Effects of proline and carbohydrates on the metabolism of exogenous proline by excised bean leaves in the dark

Proline was metabolized when vacuum infiltrated into starved bean (Phaseolus vulgaris L.) leaves from plants previously in the dark for 48 hours, but an equivalent increase in protein proline was not observed. When ¹⁴C-proline was infiltrated into starved leaves, a large percentage of the ¹⁴C was recovered in other amino acids, organic acids, and CO₂, in addition to that recovered as protein proline. However, extensive oxidation of proline was observed only if enough proline was added to increase substantially the endogenous concentration of proline. Increasing the endogenous concentration did not affect the amount of proline that was incorporated into protein.     

Growth inhibition by exogenous proline and its metabolism in saltgrass (Distichlis spicata) suspension cultures

The growth of Distichlis spicata suspension cultures in LS medium without NaCl was inhibited 54% by 2 mM proline. In medium containing 260 mM NaCl, 10 mM proline inhibited growth by only 22%. The uptake and metabolism of 10 mM L-[1-¹³C] proline was followed by ¹³C NMR and ninhydrin analyses of suspensions cultured in the presence of 0 or 260 mM NaCl. Uptake of 85 to 92% of the exogenous proline occurred within 72 h in all media. In 10 mM proline and no NaCl, cellular proline reached a maximm of 51.5 moles/g FW compared to 1.9 moles/g FW in suspensions not grown on proline. In medium containing 260 mM NaCl and proline, cellular proline reached 59–65 moles/g FW compared to 30–40 moles/g FW in controls grown without proline. The ¹³C-label in the proline-C₁ was either retained in proline or disappeared, presumably released as carbon dioxide, by catabolism through the TCA cycle. Since no metabolite of ¹³C-proline was detected by NMR, proline was considered to be the molecule which inhibited the suspension culture growth.Abbreviations LS Linsmaier and Skoog medium - FW fresh weight - DW dry weight - P5C 1-pyrroline-5-carboxylate - TCA tricarboxylic acid cycle - FID free-induction-decay - NMR nuclear magnetic resonance spectroscopy - T₁ spin-lattice relaxation time - NOE Nuclear Overhauser Effect.     

Doubled haploids of wheat from wheat x maize crosses:genotypic influence, fertility and inheritance of the 1BL-1RS chromosome

The wheat x maize cross as a technique for haploid induction in wheat was evaluated in a replicated block design comprising 18 wheat F₁ hybrids and five Zea mays L. parents. Haploid plants were regenerated at an average of 9.1 (4.4–14.7) plants per 100 florets processed. Genotypic differences for haploid production efficiency were recorded for both wheat and Zea mays L. Interaction between parents was significant for number of plants/100 florets. All 610 of the 1,703 regenerated plantlets that were analyzed by flow cytometry were haploid. At maturity, 70% (60–81 %) of the colchicinetreated haploid plants were fertile, but the frequency of fertile and sterile plants was not consistent over the wheat hybrids from which they were derived. Flow cytometry performed using the first tiller which arose following colchicine treatment enabled prediction of fertility. The 1BL-1RS chromosome was found at the expected ratios in the F₂ and in the haploid progenies produced through the wheat x maize cross but deviated from the 11 ratio in the haploid progenies produced by anther culture.     

Direct embryogenesis and green plant regeneration from isolated microspores of hexaploid triticale (× <Emphasis Type="Italic">Triticosecale</Emphasis> Wittmack) cv. Bogo

The use of doubled haploids improves the efficiency of cultivar development in many crops and can be helpful in genetic and molecular studies. The major problem with this approach is the low efficiency of green plant regeneration. We describe here an efficient method for inducing embryos and regenerating green plants directly from isolated microspores of hexaploid triticale (× Triticosecale Wittmack) cv. Bogo. The absence of growth regulators in the induction medium was the most effective condition for the formation of embryo-like structures. The highest induction rates were observed at microspore densities of 1.5×10⁵ microspores and 2×10⁵ microspores per milliliter. Such cultures produced an average of 54.9 green plants per single donor spike. The frequency of albino plants ranged from 9.3% to 22.9%. Among the green progeny tested, 30.8% were spontaneously doubled haploids.Abbreviations BAP Benzylaminopurine - DAPI 4-6 Diamidino-2-phenylindole - 2,4-D 2,4-Dichlorophenoxyacetic acid - NAA -Naphthaleneacetic acid     

