Phloem Unloading in Developing Leaves of Sugar Beet : II. Termination of Phloem Unloading

Phloem unloading in developing leaves of Beta vulgaris L. (`Klein E' multigerm) occurred from successively higher order branches of veins as leaves matured. Phloem unloading was studied in autoradiographs of leaf samples taken at various times during the arrival of a pulse of ¹⁴C-labeled photoassimilate. Extension of mass flow of sieve element contents into leaf vein branches was determined from the high level of radiolabel in veins soon after first arrival of the pulse. Rapid entry, indicative of mass flow through open sieve pores, occurred down to the fourth division of veins in young, importing leaves and to the fifth or terminal branch in importing regions near the zone of transition from sink to source. The rate of unloading decreased with leaf age, as evidenced by the increased time required for the vein-mesophyll demarcation to become obscured. The rate of import per unit leaf area, measured by steady state labeling with ¹⁴CO₂ also decreased as a leaf matured. The decline in import appeared to result from progressive changes that increased resistance to unloading of sieve elements and eventually terminated phloem unloading.     

Sink Metabolism in Tomato Fruit : II. Phloem Unloading and Sugar Uptake

Analysis of [³H]-(fructosyl)-sucrose translocation in tomato (Lycopersicon esculentum Mill.) indicates that phloem unloading in the fruit occurs, at least in part, to the apoplast followed by extracellular hydrolysis. Apoplastic sucrose, glucose, and fructose concentrations were estimated as 1 to 7, 12 to 49, and 8 to 63 millimolar, respectively in the tomato fruit pericarp tissue. Hexose concentrations were at least four-fold greater than sucrose at all developmental stages. Short-term uptake of [¹⁴C]sucrose, -glucose, and -fructose in tomato pericarp disks showed first order kinetics over the physiologically relevant concentration range. The uptake rate of [¹⁴C]-(glucosyl)-1′-fluorosucrose was identical to the rate of [¹⁴C]sucrose uptake, suggesting sucrose may be taken up directly without prior extracellular hydrolysis. Short-term uptake of all three sugars was insensitive to 10 micromolar carbonyl cyanide m-chlorophenylhydrazone and to 10 micromolar p-chloromercuribenzene sulfonic acid. However, long-term accumulation of glucose was sensitive to carbonyl cyanide m-chlorophenylhydrazone. Together these results suggest that although sucrose is at least partially hydrolyzed in the apoplast, sucrose may enter the metabolic carbohydrate pool directly. In addition, sugar uptake across the plasma membrane does not appear to be energy dependent, suggesting that sugar accumulation in the tomato fruit is driven by subsequent intracellular metabolism and/or active uptake at the tonoplast.     

Phloem flow strongly influences the systemic spread of silencing in GFP Nicotiana benthamiana plants

The term 'RNA silencing' describes a process that results in the specific degradation of an RNA target. In plants, silenced tissues can initiate the spreading of the process into non-silenced regions by a mobile signal that can be transmitted over long distances. In the present work, we made use of a modified grafting approach to elucidate the driving force behind long-distance transport of the silencing signal. We made reciprocal grafts of two GFP-transgenic Nicotiana benthamiana lines, the non-silenced line 16c (sensor) and the silenced line 6.4 (inducer). We show that the direction of systemic spread of silencing from inducer to sensor can be manipulated by altering sink/source relations in the plant. Using radioactive phosphate as a phloem tracer, we demonstrated that plants that transmitted silencing from silenced scion to non-silenced rootstock had developed a persisting phloem flow from scion to rootstock. These data provide experimental proof of what has been hypothesized so far, that the silencing signal travels via phloem from source to sink. We present here evidence that the appearance of systemic silencing is not an accidental stochastic process, but can be predicted on the basis of the direction of phloem flow.     

