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1.
The effect of BF3-methanol treatment on the mass and fine structure of isolated Clivia leaf cuticles at different stages of development has been investigated. BF3-methanol cleaves ester linkages in cutin; however, the cuticles are not completely depolymerized. With increasing age, the residue left after BF3-methanol treatment increases in mass. In very young cuticles, 10% of the total cutin resisted BF3-methanol and the fraction of nonester cutin increased up to 62% in mature leaves. Transmission electron microscopy shows that fine structure of the cuticle proper is severely distorted but not destroyed. The internal cuticular layer, which exhibits a heavy contrast when fixed with KMnO4, is completely depolymerized, while the external cuticular layer is hardly affected. The results are discussed in relation to cuticle development and to the function of cuticles as transpiration resistances.Abbreviation CP
cuticle proper
- ECL
external cuticular layer
- E cutin
ester bonded cutin
- ICL
internal cuticular layer
- MX-membrane
polymer matrix membrane
- NE-cutin
non-ester bonded cutin
- TEM
transmission electron microscopy 相似文献
2.
The fine structure of the upper cuticular membrane (CM) of Clivia miniata leaves was investigated using electron microscopy. The CM is made up of a thin (130 nm) lamellated cuticle proper (CP) and a thick (up to 7 m over periclinal walls) cuticular layer (CL) of marbled appearance. Evidence is presented to show that the electron lucent lamellae of the CP do not simply represent layers of soluble cuticular lipids (SCL). Instead, the lamellation is probably due to layers of cutin differing in polarity. It is argued that the SCL in the Cp are the main barrier to water. Thickening of the CM during leaf development takes place by interposition of cutin between the CM and the cellin wall. The cutin of young, expanding leaves has a high affinity for KMnO4 and is therefore relatively polar. As leaves mature, the external CL underneath the CP becomes non-polar, as only little contrast can be obtained with permanganate as the post fixative.Abbreviations CM
cuticular membrane
- CP
cuticle proper
- CL
cuticular layer
- SCL
soluble cuticular lipids (cuticular waxes) 相似文献
3.
The outer layers (bran) of white wheat (Triticum aestivum L. cv. Jubilar) caryopses contain several layers of lipophilic materials. It was the objective of the present work to establish
the nature, composition and amounts of the lipid polymers of wheat bran and to compare it with leaf cutin. Prior to analysis,
the bran was isolated and divided into two fractions: (i) the inner bran containing the remnants of the nucellus, the seed
coat and the inner layers of the pericarp, and (ii) the outer bran consisting of the peripheral layers of the pericarp. Following
depolymerization, a total number of 14 long-chain monobasic, dibasic, ω-hydroxymonobasic, α-hydroxymonobasic, dihydroxymonobasic,
trihydroxymonobasic and epoxyhydroxymonobasic alkanoic acids have been identified as constituents of bran lipid polymeres.
The most abundant single constituent was 9,10-epoxy-18-hydroxyoctadecanoic acid. The qualitative and quantitative compositions
of depolymerisates from the inner and outer bran fractions were similar except for the absence of 9,10,18-trihydroxyoctadecanoic
acid and of long-chain (C22−C26 ω-hydroxyalkanoic acids in the outer bran. The composition of bran depolymerisates closely resembled the constitution of
the BF3/CH3OH susceptible fraction of wheat leaf cutin. Only less than 2% of the total amount of monomers released from inner bran were
indicative for the presence of suberin. The total cutin content of wheat bran amounted to 4.2 g per kg of dry caryopses. Most
of it (96.6%) was contributed by the cuticles of the seed coat and the nucellus while the cuticle of the pericarp made up
only 3.4%. 相似文献
4.
