A MUCILAGINOUS ROOT SHEATH IN ERICACEAE

A prominent mucilaginous sheath surrounding the root tips of plants in the family Ericaceae is described. The sheath was ubiquitous in all species examined. These included representatives of both subfamilies and all tribes of the family. Anatomical studies indicated that the sheath was not the breakdown product of root cap cells but rather that it was formed exterior to a thickened cell wall or cellular layer at the root tip. Although the mucilaginous sheath stained readily with ruthenium red (a specific test for pectins), it was not possible to show it to be one of the common pectins by microchemical tests. Relationships between the soil environment and the extent and condition of the sheath are discussed. Possible significance or functions of the sheath are suggested.     

爬山虎属三种植物吸盘的解剖学研究

运用常规石蜡切片法,对3种爬山虎属(Parthenocissus)植物的吸盘结构进行了观察研究.结果表明:吸盘膨大部位、吸附方式、卷须长短及托叶可以作为种的分类依据;3种植物的吸盘均由表皮、皮层、维管柱组成,未吸附表皮细胞外弦壁增厚,具角质层;吸盘膨大主要是由维管柱扩大而非表皮细胞膨大引起;吸盘未吸附部位的皮层细胞含有较多晶体;吸盘膨大时维管柱转变成维管束,维管形成层活动期较短.3种植物的吸附结构由表皮及皮层细胞反分化分裂形成多层指状细胞构成.     

丝瓜肌球蛋白的电子显微学研究

从丝瓜 (Luffacylindrica (L .)Roem .)卷须中纯化得到分子量为 174kD的肌球蛋白 ,并对其进行了酶学与电子显微学的研究。这种肌球蛋白具有肌动蛋白激活的MgATPase活性 ,能够被抗动物肌肉的肌球蛋白的单克隆抗体识别。电子显微学研究表明 :它有两个头部 (大小和形状与动物肌肉的肌球蛋白相似 )和一条相对较短的尾部。还对丝瓜卷须的肌动蛋白进行了观测 ,偶尔发现一些尾部有球状结构的肌球蛋白。该肌球蛋白的免疫特性和超微结构证明了它由 2条重链组成 ,并与传统的肌球蛋白相似。然而 ,这种 174kD的肌球蛋白是否参与了丝瓜的接触卷曲有待于进一步研究。     

Occurrence of Passalora Leaf Spot Caused by Passalora ampelopsidis on Virginia Creeper in Korea

A previously unknown leaf spot disease was observed on Virginia creeper (Parthenocissus quinquefolia) vines in Seoul, Korea. Affected plants exhibited leaf spots and discoloration, resulting in leaf blight and premature defoliation. The causal agent of the disease was identified as Passalora ampelopsidis by comparing morphological characteristics and analyzing the internal transcribed spacer region of the rDNA. Pathogenicity tests were conducted twice with the same results, fulfilling Koch's postulates. Passalora leaf spot on Virginia creeper vines was first recorded in the United States in 1878. Recent reports of Passalora leaf spots on Virginia creeper vines in 2005 in Germany, in 2012 in China and now in Korea indicate the prevalence of the disease.     

丝瓜肌球蛋白的电子显微学研究

从丝瓜(Luffa cylindrica (L.) Roem.)卷须中纯化得到分子量为174kD的肌球蛋白,并对其进行了酶学与电子显微学的研究.这种肌球蛋白具有肌动蛋白激活的MgATPase活性,能够被抗动物肌肉的肌球蛋白的单克隆抗体识别.电子显微学研究表明:它有两个头部(大小和形状与动物肌肉的肌球蛋白相似)和一条相对较短的尾部.还对丝瓜卷须的肌动蛋白进行了观测,偶尔发现一些尾部有球状结构的肌球蛋白.该肌球蛋白的免疫特性和超微结构证明了它由2条重链组成,并与传统的肌球蛋白相似.然而,这种174 kD的肌球蛋白是否参与了丝瓜的接触卷曲有待于进一步研究.     

SEM-Untersuchungen an myxospermen Diasporen

The epidermal structure of mucilage producing seeds and fruits before and after contact with water is studied. Main emphasis is laid on the elucidation of structural peculiarities of the dessicated mucilaginous substances.