Overexpression of maize anthocyanin regulatory gene Lc affects rice fertility

Seventeen independent transgenic rice plants with the maize anthocyanin regulatory gene Lc under control of the CaMV 35S promoter were obtained and verified by molecular identification. Ten plants showed red spikelets during early development of florets, and the degenerate florets were still red after heading. Additionally, these plants exhibited intense pigmentation on the surface of the anther and the bottom of the ovary. They were unable to properly bloom and were completely sterile. Following pollination with normal pollen, these plants yielded red caryopses but did not mature normally. QRT-PCR analysis indicated that mRNA accumulation of the CHS-like gene encoding a chalcone synthase-related protein was increased significantly in the sterile plant. This is the first report to suggest that upregulation of the CHS gene expression may result in rice sterility and affect the normal development of rice seeds.     

Delineation of sodium-stimulated amino acid transport pathways in rabbit kidney brush border vesicles

Summary We have confirmed previous demonstrations of sodium gradient-stimulated transport ofl-alanine, phenylalanine, proline, and -alanine, and in addition demonstrated transport of N-methylamino-isobutyric acid (MeAIB) and lysine in isolated rabbit kidney brush border vesicles. In order to probe the multiplicity of transport pathways available to each of these¹⁴C-amino acids, we measured the ability of test amino acids to inhibit tracer uptake. To obtain a rough estimate of nonspecific effects, e.g., dissipation of the transmembrane sodium electrochemical potential gradient, we measured the ability ofd-glucose to inhibit tracer uptake.l-alanine and phenylalanine were completely mutually inhibitory. Roughly 75% of the¹⁴C-l-alanine uptake could be inhibited by proline and -alanine, while lysine and MeAIB were no more effective thand-glucose. Roughly 50% of the¹⁴C-phenylalanine uptake could be inhibited by proline and -alanine; lysine was as effective as proline and -alanine, and the effects of pairs of these amino acids at 50mm each were not cumulative. MeAIB was no more effective thand-glucose. We conclude that three pathways mediate the uptake of neutral,l, -amino acids. One system is inaccessible to lysine, proline, and -alanine. The second system carries a major fraction of thel-alanine flux; it is sensitive to proline and -alanine, but not to lysine. The third system carries half the¹⁴C-phenylalanine flux, and it is sensitive to proline, lysine, and -alanine. Since the neutral,l, -amino acid fluxes are insensitive to MeAIB, we conclude that they are not mediated by the classicalA system, and since all of thel-alanine flux is inhibited by phenylalanine, we conclude that it is not mediated by the classicalASC system.l-alanine and phenylalanine completely inhibit uptake of lysine. MeAIB is no more effective thand-glucose in inhibiting lysine uptake, while proline and -alanine appear to inhibit a component of the lysine flux. We conclude that the¹⁴C-lysine fluxes are mediated by two systems, one, shared with phenylalanine, which is inhibited by proline, -alanine, andl-alanine, and one which is inhibited byl-alanine and phenylalanine but inaccessible to proline, -alanine, and MeAIB. Fluxes of¹⁴C-proline and¹⁴C-MeAIB are completely inhibited byl-alanine, phenylalanine, proline, and MeAIB, but they are insensitive to lysine. Proline and MeAIB, as well as alanine and phenylalanine, but not lysine, inhibit¹⁴C--alanine uptake. However, -alanine inhibits only 38% of the¹⁴C-proline uptake and 57% of the MeAIB uptake. We conclude that two systems mediate uptake of proline and MeAIB, and that one of these systems also transports -alanine.     

Does abscisic acid influence proline accumulation in stressed leaves?

