Alfalfa Stem Tissues: Cell-wall Development and Lignification

Alfalfa stems contain a variety of tissues with different patternsof cell-wall development. Development of alfalfa cell wallswas investigated after histochemical staining and with polarizedlight using light microscopy and scanning electron microscopy.Samples of the seventh internode, from the base of stems grownon cut stems, were harvested at five defined stages of developmentfrom early internode elongation through to late maturity. Internodeseven was elongating up to the third sample harvest and internodediameter increased throughout the entire sampling period. Chlorenchyma,cambium, secondary phloem, primary xylem parenchyma and pithparenchyma stem tissues all had thin primary cell walls. Pithparenchyma underwent a small amount of cell-wall thickeningand lignification during maturation. Collenchyma and primaryphloem tissues developed partially thickened primary walls.In contrast to a recent report, the formation of a ring shaped,lignified portion of the primary wall in a number of cells inthe exterior part of the primary phloem was found to precedethe deposition of a thick, non-lignified secondary wall whichwas degradable by rumen microbes. In numerous xylem fibres fromthe fourth harvest date onwards, an additional highly degradablesecondary wall layer was deposited against a previously depositedlignified and undegradable secondary wall. The pattern of lignificationobserved in alfalfa stem tissues suggests that polymerizationof monolignols by peroxidases at the luminal border of the primarycell wall creates an impermeable zone which restricts lignificationof the middle lamella region of tissues with thick primary walls.Copyright1998 Annals of Botany Company Alfalfa,Medicago sativaL., stem tissue, cell wall, development, lignification, degradation.     

Time Course and Polarity of Primary Phloem Fibre Differentiation in Pisum sativum

Primary phloem fibres of Pisum sativum deposit lignified cellwalls, 2 and 5 days after germination in root and stem, respectively.Fibre bundles reach their final size within 4–6 days.The differentiation of the bundles as a whole is faster in thestem compared with the root. In the special diverging bundlesof the lower internodes of the stem the peripheral portionsmature earlier than the inner portions. A wound in the rootas well as in the stem, interrrupts the differentiation of fibresdirectly below it. At least one bundle below a wound is disturbedand often a whole bundle is missing. The meaning of these findingsconcerning the control of cell size is discussed. Pisum sativum, differentiation, induction, phloem fibres, polarity, time course     

Localization and Kinetic Properties of {beta}-Glycerophosphatase in Barley Roots

The study of ß-glycerophosphatase activity in cell-wallpreparations and in excised root tips from barley seedlingssupports the view that the former, which constitutes about 20per cent of the activity of the whole homogenate, representsthe fraction located at the surface of the roots in vivo. Theactivities of the cell-wall suspension and intact roots arevirtually identical, and further show identical relations topH, substrate concentration (K_m), and competitive inhibitionby molybdate and inorganic phosphate (K_i). The enzyme must thereforebe freely exposed to the external solution without any permeabilitybarrier separating it from either substrate or inhibitors. Theabsence of any lag phase in the hydrolysis in excised root tipssuggests that the surface enzyme may be limited to the outermostlayers of the root. The solubilization of some of the activityof the cell-wall preparation by treatment with sodium chlorideand ammonium sulphate suggest that surface activity may havebeen lost from these preparations rather than adsorbed duringhomogenization and extraction. The K_m and pH-activity curveof the supernatant activity remaining after centrifugation ofthe cell-wall fraction indicate that only this enzyme and noother detectable glycerophosphatase exists in the roots.     

Carpology, Seed Anatomy and Taxonomic Relationships ofGalbulimima(Himantandraceae)

