Age-Dependent Modifications and Further Localization of the CX 26-like Protein from Vicia faba L.

A strong age dependency together with alterations in the cellular distribution of CX 26 immunorelated protein(s) was found for differently developed leaves of Vicia faba L. With increasing age, an immunoreactive 40 kD band was observed in the soluble and microsomal fraction. In the cell wall protein preparation of young and fully differentiated leaves the 40 kD band was the minor constituent. A 33 kD polypeptide was dominantly localized in the microsomal fractions of all developmental stages and in SDS-extracts of total cell proteins of young leaves. A 21 kD protein together with a 16 kD polypeptide was associated with the cell wall fraction. The 21 kD protein, assumed to represent a plasmodesmatal constituent, was reduced with age. In SDS extracts, prepared from the different developmental stages of the leaves and of mesophyll protoplasts, the age-dependent appearance of the several immunostained bands was most obvious. A correlation of the 16, 33, and 40 kD bands to a turnover of the 21 kD protein is suggested. The reduced amount of the 21 kD protein with increasing age may be contemplated as an indication for a relative decrease of symplastic connections between cells of maturing leaves. This is in agreement with the results obtained by immunofluorescence studies using guard cell protoplasts. Here, observations pointed also to a reduction and final loss of CX 26-related protein at the protoplast surfaces.     

Polyamine biosynthesis and titer during various developmental stages of Phaseolus vulgaris

The activities of arginine decarboxylase (ADC; EC 4.1.1.19) and ornithine decarboxylase (ODC; EC 4.1.1.17) as well as polyamine content were examined in Phaseolus vulgaris L. cv. Taylor's Horticultural before and during anthesis, during fruit development and throughout vegetative growth. The specific activities of polyamine biosynthetic enzymes were highest in all rapidly growing tissues, e.g., root apices, hypocotyls, young internodes, young leaves, flower buds, young pods and pericarps. They were lowest in mature, non-growing tissues. Similarly, the content of the major polyamines (putrescine, spermidine, spermine) is highest in rapidly growing tissues, and lowest in mature tissue. These correlations reinforce the growing connection between polyamines and rates of cell division and metabolic activity during both vegetative and reproductive development.     

Sites and regulation of polyamine catabolism in the tobacco plant. Correlations with cell division/expansion, cell cycle progression, and vascular development

We previously gave a picture of the homeostatic characteristics of polyamine (PA) biosynthesis and conjugation in tobacco (Nicotiana tabacum) plant organs during development. In this work, we present the sites and regulation of PA catabolism related to cell division/expansion, cell cycle progression, and vascular development in the tobacco plant. Diamine oxidase (DAO), PA oxidase (PAO), peroxidases (POXs), and putrescine N-methyltransferase expressions follow temporally and spatially discrete patterns in shoot apical cells, leaves (apical, peripheral, and central regions), acropetal and basipetal petiole regions, internodes, and young and old roots in developing plants. DAO and PAO produce hydrogen peroxide, a plant signal molecule and substrate for POXs. Gene expression and immunohistochemistry analyses reveal that amine oxidases in developing tobacco tissues precede and overlap with nascent nuclear DNA and also with POXs and lignification. In mature and old tissues, flow cytometry indicates that amine oxidase and POX activities, as well as pao gene and PAO protein levels, coincide with G2 nuclear phase and endoreduplication. In young versus the older roots, amine oxidases and POX expression decrease with parallel inhibition of G2 advance and endoreduplication, whereas putrescine N-methyltransferase dramatically increases. In both hypergeous and hypogeous tissues, DAO and PAO expression occurs in cells destined to undergo lignification, suggesting a different in situ localization. DNA synthesis early in development and the advance in cell cycle/endocycle are temporally and spatially related to PA catabolism and vascular development.     