     

Formation of Tartaric Acid in Vitaceous Plants: Relative Contributions of L-Ascorbic Acid-inclusive and -noninclusive Pathways

The biosynthetic conversion of D-glucose to tartaric acid (TA)was studied in attached leaves and berries of Vitis labruscacv. Delaware (grape), and in leaves of Parthenocissus quinquefoliaL. (Virginia creeper) under light or dark conditions. D-[2-¹⁴C,3-³H]glucose was supplied for a period of 12 h and the ratioof ³H to ¹⁴C in cell wall-derived glucosyl units and TA wasexamined. TA produced via L-ascorbic acid (AA) should lose 3Hduring this conversion while TA produced via D-gluconate shouldretain ³H. In the light, approximately 85 to 91% of the TA presentin grapes and 98% of the TA present in Virginia creeper appearedto be generated via the pathway that involves AA. In the dark,approximately 69 to 74% of the TA in grapes and 87% of the TAin Virginia creeper was synthesized via the AA pathway. When0.5% unlabeled AA was present in the solution of labeled D-glucosethat was supplied to attached leaves of Virginia creeper, agreater proportion of TA was produced via the non-AA pathway.Similarly, detached Virginia creeper leaves produced a greaterproportion of TA via the non-AA pathway. These studies indicatethat vitaceous plants utilize the AA-inclusive pathway to producea major portion of their TA, especially in the light. The valueof P. quinquefolia as a useful model for year-round study ofthe biosynthesis of AA and TA is also discussed. (Received January 23, 1989; Accepted June 19, 1989)     

贵州梵净山自然保护区藤本植物攀援方式及类型的研究

研究了梵净山自然保护区藤本植物的攀援方式及类型。从生物学、生态学角度 ,将梵净山藤本植物依照它们附着于支持物的攀登方法不同而划分为缠绕、攀援、卷须、根系、铺展与匍匐、寄生及兼有 2种以上攀援方式等 7大类型 14个亚型。并对该林区主要植被类型中的藤本植物进行了相应的讨论     

Flax rhamnogalacturonan lyases: phylogeny,differential expression and modeling of protein structure

Rhamnogalacturonan lyases (RGLs; EC 4.2.2.23) degrade the rhamnogalacturonan I (RG‐I) backbone of pectins present in the plant cell wall. These enzymes belong to polysaccharide lyase family 4, members of which are mainly from plants and plant pathogens. RGLs are investigated, as a rule, as pathogen ‘weapons’ for plant cell wall degradation and subsequent infection. Despite the presence of genes annotated as RGLs in plant genomes and the presence of substrates for enzyme activity in plant cells, evidence supporting the involvement of this enzyme in certain processes is limited. The differential expression of some RGL genes in flax (Linum usitatissimum L.) tissues, revealed in our previous work, prompted us to carry out a total revision (phylogenetic analysis, analysis of expression and protein structure modeling) of all the sequences of flax predicted as coding for RGLs. Comparison of the expressions of LusRGL in various tissues of flax stem revealed that LusRGLs belong to distinct phylogenetic clades, which correspond to two co‐expression groups. One of these groups comprised LusRGL6‐A and LusRGL6‐B genes and was specifically upregulated in flax fibers during deposition of the tertiary cell wall, which has complex RG‐I as a key noncellulosic component. The results of homology modeling and docking demonstrated that the topology of the LusRGL6‐A catalytic site allowed binding to the RG‐I ligand. These findings lead us to suggest the presence of RGL activity in planta and the involvement of special isoforms of RGLs in the modification of RG‐I of the tertiary cell wall in plant fibers.     

Developmental changes in guard cell wall structure and pectin composition in the moss Funaria: implications for function and evolution of stomata

Background and Aims

In seed plants, the ability of guard cell walls to move is imparted by pectins. Arabinan rhamnogalacturonan I (RG1) pectins confer flexibility while unesterified homogalacturonan (HG) pectins impart rigidity. Recognized as the first extant plants with stomata, mosses are key to understanding guard cell function and evolution. Moss stomata open and close for only a short period during capsule expansion. This study examines the ultrastructure and pectin composition of guard cell walls during development in Funaria hygrometrica and relates these features to the limited movement of stomata.

Methods

Developing stomata were examined and immunogold-labelled in transmission electron microscopy using monoclonal antibodies to five pectin epitopes: LM19 (unesterified HG), LM20 (esterified HG), LM5 (galactan RG1), LM6 (arabinan RG1) and LM13 (linear arabinan RG1). Labels for pectin type were quantitated and compared across walls and stages on replicated, independent samples.

