Subcellular distribution of 2′,3′-cyclic nucleotide-3′-phosphodiesterase in cat peripheral nerve

Subcellular distribution of 2′,3′-cyclic nucleotide-3′-phosphodiesterase (CNPase) in desheathed, saline perfused cat sciatic nerve is reported. CNPase specific activity was enriched in the total particulate (P₂) fraction and was low in the soluble (S₂) fraction. “Light-myelin” floating above the 0.60 M sucrose phase had the highest CNPase activity, 2.5-fold over the crude homogenate (CH). By contrast, enzyme activity in “heavy myelin” floating above the 0.85 M sucrose interface was equal to that of the CH and accounted for only 12% of total activity. CNPase activity in the membranes floating above the 0.25 and 0.60 and 0.85 M sucrose phases comprised nearly 70% of the total CNPase activity. The “light myelin” fraction floating above the 0.60 M sucrose accounted for approx. 51% of the total CNPase activity. SDS-PAGE of membranes individually harvested from above the 0.25 and 0.60 and 0.85 M sucrose phases revealed the presence of myelin-specific proteins (P₀, P₁; and P₂). Electron microscope examination demonstrated the presence of myelin in each membrane fraction. The results of this study show that the majority of CNPase activity is associated with “light myelin” in cat peripheral nerve.     

Iron and holotransferrin induce cAMP-dependent differentiation of Schwann cells

The differentiation of myelin-forming Schwann cells (SC) is completed with the appearance of myelin proteins MBP and P₀ and a concomitant downregulation of markers GFAP and p75NTR, which are expressed by immature and adult non-myelin-forming SC. We have previously demonstrated that holotransferrin (hTf) can prevent SC dedifferentiation in culture ( Salis et al., 2002), while apotransferrin (aTf) cannot. As a consequence, we used pure cultured SC and submitted them to serum deprivation in order to promote dedifferentiation and evaluate the prodifferentiating ability of ferric ammonium citrate (FAC) through the expression of MBP, P₀, p75NTR and c-myc. The levels of cAMP, CREB and p-CREB were also measured. Results show that Fe³⁺, either in its free form or as hTf, can prevent the dedifferentiation promoted by serum withdrawal.     

Myelin subfractions isolated from mouse brain. Studies of normal mice during development,quaking mutants,and three brain regions

Myelin isolated from three areas of mouse brain, from whole brain at several ages in normal mice, and from whole brain of adult quaking mutant mice was separated into seven bands and a pellet on discontinuous density gradients using 0.32, 0.45, 0.55, 0.60, 0.70, 0.75, and 0.85 M sucrose. The distribution of myelin in the subfractions was independent of homogenization and shocking conditions employed to isolate the myelin preparations, but was related to the type of myelin applied to the gradient. Compared to myelin isolated from older animals, myelin isolated from 18–24 day old mice displayed a distribution pattern with greater proportions of material banding at lesser sucrose densities. Similarly, myelin obtained from hindbrain contained proportionately more material layering at lesser sucrose densities compared to myelin isolated from cerebral cortex. Myelin subfraction patterns observed for 8–12 day old control mice and quaking mutants were unlike each other or any other myelin preparation examined. In the 18–90 day old animals, the markers studied were not uniformly distributed among the myelin subfractions. The pellet and the layer banding at the 0.75/0.85 M sucrose interface contained the highest specific concentrations of sialic acid, nucleic acid, and total adenosine triphosphatase activity. In contrast, the specific activity of 2′,3′ -cyclicnucleotide-3′-phosphohydrolase was lowest in the pellet as well as the three bands obtained above 0.60 M sucrose and was highest in the fraction banding at the 0.65/0.70 M sucrose interface. The results obtained were not consistent with an artifactual origin of the myelin subfractions, but instead suggested that the subfractions have physiological significance. One explanation for the different banding patterns observed between young and mature myelin may be the different amount of myelin in various brain regions during development.     

