烟草薄层培养生长素结合蛋白ABP1的定位和ABP1在细胞分化中的变化

以烟草（Nicotiana tabacum L.)盛花期花梗薄层为材料,研究营养芽分化的不同时期生长素结合蛋白（ABP1)在组织与细胞中的分布变化,免疫荧光标记结果表明,烟草花梗中ABP1主要分布于表皮及亚表皮1－2层细胞内。不同分化期ABP1在烟草花梗薄层原生质体中的表达不同,细胞分化旺盛期ABP1的表达最强,分化后期ABP1的表达有所减弱;Western blotting结果表明,ABP1多克隆抗血清与烟草花梗薄层细胞及分化过程中26kD蛋白有免疫交叉反应。     

The role of auxin-binding protein 1 in the expansion of tobacco leaf cells

Tobacco leaf was used to investigate the mechanism of action of auxin-binding protein 1 (ABP1). The distributions of free auxin, ABP1, percentage of leaf nuclei in G2 and the amount of auxin-inducible growth were each determined in control tobacco leaves and leaves over-expressing Arabidopsis ABP1. These parameters were compared with growth of tobacco leaves, measured both spatially and temporally throughout the entire expansion phase. Within a defined window of leaf development, juvenile leaf cells that inducibly expressed Arabidopsis ABP1 prematurely advanced nuclei to the G2 phase. The ABP1-induced increase in cell expansion occured before the advance to the G2 phase, indicating that the ABP1-induced G2 phase advance is an indirect effect of cell expansion. The level of ABP1 was highest at the position of maximum cell expansion, maximum auxin-inducible growth and where the free auxin level was the lowest. In contrast, the position of maximum cell division correlated with higher auxin levels and lower ABP1 levels. Consistent with the correlations observed in leaves, tobacco cells (BY-2) in culture displayed two dose-dependent responses to auxin. At a low auxin concentration, cells expanded, while at a relatively higher concentration, cells divided and incorporated [3H]-thymidine. Antisense suppression of ABP1 in these cells dramatically reduced cell expansion with negligible effect on cell division. Taken together, the data suggest that ABP1 acts at a relatively low level of auxin to mediate cell expansion, whereas high auxin levels stimulate cell division via an unidentified receptor.     

Plasmalemma hyperpolarity and culture of sense and antisense abp transgenic tobacco protoplasts

Ａｕｘｉｎｉｓａｔｙｐｅｏｆｐｌａｎｔｈｏｒｍｏｎｅｅｘｉｓｔｉｎｇｅｘｔｅｎｓｉｖｅｌｙ[1].Ｉｔｒｅｇｕｌａｔｅｓｍａｎｙｐｒｏｃｅｓｓｅｓｉｎｐｌａｎｔｄｅｖｅｌｏｐｍｅｎｔ[2,3].Ａｃｃｏｒｄｉｎｇｔｏｔｈｅ“ａｃｉｄｇｒｏｗｔｈｔｈｅｏｒｙ”,ａｕｘｉｎｓｔｉｍｕｌａｔｅｓａｓｅｒｉｅｓｏｆｒｅａｃｔｉｏｎａｎｄｔｈｅｎｐｒｏｍｏｔｅｓｃｅｌｌｇｒｏｗｔｈｂｙｂｉｎｄｉｎｇｔｈｅＡＢＰｌｏｃａｔｅｄｉｎｃｅｌｌｍｅｍｂｒａｎｅ[4,5].Ｔｈｅｓｔｕｄｉｅｓｏｎｔｏｂａｃｃｏｍｕｔａｎｔｅｘｈｉ…     

Plasmalemma hyperpolarity and culture of sense and antisenseabp transgenic tobacco protoplasts

The relationship among transfer and expression of auxin binding protein gene (abp), auxin (NAA)-induced plasmalemma hyperpolarity and sensibility to auxin during protoplast culture was studied by measuring transmembrane potential difference (Em) and culturing the protoplasts of sense and antisenseabp transgenic tobacco. The concentration of NAA inducing the highest degree of hyperpolarity of senseabp transgenic tobacco protoplasts was lower than the control, and in protoplast culture, their sensibility to auxin increased. The concentration of antisenseabp transgenic tobacco protoplasts was higher than the control, and in protoplast culture, their sensibility to auxin decreased. These results demonstrated that ABP synthesized in endoplasmic reticulum needed to transport to cell membrane and functioned there.     