Key Results

Walls were four times thinner before pore formation than in mature stomata. When stomata opened and closed, guard cell walls were thin and pectinaceous before the striated internal and thickest layer was deposited. Unesterified HG localized strongly in early layers but weakly in the thick internal layer. Labelling was weak for esterified HG, absent for galactan RG1 and strong for arabinan RG1. Linear arabinan RG1 is the only pectin that exclusively labelled guard cell walls. Pectin content decreased but the proportion of HG to arabinans changed only slightly.

Conclusions

This is the first study to demonstrate changes in pectin composition during stomatal development in any plant. Movement of Funaria stomata coincides with capsule expansion before layering of guard cell walls is complete. Changes in wall architecture coupled with a decrease in total pectin may be responsible for the inability of mature stomata to move. Specialization of guard cells in mosses involves the addition of linear arabinans.     

Selective chemical depolymerization of rhamnogalacturonans

A method was developed to selectively methyl esterify and then cleave GalA residues in pectic polysaccharides. The method was optimized using a rhamnogalacturonan (RG) from Arabidopsis mucilage as a model compound. The carboxyl group of the GalA residues in the RG was selectively methyl esterified using tetrabutylammonium fluoride and iodomethane in Me(2)SO containing 8% water. A 1D HMQC NMR method to determine the degree of methyl esterification was developed using (13)C-iodomethane as the methylating agent. The methyl-esterified pectins were fragmented by beta-elimination in 0.2M sodium borate, pH7.3, at 125 degrees C. The resulting oligoglycosyl fragments, which contain a nonreducing 4-deoxy-beta-l-threo-hex-4-enepyranosyluronic acid residue, were characterized using MALDI-TOF mass spectrometry, monosaccharide composition analysis, and 1D and 2D (1)H and (13)C NMR spectroscopy. Application of this method to branched RG from potato generated low-molecular-weight fragments containing two residues from the RG backbone and a single side chain. In contrast, the fragments obtained when RG is treated with RG lyase contain a minimum of four backbone residues. The chemical method thus facilitates the release and structural characterization of the side-chain structures of RG obtained from various plant sources. The method also provides a convenient method for generating fully or partially methyl-esterified homogalacturonans.     

LEAF DEVELOPMENT IN DOXANTHA UNGUIS-CATI (BIGNONIACEAE)

Leaf structure in Doxantha unguis-cati is polymorphic. The usual mature compound leaf is composed of two lanceolate leaflets and a terminal tripartite spine-tendril. Leaf primordia are initiated simultaneously in pairs on opposite flanks of the shoot apical meristem by periclinal cell divisions in the third subsurface layer of the peripheral flank meristem. Two leaflet primordia are the first lateral appendages of the compound leaf. Initiation of these leaflet primordia occurs on the adaxial side of a compound leaf primordium 63–70 μm long. Lamina formation is initiated at the base of a leaflet primordium 70–90 μm long and continues acropetally. Mesophyll differentiation occurs in later stages of development of leaflets. The second pair of lateral appendages of the leaf primordium differentiate as prongs of the tendril. Initiation of the second pair of lateral appendages occurs on the adaxial side of a primordium approximately 168 μm long. Acropetal procambialization and vacuolation of cells extend to the apex of tendrils about 112 μm long, restricting the tendril meristem to the adaxial side of the primordium and resulting in curvature of the tendril. The tendril meristem is gradually limited to a more basipetal position as elongation of apical cells continues. Initiatory divisions and early ontogenetic stages of leaflets and tendrils are similar. Their ontogeny differs when the lateral primordia are approximately 70 μm long. Marginal and submarginal initials differentiate within leaflets but not in tendrils. Apical growth of tendrils ceases very early in ontogeny as compared with leaflets.     

An inexpensive alternative to routine section adhesives for histology: the mucilaginous substance of the Assyrian plum

We found that the mucilaginous substance of the Assyrian plum, Cordia myxa, can be used as an adhesive for attaching sections of animal tissues to slides. Unlike Mayer's albumen, this material left no stainable residue and had no noticeable effect on the histological structure of the tissue sections. The mucilaginous substance of C. myxa is a useful and inexpensive alternative to standard adhesives.     