Zonal centrifuge profiles of rat brain homogenates: Instability in sucrose,stability in iso-osmotic Ficoll-sucrose

By substituting iso-osmotic Ficoll-sucrose for hyperosmotic sucrose between the densities of 1.043 and 1.088 in sucrose density gradients in the B-XV rotor of an Anderson-NIH-AEC zonal centrifuge system, it was possible to stabilize the zonal centrifuge absorbancy profiles of adult rat brain homogenates. The reason for the instability in ordinary sucrose gradients was found to be the interaction of myelin with other brain structures in hyperosmotic sucrose. No such interaction occurred in isoosmotic sucrose (0.32 M) with or without Ficoll. In Ficoll-sucrose, myelin was separated at three reproducible densities of 1.054, 1.060, and 1.066 gm/ml. No myelin appeared at a density if 1.094 gm/ml, which represented the main collection point in ordinary sucrose. Synaptosomes were separated at peak densities of 1.072 and 1.152 gm/ml. Mitochondria were obtained at a density of 1.176 gm/ml. Areas under zonal centrifuge absorbancy profiles of rat brain homogenates were found to be constant regardless of the values of ω²t that were reached.     

P0 and myelin basic protein-like immunoreactivities following ligation of the sciatic nerve in the rat

In this work we analyzed variations in the expression of MBPs and P₀ in ligated sciatic nerves of young and adult rats at 3, 7, and 14 days postligation (PL), by immunohistochemistry and SDS-PAGE of isolated myelin. A protein redistribution was seen in the distal stump of ligated nerves with the appearance of immunoreactive clusters. Using the KS400 image analyzer, immunostained area values were obtained from the different nerves dissected. In adult rats, there was an increase of the immunostained area for MBP from 3 to 7 days PL, coincident with a reorganization of the marker in clusters, followed by a marked decrease at 14 days. P₀ immunolabeling gave similar results without, however, a decrease of the immunostained area at the longer survival time tested. Young animals showed an acceleration in the process of protein redistribution and digestion within ligated nerves, which followed a similar pattern as that of adult animals. Analysis by electrophoresis showed a marked decrease in P₀ and MBP at 7 days PL in young rats and 14 days PL in adult rats. The functional significance of protein clustering within myelin in injured nerves deserves further analysis.     

S‐deficiency responsive accumulation of amino acids is mainly due to hydrolysis of the previously synthesized proteins – not to de novo synthesis in Brassica napus

To characterize the mechanisms of amino acid accumulation under sulphur (S)‐deficiency and its physiological significance in Brassica napus, stable isotopes ¹⁵N and ³⁴S were employed. The plants were exposed for 9 days to S‐deficient conditions (0.05 mM vs 1.5 mM sulphate). After 9 days of S‐deficiency, leaf‐osmotic potential and total chlorophyll content significantly decreased. S uptake decreased by 94%, whereas N uptake and biomass were not significantly changed. Using ¹⁵N and ³⁴S labelling, de novo synthesis of amino acids and proteins derived from newly absorbed NO₃^? and SO₄^2? and the content of N and S in the previously synthesized amino acids and proteins were quantified. At the whole plant level, S‐deficiency increased the pool of amino acids but resulted in strong decrease of incorporation of newly absorbed NO₃^? and SO₄^2? into amino acids by 22.2 and 76.6%, respectively, compared to the controls. Total amount of N and S incorporated into proteins also decreased by 28.8 and 62.1%, respectively. The levels of ¹⁴N‐ and ³²S‐proteins (previously synthesized proteins) strongly decreased, mainly in mature leaves. The data thus indicate that amino acid accumulation under short‐term S‐deficiency results from the degradation of previously synthesized proteins rather than from de novo synthesis.     