The temperature dependence of the local diffusion of fluorescent molecular probes of various polarities (alkane, long-chain fatty acid, short-chain alcohol and fatty acid), all labelled with 7-nitrobenz-2-oxa-1,3-diazol-4-yl in the cuticle of Clivia miniata Regel was studied by the technique of fluorescence recovery after photobleaching. The technique yields the coefficient of diffusion, D, in the plane of the cuticle over distances of some 10 m and the fraction, R, of mobile reporter molecules. The inner (more hydrophilic) and the outer (more hydrophobic) faces of the cuticle were studied separately by appropriate incubation. The value of D was found to depend sensitively on the polarity of the probe, the temperature and the position within the cuticle (outer hydrophobic or inner hydrophilic side). Depending on the type of probe, D increased (in the case of the alkane) or decreased (in the case of the alcohol) after removal of the (monomeric) waxes. The electron-spin-resonance (ESR) spectra of incorporated spin-labelled fatty-acid probes measured in the intact cuticle contained a major component similar to the spectrum recorded from the polymerized matrix from which waxes had been extracted, and a second component similar to the spectrum from the monomeric waxes. At low temperatures, the ESR spectra from labels at two different chain positions corresponded to chain motion which was slow on the ESR timescale. At high temperatures, the spectral component from the monomeric waxes indicated chain motions in the motional narrowing regime which were of an essentially isotropic nature.No evidence was found for a liquid-crystalline lipid phase such as found for the polar lipids in cell membranes, nor was there evidence for a sharp, thermotropic, lipid-phase transition either in the cuticle or in the waxes. Experiments with oriented samples did not demonstrate the presence of large domains with a uniform orientation of the lipid chains relative to the cuticular layers. The diffusion measurements and spin-label studies provide evidence for conformational changes of the cuticle extending over the whole temperature range studied (10° C to 70° C). These conformational changes are attributed to phase-separation processes within the cuticle. The phase separation in extracted waxes extended over a similar broad temperature range. This indicates that the transitions in the cuticle are largely determined by these components. At higher temperatures, however, the chain mobility in the regions of monomeric wax was considerably greater than that in the polymerized matrix. The experimental results strongly indicate that all three layers of the Clivia cuticle exhibit a multilamellar structure of alternatingly stacked, highly hydrophobic layers of welldefined thickness (5±0.5 nm) and more disordered layers of variable (4 to 15 nm) thickness. The lamellae are wellordered and extend over the whole leaf in the cuticle proper but are split-up into small domains in the inner and the external cuticular layer. Furthermore, changes of the molecular transport properties caused by the influence of ozone exerted during the growth of the plant were studied. We found that the diffusion coefficient increased both in the outer and the inner layer of the cuticle. A particularly large increase, by about a factor of three, was found for alkane diffusion in the hydrophobic outer face, pointing to defects in the polymerized matrix.Abbreviations MX-membrane
polymer matrix membrane (or monomeric wax-depleted cuticle)
- ESR
electron-spin resonance
-
n-SASL
n-(4,4-dimethyl-N-oxy-2-oxazolidinyl)-stearic acid
- NBD
7-nitrobenz-2-oxa-1,3-diazol-4-yl
The present work was made possible by a grant from the Bayerische Umweltministerium. Additional support by the Fonds der Chemischen Industrie is gratefully acknowledged. We are most grateful for very helpful discussions with Professor H. Ziegler, Professor J. Schönherr and Dr. M. Riederer from the Institut für Botanik, Technische Universität München, FRG. 相似文献
5.
Lukas Schreiber 《Planta》1996,199(4):596-601
Endodermal cell walls and xylem vessels were isolated enzymatically from Clivia miniata Reg. roots. Transmission-electron-microscopic investigation of cross-sections of intact C. miniata roots and scanning-electron-microscopic investigation of isolated endodermal cell walls indicated that the root endodermis of C. miniata is essentially in its primary state of development. Isolated Casparian strips and xylem vessels were subjected to two different degradation methods usually applied to prove the existence of lignin, namely, cupric oxide oxidation and thioacidolysis. The reaction products obtained were typical aromatic derivatives of the natural lignin precursors coniferyl and sinapyl alcohols, and, in traces, of p-coumaryl alcohol, indicating the occurrence of lignin in the polymers from both Casparian strips and xylem vessels. The qualitative chemical compositions of the polymers from the two sources were similar, whereas the quantitative compositions were different, indicating that the molecular structure of the lignin polymer in the Casparian strips was different from that in the xylem vessels. Thus, for the first time, direct chemical evidence has been obtained that Casparian strips of C. miniata roots contain lignin as a major cell wall polymer.The author is indebted to Prof. Dr. G. Krohne (Zentrale Abteilung für Elektronenmikroskopie, Universität Würzburg, Germany) and to Prof. Dr. R. Guggenheim (Labor für Rasterelektronenmikroskopie, Universität Basel, Schweiz) for offering the opportunity for transmission-electron-microscopic and low-temperature scanning-electron-microscopic investigations, respectively. Financial support by the Deutsche Forschungsgemeinschaft is gratefully acknowledged. 相似文献
6.