在系统侵染的烟草中假重组体病毒FMF的时序变化

构建了由黄瓜花叶病毒Fny株系RNA1、RNA3与M株系RNA2组合得到的假重组体病毒FMF,并用其侵染烟草幼苗,接种5 d后烟草幼叶上出现坏死环斑,接种5-30 d新生叶上没有呈现任何明显症状;30 d后新生叶上突然出现轻微绿斑驳。采用实时荧光定量PCR(FQ-PCR)方法,监测不同时期展开的幼叶中病毒粒子含量和病毒基因组RNA含量的动态变化,结果显示,接种后5-25 d新生叶中病毒粒子含量保持较低水平,30 d时含量突然大幅度增长;接种后5-30 d新生叶中病毒基因组RNA1、RNA3和RNA4含量均经历骤减期和增长期;RNA2含量变化情况平缓,没有明显先减后增的趋势。病毒粒子、病毒基因组RNA含量及病症严重程度的动态变化规律及其相关性将为研究FMF侵染机制、病毒与寄主互作及病毒防控提供依据。     

Virus survival of RNA silencing without deploying protein-mediated suppression in Nicotiana benthamiana

Unstimulated human fibrosarcoma cells (HT1080) constitutively secrete matrix metalloproteinase 2 (MMP 2) as a proenzyme requiring proteolytic cleavage by membrane type-1 MMP (MT1 MMP) for activation. Physiological and pharmacological stimuli induce clustering of MT1 MMP/tissue inhibitor of MMP 2 "receptors", promoting binding and activation of MMP 2. We now report that cholesterol depleted HT1080 cells accumulated MT1 MMP on the cell surface and activated MMP 2. A specific inhibitor of mitogen activated protein kinase kinase 1/2 inhibited both MMP 2 activation and extracellular signal-related kinase phosphorylation induced by cholesterol depletion. Our data indicate that the cholesterol content of unstimulated cells is critical for secretion of MMP 2 as an inactive zymogen and control of pericellular proteolysis.     

利用病毒载体在烟草中瞬时表达融合HBsAg基因

利用马铃薯PVX病毒载体构建了外源人工融合乙肝表面抗原HBsAg基因的表达载体,在烟草中利用农杆菌介导进行瞬时表达,以快速鉴定外源基因瞬时表达的状况以及重组蛋白的免疫活性。利用PCR技术从含有人工融合HBsAg基因的表达载体中分别扩增出LP PreS1 PreS2 S、PreS1 PreS2 S、PreS2 S序列,将其分别与PVX病毒载体pgR106连接,构建成PVX-LP、PVX-S1和PVX-S2等3个转化载体,并将此载体导入农杆菌菌株GV3101中用于侵染烟草植株叶片。感染植株经RT-PCR、RNA Dot blotting和HBsAg蛋白的ELISA检测显示,3个人工融合的HBsAg基因均可在植物体内得到转录,翻译成具有活性的蛋白。结果表明,外源融合HB-sAg基因经过植物病毒载体瞬时表达系统可以在植物系统中正常转录和翻译。     

马铃薯X病毒载体介导的乙肝病毒表面抗原在烟草中的表达

目的:利用马铃薯X病毒(PVX)表达载体,在本生烟草中表达乙肝病毒表面抗原(HBsAg),为生产植物疫苗提供一条快速高效的新途径.方法:将HBsAg基因克隆进PVX表达载体,电转化农杆菌,侵染本生烟的叶片、茎和根.结果与结论:采用ELISA检测重组HBsAg的表达水平,SDS-PAGE确认其大小,Western印迹分析表明重组蛋白可与鼠抗HBsAg单克隆抗体发生特异性反应.HBsAg蛋白表达量在幼小叶片中远高于已伸展的叶片,在叶片中的表达量远高于茎根;表达量会随侵染后时间发生一定的变化,但因植株而异;重组蛋白在可溶性蛋白中的含量最高可达796.81 ng/mg.     

