Relationship between the acid phosphatases of the Kurloff body and the major 30–35 kDa glycoproteins of the Kurloff cell

This study deals with the acid phosphatase (AcPase) of the Kurloff body (KB), a large (10 μm diameter) periodic acid-Schiff-positive lysosomal inclusion body present in Kurloff cells (KC). KC AcPase were extracted, with similar yields, either with non-ionic detergent solution or after Dounce homogenization in low ionic strength buffer suggesting that they mainly correspond to hydrosoluble AcPase. After DEAE-cellulose chromatography of such crude Dounce-extracts, 97% of KC AcPase activity was recovered in the unbound glycoprotein fraction (peak I). The main protein content consisted of, as testified by SDS-PAGE analysis, major KC glycoproteins of 30–35 kDa. Thus, KC AcPase, and particularly sialoAcPase, may be assumed to correspond to these N-glycosylproteins among which the presence of α(2,6) sialoglycoproteins was previously established. Following electrophoresis on a 4–15% gradient native polyacrylamide gel or isoelectric focusing, the two size populations (200 kDa and 500 kDa) and up to 20 isoforms of KC AcPase were respectively detected by zymography in peak I. After Clostridium-derived sialidase digestion of peak I, the highly active bands observed at pH 3.5 – 5.2 disappeared. These zymographic patterns were similar to those obtained with crude extracts. After Concanavalin A (ConA)-Sepharose chromatography of peak I, the single ConA-bound glucosamine-labelled peak, eluted at 200 methyl-α-d-mannopyranose, contained the AcPase activity while the ConA-unbound peak was devoid of any acid phosphatase activity. After SDS-PAGE analysis, the ConA-bound fraction appeared to correspond only to a single broad protein band in the 30–35 kDa zone. The Sambucus nigra agglutinin-reactivity of the latter band confirmed the α(2,6) sialylation pattern of KC AcPase. Moreover, their strong binding to ConA-Sepharose suggests that they could only correspond to the hybrid type of the N-glycosylproteins, since they could not correspond to the oligomannosidic type considering the absence of Galanthus nivalis agglutinin-positive structures.     

The major Kurloff cell glycoproteins: lectin affinities, glycosidase susceptibilities and relationship with the sialylated acid phosphatases of the Kurloff body.

Urea-soluble fractions from purified Kurloff cells (KC) were analysed by affinoblotting. Lectin reactivities were quasi-exclusively confined to the 30-35 kDa major glycoproteins (mGPs) (responsible for the PAS positivity of the Kurloff body) with strong affinities for Canavalia ensiformis lectin, Phaseolus vulgaris erythroagglutinin and Sambucus nigra (SNA), Pisum sativum, Triticum vulgaris and Ulex europeus agglutinins. These data were consistent with the presence, among the KC mGPs, of large amounts of complex or hybrid N-glycosylproteins, in particular with Neu5Ac alpha 2,6Gal/GalNAc sequences, fucosyl residues and bisected residues. Their oligosaccharide sequences belong to more than one class, since some of these lectin reactivities had to be borne by distinct N-linked oligosaccharide chains. Before further analysis, KC mGPs were separated from other highly anionic glycoconjugates, by DEAE-cellulose chromatography. Their abundant potential RCA-binding sites masked by sialic acid were then revealed after neuraminidase (sialidase) or dilute acid pre-treatment. In remaining consistent with their lectin affinities, some KC mGPs were found to be PNGase F sensitive, while, either desialylated or not, they were all O-glycanase insensitive. Finally, by combined zymography and affinoblotting, the SNA-reactive fraction of KC mGPs was shown to correspond to denatured forms of the two zymographic size populations (190 kDa and 500 kDa) of KC acid phosphatases.     