The fruit and seed anatomy and morphology ofGalbulimima belgraveana(F.Muell.) Sprague, a solitary species of the monotypic genus inthe Himantandraceae, have been studied in an effort to clarifyits systematic position. The indehiscent fleshy multicarpellary,two- or three-ranked capsetum ofGalbulimimaconsists of follicles(capseoles) with lignified fibrous five- or six-layered endocarp.Such construction of the himantandraceous capsetum suggestsderivation from free cone-like fruits similar to those of Annonaceaeand Magnoliaceae. Seeds ofGalbulimimaare relatively large, flattened,winged, with a solitary vascular bundle extending to the micropyle,and a cup of hypostase. They are abundantly albuminous and havea small dicotyledonous embryo. The seed coat ofGalbulimimaismesotestal with testal-tegmic ruminations and unspecializedtwo- or three-layered tegmen; a single-layered exotesta representedby thin-walled tanniniferous cells; a two (–three)-layeredmesotesta, composed of thick-walled lignified longitudinal fibres;and an endotesta composed of two or three layers of unspecializedaerenchymatous parenchyma. Evidence, mainly from seed morphologyand anatomy of seed coats, emphasizes the anomaly of the traditionalaffiliation of Himantandraceae with MagnolialessensuTakhtajan,being quite distinct in spermoderm structure and origin fromboth Magnoliaceae and Degeneriaceae in particular. Furthermore,seed anatomy does not confirm any relationships with Myristicaceaeor Canellaceae. Among all Magnoliidae, the structure of theseed coats ofGalbulimimais similar to that of some advancedAnnonaceae and Eupomatiaceae. It is suggested that Himantandraceaetogether with Eupomatiaceae and Annonaceae constitute a distinctrelic blind branch of magnoliid ancestry. On the basis of availabledata of seed coat anatomy, it is appropriate to remove Himantandralesfrom the order Magnolialessensu stricto, and to place it intoits own monotypic order, Himantandralesord. nov.,grouping togetherwith orders Eupomatiales and Annonales in Magnoliidae.Copyright1998 Annals of Botany Company Galbulimima belgraveana(F. Muell.) Sprague; carpology; pericarp; seed anatomy; systematics; phylogenetic relationships; Himantandraceae; Magnoliaceae; Eupomatiaceae; Degeneriaceae; Annonaceae; Liriodendraceae; Myristicaceae; Canellaceae.     

Plant Height and the Properties of Some Herbaceous Stems

The volume fraction (VF) of lignified tissues and density-specificstiffness (the quotient of the Young's elastic modulus E andbulk tissue-density     

Helicoidal cell-wall texture in root hairs

It is shown that root hairs of most aquatic plants have a helicoidal cell-wall texture. Cell walls of root hairs of the aquatic/marshland plant Ranunculus lingua, however, have an axial microfibril alignment. The occurrence of a helicoidal wall texture is not limited to root hairs of aquatic plants: the terrestrial plant Zebrina purpusii has a helicoidal root-hair wall texture, too. With the exception of the grasses, the occurrence of root hairs with helicoidal cell walls pertains to species with predetermined root-hair-forming cells, trichoblasts. The rotation mode of the helicoid is species-specific. The average angle between fibrils of adjacent lamellae varies from 23° to 40°. In Hydrocharis morsus-ranae, cortical microtubules have a net-axial orientation and thus do not parallel nascent microfibrils. The deposition of the helicoidal cell wall is discussed.In honour of Prof. Dr. H.F Linskens (Nijmegen) on the occasion of his 65th birthday     

Water-storing and Cavitation-preventing Adaptations in Wood of Cacti

Ancestral cacti presumably had abundant, fibrous, heavily lignifiedwood, similar to that present in the relictual, leaf-bearinggenus Pereskia. During the evolutionary radiation of the subfamilyCactoideae, diverse types of bodies and woods arose. Severalevolutionary lines have retained an abundant, fibrous wood:all wood cells, even ray cells, have thick lignified walls,and axial parenchyma is only scanty paratracheal. Aside froma diversity of vessel diameters, there seems to be little protectionagainst cavitation during water-stress, and little water-storagecapacity. This strong wood permits the plants to be tall andto compete for light in their tree-shaded semi-arid habitats.In other evolutionary lines, the wood lacks fibres, and almostall cells have thin, unlignified walls. Vessels occur in anextensive matrix of water-storing parenchyma, and tracheidsare also abundant, constituting over half the axial tissue insome species. There is excellent protection against cavitation,but little mechanical support for the plant body; however, theseplants are short and occur in extremely arid, unshaded sites.Scandent, vinelike plants of two genera produce a dimorphicwood—while their shoots are extending without externalsupport, they produce fibrous, lignified wood, but after leaningagainst a host branch, they produce a parenchymatous, unlignifiedwood.Copyright 1993, 1999 Academic Press Cactaceae, cactus, water-stress, wood, evolution, xylem     