Root treatments of barley (Hordeum distichum L.) plants with 10^-7 to 10^-4 M abscisic acid (ABA) caused an increase in proline content, especially at higher concentrations, within 2–3 h. Even 3 h after the removal of ABA from the medium the plants continued to accumulate proline. The higher the concentration of the ABA, the higher was the proline level at 6 h. When the highest ABA concentration, 10^-4 M, was tested with polyethylene glycol (PEG) (-5.0 bars) in the medium, the ABA treatment resulted in a higher proline content than in control plants. The treatments PEG alone and PEG + ABA resulted in heavy accumulation of proline, especially, 3 h after releasing the plants from the stress. The proline content in PEG+ABA-treated plants was always higher than plants treated with PGE or ABA alone. In peas (Pisum sativum L. cv Alaska) the same trend occurred although to a lesser degree. These findings indicate an influence of ABA on proline accumulation in water-stressed plants.Abbreviations ABA abscisic acid - PEG polyethylene glycol - RWC relative water content     

Molecular Control of Male Reproductive Development and Pollen Fertility in Rice

Anther development and male fertility are essential biological processes for flowering plants and are important for crop seed production. Genetic manipulation of male fertility/sterility is critical for crop hybrid breeding. Rice (Oryza sativa L.) male sterility phenotypes, including genic male sterility, hybrid male sterility, and cytoplasmic male sterility, are generally caused by mutations of fertility‐related genes, by incompatible interactions between divergent allelic or non‐allelic genes, or by genetic incompatibilities between cytoplasmic and nuclear genomes. Here, we review the recent advances in the molecular basis of anther development and male fertility‐sterility conversion in specific genetic backgrounds, and the interactions with certain environmental factors. The highlighted findings in this review have significant implications in both basic studies and rice genetic improvement. [ Yao‐Guang Liu (Corresponding author)]     

Proline fed to intact soybean plants influences acetylene reducing activity and content and metabolism of proline in bacteroids

Supplying l-proline to the root system of intact soybean (Glycine max [L.] Merr.) plants stimulated acetylene reducing activity to the same extent as did supplying succinate. Feeding l-proline also caused an increase in bacteroid proline dehydrogenase activity that was highly correlated with the increase in acetylene-reducing activity. Twenty-four hours after irrigating with l-proline, endogenous proline content had increased in host cell cytoplasm and bacteroids, about three- and eightfold, respectively. In bacteroids, proline concentration was calculated to be at least 3.5 millimolar. In experiments in which [U-¹⁴C]l-proline was supplied to uprooted, intact plants incubated in aerated solution, ¹⁴C-labeled products of proline metabolism, as well as [¹⁴C]proline itself, accumulated in both host cells and bacteroids. When plants were incubated in aerated solutions containing [5-³H]l-proline, ³H-labeled proline was found in host cells and bacteroids. [³H] Pyrroline-5-carboxylate was found in bacteroids, but not host cells, after a 2-hour incubation in [5-³H]l-proline. When [U-¹⁴C]l-proline was supplied for 24 hours, a significant amount of [¹⁴C] pyrroline-5-carboxylate was found in the host cells, in contrast with the results from the shorter incubation in [5-³H]proline, although the amount in the host cells was only about half the quantity found in the bacteroids. Taken as a whole, these results indicate that proline crosses both plant and bacterial membranes under the in vivo experimental conditions utilized and are consistent with a significant role for proline as an energy source in support of bacteroid functioning. In spite of the increase in acetylene-reducing activity when proline was supplied to the root system of intact plants, proline application did not rescue stemgirdled plants from loss of acetylene-reducing activity, although succinate application did. This suggests a nonphloem route for succinate, but not proline, from roots to nodules.     