Two-dimensional zymography in detection of proteolytic enzymes in wheat leaves

Proteolytic enzymes in wheat leaves were studied using zymographic detection of enzyme activities on one-way (1D) SDS-polyacrylamide gels and two-dimensional (2D) ones, on which protein samples were isoelectrofocused prior to PAGE separation. Gelatin of concentration 0.1 %, copolymerized into SDS-PAGE gels, digested by active proteinases enabled detection of those enzymes. On 1D gels, seven bands were seen and assigned to particular families through the use of specific inhibitors. Metalloproteinases inhibited by 20 mM EDTA were detected as 150 kDa band; aspartic proteinases were assigned to 115–118 kDa double band by using 25 mM pepstatin; 10 mM phenylmethylsulfonyl fluoride used for detection of serine proteinases pointed to band of 70 kDa and finally due to 10 μM E-64 inhibitor, cysteine proteinases of 37 and 40 kDa were detected. On 2D gels, additional separation according to protein isoelectric points enabled detection of proteinase isoforms. In the range of 4.5–6 pI, six metalloproteinases as well as ten aspartic proteinases were visible, ten serine- isoforms of pI 4.5–6.8 and four cysteine proteinases of 4.5–5.0 pI were found. Presented results were detected as reproducible results observed at least in four independent biological replications.     

Purification and Characterization of Class Alpha and Mu Glutathione S-Transferases From Porcine Liver

Six cytosolic GSTs from porcine liver were purified by a combination of glutathione affinity chromatography and ion-exchange HPLC. The isoenzymes were characterized by SDS-PAGE, gel filtration, isoelectric focusing, immunoblotting analysis and determination of substrate specificities and inhibition characteristics. The purified GSTs belong to the alpha and mu classes, respectively. No class pi isoenzyme was isolated or detected. The class alpha GST pA1-1* exists as a homodimer (M_r = 25.3 kDa), whereas GST pA2-3* consists of two subunits with different M_r values (27.0 and 25.3 kDa). The estimated pI values were 9.5 and 8.8, respectively. Furthermore, four class mu porcine GSTs, pM1-1*, pM1-2*, pM3-?* and pM4-?*, were isolated. The isoenzyme pM1-1* possesses a relative molecular mass of 27.2 kDa and a pI value of 6.2. Additional pM1 isoenzymes hybridize with the subunit pM2* (M_r = 25.2) to furnish a heterodimer, which shows a pI value of 5.8. The other class mu isoenzymes are heterodimers with pI values of 5.45 and 5.05. Substrate specificities and inhibition characteristics correlate very well with those of the corresponding human isoenzymes. The results are discussed with regard to the usefulness of porcine GSTs as an in vitro testing model.     

Alpha naphthyl acetate esterase activities in guinea pig Kurloff cells: a cytochemical and electrophoretic study

We established the presence of nonspecific esterases in the Kurloff cell (KC) by cytochemical methods at both light and electron microscope levels. Acid alpha-naphthyl acetate esterase (ANAE) activities were localized on the external face of the plasma membrane and on the external surface of the membrane surrounding the Kurloff body. Different cytosoluble KC extracts were obtained from purified splenic KC suspensions. About 18 isoenzymes were observed by isoelectric focusing, whereas after polyacrylamide gradient gel electrophoresis in native conditions almost all activity was observed on a few broad bands with very high apparent molecular weights, suggesting their oligomeric arrangement. After a first aqueous extraction step which released only a few isoenzymes, the remaining pellet was subjected to Triton X-100. This released almost all the isoenzymes observed after direct Triton X-100 extraction. These data suggest that almost all the KC esterases are membrane-bound enzymes, in agreement with the subcellular enzyme distribution. Different substrates were also used to characterize the different specificities of the KC isoesterases. Weak activity was detected with alpha-naphthyl butyrate by light cytochemistry, which essentially corresponded, on zymograms, to the membrane-bound esterase activity.     

The proteoglycan skeleton of the Kurloff body as evidenced by Cuprolinic Blue staining

Summary This study deals with the ultrastructure of the chondroitin sulphate proteoglycans of the Kurloff body, a large lysosome organelle, metachromatic towards Toluidine Blue, of a blood cell unique to the guinea pig and called the Kurloff cell. Splenic Kurloff cell from oestrogen-treated guinea pig cells were examined after staining with Cuprolinic Blue, a cationic phthalocyanine-like dye, in the presence of MgCl₂ in a critical electrolyte concentration method. Better results were obtained when the fixation-staining by the glutaraldehyde Cuprinolinic Blue MgCl₂ mixture was preceded by a glutaraldehyde pre-fixation. On light microscopy, Kurloff bodies generally exhibited an overall pink and glassy metachromasia, sometimes with additional darker metachromatic small dots at their peripheries. At the ultrastructural level, the metachromatic central matrix of the Kurloff body usually exhibited, as a major feature, a typical network pattern of ribbon-like or stellate electron-dense precipitates suggesting the presence of a skeleton of Cuprolinic Blue-reactive filamentous structures. Taking into account their high anionicity (as shown by the stability of the dye binding in the presence of 0.3 m MgCl₂) and their susceptibility to chondroitinase ABC, these anionic structures were assumed to be related to the proteochondroitin-4-sulphate previously characterized as the only major sulphated glycoconjugate of the Kurloff cell.     