BTH-Induced Accumulation of Extracellular Proteins and Blackspot Disease in Rose

Treatment of rose shoots with 50 µM acibenzolar-S-methyl (BTH) resulted in increased protection against Diplocarpon rosae. This was accompanied by the induction and accumulation of a set of extracellular proteins as shown by SDS-PAGE and 2D-PAGE. Some of these proteins have been identified as PR-1, PR-2, PR-3 and PR-5 proteins by immunoblot analysis probed with tobacco antisera against PR-1c, PR-N, PR-Q and PR-S protein. Most of the extracellular proteins activated by BTH were also induced and found to accumulate in leaves upon infection with Diplocarpon rosae. However, their accumulation was much more pronounced in BTH-pretreated leaves than in water-pretreated leaves upon a challenge inoculation with D. rosae, particularly, the 15 kD PR-1, 36 and 37 kD PR-2 proteins. They may be more important in the expression of disease resistance.     

Polyamines in turions and young plants of hydrocharis morsus-ranae and utricularia intermedia

Spermidine is the most abundant polyamine in dormant turions of Hydrocharis morsus-ranae and Utricularia intermedia, and it is also the dominant polyamine in sprouts of U. intermedia. The putrescine level is high in young leaves of H. morsus-ranae. Cadaverine and homospermidine occur respectively in vernalized turions of H. morsus-ranae and of U. intermedia.     

Chitinase, beta-1,3-glucanase, osmotin, and extensin are expressed in tobacco explants during flower formation.

Sequence analysis of five gene families that were isolated from tobacco thin cell layer explants initiating floral development [Meeks-Wagner et al. (1989). Plant Cell 1, 25-35] showed that two encode the pathogenesis-related proteins basic chitinase and basic beta-1,3-glucanase, while a third encodes the cell wall protein extensin, which also accumulates during pathogen attack. Another sequence family encodes the water stress-induced protein osmotin [Singh et al. (1989). Plant Physiol. 90, 1096-1101]. We found that osmotin was also induced by viral infection and wounding and, hence, could be considered a pathogenesis-related protein. These genes, which were highly expressed in explants during de novo flower formation but not in explants forming vegetative shoots [Meeks-Wagner et al. (1989). Plant Cell 1, 25-35], were also regulated developmentally in day-neutral and photoresponsive tobacco plants with high expression levels in the roots and moderate- to low-level expression in other plant organs including flowers. An unidentified gene family, FB7-4, had its highest level of expression in the basal internodes. Our findings indicate that these genes, some of which are conventionally considered to encode pathogen-related proteins, also have a complex association with normal developmental processes, including the floral response, in healthy plants.     

Nonspecific intercellular protein trafficking probed by green-fluorescent protein in plants

Summary Plasmodesmata mediate intercellular transport of proteins, nucleic acids, and small molecules in plants. We show that transiently produced green-fluorescent protein (GFP) trafficked intercellularly in the epidermis of sink leaves, but not of source leaves, in tobacco and cucumber. In contrast, the protein did not traffic in either sink or source leaves of tomato. On the other hand, the protein spread extensively from cell to cell in the epidermis of all leaves and stems ofArabidopsis thaliana as well as in young hypocotyls and cotyledons of tomato and cucumber. GFP could traffic from epidermis to ground tissues in hypocotyls but not in cotyledons of cucumber. GFP fused to a number of mutant forms of the cucumber mosaic virus 3a movement protein (CMV 3a MP) failed to traffic from cell to cell, suggesting that GFP does not have a specific motif for plasmodesmal trafficking. Our data, together with previous findings, indicate that plasmodesmata can mediate both specific and nonspecific intercellular trafficking of proteins. Furthermore, our data suggest that nonspecific protein trafficking is controlled by species-, development-, organ-, and tissue-specific factors. Since GFP can readily traffic from cell to cell, it raises the questions of how metabolites are compartmentalized intercellularly in a plant and of whether some endogenous plant proteins traffic nonspecifically from cell to cell to perform physiological functions yet to be elucidated.Abbreviations CMV cucumber mosaic virus - GFP green-fluorescent protein - MP movement protein - SEL size exclusion limit     