Plasmalemma hyperpolarity and culture of sense and antisense abp transgenic tobacco protoplasts

The relationship among transfer and expression of auxin binding protein gene (abp), auxin (NAA)-induced plasmalemma hyperpolarity and sensibility to auxin during protoplast culture was studied by measuring transmembrane potential difference (Em) and culturing the protoplasts of sense and antisenseabp transgenic tobacco. The concentration of NAA inducing the highest degree of hyperpolarity of senseabp transgenic tobacco protoplasts was lower than the control, and in protoplast culture, their sensibility to auxin increased. The concentration of antisenseabp transgenic tobacco protoplasts was higher than the control, and in protoplast culture, their sensibility to auxin decreased. These results demonstrated that ABP synthesized in endoplasmic reticulum needed to transport to cell membrane and functioned there. Project supported by the State Key Laboratory of Plant Molecular Genetics and National Natural Science Foundation of China (Grant No. 39670078).     

烟草表皮细胞薄层培养系统中多种组织器官发生的研究

利用烟草表皮细胞薄层培养系统,研究了离体培养下表皮毛和气孔的发生,发现斜向分裂和不均等分裂是与脱分化细胞再分化相关的分裂方式,并观察了愈伤组织气孔的适应性分化现象,此外,在茎表皮细胞薄层上成功地发生了不定根,利用花茎表皮细胞薄层也在其愈伤组织上发生了花芽。     

Floral gradient in flowering tobacco in relation to free amino acids

By employing TCLs (thin cell layers) culture, the floral gradient in flowering tobacco of different developmental stages was confirmed. The TCLs from early flowering tobacco regenerated more floral buds than those from the tobacco plants in full blooming or fruiting stages. Analysis of free amino acid levels revealed the acropetal gradient of Pro in flowering tobacco stem. L-Pro. L-Trp. D,L-Met and L-Arg were respectively added into the culture medium for testing their influence on floral bud formation from tobacco pedicel segments. Only L-Trp evidently enhanced the floral bud neoformation.     

Characterization of auxin-binding protein 1 from tobacco: content, localization and auxin-binding activity

There is evidence that auxin-binding protein 1 (ABP1) is an auxin receptor on the plasma membrane. Maize (Zea mays L.) possesses a high level of auxin-binding activity due to ABP1, but no other plant source has been shown to possess such an activity. We have analyzed the ABP1 content of tobacco (Nicotiana tabacum L.) to examine whether or not the ABP1 content of maize is exceptionally high among plants. The ABP1 content of tobacco leaves was shown by quantitative immunoblot analysis to be between 0.7 and 1.2 μg ABP1 per gram of fresh leaf. This value is comparable to the reported value in maize shoots, indicating that ABP1 is present at a similar level in both monocot and dicot plants. The ABP1 content of tobacco leaves was increased up to 20-fold by expression of a recombinant ABP1 gene, and decreased to half of the original value by expression of the antisense gene. Although ABP1 was found mainly in the endoplasmic reticulum fraction, a secreted protein showing a molecular size and epitopes similar to intracellular ABP1 was also detected in the culture medium of tobacco leaf disks. The secretion of this protein was dependent on the expression level of the ABP1 gene. Received: 24 February 1999 / Accepted: 25 March 1999     

The auxin-binding pocket of auxin-binding protein 1 comprises the highly conserved boxes a and c

The auxin-binding protein 1 (ABP1) has already been proved to be an extracellular receptor of auxin in single cell systems. Protoplasts of maize coleoptiles respond to auxin with an increase in volume. The 2-naphthaleneacetic acid (2-NAA), an inactive auxin analog, acts as an anti-auxin in protoplast swelling, as it suppresses the effect of indole-3-acetic acid (IAA). Antibodies raised against box a of ABP1 induce protoplast swelling in the absence of auxin. This response is inhibited by pre-incubation with 2-NAA. The effect of 2-NAA on swelling induced by agonistic antibodies appears to depend on the binding characteristics of the antibody. ScFv12, an antibody directed against box a, box c and the C-terminal domain of ABP1 also exhibits auxin-agonist activity which is, however, not abolished by 2-NAA. Neither does 2-NAA affect the activity of the C-terminal peptide of ABP1, which is predicted to interact with putative binding proteins of ABP1. These results support the view that box a and box c of ABP1 are auxin-binding domains.     