The constituents of the soluble cuticular lipids (SCL) of the leaf blades of Citrus aurantium L. were identified by gas chromatography-mass spectrometry and quantified. Major components were 1-alkanols (C24 to C40), n-alkyl esters (C36 to C56), n-alkanoic acids (C28 to C34), n-alkanes (C22 to C40) and triterpenones, while n-alkanals (C29 to C38), sterols, and alkyl benzenes (molecular weights 260, 274 and 288) made minor contributions. Leaf age and side significantly affected the quantitative composition of SCL. Increased day temperature during the development of leaves led to decreased amounts per unit area of n-alkanes, 1-alkanols, n-alkanoic acids and n-alkyl esters while increased night temperatures resulted in increased amounts of n-alkanes n-alkanoic acids and 1-alkanols. Relative humidity had no effect on the amounts or composition of SCL. The permeability of cuticular membranes to water (described in part I of this paper) and the composition of SCL were not related. A model for the molecular structure of the transport-limiting barrier of plant cuticles and for the transport of water across it is proposed.Abbreviations CM
cuticular membrane
- GC
gas chromatogra-phy
- MS
mass spectroscopy
- TLC
thin-layer (planar) chromatography
- SCL
soluble cuticular lipids
The authors are indebted to Dr. R. Winkler and H. Krause, Laboratorium für Strukturchemie des Fachbereichs Chemie, Biologie und Geowissenschaften, Technische Universität München, FRG, for performing the GC-MS analyses and their valuable help in the identification of SCL constituents. This work has been supported by the Deutsche Forschungsgemeinschaft and the Bayerische Staatsministerium für Wissenschaft und Kunst. 相似文献
7.
Klaus J. Lendzian 《Planta》1982,155(4):310-315
Cuticles from the adaxial surface of Citrus aurantium L. leaves and from the pericarp of Lycopersicon esculentum L. and Capsicum annuum L. were isolated enzymatically and their oxygen permeability was determined. Isolated cuticles were mounted between a gaseous and an aqueous compartment with the physiological outer side of the membrane facing the gaseous compartment. Permeability for oxygen was characterized by permeability (P) and diffusion (D) coefficients. P and D were independent of the driving force (gradient of oxygen concentration) across the cuticle, thus, Henry's law was obeyed. P values for the diffusion of oxygen varied between 3·10-7 (Citrus), 1.4·10-6 (Capsicum), and 1.1·10-6 (Lycopersicon) m·s-1. Extraction of soluble lipids from the cuticles increased the permeability. By treating the cutin matrix and the soluble lipids as resistances in series, it could be demonstrated that the soluble lipids were the main resistance for oxygen permeability in Citrus cuticles. However, in Lycopersicon and Capsicum, both the cutin matrix and the soluble lipids determined the total resistance. P values were not affected by either the proton concentration (pH 3–9) or the cations (Na+, Ca2+) present at the morphological inner side of the cuticles. It is concluded that the water content of cuticles does not affect the permeability properties for oxygen. Partition coefficients indicated a high solubility of oxygen in the cuticle of Citrus. The data suggest a solubility process in the cuticle of Citrus with respect to oxygen permeation.Abbreviations CM
cuticular membrane
- MX
cutin polymer matrix
- SCL
soluble cuticular lipids 相似文献
8.
