Characterization and Quantification of Intrinsic Ice Nucleators in Winter Rye (Secale cereale) Leaves

Extracellular ice formation in frost-tolerant organisms is often initiated at specific sites by ice nucleators. In this study, we examined ice nucleation activity (INA) in the frost-tolerant plant winter rye (Secale cereale). Plants were grown at 20[deg]C, at 5[deg]C with a long day, and at 5[deg]C with a short day (5[deg]C-SD). The threshold temperature for INA was -5 to -12[deg]C in winter rye leaves from all three growth treatments. Epiphytic ice nucleation-active bacteria could not account for INA observed in the leaves. Therefore, the INA must have been produced endogenously. Intrinsic rye ice nucleators were quantified and characterized using single mesophyll cell suspensions obtained by pectolytic degradation of the leaves. The most active ice nucleators in mesophyll cell suspensions exhibited a threshold ice nucleation temperature of -7[deg]C and occurred infrequently at the rate of one nucleator per 105 cells. Rye cells were treated with chemicals and enzymes to characterize the ice nucleators, which proved to be complexes of proteins, carbohydrates, and phospholipids, in which both disulfide bonds and free sulfhydryl groups were important for activity. Carbohydrates and phospholipids were important components of ice nucleators derived from 20[deg]C leaves, whereas the protein component was more important in 5[deg]C-SD leaves. This difference in composition or structure of the ice nucleators, combined with a tendency for more frequent INA, suggests that more ice nucleators are produced in 5[deg]C-SD leaves. These additional ice nucleators may be a component of the mechanism for freezing tolerance observed in winter rye.     

Freeze-Induced Membrane Ultrastructural Alterations in Rye (Secale cereale) Leaves

Freezing injury in protoplasts isolated from leaves of nonaccli-mated rye (Secale cereale cv Puma) is associated with the formation of the inverted hexagonal (HII) phase. However, in protoplasts from cold-acclimated rye, injury is associated with the occurrence of localized deviations in the fracture plane, a lesion referred to as the "fracture-jump lesion." To establish that these ultrastructural consequences of freezing are not unique to protoplasts, we have examined the manifestations of freezing injury in leaves of non-acclimated and cold-acclimated rye by freeze-fracture electron microscopy. At -10[deg]C, injury in nonacclimated leaves was manifested by the appearance of aparticulate domains in the plasma membrane, aparticulate lamellae subtending the plasma membrane, and by the frequent occurrence of the HII phase. The HII phase was not observed in leaves of cold-acclimated rye frozen to -35[deg]C. Rather, injury was associated with the occurrence of the fracture-jump lesion between the plasma membrane and closely appressed cytoplasmic membranes. Studies of the time dependence of HII phase formation in nonacclimated leaves indicated that freeze-induced dehydration requires longer times in leaves than in isolated protoplasts. These results demonstrate that the freeze-induced formation of the HII phase in nonacclimated rye and the fracture-jump lesion in cold-acclimated rye are not unique to protoplasts but also occur in the leaves from which the protoplasts are isolated.     

Extraction and Isolation of Antifreeze Proteins from Winter Rye (Secale cereale L.) Leaves

Apoplastic extracts of cold-acclimated winter rye (Secale cereale L. cv Musketeer) leaves were previously shown to exhibit antifreeze activity. The objectives of the present study were to identify and characterize individual antifreeze proteins present in the apoplastic extracts. The highest protein concentrations and antifreeze activity were obtained when the leaf apoplast was extracted with ascorbic acid and either CaCl2 or MgSO4. Seven major polypeptides were purified from these extracts by one-dimensional sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis under nonreducing conditions. The five larger polypeptides, of 19, 26, 32, 34, and 36 kD, exhibited significant levels of antifreeze activity, whereas the 11- and 13-kD polypeptides showed only weak activity. Five of these polypeptides migrated with higher apparent molecular masses on SDS gels after treatment with 0.1 M dithiothreitol, which indicated the presence of intramolecular disulfide bonds. The apparent reduction of the disulfide bonds did not eliminate antifreeze activity in four of the polypeptides that contained intramolecular disulfide bonds and exhibited significant levels of antifreeze activity. The amino acid compositions of these polypeptides were similar in that they were all relatively enriched in the residues Asp/Asn, Glu/Gln, Ser, Thr, Gly, and Ala; they all lacked His, except for the 26-kD polypeptide, and they contained up to 5% Cys residues. These polypeptides were examined with antisera to other cystine-containing antifreeze proteins from fish and insects, and no common epitopes were detected. We conclude that cold-acclimated winter rye leaves produce multiple polypeptides with antifreeze activity that appear to be distinct from antifreezes produced by fish and insects.     