MORPHOLOGICAL AND CHEMICAL STUDIES OF COLLAGEN FORMATION : II. Metabolic Activity of Collagen Associated with Subcellular Fractions of Guinea Pig Granulomata

Electron micrographs of thin sections of nuclear, microsomal, and mitochondrial fractions obtained from a carrageenin-induced granuloma showed considerable contamination of the heavier by the lighter fractions. Striated collagen fibrils could be identified in the nuclei + debris fraction. Only a few striated fibrils occurred in the mitochondrial fraction; very fine filaments (diameter 50 A) could be seen in this fraction, but could not be distinguished with certainty from fibrillar material derived from broken nuclei. 35 per cent of the mitochondrial and 80 per cent of the microsomal collagen was extractable by 0.2 M NaCl and could be purified by the standard methods of solution and reprecipitation. The amino acid composition of these collagen fractions determined by ion exchange chromatography was within the range normally found for collagen and gelatin from other mammalian species, allowing for 10 to 20 per cent of some non-collagenous contaminant of the microsomal collagen. Hydroxyproline and proline were isolated by chromatography on paper from hydrolysates of the nuclear, mitochondrial, and microsomal collagen fractions, after incubation of tissue slices with L-¹⁴C-proline. The specific activities of the hydroxyproline from these collagens were in the approximate ratio 1:2:6, while that of bound hydroxyproline derived from the supernatant was only 1, indicating primary synthesis of collagen in the microsomes. Attempts to demonstrate incorporation of L-¹⁴C-proline into collagen or into free hydroxyproline in cell free systems were unsuccessful, nor was it possible to demonstrate non-specific incorporation of L-¹⁴C-valine into TCA-insoluble material by various combinations of subcellular fractions.     

Tapetum and middle layer control male fertility in Actinidia deliciosa

Background and Aims

Dioecism characterizes many crop species of economic value, including kiwifruit (Actinidia deliciosa). Kiwifruit male sterility occurs at the microspore stage. The cell walls of the microspores and the pollen of the male-sterile and male-fertile flowers, respectively, differ in glucose and galactose levels. In numerous plants, pollen formation involves normal functioning and degeneration timing of the tapetum, with calcium and carbohydrates provided by the tapetum essential for male fertility. The aim of this study was to determine whether the anther wall controls male fertility in kiwifruit, providing calcium and carbohydrates to the microspores.

Methods

The events occurring in the anther wall and microspores of male-fertile and male-sterile anthers were investigated by analyses of light microscopy, epifluorescence, terminal deoxynucleotidyl transferase-mediated dUTP nick-end labelling (TUNEL assay) and transmission electron microscopy coupled with electron spectroscopy. The possibility that male sterility was related to anther tissue malfunctioning with regard to calcium/glucose/galactose provision to the microspores was also investigated by in vitro anther culture.

Key Results

Both tapetum and the middle layer showed secretory activity and both degenerated by programmed cell death (PCD), but PCD was later in male-sterile than in male-fertile anthers. Calcium accumulated in cell walls of the middle layer and tapetum and in the exine of microspores and pollen, reaching higher levels in anther wall tissues and dead microspores of male-sterile anthers. A specific supply of glucose and calcium induced normal pollen formation in in vitro-cultured anthers of the male-sterile genotype.

Conclusions

The results show that male sterility in kiwifruit is induced by anther wall tissues through prolonged secretory activity caused by a delay in PCD, in the middle layer in particular. In vitro culture results support the sporophytic control of male fertility in kiwifruit and open the way to applications to overcome dioecism and optimize kiwifruit production.     

Functional Analysis of Wheat <Emphasis Type="Italic">TaPaO1</Emphasis> Gene Conferring Pollen Sterility Under Low Temperature

Thermosensitive male sterility plays an important role in wheat fertility and production. As a key enzyme for chlorophyll degradation, pheophorbide a oxygenase (PaO) can suppress cell death in plants. We cloned the wheat gene TaPaO1 from the thermosensitive genetic male sterile (TGMS) line BS366; it encodes a typical PaO protein, containing a conserved Rieske [2Fe-2S] iron–sulphur motif, a mononuclear non-heme iron-binding motif, and a C-terminal CxxC motif. TaPaO1 was expressed in all tissues and was upregulated during the meiosis stage of BS366 anthers under low temperature. Subcellular localization of TaPaO1 specifically labelled the surrounding of chloroplasts. TaPaO1 regulated by RD29A promoter which responded to low temperature led to pollen sterility in transgenic tobacco. Expression analysis showed that TaPaO1 exhibited a higher level of expression in the anther than in other tissues in transgenic tobacco plants during low temperature treatment. We propose that the higher senescence-related activity of TaPaO1 may lead to the cell death of anthers, which happens at an early developmental stage under low temperature. These results provide new insights into the function of PaO during the early developmental stage of anthers. PaO is closely related to cell death regardless of whether it exhibits increased activity or inactive.     