茶树叶片类脱水素蛋白的Western-blot分析

为了解茶树脱水素种类与功能,采用Western-blot技术,研究了不同季节及越冬过程中茶树叶片脱水素蛋白家族的表达模式。结果显示:(1)茶树叶片总蛋白提取采用酚-甲醇/醋酸铵沉淀法,用时短、蛋白浓度高、SDSPAGE电泳条带清晰,背景干净,满足茶树Western-blot技术要求。(2)在不同季节及越冬期中发现14~95kD共9种不同分子量的茶树类脱水素蛋白,其中95、65、48、37、34和14kD等6种蛋白表达量较为稳定,季节与越冬期变化不明显;58kD脱水素仅在冬季表达,越冬期不断上升,2月份增加到最高,表达丰度高;28kD脱水素蛋白在冬季表达量高,越冬期与茶树抗寒力变化规律一致;21kD脱水素在夏季和越冬期后期有较高的表达。研究表明,这3种脱水素可能在茶树抗逆中起着重要作用。     

Characteristics of cellular polyamine transport in prokaryotes and eukaryotes

Polyamine content in cells is regulated by biosynthesis, degradation and transport. In Escherichia coli, there are two polyamine uptake systems, namely spermidine-preferential (PotABCD) and putrescine-specific (PotFGHI), which belong to the family of ATP binding cassette transporters. Putrescine-ornithine and cadaverine-lysine antiporters, PotE and CadB, each consisting of 12 transmembrane segments, are important for cell growth at acidic pH. Spermidine excretion protein (MdtJI) was also recently identified. When putrescine was used as energy source, PuuP functioned as a putrescine transporter. In Saccharomyces cerevisiae, there are four kinds of polyamine uptake proteins (DUR3, SAM3, GAP1 and AGP2), consisting of either 12 or 16 transmembrane segments. Among them, DUR3 and SAM3 mostly contribute to polyamine uptake. There are also five kinds of polyamine excretion proteins (TPO1–5), consisting of 12 transmembrane segments. Among them, TPO1 and TPO5 are the most active proteins. Since a polyamine metabolizing enzyme, spermidine/spermine N¹-acetyltransferase, is not present in yeast, five kinds of excretion proteins may exist. The current status of polyamine transport in mammalian and plant cells are reviewed.     

Cyclin-dependent kinase 4 may be expressed as multiple proteins and have functions that are independent of binding to CCND and RB and occur at the S and G2/M phases of the cell cycle

Cyclin-dependent kinase 4 (CDK4) is known to be a 33 kD protein that drives G₁ phase progression of the cell cycle by binding to a CCND protein to phosphorylate RB proteins. Using different CDK4 antibodies in western blot, we detected 2 groups of proteins around 40 and 33 kD, respectively, in human and mouse cells; each group often appeared as a duplet or triplet of bands. Some CDK4 shRNAs could decrease the 33 kD wild-type (wt) CDK4 but increase some 40 kD proteins, whereas some other shRNAs had the opposite effects. Liquid chromatography–mass spectrometry/mass spectrometry analysis confirmed the existence of CDK4 isoforms smaller than 33 kD but failed to identify CDK4 at 40 kD. We cloned one CDK4 mRNA variant that lacks exon 2 and encodes a 26 kD protein without the first 74 amino acids of the wt CDK4, thus lacking the ATP binding sequence and the PISTVRE domain required for binding to CCND. Co-IP assay confirmed that this ΔE2 protein lost CCND1- and RB1-binding ability. Moreover, we found, surprisingly, that the wt CDK4 and the ΔE2 could inhibit G₁–S progression, accelerate S–G₂/M progression, and enhance or delay apoptosis in a cell line-specific manner in a situation where the cells were treated with a CDK4 inhibitor or the cells were serum-starved and then replenished. Hence, CDK4 seems to be expressed as multiple proteins that react differently to different CDK4 antibodies, respond differently to different shRNAs, and, in some situations, have previously unrecognized functions at the S–G₂/M phases of the cell cycle via mechanisms independent of binding to CCND and RB.     