Phloem Unloading in Developing Leaves of Sugar Beet : I. Evidence for Pathway through the Symplast

Physiological and transport data are presented in support of a symplastic pathway of phloem unloading in importing leaves of Beta vulgaris L. (`Klein E multigerm'). The sulfhydryl reagent p-chloromercuribenzene sulfonic acid (PCMBS) at concentration of 10 millimolar inhibited uptake of exogenous [¹⁴C]sucrose by sink leaf tissue over sucrose concentrations of 0.1 to 5.0 millimolar. Inhibited uptake was 24% of controls. The same PCMBS treatment did not affect import of ¹⁴C-label into sink leaves during steady state labeling of a source leaf with ¹⁴CO₂. Lack of inhibition of import implies that sucrose did not pass through the free space during unloading. A passively transported xenobiotic sugar, l-[¹⁴C]glucose, imported by a sink leaf through the phloem, was evenly distributed throughout the leaf as seen by whole-leaf autoradiography. In contrast, l-[¹⁴C]glucose supplied to the apoplast through the cut petiole or into a vein of a sink leaf collected mainly in the vicinity of the major veins with little entering the mesophyll. These patterns are best explained by transport through the symplast from phloem to mesophyll.     

Sink Effect of Cytokinin in Detached Leaves Is Not Caused by Structural Rearrangements of Phloem

The sink effect of cytokinin is manifested as a decrease in source capacity and the induction of sink activity in the phytohormone-treated region of a mature excised leaf. In order to find out whether this effect was due to the direct action of cytokinin on the phloem structure, two types of phloem terminals were examined. In pumpkin (Cucurbita pepo L.) leaves, the phloem terminals are open; i.e., they are linked to mesophyll by numerous symplastic connections, which are located in narrow areas called plasmodesmal pit fields. In broad bean (Vicia faba L.) leaves, the phloem terminals belong to the closed type and have no symplastic links with mesophyll. The electron microscopic study of terminal phloem did not reveal any structural changes in the companion cells, which could account for the suppression of assimilate export. The treatment of leaves with cytokinin neither disturbed the structure of plasmodesmal pit fields in pumpkin leaves nor eliminated the wall protuberances (the ingrowths promoting phloem loading) in bean leaves. No evidence was obtained that the cytokinin-induced import of assimilates in mature leaves is caused by the recovery of meristematic activity, i.e., by either formation of new phloem terminals having immature sieve elements capable of unloading or by the development of new sieve elements within the existing veins. Cytokinin did not induce de novo formation of phloem elements. Structural characteristics of the leaf phloem, such as the number of branching orders in the venation pattern, the number of vein endings per areole, the number of areoles per leaf, the area of one areole, and the number of sieve elements per bundle remained unaltered. It is concluded that the sink effect of cytokinin in excised leaves cannot be determined by alteration of the phloem structure.     

Production of a de-novo designed antimicrobial peptide in Nicotiana benthamiana

Antimicrobial peptides are important defense compounds of higher organisms that can be used as therapeutic agents against bacterial and/or viral infections. We designed several antimicrobial peptides containing hydrophobic and positively charged clusters that are active against plant and human pathogens. Especially peptide SP1-1 is highly active with a MIC value of 0.1 μg/ml against Xanthomonas vesicatoria, Pseudomonas corrugata and Pseudomonas syringae pv syringae. However, for commercial applications high amounts of peptide are necessary. The synthetic production of peptides is still quite expensive and, depending on the physico-chemical features, difficult. Therefore we developed a plant/tobacco mosaic virus-based production system following the ‘full virus vector strategy’ with the viral coat protein as fusion partner for the designed antimicrobial peptide. Infection of Nicotiana benthamiana plants with such recombinant virus resulted in production of huge amounts of virus particles presenting the peptides all over their surface. After extraction of recombinant virions, peptides were released from the coat protein by chemical cleavage. A protocol for purification of the antimicrobial peptides using high resolution chromatographic methods has been established. Finally, we yielded up to 0.025 mg of peptide per g of infected leaf biomass. Mass spectrometric and NMR analysis revealed that the in planta produced peptide differs from the synthetic version only in missing of N-terminal amidation. But its antimicrobial activity was in the range of the synthetic one. Taken together, we developed a protocol for plant-based production and purification of biologically active, hydrophobic and positively charged antimicrobial peptide.     