Staining cuticular membranes ofAgave americana andClivia miniata en bloc with potassium permanganate results in a strong contrast in the interior cuticular layer while the exterior part remains unstained. This is not caused by a selective chemical reaction with the interior part but by the unidirectional penetration of the reagent from the interior side, the outside being protected by the cuticle proper. In transverse cryosections of the cuticular membrane, permanganate penetrates nearly as easily into the exterior cuticular layer as into the interior one giving the same contrast. However, compared with the periclinal penetration into the cuticle proper this penetration is accelerated five-to tenfold by the polysaccharide network within the cuticular layer which serves as a distribution-channel system. Periclinal penetration into the cuticle proper occurs independently in each cutin penetration unit included between two obvious lucent lamellae and further divided into subunits. 相似文献
9.
The temperature-induced volume expansion of enzymatically isolated cuticular membranes of twelve plant species was measured. All cuticular membranes exhibited distinct second-order phase transitions in the temperature range of about 40 to 50° C. Increases in the volumes of fruit cuticles (Lycopersicon, Cucumis, Capsicum, Solanum and Malus) were fully reversible, while leaf cuticular membranes (Ficus, Hedera, Nerium, Olea, Pyrus, Picea and Citrus) underwent irreversible structural changes. Below the phase-transition temperature, volumetric expansion coefficients ranged from 0.39·10–6 m3·kg–1·K–1 to 0.62·10–6 m3·kg–1·K–1, and above from 0.60·106 m3·kg–1·K\-1 to 1.41· 10–6 m3·kg–1·K–1. Densities of cuticles at 25° C ranged from 1020 kg·m–3 to 1370 kg·m–3. Expansion coefficients and phase transitions were characteristic properties of the polymer matrix as a composite material, rather than of cutin alone. It is argued that the sudden increase of water permeability above the transition temperature, is caused by an increase of disorder at the interface between the polymer matrix and the soluble cuticular lipids. Possible ecological and physiological consequences of these results for living plants are discussed.Abbreviations CM
Cuticular membrane
- CU
cutin
- MX
polymer matrix
- SCL
soluble cuticular lipids (waxes)
The authors greatfully acknowledge stimulating discussions with Drs. H. Gruler (Exp. Physik 3, Universität Ulm, FRG) and M. Riederer (Institut für Botanik und Mikrobiologie, Technische Universität München, München, FRG) and financial support by the Deutsche Forschungsgemeinschaft. 相似文献
10.
The compositions of BF3/CH3OH depolymerisates of cutins and suberins from leaf and periderm samples from Picea abies [L.] Karst., Quercus robur L., and Fagus sylvatica L., respectively, were determined by quantitative capillary gas chromatography/mass spectroscopy. Long-chain monobasic, -hydroxymonobasic, dihydroxymonobasic, trihydroxymonobasic and epoxyhydroxymonobasic alkanoic acids constituted the major aliphatic monomers of leaf cutins. The total amounts of cutin monomers ranged from 629 mg · m–2 (Fagus) to 1350 mg · m–2 (Quercus). Cutin composition and amounts did not significantly differ between current year and three-year-old needles of Picea. Trans-esterification of periderm samples yielded a much greater variety of aliphatic monomers than obtained from cutins. In addition to the substance classes found with cutins, suberin depolymerisates also contained , -dibasic acids while dihydroxymonobasic acids were lacking. Depolymerisates from periderms taken from different locations on a Picea tree did not differ significantly in their relative composition. The results are discussed in terms of the distinctive characteristics of the aliphatic portions of cutins and suberins, respectively. Discriminant analysis is applied for formulating a quantitative and inarbitrary classification rule for cutins and suberins. The precision, statistical significance and robustness of this classification rule are tested by employing it to a large set of compositional data (70 plant species) from the literature. The relevance of data obtained by depolymerization methods for elucidating the physical structure of cutins and suberins in situ is evaluated.To whom correspondence should be addressedThe authors are indebted to Drs. J. Winkler and H. Krause (Laboratorium für Strukturchemie des Fachbereichs Chemie, Biologie und Geowissenschaften, Technische Universität München, Garching, FRG) for performing capillary gas chromatography-mass spectrometry and their valuable help in the identification of cutin and suberin constituents. The work was supported by grants from the Deutsche Forschungsgemeinschaft and the Bayerisches Staatsministerium für Unterricht, Kultus, Wissenschaft und Kunst. 相似文献
11.