Function and evolution of sterile sex organs in cryptically dioecious Petasites tricholobus (Asteraceae)

Background and Aims

Why are sterile anthers and carpels retained in some flowering plants, given their likely costs? To address this question, a cryptically dioecious species, Petasites tricholobus, in which male and female plants each have two floret types that appear pistillate and hermaphroditic, was studied. The aim was to understand the function of sterile hermaphroditic florets in females. In addition, the first examination of functions of sterile female structures in male plants was conducted in the hermaphroditic florets on males of this species. These female structures are exceptionally large in this species despite being sterile.

Methods

Differences in floret morphology between the sex morphs were documented and the possible functions of sterile sex organs investigated using manipulative experiments. Tests were carried out to find out if sterile female structures in male florets attract pollinators and if they aid in pollen dispersal, also to find out if the presence and quantity of sterile hermaphroditic florets in females increase pollinator attraction and reproductive success. To investigate what floret types provide nectar, all types of florets were examined under a scanning electron microscope to search for nectaries.

Key Results

The sterile female structures in male florets did not increase pollinator visits but were essential to secondary pollen presentation, which significantly enhanced pollen dispersal. Sterile pistillate florets on male plants did not contribute to floral display and disappeared in nearly half of the male plants. The sterile hermaphroditic florets on female plants attracted pollinators by producing nectar and enhanced seed production.

Conclusions

The presence of female structures in male florets and hermaphroditic florets on female plants is adaptive despite being sterile, and may be evolutionarily stable. However, the pistillate florets on male plants appear non-adaptive and are presumably in decline. Differential fates of the sterile sex organs in the species are determined by both the historical constraints and the ecological functions.     

The effect of shoot-root ratio and temperature on K+ influx in rye

The temperature sensitivity of K⁺ influx into rye roots and root plasma membrane ATPase activity were compared in plants grown at different temperatures. It was shown that ATPase activity obeyed the Arrhenius relationship with temperature, whereas K⁺ influx into intact plants was linearly related to temperature and markedly influenced by shoot/root ratio. A model for acclimation of K⁺ influx to low temperatures based on the regulation of the K⁺ carrier mechanism by plant demand for K⁺ is described.     

Modulation of proline metabolic gene expression in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> under water-stressed conditions by a drought-mitigating <Emphasis Type="Italic">Pseudomonas putida</Emphasis> strain

Although amelioration of drought stress in plants by plant growth promoting rhizobacteria (PGPR) is a well reported phenomenon, the molecular mechanisms governing it are not well understood. We have investigated the role of a drought ameliorating PGPR strain, Pseudomonas putida GAP-P45 on the regulation of proline metabolic gene expression in Arabidopsis thaliana under water-stressed conditions. Indeed, we found that Pseudomonas putida GAP-P45 alleviates the effects of water-stress in A. thaliana by drastic changes in proline metabolic gene expression profile at different time points post stress induction. Quantitative real-time expression analysis of proline metabolic genes in inoculated plants under water-stressed conditions showed a delayed but prolonged up-regulation of the expression of genes involved in proline biosynthesis, i.e., ornithine-Δ-aminotransferase (OAT), Δ ¹ -pyrroline-5-carboxylate synthetase1 (P5CS1), Δ ¹ -pyrroline-5-carboxylate reductase (P5CR), as well as proline catabolism, i.e., proline dehydrogenase1 (PDH1) and Δ ¹ -pyrroline-5-carboxylate dehydrogenase (P5CDH). These observations were positively correlated with morpho-physiological evidences of water-stress mitigation in the plants inoculated with Pseudomonas putida GAP-P45 that showed better growth, increased fresh weight, enhanced plant water content, reduction in primary root length, enhanced chlorophyll content in leaves, and increased accumulation of endogenous proline. Our observations point towards PGPR-mediated enhanced proline turnover rate in A. thaliana under dehydration conditions.     