Properties of hemicellulases of the enzyme complex from Trichoderma longibrachiatum

Six xylan-hydrolyzing enzymes have been isolated from the preparations Celloviridin G20x and Xybeten-Xyl, obtained earlier based on the strain 1 Trichoderma longibrachiatum (Trichoderma reesei) TW-1. The enzymes isolated were represented by three xylanases (XYLs), XYL I (20 kDa, pI 5.5), XYL II (21 kDa, pI 9.5), XYL III (30 kDa, pI 9.1); endoglucanase I (EG I), an enzyme exhibiting xylanase activity (57 kDa, pI 4.6); and two exodepolymerases, β-xylosidase (β-XYL; 80 kDa, pI 4.5) and α-L-arabinofuranosidase I (α-L-AF I; 55 kDa, pI 7.4). The substrate specificity of the enzymes isolated was determined. XYL II exhibited maximum specific xylanase activity (190 U/mg). The content of the enzymes in the preparation was assessed. Maximum contributions to the total xylanase activities of preparations Celloviridin G20x and Xybeten-Xyl were made by EG I and XYL II, respectively. Effects of temperature and pH on the enzyme activities, their stabilities under various conditions, and the kinetics of exhaustive hydrolysis of glucuronoxylan and arabinoxylan were studied. Combinations of endodepolymerases (XYL I, XYL II, XYL III, or EG I) and exodepolymerases (α-L-AF I or β-XYL) produced synergistic effects on arabinoxylan cleavage. The reverse was the case when endodepolymerases, such as XYL I or EG I, were combined with α-L-AF I.     

Purification and characterization of Kurloff cell sialoglycoproteins with acid phosphatase activity

The majora2–6 sialoglycoproteins in detergent-extracts of Kurloff cells were purified by anion-exchange andSambucus nigra agglutinin-affinity chromatographies. The similar ultrastructural localisations of (1)S. nigra agglutinin-gold conjugates and (2) acid phosphatase activities on the Kurloff body and particularly on its myelin figures indicated that the majora2-6 sialoglycoproteins of the Kurloff cell had acid phosphatase activity. Two-dimensional electrophoresis showed that these tartrate-sensitive phosphatases corresponded to 2 acidic (pI 3.4–3.7) polypeptides of 36 and 34 kDa. Hydrolysis with peptide-N-glycosidases F gave a 33 kDa apoprotein rich in alanine, glutamic acid, tyrosine and lysin. A lectin-affinity study demonstrated that they contained hybrid type bisected and fucosylatedN-linked oligosaccharides. Cytotoxic properties were previously attributed to Kurloff cells and other studies suggested that not only acid phosphatases but alsoa2-6-linked sialic acid residues themselves may participate in natural killer activity.     

Isolation and properties of xyloglucanases of <Emphasis Type="Italic">Penicillium</Emphasis> sp.

Using chromatographic technique, xyloglucanase (XG) A (25 kDa, pI 3.5, 12th glycosyl hydrolase family) was isolated from the enzyme complex secreted by the mycelial fungus Penicillium canescens, and xyloglucanases XG 25 (25 kDa, pI 4.1, 12th glycosyl hydrolase family) and XG 70 (70 kDa, pI 3.5, 74th glycosyl hydrolase family) were isolated from the enzyme complex of Penicillium verruculosum. Properties of the isolated enzymes (substrate specificity, optimal ranges of pH and temperature for enzyme activity and stability, effect of metal ions on catalytic activity) were compared with the properties of xyloglucanases XG 32 of Aspergillus japonicus, XG 78 of Chrysosporium lucknowense, and XG of Trichoderma reesei. The gene xegA encoding XG A of P. canescens was isolated, and the amino acid sequence of the corresponding protein was determined.     