The sorption of 4-nitrophenol (4-NP) in enzymatically isolated cuticles ofLycopersicon esculentum fruits andFicus elastica leaves was studied as a function of temperature and solute concentration. Plots of the concentrations of 4-NP sorbed in the cuticle versus the equilibrium concentrations in the aqueous phase gave linear isotherms at low concentrations that tended to approach plateaus at higher sorbate concentrations ( 10 mmol·kg-1). At low concentrations of sorbed 4-NP, cuticles have sorptive properties similar to those of organic solvents which are able to form intermolecular hydrogen bonds, while at higher concentrations their solid nature becomes apparent. During sorption of 4-NP the cutin matrix swells and new sorption sites are successively formed. The partition coefficients of 4-NP in the system cuticle/buffer are functions of temperature and concentration. At high sorbate concentrations (approx. 1 mol·kg-1) they approach a value of 1. Different sorptive properties were observed for the cutin regions normally encrusted with soluble cuticular lipids (SCL) and those without SCL. Increasing temperature augmented the number of sorption sites in the cutin ofLycopersicon while no effect was observed withFicus. The changes of partial molar free energy (G
o
tr), enthalpy (H
o
tr), and entropy (S
o
tr) for the phase transfer of 4-NP also depended on sorbate concentration: H
o
tr and S
o
tr were negative and steeply decreased at high sorbate concentrations. This is due to solute-solute interactions replacing solute-cutin interactions at high concentrations resulting in solid precipitates of solute within the cutin matrix. This formation of ordered solid domaines starting from a small number of nonelectrolyte molecules interacting with the cutin is proposed as a model for the intracuticular deposition of SCL.Abbreviations CM
cuticular membrane
- MX
polymer matrix membrane
- 4-NP
4-nitrophenol
- SCL
soluble cuticular lipids 相似文献
12.
Acyl lipids and their constituent fatty acids were studied in leaves, chloroplasts and bundle-sheath strands of the C4 plant Amaranthus paniculatus L. grown under normal and 4%-oxygen-containing atmospheres. In all fractions the major lipids were found to be monogalactosyldiacylglycerol, digalactosyldiacylglycerol, sulphoquinovo-syldiacylglycerol and phosphatidylglycerol. Significant quantities of phosphatidylcholine and phosphatidylethanolamine were restricted to leaves and bundle-sheath strands. All lipids, except phosphatidylglycerol where 3-trans-hexadecenoic acid was also present, contained palmitic acid, stearic acid, oleic acid, linoleic acid and linolenic acid. On a chlorophyll basis and compared with whole leaves, the amounts of phosphatidylcholine and phosphatidylethanolamine in bundle-sheath strands were considerably reduced. Three weeks after the change from a normal to a 4% atmospheric O2 level, the galactolipid content, particularly in the bundlesheath strands, was enhanced. There were no significant differences in the degrees of saturationunsaturation of total acyl lipid for the plants grown in the low oxygen and normal atmospheres, although under 4% O2 the phosphatidylglycerol contained an increased proportion of 3-trans-hexadecenoic acid at the expense of palmitic acid.Abbreviations DGDG
digalactosyldiacylglycerol
- MGDG
monogalactosyldiacylglycerol
- PC
phosphatidylcholine
- PE
phosphatidylethanolamine
- PG
phosphatidylglycerol
- SQDG
sulphquinovosyldiacylglycerol 相似文献
13.