Micro-heterogeneity of pectins and calcium distribution in the epidermal and cortical parenchyma cell walls of flax hypocotyl

Summary Pectic polysaccharides are major components of the plant cell wall matrix and are known to perform many important functions for the plant. In the course of our studies on the putative role of pectic polysaccharides in the control of cell elongation, we have examined the distribution of polygalacturonans in the epidermal and cortical parenchyma cell walls of flax seedling hypocotyls. Pectic components have been detected with (1) the nickel (Ni²⁺) staining method to visualize polygalacturonates, (2) monoclonal antibodies specific to low (JIM5) and highly methylesterified (JIM7) pectins and (3) a combination of subtractive treatment and PATAg (periodic acid-thiocarbohydrazide-silver proteinate) staining. In parallel, calcium (Ca²⁺) distribution has been imaged using SIMS microscopy (secondary ion mass spectrometry) on cryo-prepared samples and TEM (transmission electron microscopy) after precipitation of calcium with potassium pyroantimonate. Our results show that, at the tissular level, polygalacturonans are mainly located in the epidermal cell walls, as revealed by the Ni²⁺ staining and immunofluorescence microscopy with JIM5 and JIM7 antibodies. In parallel, Ca²⁺ distribution points to a higher content of this cation in the epidermal walls compared to cortical parenchyma walls. At the ultrastructural level, immunogold labeling with JIM5 and JIM7 antibodies shows a differential distribution of pectic polysaccharides within cell walls of both tissues. The acidic polygalacturonans (recognized by JIM5) held through calcium bridges are mainly found in the outer part of the external wall of epidermal cells. In contrast, the labeling of methylesterified pectins with JIM7 is slightly higher in the inner part than in the outer part of the wall. In the cortical parenchyma cells, acidic pectins are restricted to the cell junctions and the wall areas in contact with the air-spaces, whereas methylesterified pectins are evenly distributed all over the wall. In addition, the pyroantimonate precipitation method reveals a clear difference in the Ca²⁺ distribution in the epidermal wall, suggesting that this cation is more tightly bound to acidic pectins in the outer part than in the inner part of that wall. Our findings show that the distribution of pectic polysaccharides and the nature of their linkages differ not only between tissues, but also within a single wall of a given cell in flax hypocotyls. The differential distribution of pectins and Ca²⁺ in the external epidermal wall suggests a specific control of the demethylation of pectins and a central role for Ca²⁺ in this regulation.Abbreviations Cdta diamino-1,2-cyclohexane tetra-acetic acid - PATAg periodic acid-thiocarbohydrazide-silver proteinate - PGA polygalacturonic acid - PME pectin methylesterase - RG I rhamnogalacturonan I - SIMS secondary ion mass spectrometry - TEM transmission electron microscopy     

外源乙酰胆碱在丝瓜卷须弯曲中起“神经递质”的作用

用乙酰胆碱（ＡＣｈ）或毒扁豆碱处理离体丝瓜卷须不仅能增强机械刺激引发的卷曲程度,甚至可以直接引发卷须的弯曲运动。用阿托品预处理卷须可以抑制由机械刺激引发的电化学波传递,减弱ＡＣｈ对卷须弯曲运动的效应;而Ｄ－管箭毒预处理卷须则无此效应。说明在丝瓜卷须中ＡＣｈ是通过毒蕈碱型受体传递电化波并引起原生质收缩和快速弯曲运动,这与动物神经－平滑肌突触传递兴奋的机制很相似。     

Sink to Source Transition in Tendrils of a Semileafless Mutant, Pisum sativum cv Curly

Sink to source transition parallels loss of thigmotropic capacity in tendrils of a semileafless mutant, Pisum sativum cv Curly. Macroscopic tendril development is subdivided based on thigmotropic capacity. Stage I is the elongation stage and, although the rate of photosynthesis is similar to that of stage II and III tendrils, dark respiration rates are higher in stage I. During stage II, tendrils are thigmotropic and act as a sink. Even though stage II tendrils have CO₂ exchange characteristics similar to those of stage III tendrils, which are coiled, our fluorescein, ¹⁴C-partitioning, and ¹¹C-translocation experiments suggest that stage I and II tendrils do not export carbon. Only stage III tendrils act as sources of newly fixed carbon. Export from them is blocked by cold, heat girdling of the petiole, or anoxia treatment of the tendrils. A late stage II tendril complex, in which coiling is occurring, may be exporting photoassimilates; however, this phenomenon can be attributed to the fact that the pea leaf is a compound structure and there may be one or more stage III tendrils, no longer thigmotropic, within the tendril complex. Photosynthetic maturity in pea tendrils occurs at stage III and is characterized by the ability of these tendrils to export photoassimilates.     