Wheat-germ agglutinin is synthesized as a glycosylated precursor

The biosynthesis and processing of wheat-germ agglutinin (WGA) were studied in developing wheat (Triticum aestivum L. cv. Marshall) embryos using pulse-chase labeling, subcellular fractionation and immunocytochemistry. A substantial amount of newly synthesized WGA was organelle-associated. Isolation of WGA on affinity columns of immobilized N-acetylglucosamine indicated that it was present in a dimeric form. When extracts from embryos pulse-labeled with [³⁵S]cysteine were fractionated on an isopycnic sucrose gradient, radioactivity incorporated into WGA was detected at a position coincident with the endoplasmic reticulum (ER) marker enzyme NADH-cytochromec reductase. The WGA in the ER could be slowly chased into the soluble, vacuolar fraction, with a half-life of approx. 8 h. Immunolocalization studies demonstrated the accumulation and distribution of WGA throughout the vacuoles.Four forms of the WGA monomer were characterized using immunoaffinity purification and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. In-vitro translation of polyadenylated RNA isolated from developing wheat embryos produced a polypeptide with M_r 21 000. In-vivo labeling of embryos with radioactive amino acids resulted in the formation of a polypeptide of M_r 23 000 and the mature monomer of M_r 18000. When [³H]mannose was used in labeling studies, only the polypeptide of M_r 23 000 was detected. In-vivo labeling in the presence of tunicamycin yielded an additional polypeptide of M_r 20 000. These results indicate that WGA is cotranslationally processed by the removal of a signal peptide and the addition of a glycan, presumably at the carboxy-terminus (N.V. Raikhel and T.A. Wilkins, 1987, Proc. Natl. Acad. Sci. USA 84, 6745–6749). The glycosylated precursor of WGA is post-translationally processed to the mature form by the removal of a carboxyl-terminal glycopeptide.Abbreviations ER endoplasmic reticulum - IgG immunoglobulin G - M_r relative molecular mass - poly(A)⁺RNA polyadenylated RNA - SDS-PAGE sodium dodecyl sulfatepolyacrylamide gel electrophoresis - WGA wheat-germ agglutinin     

Susceptibility of myelin proteins to a neutral endoproteinase: The degradation of myelin basic protein (MBP) and P2 protein by purified bovine brain multicatalytic proteinase complex (MPC)

Multicatalytic proteinase complex (MPC) was isolated from bovine brain and the susceptibility of myelin basic protein (MBP) and P₂ protein of bovine central and peripheral nervous system was examined. SDS-polyacrylamide electrophoretic analysis of purified MPC revealed protein bands of molecular weight ranging from 22–35 kDa. The enzyme is activated by SDS at a concentration less than 0.01%. Upon incubation with MPC, purified MBP and P₂ proteins were degraded into smaller fragments. There was a 57% and 100% loss of MBP at 2 and 6 hours of incubation. The P₂ protein which is not susceptible to any endogenous non-lysosomal enzyme thus far studied was digested into small peptide fragments only in the presence of SDS (0.01%) and not in its absence. These results indicate that MPC which is active at physiological conditions may have a role in the turnover of myelin proteins and in demyelinating diseases.     

Biosynthesis of the Snowdrop (Galanthus nivalis) Lectin in Ripening Ovaries

The biosynthesis and processing of the Galanthus nivalis agglutinin were studied in vivo in ripening snowdrop ovaries. Using labeling and pulse chase labeling experiments it could be demonstrated that the snowdrop lectin is synthesized as a precursor of relative molecular weight (M_r) 15,000 which is posttranslationally converted into the authentic lectin polypeptide of M_r 13,000 with a half-life of about 6 hours. Gel filtration of an extract of [³H]leucine labeled ovaries on Sepharose 4B showed that a significant portion of the newly synthesized lectin is associated with the particulate fraction. When the organellar fraction was fractionated on isopycnic sucrose gradients this lectin banded in the same density region as the endoplasmic reticulum (ER) marker enzyme NADH cytochrome c reductase. Both radioactivity in lectin and in enzyme activity shifted towards a higher density in the presence of 2 millimolar Mg-acetate indicating that the labeled lectin was associated with the rough ER. Labeled lectin could be chased from the ER with a half-life of 4 hours and then accumulated in the soluble fraction. Whereas the ER-associated lectin contains exclusively polypeptides of M_r 15,000 the soluble fraction contains both precursor molecules and mature lectin polypeptides. The snowdrop lectin in the ER is fully capable of binding immobilized mannose. It is associated into tetramers with an appropriate molecular weight of 60,000. These results indicate that newly synthesized snowdrop lectin is transiently associated with the ER before transport and processing.     