Production of antimicrobial defensin in Nicotiana benthamiana with a potato virus X vector

A recombinant plasmid, pTXS.TH, was constructed to express the gene-encoding wasabi (Wasabia japonica) defensin with the potato virus X (PVX) vector. pTXS.TH allows the expression of defensin in the host Nicotiana benthamiana, and the defensin protein WT1 can be purified from virus-infected leaves by heat treatment and affinity chromatography. WT1 exhibits strong antifungal activity toward the phytopathogenic fungi Magnaporthe grisea (50% inhibitory concentration [IC50] = 5 microg/ml) and Botrytis cinerea (IC50 = 20 microg/ml) but is weakly active against the phytopathogenic bacterium Pseudomonas cichorii. This virus-mediated expression system is a rapid and efficient method to produce and characterize antimicrobial proteins in plants. It is particularly useful for the study of proteins that are difficult to produce with other expression systems.     

Apoplastic Phloem Unloading in the Stem of Bean

Sucrose has been found in the apoplast of bean stems at a concentrationof 25–60 mM with an axial concentration gradient in theappropriate direction for Munch translocation. Removal of theepidermis from a 50 mm length of stem enabled the washout oflabelled photosynthate from the apoplast. The rate of labelwashout was strongly dependent on temperature, and the rateincreased on blockage of phloem pathways to the main sink forthat assimilate. Washout did not reduce when the bathed tissuewas plasmolyzed. We propose that sucrose is unloaded from thephloem into the apoplast, and a sucrose concentration is maintainedthere by a balance of sucrose uptake into sink tissue or reloadinginto the phloem. It is proposed that the apoplastic pool ofphotosynthate can act to buffer sudden changes in phloem contentswhen there are rapid changes in source-sink configuration. Key words: Sucrose, Phaseolus vulgaris, Apoplast, Phloem unloading     

Coat protein mediated resistance to Plum Pox Virus in Nicotiana clevelandii and N. benthamiana

Transgenic Nicotiana benthamiana and N. clevelandii plants expressing the coat protein of Plum Pox Virus under the control of the 35S promoter from Cauliflower Mosaic Virus were engineered by Agrobacterium tumefaciens mediated transformation. The phenomenon of virus resistance was observed at different levels when transgenic plants, expressing the coat protein and control plants were compared after challenge infection with Plum Pox Virus. N. clevelandii coat protein transgenic plants circumvent virus accumulation. After an initial increase in virus titer similar to the control plants, some coat protein expressing plants showed a reduced accumulation of virus and inhibition of the systemic spread, characterized by decrease of the virus titer and formation of new symptomless leaves. In other N. clevelandii coat protein expressing plants virus accumulation was inhibited and disease symptoms never appeared. N. benthamiana coat protein expressing plants were also protected. After a temporary virus accumulation, virus titer decreased without the appearance of symptoms with the exception of a few plants, which showed a delay of thirty days in the development of symptoms post challenge infection.Abbreviations PPV Plum Pox Virus - CP coat protein - CaMV Cauliflower Mosaic Virus - CP+ coat protein expressing plant - CP– control plant = non coat protein expressing plant - TMV Tobacco Mosaic Virus - NPTII neomycin phosphotransferaseII - IBA indole-3-butyric acid - BAP 6-benzylaminopurine; - MS Murashige Skoog - ELISA enzyme linked immunosorbent assay     

Over-Expression of LaMIR166a Promotes Organs Development in Nicotiana benthamiana

Russian Journal of Plant Physiology - Most studies related to the functions of miR165/166 have used Arabidopsis as the experimental material. However, Nicotiana benthamiana Domin is a more ideal...     