ABP1: An auxin receptor for fast responses at the plasma membrane

Auxin-binding protein 1 (ABP1) is an auxin receptor for responses not primarily regulated by gene regulation. One fast response is protoplast swelling. By using immunological ABP1 tools we showed that the highly conserved box a is not alone important for auxin binding. Box c is another part of the auxin binding domain.¹ Here we present a novel method to analyze auxin-induced, ABP1-mediated effects at the plasma membrane on single cell level in vivo. The fluorescence of FM4-64 in the plasma membrane is reduced by auxin and this response is mediated by ABP1. This method indicates a functional role of ABP1 at the plasma membrane.Key words: Auxin-binding protein 1, auxin, receptor, protoplast, plasma membrane, FM4-64     

烟草花柄愈伤组织花芽分化的能力(简报)

来源于开花植株的外植体(如花柄、花序轴等)具有在离体培养条件下直接分化花芽的能力,这一现象已在数十种植物的组织培养中得到证实。但是,这种成花能力能否保留在由这些外植体形成的愈伤组织之中?已有报道在风信子、布罗瓦利亚花、石龙芮、大蒜、矮通泉草等值物的愈伤组织中得到无     

Altered Expression of Auxin-binding Protein 1 Affects Cell Expansion and Auxin Pool Size in Tobacco Cells

Auxin-binding protein 1 (ABP1) has an essential role in auxin-dependent cell expansion, but its mechanisms of action remain unknown. Our previous study showed that ABP1-mediated cell expansion is auxin concentration dependent. However, auxin distribution in plant tissue is heterogeneous, complicating the interpretation of ABP1 function. In this study, we used cells in culture that have altered expression of ABP1 to address the mechanism of ABP1 action at the cellular level, because cells in culture have homogeneous cell types and could potentially circumvent the heterogeneous auxin-distributions inherent in plant tissues. We found that cells overexpressing ABP1 had altered sensitivity to auxin and were larger, with nuclei that have undergone endoreduplication, a finding consistent with other data that support an auxin extracellular receptor role for ABP1. These cells also had a higher free auxin pool size, which cannot be explained by altered auxin transport. In cells lacking detectable ABP1, a higher rate of auxin metabolism was observed. The results suggest that ABP1 has, beyond its proposed role as an auxin extracellular receptor, a role in mediating auxin availability.     

Differences in Protein Synthesis and Peroxidase isoenzymes between recalcitrant and regenerating ProtoPlasts

The reasons for the inability of recalcitrant mesophyll protoplasts to divide and re-enter the cell cycle are unknown. Changes in protein profile, indole-3-acetic acid (IAA)-oxidase and peroxidase activities, and isoenzymes were compared in protoplasts of recalcitrant grapcvine ( Vitis vinifera ) L. cv. Sultanina) and regenerating tobacco ( Nicotiana tabacum ) L. cv. Xanthi). Using [³⁵S]-methionine. SDS-PAGE and two-dimensional separation of proteins, differences in protein profile during protoplast culture were assessed. The changes in the de novo synthesized proteins were both qualitative and quantitative between the two species. The number of proteins which changed was double in tobacco compared to grapevine protoplasts. Peroxidase and IAA-oxidase activities increased significantly in tobacco protoplasts during culture whereas in grapevine they remained low. In tobacco protoplasts. 3 and 7 basic and acidic peroxidases, respectively, were induced during protoplast culture. which were not detected in the intact leaf, whereas in grapevine no new peroxidases were induced during protoplast culture.     

Free and conjugated polyamines during de novo floral and vegetative bud formation in thin cell layers of tobacco

