted into the wall where they become cross-linked to each other to form a rigid matrix. Expression of the extensin matrix is correlated with the inhibition of further cell elongation during normal development, with increased resistance to virulent pathogens and with other physiological responses characterized by wall strengthening. Carbohydrates make up about two-thirds of the mass of extensin. Arabinose oligomers linked to hydroxyproline residues represent 95% of the total carbohydrate with the remainder occurring as single residues of galactose linked to some serine residues. Electron microscopy of shadowed extensin shows the glycosylated form to be an easily visualized and highly elongated molecule. In contrast, extensin that has been deglycosylated with anhydrous hydrogen fluoride is difficult to resolve in the EM. Glycosylated extensin elutes from a gel filtration column much more rapidly than does the deglycosylated form, and from this analysis we have calculated respective Stokes' radii of 89 and 11 Ångstroms for these molecules. Others have shown that inhibition of extensin glycosylation has no effect on its secretion or insolubilization in the cell wall, but that this extensin cannot inhibit cell elongation. It is likely that carbohydrate moieties keep extensin in an extended conformation and that extensin must be in this conformation to form a cross-linked matrix that can function properly in vivo.     

Changes in Crassulacean Acid Metabolism of Kalanchoe blossfeldiana by Different Nitrogen Sources

Kalanchoe blossfeldiana Poelln. cv. Hikan (a Crassulacean acidmetabolism (CAM) plant) was grown in pots containing soil for6 months and then cultured in nutrient solution containing 10mM nitrate or ammonium as a sole nitrogen source for 2 or 3months, under a long-day (16 h) condition. Plant growth was better in the nitrate medium. Leaves of thenitrate-grown plants showed greater diurnal fluctuations intitratable acidity and malate content than those of the ammonium-grownplants. The diurnal patterns in CO₂ exchange of nitrate-grownplants were basically similar for both groups, but the amountof net CO₂ uptake at night was twice as large in the nitrate-grownplants. The leaves of the nitrate-grown plants had 1.3 to 2.5times higher activities of phosphoenolpyruvate carboxylase (PEPC),phosphofructokinase (PFK) and NAD glycelaldehyde-3-phosphatedehydrogenase (G3PDH). These results indicate that K. blossfeldianagrown in nitrate medium showed more CAM activity than thosein ammonium medium. (Received August 13, 1987; Accepted February 22, 1988)     

Elicitor-Induced Spruce Stress Lignin (Structural Similarity to Early Developmental Lignins)

Suspension cultures of Picea abies (L.) Karst released polymeric material into the culture medium when treated with an elicitor preparation from the spruce needle pathogen Rhizosphaera kalkhoffii. The presence of lignin (about 35%, w/w) was demonstrated by phloroglucinol/HCI reactivity and quantitation with thioglycolic acid. Carbohydrate (about 14%, w/w) and protein (about 32%, w/w) were also detected. Amino acid analysis revealed that hydroxyproline and proline predominated. Thioacidolysis and subsequent Raney nickel desulfurization allowed the analysis of lignin-building units and interunit bonds. Compared with spruce wood lignin, an approximately 20-fold higher relative amount of p-hydroxyphenyl units was determined. A high content of p-hydroxyphenyl units is typical for certain developmental lignins, such as conifer compression wood and middle lamella lignins, as well as all induced cell culture lignins so far analyzed. Cross-linkages of the pinoresinol type ([beta]-[beta]) in the excreted cell culture lignin were markedly increased, whereas [beta]-1 interunit linkages were decreased relative to spruce wood lignin. The amount and nature of cross-linkages were shown to be intermediate between those in wood lignin and in enzymatically prepared lignins. In summary, the elicitor-induced stress lignin was excreted as a lignin-extensin complex that closely resembled early developmental lignins.     

Carbohydrate and osmotic requirements for high-frequency plant regeneration from protoplast-derived colonies of indica and japonica rice varieties

The effects were studied of various carbohydrates and osmoticstress, created by high agarose or carbohydrate concentrations,on the regeneration of fertile plants from protoplast-denvedcolonies of several indica (IR43, Jaya, Pusa Basmati 1) andjaponica (Taipei 309) rice varieties. Observations of the culturesdeveloped on media containing one of these carbohydrates (cellobiose,fructose, glucose, lactose, maltose, mannitol, sorbitol or sucrose),each at 88 mM, indicated that maltose was the preferential carbonsource for the proliferation of embryogenic callus and shootregeneration. Maltose-containing medium induced shoot formationin 24–66% of the protoplast-derived tissues, dependingupon the rice variety, compared to shoot regeneration from 4–32%of the tissues in sucrose-supplemented medium. Media containing288 mM maltose or an equimolar combination of 88 mM maltoseand 200 mM mannitol, caused water loss from calli and promotedthe growth of embryogenic calli. These calli formed shoots withgreater frequencies when subsequently transferred to shoot regenerationmedium with 88 mM maltose. A medium containing 88 mM maltoseand semi-solidified with 1.0% (w/v) instead of 0.5% (w/v) agarosehad a similar beneficial effect on the growth of embryogeniccalli and simultaneously supported high-frequency (48–55%)shoot formation. The optimum shoot regeneration frequencies(60–78%) were obtained when protoplast-derived colonieswere serially cultured on to shoot regeneration medium containing1.0% (w/v) agarose for 4 weeks, followed by a 2-week cultureperiod on the same medium with 0.5% (w/v) agarose. Plants regeneratedon medium containing maltose and/or 1.0% (w/v) agarose werephenotypically normal and fertile. Key words: Carbohydrates, Oryza sativa L, indica and japonica rice, osmotic stress, plant regeneration, protoplast-derived colonies