Sulfate metabolism of rat P0 glycoprotein: some observations

It has been known for some time that P₀, the major intrinsic protein in PNS myelin, contains sulfate. The position of sulfate has been described for beef PNS myelin, but rat PNS myelin differs somewhat from that of the beef, therefore an investigation of the location of sulfate in rat P₀ was undertaken. Weanling rat nerves were incubated with [³H] amino acid mixture and [³⁵S]O₄, and purified myelin was prepared, and the proteins separated on polyacrylamide gels. The bulk of the [³⁵S]O₄ was incorporated into P₀, but smaller peaks of sulfate label were found in the higher molecular weight proteins. With tunicamycin in the incubation mixture, sulfate incorporation was inhibited. Incubation of the labeled myelin mixture with endo F or glycanase resulted in total loss of sulfate label on P₀, therefore all of the [³⁵S]O₄ was incorporated into the oligosaccharide chain, with none on the polypeptide. Castanospermine and deoxymannojirimycin inhibited [³⁵S]O₄ incorporation into P₀, but no inhibition was exerted by swainsonine. These results indicate that sulfate resides in the core of the oligosaccharide chain, with none in the terminal region. Such a structure would correlate with the lack of an HNK-1 epitope, absent in the rat, but found in P₀ of many species.Abbreviations Used Endo H endoglycosidase H - Endo F endoglycosidase F - GalNAc N-acetyl galactosamine - GlcNAc N-acetyl glucosamine - MAG myelin-associated glycoprotein - Man mannose Special issue dedicated to Dr. Marjorie B. Lees.     

Distribution of selected phospholipid modifying enzymes in rat brain microsomal subfractions prepared by density gradient zonal rotor centrifugation

A rat brain P₃ fraction enriched in ER derived microsomes was centrifuged through a 20–40% linear sucrose gradient in a Beckman Ti-14 Zonal rotor and 11 fractions were obtained. The distribution of marker enzyme activities and protein were determined in these 11 subfractions. NADPH-Cytochrome C reductase, choline phosphotransferase were employed for endoplasmic reticulum, Na⁺, K⁺-ATPase, 5-nucleotidase, and acetylcholinesterase were employed for plasma membrane, 2, 3-cyclic nucleotide phosphohydrolase was employed for myelin. The bulk of the protein was recovered in the 24–34% sucrose fractions, Na⁺, K⁺-ATPase, 5-nucleotidase, and acetylcholinesterase were in the 22–38% sucrose fractions while NADPH-cytochrome C reductase and CNPase were enriched in the 20–22% sucrose fractions. The ethanolamine and the serine base exchange activities had a bimodal distribution, with highest specific activities in sucrose fractions 32–34% and 20–24%. Choline base exchange activity was nearly undetectable in all the fractions. The specific activities of CDP-choline phosphotransferase, and phospholipid-N-methyltransferase were highest in the 20–22% sucrose fraction. Phospholipid-N-methyltransferase activity was significantly stimulated in the presence of exogenous phospholipid acceptors as phosphatidylethanolamine or phosphatidylmonomethylethanolamine or phosphatidyldimethylethanolamine, however, the greatest response was with phosphatidylmonomethylethanolamine. The rat brain P₃ fraction yielded a population of a membrane at the light end of the sucrose gradient which has a buoyant density similar to myelin but seemed to be enriched with NADPN cytochrome C reductase and phospholipid modifying enzymes. This is in contrast to liver microsomes submitted to a similar fractionation.     