L. Schreiber H.-W. Breiner M. Riederer M. Düggelin R. Guggenheim 《Plant biology (Stuttgart, Germany)》1994,107(5):353-361
The root endodermis of Clivia miniata Reg. was successfully isolated using the cell wall degrading enzymes cellulase and pectinase. The enzymes did not depolymerize those regions of the primary cell walls of anticlinal endodermal root cells where the Casparian strips were located. Since the endodermis of C. miniata roots remained in its primary developmental state over the whole root length, endodermal isolates essentially represented Casparian strips. Thus, sufficient amounts of isolated Casparian strips could be obtained to allow further detailed investigations of the isolates by microscopic, histochemical and analytical methods. Scanning electron microscopy revealed the reticular structure of the Casparian strips completely surrounding the central cylinder of the roots. Whereas in younger parts of the root only the anticlinal cell walls of the endodermis remained intact in the isolates, in older parts of the root the periclinal walls also restricted enzymatic degradation due to the deposition of lignin. Extracts of the isolates with organic solvents did not reveal any wax-like substances which might have been deposited within the cell wall forming a transport barrier, as is the case with cutin and suberin. However, several histochemical and analytical methods (elemental analysis and FTIR spectroscopy) showed that the chemical nature of the Casparian strips of C. miniata roots can definitely be a lignified cell wall. These findings are in complete agreement with studies carried out at the beginning of this century on the chemical nature of the Casparian strips of several other plant species. The implications of these results concerning apoplasmatic transport of solutes and water across Casparian strips are discussed. 相似文献
14.
15.
Klaus Winter 《Planta》1987,172(1):88-90
Leaves of the Crassulacean acid metabolism plant Kalanchoe daigremontiana Hamet et Perr., about 3.3 mm thick, showed higher rates of net CO2 exchange through the lower than through the upper surface during day and night, although the lower surface received only a small fraction of the light which was incident on the upper surface. Nocturnal acidification was more pronounced in cells from the lower than from the upper portion of leaves. The lower activity of the exposed side of these long-lived succulent leaves may be related to the potentially adverse effects of excessive light.Abbreviations CAM
Crassulacean acid metabolism
- PFD
photon flux density (400–700 nm) 相似文献
16.
Studies on the glutamine synthetases (GS, EC 6.3.1.2) of green (GS2) and etiolated leaves (GSet) ofSinapis alba L. (cv. Steinacher) revealed striking similarities between the respective enzyme proteins. The enzymes showed corresponding
chromatographic properties, both on dimethylaminoethyl-Sephacel and on hydroxylapatite columns. The purified GS proteins were
also identical with regard to the molecular weight of their subunits. Isoelectrofocusing of pure GSet yielded two distinct polypeptide bands in the pH 5.6 region of the gels. This pattern corresponded to the two strong bands
of GS2. Two charge variants of GS polypeptides could be detected by Western-blot analysis of the soluble protein of green leaves
using antibodies against mustard GS2. In immunoprecipitation experiments, the holoenzymes of GS2 and GSet were recognized with identical affinities by this antiserum. We conclude that strong similarities exist between the proteins
of the GS enzymes in green and etiolated leaves of mustard. Most probably only one GS form, namely the plastidic enzyme, can
be found in the epigeal organs ofSinapis. The polypeptides of the GS2 subunits showed no differences in the hydrophobicity of the polypeptide chains. Neither glucosyl nor mannosyl residues could
be detected.
Dedicated to Professor Dr. H. Mohr on the occasion of his 60th birthday 相似文献
17.
Solute mobility in cuticular membranes (CMs) of 14 plant species (Citrus aurantium L., Citrus grandis L., Hedera helix L., Ilex aquifolium L., Ilex paraguariensis St.-Hil., Malus domestica Borkh. cv. Golden Delicious, Populus alba L., Prunus laurocerasus L., Pyrus communis L. cv. Bartlett, Conference and Gellerts Butterbirne, Pyrus pyrifolia (Burm. f.) Nakai, Schefflera actinophylla (Endl.) Harms and Strophanthus gratus Baill.) was measured over the temperature range 25–55 °C. The five organic model compounds differed in size (130–349 cm3 mol−1) and cuticle/water partition coefficient (18–108). For all individual CMs (n = 297), the data were plotted according to the thermodynamic relationship between the preexponential factor (which is proportional
to entropy) of the Arrhenius equation and the activation energy (enthalpy) of diffusion (E
D
). A strict linear correlation was obtained, providing evidence that the five compounds diffused along the same lipophilic
diffusion path in all plant species tested. Extracting cuticular waxes from CMs of four plant species (Hedera, Pyrus, Schefflera and Strophanthus) had no effect on the slope of the plot but a parallel displacement towards higher entropy was observed with these polymer
matrix (MX) membranes. This displacement is interpreted as a temperature-independent tortuosity factor directly related to
entropy. The influence of the plasticiser tributyl phosphate on solute mobility at various temperatures was measured for CM
and MX membranes. The plasticiser increased solute mobility and E
D
was reduced drastically for both membrane types. This plasticiser effect was almost completely reversible, when tributyl
phosphate was desorbed from the membranes. For both, plasticised CM and MX, the thermodynamic correlation exists whereby all
data points lie on the same line. The data are used to characterise the lipophilic pathway across plant cuticles in terms
of the free-volume theory.