Sugar-Induced Increase of Calcium-Dependent Protein Kinases Associated with the Plasma Membrane in Leaf Tissues of Tobacco

The sugar-inducible expression of genes for sporamin and [beta]-amylase in leaf explants of sweet potato (Ipomoea batatas) and that of a [beta]-glucuronidase-fusion gene, with the promoter of the gene for [beta]-amylase in leaves of tobacco (Nicotiana tabacum), requires Ca2+ signaling (M. Ohto, K. Hayashi, M. Isobe, K. Nakamura [1995] Plant J 7: 297-307), and it was inhibited by staurosporin and K252a, inhibitors of protein kinases. Autophosphorylation activities of several potential protein kinases in leaves of tobacco were significantly higher in younger leaves than in mature leaves. However, the autophosphorylation activities of these proteins in mature leaves, especially those of the major autophosphorylatable proteins with apparent molecular masses of 56 and 54 kD, increased upon treatment of leaf discs with a 0.3 M solution of sucrose, glucose, or fructose, did not increase with sorbitol or mannitol treatments, and the increase by sucrose was inhibited by cycloheximide. Autophosphorylation of the 56- and 54-kD protein in vitro was dependent on Ca2+ and inhibited by staurosporine, K-252a, and by W-7. These results suggest that they belong to the family of calcium-dependent protein kinases. They were concentrated in the plasma membrane fraction and were released from membrane vesicles by high salt or with sodium carbonate. The possible functions of these sugar-inducible calcium-dependent protein kinases associated with the plasma membrane are discussed.     

The Pathogenesis-Related Proteins of Phsseolus Bean

Seven acidic low molecular weight pathogenesis-related (PR) proteins from tobacco necrosis virus-infected Phaseolus bean leaves were isolated, purified and partially characterized. The proteins could ba classified following the nomenclature of Antoniw et al. (1980) for tobacco PR proteins. Three groups are thus proposed, corresponding to molecular sizes of 16, 27 and 31 kD, very close to the values of three groups proposed for tobacco. Tentative correspondences between the PR proteins here described and those previously reported by other authors are also proposed.     

Role of polyamines in gibberellin-induced internode growth in peas

To determine the requirement for polyamines in gibberellin (GA) induced internode growth polyamine content was measured in internodes of peas of various internode phenotypes (slender, tall, dwarf, nana) with and without applied gibberellin (GA₃) and polyamine synthesis inhibitors. Polyamines were assayed as dansyl derivatives which were separated by reverse phase high performance liquid chromatography and detected by fluorescence spectrophotometry. The amounts of polyamines in the different genetic lines of peas, which differed in internode lengths and extractable GA content, correlated with the extent of internode elongation. High polyamine concentrations were associated with young internodes and decreased with internode expansion. Extremely short internodes of nana plants without GA exhibited equal or higher amine concentrations relative to internodes of other lines of peas and GA-stimulated nana seedlings. The polyamine synthesis inhibitors, α-difluoromethylornithine and α-difluoromethylarginine, independently or in combination, inhibited polyamine accumulation and internode elongation of tall peas and GA-stimulated nana plants. Agmatine and putrescine restored growth and endogenous polyamine content to variable degrees. However, exogenous polyamines were not effective in promoting growth unless intracellular amines were partially depleted.

These results suggest that polyamines do not have a role in cell elongation, but may be required to support cell proliferation. Polyamines do not mediate the entire action of GA in internode growth of peas since GA induction of growth involves both cell division and cell elongation, whereas polyamines appear to affect cell division only.

     

Evidence for the occurrence of polyamine oxidase in the dicotyledonous plant Medicago sativa L. (alfalfa)