Evidence for a posttranslational covalent modification of liver glyceraldehyde-3-phosphate dehydrogenase in hibernating jerboa (Jaculus orientalis)

The specific activity of d-glyceraldehyde-3-phosphate (G3P) dehydrogenase (phosphorylating) (GPDH, EC 1.2.1.12) found in liver of induced hibernating jerboa (Jaculus orientalis) was 2–3-fold lower than in the euthermic animal. However, the comparative analysis of the soluble protein fraction of these tissues by SDS-PAGE and Western blotting showed no significant changes in the intensity of the 36 kDa protein band of the GPDH subunit. After using the same purification procedure, the GPDH from liver of hibernating jerboa exhibited lower values for both apparent optimal temperature and specific activity than the enzyme from the euthermic animal. Similar non-linear Arrhenius plots were obtained, but the E_a values calculated for the GPDH from hibernating tissue were higher. Although in both purified enzyme preparations four isoelectric GPDH isoforms were resolved by chromatofocusing, those of hibernating liver exhibited more acidic pI values (pI 7.3–6.1) than the hepatic isoforms of euthermic animals (pI 8.7–8.1). However, all liver GPDH isoforms exhibited similar native and subunit molecular masses and cross-reacted with an antibody raised against muscle GPDH. The comparison of the kinetic parameters of both purified preparations and the main isoforms isolated from euthermic and hibernating tissues showed the decreased catalytic efficiency of hibernating enzyme being exclusively due to a lower V_max for both substrates G3P and NAD⁺. Phosphodiesterase treatment of cell-free extracts increased GPDH activity in the case of hibernating liver only. The pI of the main isoform purified from this tissue, about 6.9, changed after this treatment to an alkaline value (pI 8.44) similar to those of the euthermic GPDH isoforms. Differential ultraviolet absorption spectra of these isoforms indicated that a substance absorbing at 260 nm, that was released by the phosphodiesterase digestion, was present in the enzyme of hibernating tissue. Incubation of purified GPDH with the NO-releasing agent sodium nitroprussite produced under conditions that promote mono-ADP-ribosylation a dramatic decrease of activity (up to 60%) of both euthermic and phosphodiesterase-treated hibernating preparations but only a marginal inhibition of the hibernating enzyme. These data suggest that liver GPDH of hibernating jerboa exhibits a posttranslational covalent modification, being probably a mono-ADP-ribosylation. The resulting inhibition of enzyme activity could contribute to the wide depression of the glycolytic metabolic flow associated with mammalian hibernation.     

Electrophoretic characterization of the protein and glycoprotein content of purified Kurloff cell cytosol

Proteins and glycoproteins from Kurloff cells (KC) were analyzed by SDS-polyacrylamide electrophoresis, isoelectric focusing, and two-dimensional electrophoresis, and major cytosolic glycoproteins of Mr 30,000-35,000 and pHi 5.7-6.7 were characterized. After incubation with radiolabeled amino acids (L-35S) methionine and L-(U14C) leucine) and gel autoradiography, all the proteins seemed to be labeled. D-(U14C) glucosamine-labeled proteins and periodic-acid-Schiff(PAS)-positive proteins focalized at the same pH. These data suggest that the major glycoprotein are synthesized by the KC themselves and that the PAS-positive Kurloff body has an endogenous origin. Whereas estrogens increase the KC number, 10(-6) M estradiol had no effect on the KC protein electrophoretic pattern and protein biosynthesis, in agreement with the lack of estradiol receptor in the KC cytosol.     

New acidic chitinase isoforms induced in tobacco roots by vesicular-arbuscular mycorrhizal fungi

Summary Chitinase activities have been compared in tobacco roots (Nicotiana tabacum cv. Xanthi nc) infected by the pathogenic fungus Chalara elegans or three species of vesicular arbuscular mycorrhizal (VAM) fungi: Glomus versiforme, G. intraradix and G. fasciculatum, using native polyacrylamide gel electrophoresis (PAGE). All previously known acidic chitinase isoforms were stimulated in roots by the pathogenic fungus and by the VAM fungi, while two new acidic chitinase isoforms were specifically induced in response to the endomycorrhizal association. After separation in sodium dodecyl sulphate polyacrylamide denaturing gels (SDS-PAGE) under non-reducing conditions, the estimated apparent molecular mass for these additional acidic chitinase isoforms from VAM-colonized samples was 33 kDa, compared to 30 kDa for the main activity stimulated in C. elegans-infected root extracts.     

