The Studies on the Development,Structure and Ecological Adaptation of Aboveground Root Apices of the Mangrove Plants

The aboveground root apices of 15 species of the mangrove plants have been observed. The species belong to 9 genera and 6 families, which are distributed in the intertidal region along tropical to subtropical coast in Hainan and Guangdong provinces. The histology of the prop root apices (aerial) of 4 genera of the Rhizophoraceae was characterized markedly by columnar meristematic area, columella and suberized sheath of root cap. The prop root apices (aerial) of Acanthus and Avicennia as well as pneumatophore apices of Avicennia and Sonneratia possessed short columella and thin suberized sheath, or showed growth layer in the phellem of root cap. Most of the mangrove plants started procambial activity very early. Under the epidermis exodermis usually and in the subepidermal layer periderm was developed. All these have shown the selectivity of environment and adaptive convergence in mangrove.     

红树植物地上根根端的发育,结构与生态适应

观察了分布于海南和广东省热带、亚热带海岸潮间带的６ 科９ 属１５ 种红树植物各种地上根根端与胚轴顶端的发育及结构。红树科（Ｒｈｉｚｏｐｈｏｒａｃｅａｅ）４ 属的支柱根根端,以显著的柱状分生组织区、根冠柱、栓质化的根冠为特征。老鼠簕属（Ａｃａｎｔｈｕｓ）、海榄雌属（Ａｖｉｃｅｎｎｉａ）的支柱根和海榄雌属、海桑属（Ｓｏｎｎｅｒａｔｉａ）的出水通气根根端都有短的根冠柱,薄的栓质化根冠或根冠的木栓层具有生长层。大多数红树植物的根端很早开始原形成层的活动,表皮之下常见外皮层,周皮常在表皮下层出现等独特的发育式样、结构特征,显示了环境的选择作用和红树植物的趋同适应     

Actin Turnover-Mediated Gravity Response in Maize Root Apices: Gravitropism of Decapped Roots Implicates Gravisensing Outside of the Root Cap

The dynamic actin cytoskeleton has been proposed to be linked to gravity sensing in plants but the mechanistic understanding of these processes remains unknown. We have performed detailed pharmacological analyses of the role of the dynamic actin cytoskeleton in gravibending of maize (Zea mays) root apices. Depolymerization of actin filaments with two drugs having different mode of their actions, cytochalasin D and latrunculin B, stimulated root gravibending. By contrast, drug-induced stimulation of actin polymerization and inhibition of actin turnover, using two different agents phalloidin and jasplakinolide, compromised the root gravibending. Importantly, all these actin drugs inhibited root growth to similar extents suggesting that high actin turnover is essential for the gravity-related growth responses rather than for the general growth process. Both latrunculin B and cytochalasin D treatments inhibited root growth but restored gravibending of the decapped root apices, indicating that there is a strong potential for effective actin-mediated gravity sensing outside the cap. This elusive gravity sensing outside the root cap is dependent not only on the high rate of actin turnover but also on weakening of myosin activities, as general inhibition of myosin ATPases induced stimulation of gravibending of the decapped root apices. Collectively, these data provide evidence for the actin turnover-mediated gravity sensing outside the root cap.Key Words: actin cytoskeleton, gravisensing, graviresponding, root cap     

边缘细胞对荞麦根尖铝毒的防护效应和对细胞壁多糖的影响

以2个荞麦(Fygopyrum esculentum Moench)基因型‘江西荞麦’(耐性)和‘内蒙荞麦’(敏感)为材料,采用悬空培养(保持边缘细胞附着于根尖和去除根尖边缘细胞),研究边缘细胞对根尖铝毒的防护效应以及对细胞壁多糖组分的影响。结果表明,铝毒抑制荞麦根系伸长,导致根尖Al积累。去除边缘细胞的根伸长抑制率和根尖Al含量高于保留边缘细胞的根。去除边缘细胞使江西荞麦和内蒙荞麦根尖的酸性磷酸酶(APA)活性显著升高,前者在铝毒下增幅更大。同时,铝毒胁迫下去除边缘细胞的根尖果胶甲酯酶(PME)活性和细胞壁果胶、半纤维素1、半纤维素2含量显著高于保留边缘细胞的酶活性和细胞壁多糖含量。表明边缘细胞对荞麦根尖的防护效应,与其阻止Al的吸收,降低根尖细胞壁多糖含量及提高酸性磷酸酶活性有关,以此缓解Al对根伸长的抑制。     