Histochemistry and composition of the cell walls of styles of Nicotiana alata Link et Otto

The cell walls of styles of Nicotiana alata Link et Otto (ornamental tobacco; Solanaceae) were analysed chemically and examined histochemically. Cell-wall preparations were obtained from whole styles and from isolated transmitting-tissue cells. The style epidermal cells were shown histochemically to have thick, lignified secondary walls. These walls probably constituted a large proportion of the cell-wall preparation from whole styles as analysis of whole-style walls indicated that the major polysaccharides were xylans and cellulose, which are typical of lignified secondary walls of Magnoliopsida (dicotyledons). Lignification of the style epidermal walls was also demonstrated histochemically in 10 other species (5 genera including Nicotiana) of the sub-family Cestroideae of the Solanaceae, but not in 15 species (9 genera) of the sub-family Solanoideae of the Solanaceae, nor in 3 other species of dicotyledons and 2 species of Liliopsida (monocotyledons). Analysis of the cell-wall preparation from isolated transmitting-tissue cells of N. alata indicated that these contained cellulose, xyloglucans, and pectic polysaccharides, which is typical of primary cell walls of dicotyledons. However, the analysis indicated that the walls also contained an unusually high proportion of Type II arabinogalactans. Staining of the transmitting-tissue cell-wall preparation with β-glucosyl Yariv reagent, a histochemical reagent specific for arabinogalactan proteins, confirmed their presence, which may be related to the role of these cells in secreting the stylar extracellular matrix.     

Cell-Wall Changes in Potato Tuber Tissue 4Phytophthora infestans (Mont.) De Bary

Examination of the carbohydrates of cell walls prepared fromtuber discs of a susceptible variety of potato showed an increase,with time, in all the polysaccharide fractions in control discs,but a slower increase in the pectic fraction and a more rapidincrease in the extraction residue to discs infected with Phytophthorainfestans. These differences were related to the monosaccharidecomposition of hydrolysates; there was no increase in galactose,found predominantly in the pectic fraction, but a rapid increasein glucose which is confined almost exclusively to the extractionresidue. Part of the increased glucose was due to an accumulationof hyphal wall of P. infestans which contains mainly an alkali-insolubleglucan. Galactanase activity, which was demonstrated in infecteddiscs, could account for the divergence of galactose contentfrom that of the controls. There was an enhanced accumulationof a lignin-like polymer associated with the cell-wall fractionof infected discs.     

The glucuronoxylans and the helicoidal shift in cellulose microfibrils in linden wood: Cytochemistryin muro and on isolated molecules

Summary In fibres of wood, the classical S₁ and S₂ layers are connectedvia a transition zone where a helicoidal texture occurs. In order to understand the actual mechanism of cellulose microfibril rotation in this zone, the study of relationship between cellulose and matrix was undertaken cytochemically at the ultrastructural level.Glucuronoxylans,i.e., the main hemicellulose component of hardwood, were studied in cell walls of linden tree. Xylanase-gold complexes were used as a new cytochemical tool to directly and specifically label glucuronoxylans within the wall of fibres. Subtractive localization (KOH or DMSO extraction and PATAg test or shadowing) associated with chemical analysis was carried out as control. The study of isolated glucuronoxylan molecules was undertaken in parallel.Both from direct (xylanase-gold labeling) and indirect techniques (extractions), glucuronoxylans appear preferentially concentrated in the transition zone which overlaps the layers S₁ and S₂. A comparison between KOH and DMSO extraction indicates a difference in accessibility of glucuronoxylans distributed across the whole wall and those located in the transition zone. Isolated molecules have a rodlike aspect and show a tendancy to spatially organize in parallel alignment. Cytochemical labeling of the isolated molecules concerns covalent linkages, vic-glycol groups and acid side groups along the main chain.The preferential localization indicates that in the helicoidal zone glucuronoxylans constitute a thick matrix embedding the cellulose microfibrils in the course of rotation. This data leads to a discussion of how these localized matrix molecules could intervene in the assembly and the twisted morphogenesis of the fibre cell wall.     