Two differentially regulated nitrate reductases required for nitrate-dependent,microaerobic growth of Bradyrhizobium japonicum

Native PAGE of Triton x-100-solubilized membranes from Bradyrhizobium japonicum strain PJ17 grown microaerobically (2% O₂, v/v) in defined nitrate-containing medium resolved two catalytically active nitrate reductase (NR) species with apparent molecular masses of 160 kDa (NR_I) and 200 kDa (NR_II). NR_I and NR_II were also found in membranes from cells of strain PJ17 that were first grown in defined medium with glutamate and further incubated microaerobically in the presence of 5 mmol/l KNO₃. However, only NR_I was detected in cell membranes of strain PJ17 when nitrate was omitted from the microaerobic incubation medium. Four mutants unable to grow at low O₂ tension in the presence of nitrate were isolated after transposon Tn5 mutagenesis. Membranes from mutants GRF110 and GRF116 showed mainly NR_I, while the other two mutants, GRF3 and GRF4, expressed mostly NR_II. These results indicate that the ability of B. japonicum PJ17 to grow under microaerobic conditions depends upon the presence of two membrane-bound NR enzymes whose synthesis seem to be independently induced by microaerobiosis (NR_I) or by both microaerobiosis and nitrate (NR_II).Abbreviations NR Nitrate reductase - M _r Relative molecular mass - PMSF Phenylmethylsulfonyl fluoride     

Purification and Characterization of a Lectin from Amaranthus hypochondriacus var. Mexico Seeds

A lectin from Amaranthus hypochondriacus var. Mexico (AHML) was purified by affinity chromatography using asialofetuin-Sepharose 4B. AHML is specific for N-acetyl-d-galactosamine as are the other Amaranthus lectins. AHML has no carbohydrate moiety and requires no metal ion for the hemagglutination activity. The pI of AHML is 6.8. AHML has a native molecular mass of 45.0 kDa and is composed of homo-subunits having molecular masses of 36.8 kDa.     

Characterization of isoforms of human mitochondrial creatine kinase by isoelectric focusing

High enzyme activity of mitochondrial creatine kinase (creatine-N-phosphotransferase, mCK, EC 2.7.3.2) was detected in serum from a patient with advanced carcinoma of the rectum and its isoforms were characterized by means of isoelectric focusing (IEF). Three forms of mCK, membrane-bound (pI 6.9–7.0), octameric (pI 7.0–7.9) and dimeric (pI 6.7, 6.8, 6.9 and 7.0), were detected in the fresh serum. These three forms of mCK were converted to five dimeric isoforms, and these were characterized as one reduced form (pI 7.0) and four oxidized (pI 6.6, 6.7, 6.8 and 6.9) forms upon treatment with urea, hydrogen peroxide or 2-mercaptoethanol (2-ME). The C-terminal of the mCKs was concluded to be a lysine residue because the mCKs treated with carboxypeptidase B migrated to positions closer to the anode than did those not treated with carboxypeptidase B. Therefore, four bands were concluded to represent one reduced-delysined isoform (pI 6.4) and three oxidized-delysined isoforms (pI 6.1, 6.2 and 6.3). The broad octameric mCK band disappeared and a narrow band focused at pI 6.8–6.9 appeared upon probable delysination of the mCKs. Thus, the number of lysine residues at the C-terminal of the octamer was concluded to be variable due to variable catalysis by carboxypeptidase N in the plasma. mCKs seemed to be inactivated during conversion from a membrane-bound form to dimeric oxidized-delysined forms via the octameric, dimeric reduced and oxidized forms.     

Inhibition of α-, β-, γ-, and δ-carbonic anhydrases from bacteria and diatoms with N′-aryl-N-hydroxy-ureas