Localization of l-fucose in the root cap and slime of Zea mays L. utilizing fluorescent lectin conjugates and colloidal gold-lectin techniques

Ulex europaeus lectin (UEA) labelled with fluorescein isothiocyanate (FITC), rhodamine or colloidal gold, localized l-fucose in maize root cap cells and secreted root cap slime. Free-hand sections of maize root apices stained with FITC-UEA or rhodamine-UEA and examined by fluorescence microscopy yielded satisfactory results as long as the stains were freed of unconjugated dye, the sections treated with osmium tetroxide vapour to quench autofluorescence, and the samples incubated at 37°C. This resulted in successful labelling with a lower concentration of fluorochrome-lectin conjugate than reported by previous workers. Rhodamine-UEA was superior to FITC due to the lower primary fluorescence of the root tip observed under green light.Thin sections from glutaraldehyde fixed and Spurr's resin embedded maize root tips were treated with UEA bound to colloidal gold. Gold particles were found within sloughed cells and root cap cells, particularly concentrated over the Golgi complex, Golgi-derived vesicles and within the secretory slime products.     

Lysosomal Compartmentation: Ultrastructural Aspects of the Origin, Development, and Function of Vacuoles in Root Cells of Lepidium sativum

The origin and development of vacuoles in root and root capcells of Lepidium sativum was investigated at the ultrastructurallevel. The vacuoles originated as vesiculations of the ER, andacid phosphatase activity was found associated with the membranesbounding developing vacuoles. As development proceeded activityof acid phosphatase became associated with the accumulated vacuolarcontent, but was confined within these bodies in all cells exceptsome of those in the outermost layer of the cap, which werein various stages of senescence. In these cells activity ofthis enzyme appeared in the cytoplasm, associated with apparenttonoplast dissolution. These findings are discussed in the context of current hypothesesconcerning the origin and relationship of vacuoles and lysosomalcompartmentation in plant cells.     

Localization of naphthol AS-B1 phosphatase activity in lateral and main root meristems of pea and corn

Summary High levels of naphthol AS-B 1 phosphatase activity have been localized in the main and lateral root meristems of pea and corn. The highest activity in the primordia of each species occurs in the root cap and epidermis although all cells of the meristem show activity. Activity in the main root meristem is compared with that in the lateral root and it is concluded that this enzyme does not facilitate penetration of the lateral root through the parent cortex but rather that it is involved in the differentiation of the lateral root itself.     

DEVELOPMENTAL ANATOMY OF LIGHT-INDUCED ROOT NODULATION BY ZAMIA PUMILA L. SEEDLINGS IN STERILE CULTURE

The developmental anatomy of Zamia pumila L. root apices was studied during light-induced nodulation. Dark-grown roots had an apical organization identical to that of other cycads and similar to that of other gymnosperms. A distinct protoderm was not observed in these roots, which had a large open meristem and a root cap with a well-defined columella. During nodulation, the meristem became reduced in size, and its constituent cells became vacuolate until all but a few resembled ground tissue. The root cap senesced during nodulation, and a recognizable root cap was absent from mature nodules. A file of densely cytoplasmic cells with centrally positioned nuclei developed in the nodule cortex. This layer was continuous across the nodule apex, and was identical to the presumptive algal-zone described previously by other authors. Light-induced nodules branched dichotomously and were identical to algal-free nodules described by other authors. In dichotomously branched nodules, each lobe was covered by a parenchymatous mantle analogous to a root cap. A unicellular layer similar to the presumptive algal zone spanned the gap between opposite nodule lobes, and extended beneath each lobe before terminating in the cortex. Typical meristematic regions were not observed in these nodules. Based on cell sizes and patterns, a meristematic zone was thought to exist between the mantle and the inner cortex.     