Studies on the mucilaginous cells in the leaf ofSpartocytisus filipes W.B.

The structure and ultrastructure of epidermal cells with thick mucilaginous inner walls were investigated in leaves ofSpartocytisus filipes. Identification of the main constituents of the wall was attempted by means of histochemistry and polarized light and compared with the ultrastructure of the wall, which showed a mosaic structure alternating with electron dense bands.     

F-actin-dependent endocytosis of cell wall pectins in meristematic root cells. Insights from brefeldin A-induced compartments

Brefeldin A (BFA) inhibits exocytosis but allows endocytosis, making it a valuable agent to identify molecules that recycle at cell peripheries. In plants, formation of large intracellular compartments in response to BFA treatment is a unique feature of some, but not all, cells. Here, we have analyzed assembly and distribution of BFA compartments in development- and tissue-specific contexts of growing maize (Zea mays) root apices. Surprisingly, these unique compartments formed only in meristematic cells of the root body. On the other hand, BFA compartments were absent from secretory cells of root cap periphery, metaxylem cells, and most elongating cells, all of which are active in exocytosis. We report that cell wall pectin epitopes counting rhamnogalacturonan II dimers cross-linked by borate diol diester, partially esterified (up to 40%) homogalacturonan pectins, and (1-->4)-beta-D-galactan side chains of rhamnogalacturonan I were internalized into BFA compartments. In contrast, Golgi-derived secretory (esterified up to 80%) homogalacturonan pectins localized to the cytoplasm in control cells and did not accumulate within characteristic BFA compartments. Latrunculin B-mediated depolymerization of F-actin inhibited internalization and accumulation of cell wall pectins within intracellular BFA compartments. Importantly, cold treatment and protoplasting prevented internalization of wall pectins into root cells upon BFA treatment. These observations suggest that cell wall pectins of meristematic maize root cells undergo rapid endocytosis in an F-actin-dependent manner.     

Evidence for in vitro binding of pectin side chains to cellulose

Pectins of varying structures were tested for their ability to interact with cellulose in comparison to the well-known adsorption of xyloglucan. Our results reveal that sugar beet (Beta vulgaris) and potato (Solanum tuberosum) pectins, which are rich in neutral sugar side chains, can bind in vitro to cellulose. The extent of binding varies with respect to the nature and structure of the side chains. Additionally, branched arabinans (Br-Arabinans) or debranched arabinans (Deb-Arabinans; isolated from sugar beet) and galactans (isolated from potato) were shown bind to cellulose microfibrils. The adsorption of Br-Arabinan and galactan was lower than that of Deb-Arabinan. The maximum adsorption affinity of Deb-Arabinan to cellulose was comparable to that of xyloglucan. The study of sugar beet and potato alkali-treated cell walls supports the hypothesis of pectin-cellulose interaction. Natural composites enriched in arabinans or galactans and cellulose were recovered. The binding of pectins to cellulose microfibrils may be of considerable significance in the modeling of primary cell walls of plants as well as in the process of cell wall assembly.     

Nutlet morphology in Hemigenia R.Br. and Microcorys R.Br. (Lamiaceae)

Nutlets of Hemigenia R.Br. and Microcorys R.Br. were examined using SEM. Significant variation, mainly useful at the infrageneric level, was found in nutlet shape, nature of the attachment scar, nature of surface sculpturing, exocarp cell shape and sculpturing, and nature of the indumentum. Typical nutlets are ovoidal, strongly reticulate or rugose. The exocarp cells are isodiametric and convex to papillate. Also common are cylindrical nutlets, often with longitudinal ridging and papillate exocarp cells. Surface pitting and concave exocarp cells are rare. A cladistic analysis of nutlet characters suggests both Hemigenia and Microcorys are polyphyletic, and Microcorys paraphyletic with respect to Westringia Sm. Notwithstanding that, the infrageneric classification of Hemigenia was largely supported, while in Microcorys, there was support for sect. Hemigenioides, but sects Anisandra and Microcorys were not resolved as distinct.