Localization of Mannose, TV-Acetylglucosamine and Galactose in the Golgi Apparatus, Plasma Membranes and Cell Walls of Scenedesmus acuminatus

The localization of lectin binding sites in the Golgi apparatus,plasma membranes and cell walls of Scenedesmus acuminatus wasinvestigated by cytochemical electron microscopy. The lectinsused were concanavalin A (Con A), peanut agglutinin (PNA) andwheat germ agglutinin (WGA), all labeled with gold. Con A-goldparticles were deposited not on the Golgi apparatus, but onthe outer cell-wall layer. PNA-gold and WGA-gold particles weredeposited on distal Golgi cisternae and vesicles derived fromthe Golgi apparatus. Entire cell-wall layers were evenly labeledby PNA-gold. The plasma membrane and cytoplasmic regions closeto the plasma membrane were labeled with WGA-gold. The processingof oligosaccharide in the Golgi apparatus, plasma membranesand cell walls of Scenedesmus acuminatus is discussed in referenceto that reported for animal cells. (Received March 5, 1987; Accepted July 18, 1987)     

Effects of ABA on Synthesis of Cell-Wall Polysaccharides in Segments of Etiolated Squash Hypocotyl I. Changes in Incorporation of Glucose and myo-Inositol into Cell-Wall Components

Externally supplied [³H]myo-inositol and [¹⁴C]glucose were incorporatedin cell-wall fractions of segments of etiolated squash hypocotyl.The extent of incorporation of [¹⁴C]glucose into cell-wall fractionswas very much greater than that of [³H]myo-inositol. Radioactivityfrom [¹⁴C]-glucose was effectively incorporated into hemicelluloseB and cellulose fractions and was incorporated uniformly intohexose, pentose and uronic acid residues, but radioactivityfrom [³H]myo-inositol was incorporated predominantly into uronicacid and pentose residues in the pectin and hemicellulose Bfractions. Exogenously applied ABA significantly suppressed the elongationof segments of squash hypocotyl and the incorporation of radioactivityfrom [^l4C]glucose and [³H]myo-inositol into the segments. Furthermore,ABA significantly inhibited the distribution of incorporatedradioactivity from [¹⁴C]glucose into the cellulose fraction,but did not affect distribution into the pectic fraction. Bycontrast, ABA only slightly inhibited the distribution of theincorporated radioactivity from [³H]myo-inositol into the pecticfraction. These results suggest that most of the cell-wall polysaccharidesin segments of squash hypocotyl are synthesized via the UDP-sugarpathway, and that ABA significantly inhibits the synthesis ofcellulose but not the synthesis of pectic polysaccharides whenABA suppresses the elongation of the segments. (Received March 25, 1988; Accepted November 15, 1988)     

The Mechanics of the Flower Stem of the Sedge Carex acutiformis

The mechanics of the triangular stems of Carex acutiformis wasinvestigated by subjecting sections to bending and torsionaltests. The stem was rigid in bending, being stiffened peripherallyby lignified material around the vascular bundles, but becauseof its triangular shape it was vulnerable to local buckling.Despite being and narrow the stem was able to support the seedhead, though it sagged appreciably towards the tip. In contrastthe stem had very low torsional rigidity, both because of itstriangular shape because the strands of lignified material wereisolated from each other. In its lowland habitat this allowsthe drooping stem to twist away from the light winds, so reducingdrag and the chances of self-fertilization. This method of reconfiguringis not possible in the shorter, stiffer mountain sedges whichmust withstand higher winds; many therefore have more circularstems which will be more efficient at resisting bending.Copyright1993, 1999 Academic Press Carex acutiformis, sedge, mechanics, bending, torsion     

Cessation of cell elongation in rye coleoptiles is accompanied by a loss of cell-wall plasticity