Polyamine oxidase (EC 1.5.3.3) activity has not been detected previously in cells of dicotyledonous plants, although it has been characterized extensively in monocotyledonous plants. Evidence is presented in this report for the occurrence of polyamine oxidase in dialyzed crude extracts of the dicotyledonous plant, Medicago sativa L. (alfalfa). Three enzyme assays were used to quantitate the formation of the three products of the reaction catalyzed by polyamine oxidase. 1-Pyrroline formation was measured colorimetrically as a yellow quinazolinium complex with o-aminobenzaldehyde. Hydrogen peroxide formation was measured spectrophotometrically with a coupled peroxidase assay system by peroxidative oxidation of guaiacol. [³H]1,3-Diaminopropane formation was measured by using [1,8-³H]spermidine as the substrate and separating the radiolabelled reaction product from the substrate by paper electrophoresis. This latter assay provided evidence that a polyamine oxidase of type [EC 1.5.3.3] catalyzed the cleavage reaction between a secondary nitrogen atom and an adjacent carbon of the butyl moiety of spermidine. Significant polyamine oxidase activity was detected in floral tissues, cortex tissues of the root, young leaves, and young germinated seedlings of alfalfa. The occurrence of polyamine oxidase in alfalfa accounts for the formation of the essential substrate, 1,3-diaminopropane, required for the biosynthesis of the uncommon polyamines, norspermidine and norspermine, which we have recently detected in alfalfa.Abbreviations PAO polyamine oxidase - MOPS [3-(N-morpholino)propanesulfonic acid] - MES [2-(N-morpholino)ethanesulfonic acid] - TES [N-tris (hydroxymethyl)methyl-2-aminoethanesulfonic acid] - BICINE [N,N-bis (2-hydroxyethyl)glycine] - DTC diethyldithiocarbamic acid - R_m the distance of migration of a polyamine relative to putrescine after electrophoresis on paper     

巴西橡胶树初生乳管黄色体微纤维蛋白质与67kD蛋白质的关系

在古铜期的巴西橡胶（Hevea brasiliensis Mull.Arg)幼茎初生乳管黄色体中存在丰富的微纤维蛋白质。在电子显微镜下,微纤维蛋白质呈两种不同的形态,分别存在于不同的黄色体中,SDS-PAGE分析表明,经等电点纯化的微纤维蛋白质的主要成分是59.5kD和63.5kD蛋白质,使用67kD蛋白质的抗血清的免疫印迹表明,59.5kD和63.5kD蛋白质与积累在贮藏蛋白质细胞中的67kD蛋白质具有一定程度的免疫相关性,且在苗生长发育过程中互为消长,59.5kD和63.5kD蛋白质在古铜期的幼茎中最丰富,当新梢茎停止伸长及叶片刚成熟时,其含量略有降低,但在第二和第三伸长单位中明显消失,同时在黄色体中大量积累3-5种低分子量蛋白质。这种季节变化模式表明,59.5kD和63kD蛋白质的消失与新梢的伸长生长无关,与初生乳管的发育关系密切,67kD蛋白质在古铜期的幼茎中不存在,随着新梢的成熟,该蛋白质不断积累,表现为典型的营养贮藏蛋白质。     

Endogenous levels of polyamines in the organs of cucumber plant (Cucumis sativus) and factors affecting leaf polyamine contents

Polyamine compositions of various organs from hydroponically cultivated cucumber plants ( Cucumis sativus L. cv. Sharp-1) and factors affecting the leaf polyamine content were examined. Diamine putrescine was found most abundantly in the root, while a relatively large amount of spermine was detected in the reproductive organs such as the immature fruit and the calyx (+stamen). Spermidine was present at the highest level in rapidly growing tissues such as newly expanded leaf and fruit at an early developing stage, implying the possible involvement of spermidine in the growth and development of these young tissues. Polyamine content of cucumber leaves changed during the day. Especially, the putrescine content of upper leaves showed a striking decrease from the morning to the night. Alterations of leaf Ca or Mg content did not significantly affect leaf polyamine composition. On the other hand, abnormal cucumber leaves showed altered polyamine composition. Yellowing of the leaf intervein resulted in a striking decrease in spermidine content without a significant change in putrescine and spermine content. By contrast, the leaves infected with the phytopathogen, powdery mildew, showed decreased putrescine and increased spermine content in response to the degree of fungi infection. The possible usefulness of polyamines as a diagnostic marker of plant development and physiological disorder is discussed.     