The concentrations of three classes of polyamines, trichloroacetic acid-soluble (free), TCA-soluble conjugated (to small molecules) and TCA-insoluble conjugated (to macromolecules), was examined during de novo floral and vegetative bud formation in thin cell layers of Nicotiana tabacum L. cv. Samsun. Explants (consisting of 5–6 layers of epidermal, subepidermal and parenchyma cells) were excised either from floral pedicels or from stem internodes at the unripe fruit stage and cultured on the same medium. In the former, the first de novo formed flower buds appeared on day 8 of culture, while in the latter the first vegetative domes appeared on day 10. In both cases the number of floral and vegetative buds increased up to day 12 and 15, respectively. Changes in dry weight were determined throughout the culture period. Free and conjugated putrescine titer increased 5–60 times in both types of culture and in the three classes of polyamines examined; spermidine content also increased, while spermine, when present, did not show significant changes. TCA-soluble conjugated polyamines were most abundant, being about 2-fold the TCA-insoluble conjugated ones and 10-fold the free ones. The major increment in putrescine and spermidine content occurred in stem internode explants developing vegetative buds. In pedicel explants the maximum putrescine level was reached before or on day 8 in culture (emergence of the first flower buds with calyx initials), while in stem internode explants the maximum level was reached on day 12, at the emergence of the first vegetative buds with leaf primordia. While spermidine prevailed on day 0, putrescine was the most abundant polyamine during both differentiation processes. The putrescine content rapidly increased immediately after the onset of culture. Thus conjugated polyamines, especially putrescine, and not only the free ones, seem to be involved in both the reproductive and vegetative phases of tobacco growth and development.     

Plant Thin Cell Layers: A 40-Year Celebration

The concept of a thin cell layer (TCL) was initially presented by Tran Thanh Van in two key papers exactly 40 years ago. At that time, Nicotiana tabacum was the model plant used to establish three main pathways for de novo organogenesis by developing a flower, vegetative bud, and root “programme” from pedicel tissue. Over the last 40 years, a wealth of research in plant tissue culture based on TCLs has emerged, fortifying the importance of this very simple technique, and highlighting its fundamental importance as a key tool in plant cell and tissue differentiation as well as organ development. This review not only highlights the achievements made using TCLs in the plant kingdom over these 40 years, it also reports on the success of this technique in ornamentals, fruit and forestry species, vegetables, and medicinal plants. There is overwhelming evidence of the importance of this technique for plant biotechnology, and it provides one solution for the mass clonal propagation of plants, use in bioreactors, genetic transformation, or micropropagation.     

转异源abp基因烟草的叶外植体不同培养中的形态发生

以转正义和反义abp基因[生长素结合蛋白（ABP）的基因]烟草及对照的叶外植体为材料,在附加2mg／L或1mg／L的6－BA和不同浓度的NAA的MS培养基上进行不定芽分化试验。在较低NAA浓度条件下,转正义abp基因烟草（SE2）的叶外植体分化的不定芽数高于对照（SR1）和转反abp基因烟草（AS3）,说明SE2对生长素的敏感性比SR1和AS3高;而在较高NAA浓度条件下,AS3分化的不定芽数大于SE2和SR1,说明AS3对生长素的敏感性比SE2和SR1低。在培养基中加入生长素极性运输抑制剂HFCA后,不定芽分化受到抑制,分化不定芽中部分叶的形态由两侧对称性生长转变为形成不对称的喇叭状叶。在HFCA浓度为0－7．5mg／L条件下,SE2的喇叭叶发生频率明显高于SR1和AS3,其中SE2和SR1的喇叭叶发生频率分别在HFCA浓度为6．5和7．5mg／L时达到最高以后保持平稳,而AS3的喇叭叶发生频率在HFCA处理浓度直到15mg／L时仍保持上升趋势。这些结果说明ABP具有结合外源生长素,从而促进芽器官分化的功能,同时可能作为生长素受体参与了生长素的极性运输。     

Effect of tobacco extract on surfactant synthesis and its reversal by retinoic acid—role of cell–cell interactions in vitro

Tobacco induces oxidative stress in the alveolar epithelium and causes its damage. Retinoic acid (RA) has a cardinal role in alveolar cell growth, differentiation, and maturation. The aim of the study was to investigate the role of cell–cell interactions and whether RA could reverse the effect of tobacco extract on epithelial function as expressed by surfactant synthesis. For this, an in vitro model, which provides multiple cell type interactions, as seen in vivo, was used. We had used the major lung cell types, alveolar epithelial and mesenchymal cells represented by the cell lines A549 (human lung adenocarcinoma cell line), and human fetal lung fibroblast-1 (HFL-1) for developing the monoculture and co-culture systems and studied the effect of tobacco extract and retinoic acid. The effect of tobacco and retinoic acid both singly and in combination on proliferation and surfactant synthesis was analyzed. Retinoic acid induced proliferation and upregulated surfactant synthesis in monocultures and co-cultures. Tobacco extract at 100 μg/ml concentration decreased A549 proliferation and upregulated surfactant protein mRNA expression. In co-cultures treated with tobacco extract (100 μg/ml), retinoic acid (1 μM), regulated cell proliferation, and surfactant protein mRNA expression vis-à-vis the monoculture system. This clearly points to the fact that cell–cell interactions modulate the effect of additives or stimulants and help in assessing the in vivo combinatorial responses in vitro and that the retinoic acid effect is regenerative.     