Vacuolar targeting of recombinant antibodies in Nicotiana benthamiana

Plant‐based platforms are extensively used for the expression of recombinant proteins, including monoclonal antibodies. However, to harness the approach effectively and leverage it to its full potential, a better understanding of intracellular processes that affect protein properties is required. In this work, we examined vacuolar (vac) targeting and deposition of the monoclonal antibody (Ab) 14D9 in Nicotiana benthamiana leaves. Two distinct vacuolar targeting signals (KISIA and NIFRGF) were C‐terminal fused to the heavy chain of 14D9 (vac‐Abs) and compared with secreted and ER‐retained variants (sec‐Ab, ER‐Ab, respectively). Accumulation of ER‐ and vac‐Abs was 10‐ to 15‐fold higher than sec‐Ab. N‐glycan profiling revealed the predominant presence of plant typical complex fucosylated and xylosylated GnGnXF structures on sec‐Ab while vac‐Abs carried mainly oligomannosidic (Man 7‐9) next to GnGnXF forms. Paucimannosidic glycans (commonly assigned as typical vacuolar) were not detected. Confocal microscopy analysis using RFP fusions showed that sec‐Ab‐RFP localized in the apoplast while vac‐Abs‐RFP were exclusively detected in the central vacuole. The data suggest that vac‐Abs reached the vacuole by two different pathways: direct transport from the ER bypassing the Golgi (Ab molecules containing Man structures) and trafficking through the Golgi (for Ab molecules containing complex N‐glycans). Importantly, vac‐Abs were correctly assembled and functionally active. Collectively, we show that the central vacuole is an appropriate compartment for the efficient production of Abs with appropriate post‐translational modifications, but also point to a reconsideration of current concepts in plant glycan processing.     

Physiological function of NbRanBP1 in Nicotiana benthamiana

This study addresses the physiological functions of the Ran-binding protein homolog NbRanBP1 in Nicotiana benthamiana. Virus-induced gene silencing (VIGS) of NbRanBP1 caused stunted growth, leaf yellowing, and abnormal leaf morphology. The NbRanBP1 gene was constitutively expressed in diverse tissues and an NbRanBP1:GFP fusion protein was primarily localized to the nuclear rim and the cytosol. BiFC analysis revealed in vivo interaction between NbRanBP1 and NbRan1 in the nuclear envelope and the cytosol. Depletion of NbRanBP1 or NbRan1 reduced nuclear accumulation of a NbBTF3:GFP marker protein. In the later stages of development, NbRanBP1 VIGS plants showed stress responses such as reduced mitochondrial membrane potential, excessive production of reactive oxygen species, and induction of defense-related genes. The molecular role of RanBP1 in plants is discussed in comparison with RanBP1 function in yeast and mammals.     

Resistance to Vanilla Necrosis Potyvirus in Transgenic Nicotiana benthamiana Plants Containing the Virus Coat Protein Gene

The full-length vanilla necrosis potyvirus (VNV) coat protein (CP) gene was introduced into Nicotiana benthamiana plants via Agrobacterium tumefaciens-mediated transformation. Four constructs contained either: sense (+) CP sequence, antisense (-) CP sequence, sense CP sequence with a Kozak's consensus ATG resulting in a change in the first amino acid, or antisense CP sequence with the Kozak's modification. When mechanically inoculated with a high concentration of VNV, one of the plant lines containing the full-length sense CP gene was highly resistant to virus infection. Plants from the resistant lines expressed the CP at a relatively low level compared to susceptible lines containing the same construct. Plants containing the other three constructs were either susceptible or showed delayed symptom expression.     

DCL-suppressed Nicotiana benthamiana plants: valuable tools in research and biotechnology

RNA silencing is a universal mechanism involved in development, epigenetic modifications and responses to biotic and abiotic stresses. The major components of this mechanism are Dicer-like (DCL), Argonaute (AGO) and RNA-dependent RNA polymerase (RDR) proteins. Understanding the role of each component is of great scientific and agronomic importance. Plants, including Nicotiana benthamiana, an important plant model, usually possess four DCL proteins, each of which has a specific role, namely being responsible for the production of an exclusive small RNA population. Here, we used RNA interference (RNAi) technology to target DCL proteins and produced single and combinatorial mutants for DCL. We analysed the phenotype for each DCL knockdown plant, together with the small RNA profile, by next-generation sequencing (NGS). We also investigated transgene expression, as well as viral infections, and were able to show that DCL suppression results in distinct developmental defects, changes in small RNA populations, increases in transgene expression and, finally, higher susceptibility in certain RNA viruses. Therefore, these plants are excellent tools for the following: (i) to study the role of DCL enzymes; (ii) to overexpress proteins of interest; and (iii) to understand the complex relationship between the plant silencing mechanism and biotic or abiotic stresses.