The inhibition of α-, β-, γ-, and δ-class carbonic anhydrases (CAs, EC 4.2.1.1) from bacteria (Vibrio cholerae and Porphyromonas gingivalis) and diatoms (Thalassiosira weissflogii) with a panel of N’-aryl-N-hydroxy-ureas is reported. The α-/β-CAs from V. cholerae (VchCAα and VchCAβ) were effectively inhibited by some of these derivatives, with K_Is in the range of 97.5?nM – 7.26?µM and 52.5?nM – 1.81?µM, respectively, whereas the γ-class enzyme VchCAγ was less sensitive to inhibition (K_Is of 4.75 – 8.87?µM). The β-CA from the pathogenic bacterium Porphyromonas gingivalis (PgiCAβ) was not inhibited by these compounds (K_Is?>?10?µM) whereas the corresponding γ-class enzyme (PgiCAγ) was effectively inhibited (K_Is of 59.8?nM – 6.42?µM). The δ-CA from the diatom Thalassiosira weissflogii (TweCAδ) showed effective inhibition with these derivatives (K_Is of 33.3?nM – 8.74?µM). As most of these N-hydroxyureas are also ineffective as inhibitors of the human (h) widespread isoforms hCA I and II (K_Is?>?10?µM), this class of derivatives may lead to the development of CA inhibitors selective for bacterial/diatom enzymes over their human counterparts and thus to anti-infectives or agents with environmental applications.     

Separation,Characterization, and Specificity of α-Mannosidases from Vigna umbellata

Information about the specificity of glycosidase enzymes is important since it affects their use for characterization and synthesis of oligosaccharides. Two α-mannosidases (EC 3.2.1.24), I and II, were isolated from rice beans (Vigna umbellata). The native molecular weight of both isozymes was estimated to be 329,000, but pIs of form I were 5.03-5.34 and pIs of form II were 5.46-6.20. The two isozymes were characterized in terms of optimal pH and temperature, effects of metal ions, inhibition by swainsonine and 1-deoxymannojirimycin, and kinetic parameters for p-nitrophenyl-α-D-mannopyranoside and Manα(1-2)Man. Both enzymes were more specific towards Manα(1-2)Man in both hydrolysis and synthesis, but their hydrolytic specificities towards Manα(1-3)[Manα(1-6)]Man were different.     

Characterization of Polyphenol Oxidase from the Latex of Opium Poppy

Polyphenol oxidase from the latex of opium poppy was purified to the electrophoretic homogeneity by affinity chromatography using p-aminobenzoic acid as a ligand coupled to Sepharose CL-4B by divinyl sulphone activation method. The purified enzyme was used to prepare the polyclonal antibodies. The purified latex PPO exhibited high diphenolase activity in comparison with almost unmeassurable monophenolase activity. Both of these activities were sensitive to the activation with sodium dodecyl sulphate. Two isoforms (65 and 40 kDa) of latex PPO were separated by the gel filtration. There were no differences in substrate specifity (weak monophenolase and high diphenolase activity) and sensitivity to inhibitors between these isoforms, but they showed differences in electrophoretic mobility. This revised version was published online in July 2006 with corrections to the Cover Date.     

Molecular analysis and mapping of two genes encoding maize glutathione S-transferases (GST I and GST II)

Maize glutathione S-transferase (GST) isozymes are encoded by a gene family comprising at least five genes, three of which (Gst I, II andIII) have recently been isolated and sequenced. The enzymes are active as homo or heterodimers and exhibit intraspecific polymorphism including a “null” variant for the two major isoforms expressed in roots. Northern blot analyses performed on total root RNA from “null” and “plus” genotypes, usingGst I- andGst II-specific probes, indicated that theGst I gene controls the expression of the two major GST isoforms expressed in roots.Gst I andGst II were mapped by RFLP analysis using an F₂ population of 149 individuals previously characterized.Gst I was localized on the long arm of chromosome 8, while two putativeGst II loci were mapped to chromosomes 8 (70 cM fromGst I) and 10, respectively.     

Pectin methylesterases from poplar cambium and inner bark: localization, properties and seasonal changes

In the course of a study on the early events of cambial derivative differentiation in Populus × euramericana, seasonal changes in the pattern of pectin methylesterase (PME, EC 3.1.1.11) isoforms were followed. During the resting season, cell wall extracts contained mainly alkaline isoforms with an M_r around 55 kDa and optimal pH between 5.6 and 6.0. Neutral isoforms with an M_r around 35 kDa and optimal pH between 6.0 and 6.6 predominated in the extracts during the period of high meristematic activity. In the active cambial initials and in their immediate derivatives, the enzymes were immunolocalized exclusively in the dictyosomes. In older cells, they were present both in dictyosomes and in wall junctions. These results indicate that exportation of neutral PMEs towards the walls might be considered as an early marker of differentiation in cambial derivatives. Received: 17 May 1996 / Accepted: 5 November 1996