The mechanism by which endogenous cessation of coleoptile elongationafter emergence of the primary leaf is brought about was investigatedin rye seedlings (Secale cereale L.) that were either grownin darkness or irradiated with continuous white light. In 3-d-oldetiolated (growing) coleoptiles a turgor pressure of 0.59 MPawas measured. In 6-d-old coleoptiles, which had ceased to elongate,cell turgor was 0.51 MPa and thus only 13% lower than in therapidly growing organ. Hence, the driving force for growth (turgor)is largely maintained. Cell-wall plasticity (E_pl) and elasticity(E_Ql were determined with a constant load extensiometer bothin vivo (turgid coleoptile segments) and in vitro (frozen-thawedsamples). Cessation of coleoptile elongation was correlatedwith a 95% reduction in E_pl9 whereas E_Ql was only slightly affected.Extension kinetics were measured with living and frozen-thawedsegments cut from growing and non-growing coleoptiles. The correspondingstress-strain (load-extension) curves indicate that the cellwall of the growing coleoptile behaves like an elastic-plasticmaterial whereas that of the non-growing organ shows the behaviourof an elastic solid. These data demonstate that E_pl representsa true plastic (irreversible) deformation of the cell wall.It is concluded that cessation of coleoptile growth after emergenceof the primary leaf is attributable to a loss of cell-wall plasticity.Hence, a mechanical stiffening of the cell wall and not a lossof turgor pressure may be responsible for the deceleration ofcell elongation in the rye coleoptile. Key words: Extension growth, rye coleoptile, cell-wall extensibility, turgor pressure     

Comparison between the anatomical and morphological structure of leaf blades and foliar domatia in the ant-plant Hirtella physophora (Chrysobalanaceae)

Background and Aims: Myrmecophytes, or ant-plants, are characterized by their abilityto shelter colonies of some ant species in hollow structures,or ant-domatia, that are often formed by hypertrophy of theinternal tissue at specific locations (i.e. trunk, branches,thorns and leaf pouches). In Hirtella physophora (Chrysobalanaceae),the focal species of this study, the ant-domatia consist ofleaf pouches formed when the leaf rolls over onto itself tocreate two spheres at the base of the blade. Methods: The morphological and anatomical changes through which foliarant-domatia developed from the laminas are studied for the firsttime by using fresh and fixed mature leaves from the same H.physophora individuals. Key results: Ant-domatia were characterized by larger extra-floral nectaries,longer stomatal apertures and lower stomatal density. The anatomicalstructure of the domatia differed in the parenchymatous tissuewhere palisade and spongy parenchyma were indistinct; chloroplastdensity was lower and lignified sclerenchymal fibres were morenumerous compared with the lamina. In addition, the domatiawere thicker than the lamina, largely because the parenchymatousand epidermal cells were enlarged. Conclusions: Herein, the morphological and anatomical changes that permitfoliar ant-domatia to be defined as a specialized leaf structureare highlighted. Similarities as well as structural modificationsin the foliar ant-domatia compared with the lamina are discussedfrom botanical, functional and mutualistic points of view. Theseresults are also important to understanding the reciprocal evolutionarychanges in traits and, thus, the coevolutionary processes occurringin insect–plant mutualisms.     

Mesophyll Fibres in Eucalyptus L'Herit. and Angophora Cav

The presence of mesophyll fibres in all Angophora spp. and certainspecies of Eucalyptus is reported. These structures are otherwiseapparently rare in Myrtaceae. With few exceptions the speciesof Eucalyptus with mesophyll fibres all belong in a well-definedsegment of the series Corymbosae.     

Polyderm, a Barrier to Infection of Red Raspberry Buds by Didymella applanata and Botrytis cinerea

A histological study was made of the axillary region of raspberrycanes infected naturally by Didymella applanata (Niessl) Sacc.and Botrytis cinerea Pers.: Fr. The outer suberized phellemlayer of the polyderm and a primary protective layer of suberizedand lignified cells across the adaxial cortex of the petioleprecluded infection of the axillary buds by hyphae growing froma saprophytic base in the leaf. No protective layer formed throughthe abaxial cortex at the petiole base; consequently both fungicolonized the epidermis, primary cortex and outermost non-suberizedphelloid cells of the polyderm beneath the node. Red raspberry, Rubus idaeus, Didymella applanta, Botrytis cinerea, polyderm, periderm, suberin, lignin     

Ultrastructural Investigation of Tension Wood Fibre in Fraxinus mandshurica Rupr. var. japonica Maxim.