Transforming growth factor beta 1 (TGF-beta 1) receptor expression on resting and mitogen-activated T cells

Transforming growth factor beta 1 (TGF-beta 1) is a potent autocrine growth inhibitor of lymphocytes. In this study, the expression of TGF-beta 1 binding proteins was characterized on murine splenic T cells. With an affinity cross-linking method and by neutralizing antibodies to TGF-beta 1, [125I] TGF-beta 1 was found to bind to three cell surface-binding proteins (280-200 kD, 95-85 kD, 65 kD) that were differentially expressed on resting and mitogen-stimulated T cells. Freshly prepared (resting) T cells were found to constitutively express the 95-85-kD form of these binding proteins, whereas mitogenic stimulation by either concanavalin-A (Con-A), interleukin-1 (IL-1), interleukin-2 (IL-2), or 12-tetradecanoyl-phorbol-13-acetate (TPA) for 12-72 h induced the appearance of all forms of the TGF-beta 1 binding proteins (280-200 kD, 95-85 kD, and 65 kD). Furthermore, antibodies that neutralized the biologic action of TGF-beta 1 also blocked the binding of [125I] TGF-beta 1 to all three binding proteins, suggesting that these binding proteins are involved with signal transduction. These results suggest that the expression of the TGF-beta 1 receptor on T cells is regulated by T cell mitogenic signals and that a regulatory relationship may exist between T cell growth-promoting cytokines (IL-1 and IL-2) and the T cell growth inhibitor, TGF-beta 1.     

Phosphatase activities in spinach thylakoid membranes-effectors, regulation and location

The dephosphorylation of seven phosphoproteins associated with Photosystem II or its chlorophyll a/b antenna in spinach thylakoids, was characterised. The rates were found to fall into two distinct groups. One, rapidly dephosphorylated, consisted of the two subunits (25 and 27 kD) of the major light harvesting complex of Photosystem II (LHC II) and a 12 kD polypeptide of unknown identity. A marked correlation between the dephosphorylation of these three phosphoproteins, strongly suggested that they were all dephosphorylated by the same enzyme. Within this group, the 25 kD subunit was consistently dephosphorylated most rapidly, probably reflecting its exclusive location in the peripheral pool of LHC II. The other group, only slowly dephosphorylated, included several PS II proteins such as the D1 and D2 reaction centre proteins, the chlorophyll-a binding protein CP43 and the 9 kD PS II-H phosphoprotein. No dephosphorylation was observed in either of the two groups in the absence of Mg²⁺-ions. Dephosphorylation of the two LHC II subunits took place in both grana and stroma-exposed regions of the thylakoid membrane. However, deposphorylation in the latter region was significantly more rapid, indicating a preferential dephosphorylation of the peripheral (or mobile) LHC II. Dephosphorylation of LHC II was found to be markedly affected by the redox state of thiol-groups, which may suggest a possible regulation of LHC II dephosphorylation involving the ferredoxin-thioredoxin system.Abbreviations CP 43 43 kD chlorophyll a- binding protein - D1 and D2 reaction centre proteins of PS II - LHC II light-harvesting complex of PS II - LHC II-25 25 kD subunit of LHC II - LHC II-27 27 kD subunit of LHC II - NEM N-ethylmaleimide - PP2C protein phosphatase 2C - PS II-H psb H gene product     

Purification and serological characterization of three basic 15-kilodalton pathogenesis-related proteins from tomato

In tomato (Lycopersicon esculentum) several acidic and basic apoplastic pathogenesis-related (PR) proteins are induced upon inoculation with virulent or avirulent races of Cladosporium fulvum (Cooke) (syn. Fulvia fulva [Cooke] Cif). One of the most predominant and best characterized tomato PR proteins is P14, a basic protein that shows homology to the tobacco (Nicotiana tabacum) PR-1 protein family. To investigate whether, by analogy with these tobacco PR-1 proteins, P14 also belongs to a family of differently charged isomers, the abundantly occurring PR proteins with molecular masses around 15 kilodaltons (kD) were purified from apoplastic fluids isolated from C. fulvum-infected tomato. Three basic proteins migrating similarly to P14 on sodium dodecyl sulfate polyacrylamide gels were purified to homogeneity by gel filtration followed by high resolution liquid chromatography. Two proteins (15.5 kD, isoelectric point [pl] 10.9 and 10.7 appeared to be serologically related to each other and to the tobacco PR-1 proteins. A third protein (15 kD, pl 10.4) was not serologically related to any other tomato PR protein but was found to be related to PR-R from tobacco.