SUC1 and SUC2: two sucrose transporters from Arabidopsis thaliana; expression and characterization in baker's yeast and identification of the histidine-tagged protein

An important, most likely essential step for the long distance transport of sucrose in higher plants is the energy-dependent, uncoupler-sensitive loading into phloem cells via a sucrose-H⁺ symporter. This paper describes functional expression in Saccharomyces cerevisiae of two cDNAs encoding energy-dependent sucrose transporters from the plasma membrane of Arabidopsis thaliana, SUC1 and SUC2. Yeast cells transformed with vectors allowing expression of either SUC1 or SUC2 under the control of the promoter of the yeast plasma membrane ATPase gene (PMA1) transport sucrose, and to a lesser extent also maltose, across their plasma membranes in an energy-dependent manner. The K_M-values for sucrose transport are 0.50 mM and 0.77 mM, respectively, and transport by both proteins is strongly inhibited by uncouplers such as carbonyl cyanide m-chlorophenylhydrazone (CCCP) and dinitrophenol (DNP), or SH-group inhibitors. The V_MAX but not the K_M-values of sucrose transport depend on the energy status of transgenic yeast cells. The two proteins exhibit different patterns of pH dependence with SUC1 being much more active at neutral and slightly acidic pH values than SUC2. The proteins share 78% identical amino acids, their apparent molecular weights are 54.9 kDa and 54.5 kDA, respectively, and both proteins contain 12 putative transmembrane helices. A modified SUC1-His6 cDNA encoding a histidine tag at the SUC1 C-terminus was also expressed in S. cerevisiae. The tagged protein is fully active and is shown to migrate at an apparent molecular weight of 45 kDa on 10% SDS—polyacrylamide gels.     

Incorporation of 14C in the cyanobacterium Synechococcus PCC 6301 following salt stress

Synechococcus PCC 6301 synthesized sucrose as a compatible solute following hyperosmotic shock induced by NaCl. Initial rates of photosynthetic ¹⁴C incorporation were reduced following salt shock. Photosynthetic rates were comparable in cells enriched for glycogen (by growth in NO ₃ ^- -deficient medium) and cells grown in NO ₃ ^- -sufficient medium in the absence of osmotic shock. Incorporation of ¹⁴C was predominantly into the NaOH fraction and the residual acidic fraction in cells grown in NO ₃ ^- -sufficient medium, whereas incorporation was predominantly into the residual acidic fraction in cells grown in NO ₃ ^- -deficient medium. Following salt stress, ¹⁴C incorporation was initially into the ethanol-soluble fraction and the majority of tracer was recovered in sucrose. Carbon-14 was detected in sucrose in cells which had been enriched for [¹⁴C]glycogen prior to salt stress, inferring that glycogen can act as a carbon source for sucrose synthesis following salt stress. Changes in the specific activity of sucrose are consistent with an initial synthesis of sucrose from glycogen followed by synthesis of sucrose using newly fixed carbon, in response to salt stress.This work was supported by the Agricultural and Food Research Council.     

Calcium-dependent phospholipid-binding proteins in plants

There is evidence that Ca²⁺ can regulate vesicle-mediated secretion in plant cells, but the mechanism for this is not known. One possibility is that Ca²⁺ -dependent phospholipid-binding proteins (annexins) couple the Ca²⁺ stimulus to the exocytotic response. Using a protocol developed for the isolation of animal annexins we have identified proteins in maize (Zea mays L.) coleoptiles that have similar characteristics to annexins. The predominant polypeptide species run as a doublet of relative molecular mass (M_r) 33000–35000 on sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE); another less-abundant protein of M_r 23000 is also present. In the presence of Ca²⁺ these proteins bind to liposomes composed of acidic phospholipids. Calcium-sensitivity of binding differs for each protein and is also influenced by the pH of the buffer used for the liposome-binding assay. Antiserum raised to the 33 to 35-kDa doublet purified on SDS-PAGE recognises the doublet in crude extracts from maize and proteins of similar M_r in Tradescantia virginiana and tobacco Nicotiana tabacum L. The antiserum also recognises p68 (Annexin VI) from chicken gizzard extracts, indicating homology between animal annexins and the maize proteins. For the maize proteins to be involved in the regulation of exocytosis, binding to phospholipids would be expected to occur at physiological levels of Ca²⁺. The characteristics of the maize annexin-like proteins are described and attention drawn to the marked effect of pH in lowering the requirement for Ca²⁺ for phospholipid binding.Abbreviations DEAE diethylaminoethyl - EGTA ethylene glycol-bis (-aminoethyiether)-N,N,N,N-tetraacetic acid - kDa kilodalton(s) - M_r relative molecular mass - SDS-PAGE sodium dodecyl sulphate-polyacrylamide gel electrophoresis This work was funded by the Agricultural and Food Research Council. Our thanks also to Professor P. Lowry and Dr R. Woods, Department of Biochemistry, University of Reading for facilities and advice for antiserum production, and C. Boustead, Department of Biochemistry, University of Leeds for advice on immunoblotting and phospholipid-binding assays.     