The Behaviour of Lysosome-like Particles during Cell Differentiation

The presence of lysosome-like particles has been demonstratedhistochemically in the various tissues of the root tips of Viciafaba. The behaviour of the enzyme acid phosphatase has beeninvestigated in cells from the root cap and developing protoxylemelements. The evidence presented may be interpreted as supportingthe concept that self digestion of the cell contents occursby the release of hydrolytic enzymes from the lysosomes in thecells studied.     

Correlations Between the Dimensions of Different Zones of Grass Root Apices, and their Implications for Morphogenesis and Differentiation in Roots

The sizes of different zones within root apices of nine speciesof grass were estimated, and statistically significant correlationswere found between certain of them. The volume of the cap isrelated to the volume of the meristem of the root proper. Thecortical and stelar portions of the meristem are also related,and their lengths and volumes correlate with the volume of thequiescent centre. The volume of the quiescent centre also correlateswith the length of the zone in which periclinal divisions arefound in the inner cortex; these divisions generate the rowsof cells across the cortex. Diameter of the procambial cylinder,quiescent centre volume and vascular complexity are related,though from correlations alone it is not possible to say whetherone of these characters directly influences another as has beensuggested by other workers. All the zones within the root apexprobably form a tightly-integrated developmental unit. Root structure seems to be independent of cell size, thoughcell size correlates with nuclear DNA content which is a species-specificfeature. Gramineae, meristems, morphogenesis, root apices     

Tissue-6

In order to study a possible involvement of cdc-like proteinkinases in cell development and tissue differentiation, a polyclonalantibody raised against the evolutionary conserved PSTAIR-regionof p34^cdc2-homologue protein kinases (PSTAIR-proteins) was appliedto sections of the maize root apices. PSTAIR-proteins were localizedin the nuclei and the cytoplasm of cells in the root meristem,including the quiescent centre (QC), and of all dividing cellsthat form the lateral root primordia. In most root tissues,the amount of cytoplasmic PSTAIR-proteins progressively declinedwith increasing distance from the root cap junction, becomingrestricted to the nucleus after the cessation of cell divisions.This occurred much nearer to the root cap junction in cellsof the stele, especially in metaxylem cells, than in cells ofthe root cortex. Interesting exceptions were cells of the pericycle,endodermis and the outermost cell rows of stelar parenchyma,which exhibited relatively high levels of the cytoplasmic PSTAIR-proteinsthroughout all developmental zones. After root wounding, rapid cytoplasmic accumulation of PSTAIR-proteinsin cells adjacent to the wound was observed in all tissues ofthe meristem and of the elongation zone. This wound response,which was usually followed by newly-induced cell divisions,was delayed with increasing distance from the root cap junctionin a tissue-specific manner. Since PSTAIR-proteins were foundin the cell nuclei throughout all developmental zones, theyseem to have some nuclear functions which continue even aftercell division has stopped. Key words: Cell cycle, maize roots, cyclin-dependent protein kinases, wounding     

The growth and differentiation of root cap columella cells and the proper root grown in the stationary conditions and under clinorotation

The results of light- and electron-microscopic investigations of root apices of Beta vulgaris 3-day-old seedlings grown in the stationary conditions and under clinorotation are presented. It was shown that ultrastructure and topography of organelles in root cap statocytes (graviperceptive cells) and in the cells of distal elongation zone clearly reflected the different direction in their growth and differentiation in space and time in dependence on specialization and functions. Cell growth and genetically determined differentiation occur similarly to control, although certain differences in ultrastructure are evident on metabolism changes.     