The ultrastructure of the fibre wall in Fraxinus mandshuricaRupr. var. japonica Maxim. was investigated by electron microscopy.The trees had been inclined artificially at an angle of 30°to the vertical at the beginning of the initiation of cambialgrowth in early spring. The secondary walls of tension woodfibres were of the outer (S₁) layer and gelatinous (G) layertype. The microfibrils in the gelatinous (G) layer were orientedas a steep Z-helix relative to the fibre axis with a deviationthat ranged from 0° to 25° but was mainly between 5°and 10°. The cross-sectional surface of tension wood fibresrevealed the relatively strong attachment of the G-layer tothe S₁ layer. The G-layer stained weakly with potassium permanganate.The S₁ layer of tension wood fibres stained less strongly thanthat of the normal and opposite wood fibres. These results indicatethat the tension wood in F. mandshurica var. japonica is nottypical and is somewhat anomalous. The secondary walls of normaland opposite wood fibres were composed of two layers, S₁ andS₂, and lacked an S₃ layer. Microfibrils in the S₃ layer ofjuvenile stems were extremely variable in orientation and weresparsely distributed without forming a layer. By contrast, avery thin S₃ layer was present in the wood fibres of maturestems. The variations in the formation of the S₃ layer in thefibre walls were probably due to the differences in the cambialage of the stems of F. mandshurica Rupr. var. japonica.Copyright1995, 1999 Academic Press Fraxinus mandshurica Rupr. var. japonica Maxim., Japanese ash, tension wood, fibre wall, G-layer, microfibrillar orientation, normal and opposite wood, juvenile stem, field-emission scanning electron microscopy, low accelerating voltage     

The Subcellular Localization of Isoperoxidases in Capsicum annuum Leaves and their Different Expression in Vegetative and Flowered Plants

The subcellular localization of leaf peroxidases (EC 1.11.1.7)and their expression in vegetative and flowered plants has beenstudied in Capsicum annuum (var. annuum) in order to assesswhether the expression of new peroxidase isoenzymes can characterizethe floral state which determines the beginning of reproductivedevelopment. The results showed that floral development is accompaniedby a significant increase in the level of soluble (non-sedimentable)leaf peroxidase, independently of leaf position along the internodes,and therefore independently of the leaf age. An analysis ofthe leaf peroxidase isoenzyme patterns along the internodesfor vegetative and flowered plants shows that the increase inperoxidase activity is due to a general increase in the activityof all the pre-existing peroxidase isoenzymes, although isoenzymeB₂ and, especially, isoenzyme A₁ showed a distinctive and majorincrease in activity. These two isoenzymes are mainly ionically-boundto cell walls, probably in equilibrium with the same isoenzymesmoving freely in the cell-wall free spaces. The differs fromother peroxidase isoenzymes, such as isoperoxidase B₆, whichis mainly located in the covalently-bound cell-wall fractionand in mesophyll vacuoles. These results are discussed in thelight of a possible role of cell wall peroxidases as markersof the floral state in Capsicum annuum morphogenesis.Copyright1993, 1999 Academic Press Capsicum, floral state, leaf peroxidases, subcellular localization, vegetative state     

Hemicellulosic Polysaccharides from the Xylopodium of Ocimum nudicaule: Changes in Composition in Dormancy and Sprouting

Changes in the yield and composition of hemicelluloses fromthe underground organs (xylopodia) of Ocimum nudicaule wereinvestigated. Hemicelluloses constituted about 12% of the delipidizedpowder in sprouting and about 30 % in dormant phases. Xyloseis the major component of hemicelluloses A and B (and is alsopresent in C), followed by arabinose, galactose, glucose, rhamnoseand mannose. The amounts of hemicellulose B decreased by sixtimes between dormancy and sprouting, whereas the yields ofhemicelluloses A and C remained constant. This, together withthe higher solubility of hemicellulose B and its higher susceptibilityto hemicellulase in sprouting indicates that this fraction constitutesa cell-wall bound storage polysaccharide, which may play a rolein the onset of xylopodia bud sprouting. Ocimum nudicaule, hemicelluloses, cell-wall storage polysaccharide