Received: 14 December 1999 / Accepted: 31 March 2000 相似文献
18.
In grasses, leaf cells divide and expand within the sheaths of older leaves, where the micro-environment differs from the open atmosphere. By the time epidermal cells are displaced into the atmosphere, they must have a functional cuticle to minimize uncontrolled water loss. In the present study, gas chromatography and scanning electron microscopy were used to follow cuticular wax deposition along the growing leaf three of barley (Hordeum vulgare L.). 1-Hexacosanol (C26 alcohol) comprised more than 75% of extractable cuticular wax and was used as a marker for wax deposition. There was no detectable wax along the first 20 mm from the point of leaf insertion. Deposition started within the distal portion of the elongation zone (23–45 mm) and continued beyond the point of leaf emergence from the sheath of leaf two. The region where wax deposition commenced shifted towards more proximal (basal) positions when the point of leaf emergence was lowered by stripping back part of the sheath. When relative humidity in the shoot environment was elevated from 70% (standard growth conditions) to 92–96% for up to 4 days prior to analysis, wax deposition did not change significantly. The results show that cuticular waxes are deposited along the growing grass leaf independent of cell age or developmental stage. Instead, the reference point for wax deposition appears to be the point of emergence of cells into the atmosphere. The possibility of changes in relative humidity between enclosed and emerged leaf regions triggering wax deposition is discussed. 相似文献
19.
C. Wiencke 《Protoplasma》1982,111(3):215-220
Summary The fine structural organization of thylakoid membranes in intact cells ofPorphyra umbilicalis, an intertidal red alga, was studied using the freeze-fracture method with special emphasis on changes induced by hypo- and hyperosmotic stresses. In osmotically adapted plants the density of intramembraneous particles on the PF-face increases considerably in the osmotic range from 5-fold diluted to 6-fold concentrated artifical seawater medium ASP12, while that on the EF-face remains constant. The size of the particles on both fracture faces decreases strongly from extreme hypoosmotic to extreme hyperosmotic stress. These findings are discussed with relation to their biological significance.The author is member of the Arbeitsgemeinschaft für Elektronenmikroskopie an der Tierärztlichen Hochschule Hannover. 相似文献
20.
Richardson A Wojciechowski T Franke R Schreiber L Kerstiens G Jarvis M Fricke W 《Planta》2007,225(6):1471-1481
The developing leaf three of barley provides an excellent model system for the direct determination of relationships between
amounts of waxes and cutin and cuticular permeance. Permeance of the cuticle was assessed via the time-course of uptake of
either toluidine blue or 14C-labelled benzoic acid ([14C] BA) along the length of the developing leaf. Toluidine blue uptake only occurred within the region 0–25 mm from the point
of leaf insertion (POLI). Resistance—the inverse of permeance—to uptake of [14C] BA was determined for four leaf regions and was lowest in the region 10–20 mm above POLI. At 20–30 and 50–60 mm above POLI,
it increased by factors of 6 and a further 32, respectively. Above the point of emergence of leaf three from the sheath of
leaf two, which was 76–80 mm above POLI, resistance was as high as at 50–60 mm above POLI. GC-FID/MS analyses of wax and cutin
showed that: (1) the initial seven fold increase in cuticular resistance coincided with increase in cutin coverage and appearance
of waxes; (2) the second, larger and final increase in cuticle resistance was accompanied by an increase in wax coverage,
whereas cutin coverage remained unchanged; (3) cutin deposition in barley leaf epidermis occurred in parallel with cell elongation,
whereas deposition of significant amounts of wax commenced as cells ceased to elongate. 相似文献