Aluminium-induced growth inhibition is associated with impaired efflux and influx of H+ across the plasma membrane in root apices of squash (Cucurbita pepo)

It is generally understood that the inhibition of growth of root apices is the initial effect caused by aluminium (Al) toxicity. The correlation between impaired H+-fluxes across the plasma membrane (PM) and Al-induced growth inhibition, Al accumulation and callose formation in root apices of squash (Cucurbita pepo L. cv. Tetsukabuto) is reported here. The root inhibition was dependent on Al concentration, and the duration of exposure, with the damage occurring preferentially in regions with high Al accumulation and callose formation. Using the fluorescent Al indicator (Morin), Al was localized in the cell walls of the root-tip cells after 3 h and in the whole root-tip cells after 6 h of the Al treatment (50 micro M). The inhibition of H+-pumping rate in the highly purified PM vesicles obtained from the Al-treated apical root portions (1 cm) coincided with the inhibition of root growth under Al stress. Furthermore, H+-ATPase activity of PM vesicles prepared from the control root apices was strongly inhibited by Al in vitro in a dose-dependent manner. Approximately 50% inhibition was observed when PM vesicles were preincubated at Al concentration as low as 10 micro M followed by the enzyme assay in the medium without Al. Using the pH indicator (bromocresol purple), it is shown that surface pH of the control (0 Al) root apices was strongly alkalized from the starting pH of 4.5 in a time-dependent manner. By contrast, the surface pH changed only slightly in the Al-treated root apices. The changes in surface pH mediated by altered dynamics of H+ efflux and influx across the root tip PM play an important role in root growth as affected by Al.     

Mitotic activity in the maize root apex after freeze-decapping

Mitosis and nuclear DNA synthesis have been examined in root apices of maize whose caps were removed by a freezing technique. These processes are not impaired by this technique even though cells at the surface of the decapped apex experience a temperature close to 0°±1.5° C for a brief period. We conclude that freeze-decapping is without significant deleterious effects to the apex and therefore the technique is a useful adjunct in studies of the role of the cap on root growth.     

缺磷条件下的小麦根系酸性磷酸酶活性研究

1　引　　言植物根可向根际分泌许多有机化合物 ,其中有许多物质都能促进植物对矿质养分的吸收 .作为必需大量营养元素的Ｐ ,在土壤中以无机磷酸盐阴离子的形式被吸收 ,而有机磷酸酯必须被水解成无机Ｐ后才能进入植物根 ,在这一过程中有一非常重要的步骤 ,就是由微生物、菌根外真菌和植物根分泌酸性磷酸酶 .土壤中的有机Ｐ一般占全Ｐ的 30 %～ 5 0 % ,有的可达95 % .因此 ,如何发挥植物自身利用土壤有机Ｐ的潜力已成为目前植物营养学研究的热点之一 .Ｇｏｌｄｓｔｅｉｎ等[3 ] 研究Ｐ胁迫条件下悬浮培养细胞时发现 ,抑制植物生长和诱导酸性…     

Aluminum Tolerance in Wheat (Triticum aestivum L.) (I. Uptake and Distribution of Aluminum in Root Apices)

We investigated the uptake and distribution of Al in root apices of near-isogenic wheat (Triticum aestivum L.) lines differing in Al tolerance at a single locus (Alt1: aluminum tolerance). Seedlings were grown in nutrient solution that contained 100 [mu]M Al, and the roots were subsequently stained with hematoxylin, a compound that binds Al in vitro to form a colored complex. Root apices of Al-sensitive genotypes stained after short exposures to Al (10 min and 1 h), whereas apices of Al-tolerant seedlings showed less intense staining after equivalent exposures. Differential staining preceded differences observed in either root elongation or total Al concentrations of root apices (terminal 2-3 mm of root). After 4 h of exposure to 100 [mu]M Al in nutrient solution, Al-sensitive genotypes accumulated more total Al in root apices than Al-tolerant genotypes, and the differences became more marked with time. Analysis of freeze-dried root apices by x-ray microanalysis showed that Al entered root apices of Al-sensitive plants and accumulated in the epidermal layer and in the cortical layer immediately below the epidermis. Long-term exposure of sensitive apices to Al (24 h) resulted in a distribution of Al coinciding with the absence of K. Quantitation of Al in the cortical layer showed that sensitive apices accumulated 5- to 10-fold more Al than tolerant apices exposed to Al solutions for equivalent times. These data are consistent with the hypothesis that Alt1 encodes a mechanism that excludes Al from root apices.     