Purification of allergenic proteins from peanut for preparation of the reactive solid phase of a specific IgE radioimmunoassay

Peanut is one of the most allergenic foods. Detection of specific IgE in the serum of allergic patients requires the purification of allergenic proteins. In the present work, proteins were recovered from peanut kernel after successive treatment in acetone and diethy ether. The proteins were dissolved in 0.05% TFA and analysed by RP-HPLC with a 0–100% gradient of methanol containing 0.05% TFA. The protein peaks were recovered and tested in SDS-PAGE. Eleven proteins were identified with a M_r ranging from 13 to 81. Western blotting was performed with sera from allergic patients. Allergenic proteins had a M_r of 15, 18, 19, 33, 41 and 67. By comparison, a protein fraction from peanut shell contained seven proteins with M_r ranging from 15 to 81. Only two proteins with M_r of 18 and 41 were detected in a Western blot. The protein fractions were coupled to epoxy-Sepharose and the gels were used as a solid reactive phase for detection by IgE-RIA of specific IgE from the serum of allergic patients.     

A biochemical comparison of Xenopus laevis and mammalian myelin from the central and peripheral nervous systems

Myelin purified from the central nervous system of Xenopus laevis contained the same major lipid and protein components as human myelin. However, some minor differences in the myelin proteins were noted. The Xenopus basic protein had a higher apparent mol wt. on sodium dodecyl sulfate gels than the corresponding mammalian protein. The absolute specific activity of 2′,3′-cyclic nucleotide 3′-phosphohydrolase in the Xenopus myelin was considerably higher than in mammals. There were differences in the high mol wt. proteins, and the glycoproteins in Xenopus myelin were more heterogeneous than those in mammals. Peripheral myelin from Xenopus sciatic nerve was compared with that from the rat. The lipids in the two types of myelin were similar. There was a major glycoprotein in the Xenopus myelin corresponding to the P₀ protein and a basic protein of slightly larger mol wt. than the P₁ protein of rat myelin.     

Characterization, Regional Distribution, and Subcellular Distribution of 125I-Tyr1-Somatostatin Binding Sites in Rat Brain

Abstract: ¹²⁵I-Tyr₁-somatostatin binds reversibly, in a saturable manner, and with high affinity to membranes from rat brain. Kinetic and saturation data measured at equilibrium lead to K_Dvalues of 0.4 nM for cortical membranes. The binding is not affected significantly by seven neuropeptides and drugs unrelated structurally to somatostatin (SRIF) while native SRIF, Tyr₁-SRIF, and D-Trp⁸-D-Cys¹⁴-SRIF displace ¹²⁵I-Tyr₁-SRIF in a dose-dependent manner, with K_i of 0.23 nM, 0.90 nM, and 0.11 nM, respectively. Binding sites for ¹²⁵I-Tyr₁-SRIF were found in 9 out of 11 central structures; there was a significant correlation between binding capacity and endogenous SRIF levels measured by radioimmunoassay. In each of the two structures containing the most binding sites, the cortex and the preoptic area, Scatchard analysis suggests a single population of sites with apparent affinities of 0.8 nM and 1.4 nM, respectively. Subcellular fractionation of these two regions reveals that more than 60% of ¹²⁵I-Tyr₁-SRIF specific binding of the homogenate is found in the crude mitochondrial pellet (P₂), which contains synaptosomes. When P₂ is further fractionated on a discontinuous sucrose gradient, most of the initial P₂ binding is recovered from membrane fractions. Each of nine SRIF analogs, with a single alanine substitution, displaces ¹²⁵I-Tyr₁-SRIF binding on cortical membranes in the same order of potency as on adenohypophyseal membranes (r= 0.84). The data demonstrate the presence of SRIF binding sites in the rat brain, with kinetic characteristics comparable to those found in the adenohypophysis, and they provide a biochemical basis for the multiple functions of SRIF in brain.     