In Plant Protoplasts, the Spontaneous Expression of Defense Reactions and the Responsiveness to Exogenous Elicitors Are under Auxin Control

When auxin was omitted during either the preparation or the culture of tobacco mesophyll protoplasts, as well as during both periods, synthesis of β-glucanase was spontaneously induced. In contrast, when protoplasts were prepared and cultured in the presence of 16 micromolar 1-naphthaleneacetic acid (optimal concentration for protoplast division), the expression of β-glucanase was maintained close to the minimal level observed in tobacco leaves. This inhibitory effect was only promoted by active auxins (1-naphthaleneacetic acid, 2,4-dichlorophenoxyacetic acid, 2,4,5-trichlorophenoxyacetic acid, and 3-indoleacetic acid) but not by inactive auxin analogs. Tobacco protoplasts responded to exogenous elicitors from the cell wall of Phytophthora megasperma glycinea (Pmg) by accumulating β-glucanase in the presence of 16 micromolar 1-naphthaleneacetic acid. At higher auxin concentrations, the elicitor-induced β-glucanase synthesis was inhibited. Naphthaleneacetic acid concentration (3 × 10⁻⁵ molar) required to inhibit by 50% the expression of this defense reaction triggered by a near-optimal elicitor concentration was about 100 times higher than that sufficient to inhibit by 50% the spontaneous expression in nonelicited protoplasts. This is the first demonstration of an auxin-fungal elicitor interaction in the control of a defined defense reaction. The above observations were extended to soybean cell protoplasts. The Pmg elicitor-induced stimulation of the synthesis of pathogenesis related P17 polypeptides and of a 39-kilodalton peptide immunologically related to tobacco β-glucanase was only observed when the spontaneous accumulation of these proteins was inhibited in auxin-treated protoplasts.     

In vitro and in vivo interaction of AtRma2 E3 ubiquitin ligase and auxin binding protein 1

E3 ubiquitin (Ub) ligases play diverse roles in cellular regulation in eukaryotes. Three homologous AtRmas (AtRma1, AtRma2, and AtRma3) were recently identified as ER-localized Arabidopsis homologs of human RING membrane-anchor E3 Ub ligase. Here, auxin binding protein 1 (ABP1), one of the auxin receptors in Arabidopsis, was identified as a potential substrate of AtRma2 through a yeast two-hybrid assay. An in vitro pull-down assay confirmed the interaction of full-length AtRma2 with ABP1. AtRma2 was transiently expressed in tobacco (Nicotiana benthamiana) plants through an Agrobacterium-mediated infiltration method and bound ABP1 in vivo. In vitro ubiquitination assays revealed that bacterially-expressed AtRma2 ubiquitinated ABP1. ABP1 was poly-ubiquitinated in tobacco cells and its stability was significantly increased in the presence of MG132, a 26S proteasome inhibitor. This suggests that ABP1 is controlled by the Ub/26S proteasome system. Therefore, AtRma2 is likely involved in the cellular regulation of ABP1 expression levels.     

Control of morphogenesis in tobacco protoplast cultures: organogenesis vs embryogenesis.

The morphogenetic pathway leading to plant differentiation in tobacco mesophyll protoplasts could be regulated. The course of development via organogenesis or embryogenesis was controlled by manipulating nutrient media, culture conditions and hormone requirements. A lowering of molarity of medium after 5 weeks of protoplast culture, inclusion of GA3 (0.5 mg/l) in the medium for first 8 weeks of culture and exclusion of reduced nitrogen in the medium resulted in shoot organogenesis, while maintenance of higher molarity of the medium till 8 weeks, reduced nitrogen in the medium and removal of 2, 4-D after 5 weeks of culture induced embryogenesis. Regenerability of viable plants was obtained by both developmental pathways. The implications of tobacco embryogenesis system in plant molecular genetics were highlighted.