Identification and characterization of a rhizosphere β-galactosidase from Pisum sativum L.

Plant enzyme activities in the rhizosphere potentially are a resource for improved plant nutrition, soil fertility, bioremediation, and disease resistance. Here we report that a border cell specific β-galactosidase is secreted into the acidic extracellular environment surrounding root tips of pea, as well as bean, alfalfa, barrel medic, sorghum, and maize. No enzyme activity was detected in radish and Arabidopsis, species that do not produce viable border cells. The secreted enzyme activity was inhibited by galactose and 2-phenylethyl 1-thio-β-d-galactopyranoside (PETG) at concentrations that altered root growth without causing cell death. A tomato galactanase encoding gene was used as a probe to isolate a full length pea cDNA clone (BRDgal1) from a root cap-border cell cDNA library. Southern blot analysis using full length BRDgal1 as a probe revealed 1–2 related sequences within the pea genome. BRDgal1 mRNA expression was analysed by whole mount in situ hybridization (WISH) and found to occur in the outermost peripheral layer of the cap and in suspensions of detached border cells. No expression was detected within the body of the root cap. Repeated efforts to develop viable hairy root clones expressing BRDgal1 antisense mRNA under the control of the CaMV35S promoter, whose expression in the root cap is limited to cells at the root cap periphery only during root emergence, were unsuccessful. These data suggest that altered expression of this enzyme is deleterious to early root development. The first two authors contributed equally to the completion of this project.     

Growth and differentiation of the root cap columella and root proper under stationary conditions and in clinorotation

Results are presented from light-optical and electron-microscopy studies of the root apices of three-day-old seedlings of table beet (Beta vulgaris) grown under conditions of stationary control and in clinorotation. It is shown that the ultrastructure and topography of the organelles of the root cap statocytes (gravity-perceptive cells) and cells of the distal elongation zone (gravity-receptor cells) of the root proper clearly reflect different directions for their growth and differentiation in space and in time as a function of specialization and function. Growth and genetically determined differentiation of the cells under clinorotation conditions occur as in the control, though certain differences in their ultrastructure attest to changes in metabolism.     

Root Growth Inhibition in Boron-Deficient or Aluminum-Stressed Squash May Be a Result of Impaired Ascorbate Metabolism

Although cessation of growth is the most apparent symptom of boron deficiency, the biochemical function of boron in growth processes is not well understood. We propose that the action of boron in root meristems is associated with ascorbate metabolism. Total inhibition of root growth in squash (Cucurbita pepo L.) plants transferred to boron-free medium coincided with a major decrease (up to 98%) in the ascorbate concentration of root apices. Under low-boron conditions, in which root growth was partially inhibited, ascorbate concentration declined in proportion to growth rate. The decline in ascorbate concentration in boron-deficient root tips was not related to ascorbate oxidation. Ascorbate added to the medium improved root growth in plants supplied with insufficient boron. Increasing concentrations of aluminum in the nutrient medium caused progressive inhibition of root growth and a parallel reduction in ascorbate concentration of root apices. Elevated boron levels improved root growth under toxic aluminum conditions and produced root apices with higher ascorbate concentrations. To our knowledge, this is the first report of a correlation between boron nutrition, ascorbate concentration in root apices, and growth. These findings show that root growth inhibition resulting from either boron deficiency or aluminum toxicity may be a consequence of disrupted ascorbate metabolism.