Localization of sulfolipid labeling within cells and chloroplasts

Spinach chloroplasts were purified on gradients of Percoll which preserved envelope impermeability and CO₂-dependent oxygen evolution in the light. Application of ³⁵SO₄ to purified chloroplasts resulted in a light-dependent labeling of a lipid component which was indentified as sulfoquinovosyl diacylglycerol. Fractionation of chloroplasts showed that after 5 min of labeling most of the newly synthesized sulfolipid was present in thylakoids. Only a small percentage was recovered from the envelopes. Molecular species from envelopes and thylakoids were identical. The molecular species did not change during incubation times ranging from 5 min up to 4.5 h. Mesophyll protoplasts from ³⁵SO₄-labeled oat primary leaves were gently disrupted and separated into organelles by sucrose gradient centrifugation. Labeled sulfolipid was located almost exclusively in the chloroplasts. This, in combination with the experiments carried out with isolated chloroplasts, indicates that the final assembly steps in the biosynthesis of sulfolipid are confined to the chloroplasts.     

The role of sucrose and nitrogen in adventitious root formation on cultured rose shoots

Cultured shoots ofRosa ‘Improved Blaze’ were used to determine the effects of sucrose and inorganic nitrogen on adventitious root formation. Shoots grown in media containing high sucrose concentrations (146.07–262.93 mM) produced more and longer roots than those grown in media containing 0–87.64 mM sucrose. This response to sucrose was related to the metabolism of sucrose rather than its osmotic properties since the use of mannitol and 3-O-methyl-α-D-glucopyranoside as osmotic substitutes did not reproduce the effect on rooting. The number and length of roots increased when the shoots were grown in media with the nitrogen concentration of the Murashige-Skoog (MS) salt formulation reduced from 60 to 7.5 mM. Neither nitrate (NO ₃ ⁻ ) nor ammonium (NH ₄ ⁺ ) alone at any of the concentrations tested had the effect on rooting that both had together in the ratio of the MS salt formulation. When the sucrose and nitrogen concentrations were both varied, the greatest rate of root initiation occurred on shoots grown in media with a high sucrose to nitrogen concentration ratio.     

Sucrose transport by the alkaliphilic, thermophilic Bacillus sp. strain TA2.A1 is dependent on a sodium gradient

An alkaliphilic Bacillus designated strain TA2.A1, isolated from a thermal spring in Te Aroha, New Zealand, grew optimally at pH 9.2 and 70°C. Sodium chloride (>5 mM) was an obligate requirement for the growth of strain TA2.A1 on sucrose, and growth on sucrose was inhibited by monensin, an ionophore that collapses the sodium gradient (ΔpNa⁺) across the cell membrane. Sucrose transport by strain TA2.A1 was sodium dependent and was inhibited by monensin. The K_t for sucrose tran-sport was 33 μM and the Eadie–Hofstee plot was linear, suggesting one high-affinity uptake system for sucrose. The affinity for sodium was low (0.5 mM), and the Hill plot had a slope of 1.6, suggesting that sodium binding was noncooperative and that the sucrose transporter had more than one binding site for sodium. Based on these results, Bacillus strain TA2.A1 uses a sodium gradient for sucrose uptake, in addition to the sodium-dependent glutamate uptake system reported previously. Received: March 15, 2000 / Accepted: July 17, 2000