Structural Changes in Thylakoid Proteins during Cold Acclimation and Freezing of Winter Rye (Secale cereale L. cv. Puma)

Thylakoids were isolated from nonhardened and cold-hardened winter rye (Secale cereale L. cv. Puma), and subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis in the presence and absence of sulfhydryl reagents. Electrophoresis of cold-hardened rye thylakoid proteins revealed the presence of a 35 kilodalton polypeptide and the absence of a 51 kilodalton polypeptide found in nonhardened rye thylakoid proteins. The 35 kilodalton band could be induced by adding β-mercaptoethanol to nonhardened rye thylakoid proteins, whereas the 51 kilodalton band could be formed by adding cupric phenanthroline to these same proteins. Sulfhydryl group titration showed that cold-hardened rye thylakoid proteins contained more free sulfhydryls than nonhardened rye proteins. Although amino acid analysis of thylakoid proteins revealed quantitative differences in several amino acid residues, the polarity of thylakoid proteins did not change during cold acclimation. No significant changes in sodium dodecyl sulfate-polyacrylamide gels of thylakoid proteins appeared when either nonhardened or cold-hardened plants were frozen in vivo or in vitro. However, thylakoid proteins did aggregate when frozen in the presence of β-mercaptoethanol. Although thylakoid proteins isolated from cold-hardened rye contained more reduced thiols, a general state of reduction did not act as a cryoprotectant. It is hypothesized that conformational changes of specific proteins may be important for low temperature growth of rye.     

Involvement of Plasma Membrane Alterations in Cold Acclimation of Winter Rye Seedlings (Secale cereale L. cv Puma)

Using plasma membranes with high purity isolated from winter rye seedlings (Secale cereale L. cv Puma) by an aqueous two-polymer phase partition technique, lipid and protein changes were determined during the development of cold hardiness.     

Plasma Membrane Lipid Alterations Associated with Cold Acclimation of Winter Rye Seedlings (Secale cereale L. cv Puma)

Highly enriched plasma membrane fractions were isolated from leaves of nonacclimated (NA) and acclimated (ACC) rye (Secale cereale L. cv Puma) seedlings. Collectively, free sterols, steryl glucosides, and acylated steryl glucosides constituted >50 mole% of the total lipid in both NA and ACC plasma membrane fractions. Glucocerebrosides containing hydroxy fatty acids constituted the major glycolipid class of the plasma membrane, accounting for 16 mole% of the total lipid. Phospholipids, primarily phosphatidylcholine and phosphatidylethanolamine with lesser amounts of phosphatidylglycerol, phosphatidic acid, phosphatidylserine, and phosphatidylinositol, comprised only 32 mole% of the total lipid in NA samples. Following cold acclimation, free sterols increased from 33 to 44 mole%, while steryl glucosides and acylated steryl glucosides decreased from 15 to 6 mole% and 4 to 1 mole%, respectively. Sterol analyses of these lipid classes demonstrated that free β-sitosterol increased from 21 to 32 mole% (accounting for the increase in free sterols as a class) at the expense of sterol derivatives containing β-sitosterol. Glucocerebrosides decreased from 16 to 7 mole% of the total lipid following cold acclimation. In addition, the relative proportions of associated hydroxy fatty acids, including 22:0 (h), 24:0 (h), 22:1 (h), and 24:1 (h), were altered. The phospholipid content of the plasma membrane fraction increased to 42 mole% of the total lipid following cold acclimation. Although the relative proportions of the individual phospholipids did not change appreciably after cold acclimation, there were substantial differences in the molecular species. Di-unsaturated molecular species (18:2/18:2, 18:2/18:3, 18:3/18:3) of phosphatidylcholine and phosphatidylethanolamine increased following acclimation. These results demonstrate that cold acclimation results in substantial changes in the lipid composition of the plasma membrane.     

Microdissection and Recovery of 1R Chromosome in Rye ( Secale cereale )

The technique of mieromanipulaion has been used to establish a system of single chromosome mierodissection. According to the standard karyotype of rye ( Secale cereale L. ), 1R chromosome carrying disease-resistant gene has been identified, microdissected and transferred into Ep-pendorf tube using mieromanipulator. The results showed that IR chromosome in cells pretreated with α-bromonaphthalene could be identified quickly and the efficiency of microdissection was greatly improved when the technique of wall degradation and hypotonic treatment was applied.     

Opaline Silica Deposition in Rye (Secale cereale L.)

The types of opaline silica-bodies (opal phytoliths) which occurin the mature prophylls, radical and culm leaves, culms, andinflorescence bracts of rye (Secale cereale L.) are describedand figured. Silica-bodies are absent from the coleoptile, andthe adaxial epidermis of the prophylls, leaf sheaths, and inflorescencebracts. The stages of silica-body formation in young radicalleaf sheaths are also described. Alternative hypotheses forthe origin of silica-bodies are discussed.     