Expression of <Emphasis Type="Italic">Aprotinin</Emphasis> in Anther Causes Male Sterility in Tobacco var <Emphasis Type="Italic">Petit havana</Emphasis>

Expression of many proteinases has been documented during anther development. Although their roles are not completely understood, their inhibition could possibly result in impairment of anther development leading to male sterility. We proposed that such an impairment of anther development can be engineered in plants resulting in male sterile plants that can be used for hybrid seed production. Here, we report that anther-specific expression of Aprotinin gene (serine proteinase inhibitor) in tobacco has resulted in male sterility. Southern analysis and zymogram analysis confirmed the integration and expression of Aprotinin gene in the anthers of the transgenic plants. Transverse sections of anthers of transgenic male sterile plants showed damaged tapetum. The pollen germination in the transgenic plants ranged between 2% and 65% that confirmed the impairment in pollen production leading to male sterility and low seed yield. Thus, inhibition of serine proteinases that are expressed during anther development has resulted in impaired pollen production and male sterility, though the exact role of these proteinases in anther development still has to be elucidated.     

Functional properties of ficoll and their influence on anther culture responses of wheat

The effects of ficoll in liquid culture media have been contradictory in previous reports. The objective of this study was to determine the functional properties of ficoll in potato 4 (P4) liquid induction medium and their influence on anther culture responses of wheat. Ficoll addition significantly (p0.01) reduced callus production from the anthers of spring wheat cv. Pavon 76. The reduction was directly related to the concentration of ficoll added within the range of 50 to 200 g l^-1 medium. Although the addition of ficoll significantly (p0.01) increased the percentage of regenerable calli and the ratio of green vs. albino plants, the final yield of green plants per 100 anthers was significantly lower. Consistent results also were obtained with four other spring wheat genotypes (Chris, Butte 86, WA 6916, and Edwall). Ficoll concentration affected the density, viscosity, and osmolality of the liquid media. The higher medium density caused by ficoll addition increased the percentage of floating calli, as well as the percentage of regenerable calli and the ratio of green vs. albino plants. However, the increased medium viscosity by ficoll addition significantly (p0.01) reduced callus production. Ficoll addition also increased medium osmolality, which affected callus production by interacting with the sugar concentration of the induction media. Using response functions, the estimated maltose concentration for maximum callus production was 105 g l^-1 for the standard P4 media, compared with 68 g l^-1 for the ficoll-containing P4 media. These results clearly demonstrate that ficoll addition to the liquid P4 induction medium containing high sucrose concentration (90 g l^-1) is deleterious to the maximum production of green plants from wheat anther culture.     

Studies on peptides CLVIII. Model experiments for the synthesis of open-chain unsymmetrical cystine-peptides

Treatment of a mixture of Cys(R)(O) and Cys(R) with an acid was found to generate cystine in fairly good yields, when suitable R, R, and an acid were selected. An unsymmetrical cystine peptide was prepared by treatment of a mixture of Z(OMe)-Cys(R) (0)-Ala-NH₂ (R=Acm or MBzl) and Z(OMe)-Cys(MBzl)-Gly-OBzl with TFA or 1 M TFMSA/TFA.³ Oxytocin was obtained in an excellent yield by TFA treatment of the protected peptide containing Cys(Acm)(0) and Cys(MBzl). Thus, formation of the disulfide bond was found feasible at the position of Cys(R) (0).The following abbreviations are used Boc t-butyloxycarbonyl - Z(OMe) p-methoxybenzyloxycarbonyl - MBzl p-methoxybenzyl - Acm acetamidomethyl - Bzl benzyl - Ad l-adamantyl - tBu t-butyl - TFA trifluoroacetic acid - TFMSA trifluoromethanesulfonic acid - TMSOTf trimethylsilyl trifluoromethane sulfonate