Localization,Accumulation, and Antifungal Activity of Chitinases in Rye (Secale cereale) Seed

In order to understand a physiological role of chitinases in rye, the localization and accumulation of rye seed chitinase-a and -c (RSC-a and -c) in the seeds were studied by immunochemical methods. An antiserum specific to the chitin-binding domain (CB-domain), which is an N-terminal part of RSC-a, and an antiserum specific to the catalytic region of RSC-a and RSC-c were used. An immunoblot analysis detected both RSC-a and RSC-c in the endosperm of the rye seed. Immunohistochemical staining indicated that RSC-a was localized in only the aleurone cells, whereas RSC-c existed at least in the starchy endosperm and was also likely to exist in the aleurone cells. It was found by ELISA and an immunoblot analysis that RSC-a and -c accumulated in the seed during the later stage of development. Both chitinases and the Cat-domain exhibited antifungal activity toward Trichoderma species, while the CB-domain did not. Observation of the inhibition of hyphal growth of the T. species suggests that the two chitinases acted in different ways.     

黑麦染色体的银染研究

在对黑麦染色体银染过程的盐酸解离条件进行探索的同时,对黑麦染色体的银染正反应区进行了研究,首次发现经短时间空气干燥（4～24 h）的黑麦染色体制片,随着盐酸解离强度的递增,分别出现了核仁组织区(NOR)、NOR和端粒以及NOR和着丝点的银染正反应,就此现象讨论了端粒和着丝点的银染机理。     

黑麦染色体的银染研究

在对黑麦染色体银染过程的盐酸解离条件进行探索的同时,对黑麦染色体的银染正反应区进行了研究,首次发现经短时间空气干燥(4-24h)的黑麦染色体制片,随着盐酸解离强度的递增,分别出现了核仁组织区(NOR)、NOR和端粒以及NOR和着丝点的银染正反应,就此现象讨论了端粒和着丝点的银染机理。     

Isolation and Identification of Plasma Membrane from Light-Grown Winter Rye Seedlings (Secale cereale L. cv Puma)

An effective method for the isolation of plasma membrane from light-grown winter rye seedlings (Secale cereale L. cv Puma) was established using a liquid two-polymer phase separation. The conditions for the specific partition of plasma membrane into the polyethylene glycol-enriched upper phase were examined, including variations in the polymer concentration, buffer system, pH, and NaCl addition in the phase partition system. The most effective phase partition system for the isolation of plasma membrane from winter rye consisted of 5.6/5.6% (w/w) polyethylene glycol 4000/dextran T500 in 0.25 molar sucrose-10 millimolar potassium phosphate-30 millimolar NaCl (pH 7.8), repeated once. When the isolated plasma membrane was centrifuged on a linear sucrose density gradient, a single band was found at the 34% (w/w) sucrose layer (1.141 grams per cubic centimeter) which co-fractionated with the pH 6.5-ATPase.

Identification of plasma membrane was performed by the combination of phosphotungstic acid-chromic acid stain and specific binding of N-1-naphthylphthalamic acid. Based on morphometrical observations after phosphotungstic acid-chromic acid stain, the isolated plasma membrane consisted mostly of vesicles of high purity. The isolated plasma membrane also showed extremely high specificity for N-1-naphthylphthalamic acidbinding, 10-fold higher than other membranes. It was also confirmed that there is a distinct difference in properties between plasma membrane and other membranes. The endomembranes such as from chloroplasts, mitochondria, and endoplasmic reticulum were observed to be highly sensitive to Zn²⁺ ion and lower pH, which resulted in an abrupt aggregation of membranes. On the contrary, plasma membrane was very stable to these treatments and no aggregation was observed. These unique properties of isolated plasma membrane are generally observed in a wide variety of plant species and can be utilized for the assessment of the purity of preparations of isolated plasma membranes and for their identification.

     

黑麦染色体银染的初步研究

本文对黑麦染色体的银染条件进行了探索,并对黑麦染色体上银染正反应分布区进行了研究。首次发现黑麦染色体的核仁组成中心区、着丝点和端粒均能用硝酸银染色。对此现象的原因进行了讨论。     

The Banding Pattern of the Rye (Secale cereale) Chromosomes and Its Application

The Giemsa C-banding technique has been used in this paper for analysis of chromosome banding pattern, and the changes of the chromosome structures of irradiated rye and wheat-rye were identified preliminarily. Heterochromatin polymorphism of rye was also discussed.     

The Synapse-Like Interaction between Chloroplast,dictyosome, and Other Cell Compartments during Increased Ethylene Production in Leaves of Rye (Secale cereale L.)

Photosynthetica - Rye (Secale cereale L.) plants were treated with an ethylene releaser ethephon (2-chloroethylphosphonic acid) in concentration of 4×10−2 M. We studied electron...     

Site of Synthesis of NADPH: Protochlorophyllide Oxidoreductase in Rye (Secale cereale)

The site of synthesis of the plastid membrane-located enzyme, protochlorophyllide reductase, has been determined. Plastid ribosome-deficient and normal rye (Secale cereale L., cv Rheidol) plants were grown in darkness at 33°C and 22°C, respectively. Extracts from these plants were analyzed for the levels of different ribosomal RNAs and cytochrome f and the activity of a number of enzymes with well-established sites of synthesis. The results confirmed that the higher temperature had induced a specific inhibition of protein synthesis in the plastids. The activity and level of protochlorophyllide reductase was unaffected by growth at the higher temperature, suggesting it to be a cytoplasmically synthesized enzyme.     

The Synapse-Like Interaction between Chloroplast, dictyosome, and Other Cell Compartments during Increased Ethylene Production in Leaves of Rye (Secale cereale L.)

Rye (Secale cereale L.) plants were treated with an ethylene releaser ethephon (2-chloroethylphosphonic acid) in concentration of 4×10⁻² M. We studied electron microscopically, if and how chloroplasts interact with well-documented sites of ethylene production/binding, i.e., with endoplasmic reticulum, dictyosomes, mitochondria, plasma membrane, and tonoplast. During the sharp increase of ethylene synthesis in mesophyll cells of rye leaves, the direct local continguity of chloroplast envelope or envelope protrusions with the above mentioned cell compartments was typical. Moreover, a large number and diversity of versatile chloroplast-dictyosome associations were conspicuous, in which both the chloroplast and each cisterna of dictyosome were capable to exo/endocytosis. The dictyosomes were directed towards the chloroplasts, plasma membrane, or tonoplast both with cis-face, trans-face, or with the rim, they could change their direction or shut up the trans-face, developing simultaneously several flexible chains of vesicular dispatches among chloroplasts and some other cell compartments. This reflects interaction of protein/ethylene producing, photosynthesising, DNA containing compartments, and regulated action of lysosomal system. Structural contacts and vesicular transport among compartments of symplastic system equalises concentrations of H⁺, Ca²⁺, etc. ions, as well as provide connection with an apoplast. We propose that ethylene functions in plant mesophyll cells are both as intra/intercellular signalling substance and as phytohormone that regulates gene expression in nuclei, chloroplasts, and mitochondria in a complicated synapse-like process and causes programmed death of leaves of the main stalks of rye for the sake of promoted growth of side shoots. This revised version was published online in August 2006 with corrections to the Cover Date.     

Relationship between Freezing Tolerance of Root-Tip Cells and Cold Stability of Microtubules in Rye (Secale cereale L. cv Puma)

The response of cortical microtubules to low temperature and freezing was assessed for root tips of cold-acclimated and non-acclimated winter rye (Secale cereale L. cv Puma) seedlings using indirect immunofluorescence microscopy with antitubulin antibodies. Roots cooled to 0 or −3°C were fixed for immunofluorescence microscopy at these temperatures or after an additional hour at 4°C. Typical arrays of cortical microtubules were present in root-tip cells of seedlings exposed to the cold-acclimation treatment of 4°C for 2 days. Microtubules in these cold-acclimated cells were more easily depolymerized by a 0°C treatment than microtubules in root-tip cells of nonacclimated, 22°C-grown seedlings. Microtubules were still present in some cells of both nonacclimated and cold-acclimated roots at 0 and −3°C; however, the number of microtubules in these cells was lower than in controls. Microtubules remaining during the −3°C freeze were shorter than microtubules in unfrozen control cells. Repolymerization of microtubules after both the 0 and −3°C treatments occurred within 1 h. Root tips of nonacclimated seedlings had an LT-50 of −9°C. Cold acclimation lowered this value to −14°C. Treatment of 22°C-grown seedlings for 24 h with the microtubule-stabilizing drug taxol caused a decrease in the freezing tolerance of root tips, indicated by a LT-50 of −3°C. Treatment with D-secotaxol, an analog of taxol that was less effective in stabilizing microtubules, did not alter the freezing tolerance. We interpret these data to indicate that a degree of depolymerization of microtubules is necessary for realization of maximum freezing tolerance in root-tip cells of rye.     

Comparison of Anther and Microspore Culture in the Embryogenesis and Regeneration of Rye (Secale cereale)

Anther culture in solid and liquid medium and isolated microspore culture were compared in rye genotypes with potential agronomic characteristics. Some important factors influencing androgenic capacity were optimised. Three weeks cold pre-treatment of spikes and two days mannitol pre-treatment of anthers maximized callus and green plant yield in both culture methods. Intensity order of the culture methods in callus and green plant production was: isolated microspore culture, anther culture in liquid medium and anther culture in solid medium. Genotype ability of embryogenesis followed the same pattern in both cultivation methods. Kinetin (BA) with genotype dependent concentrations created the most effective regeneration conditions.