Phosphorus translocation in salt-stressed cotton

The effect of salinity on plants has usually been studied at high inorganic P concentration ([Pi]) in the nutrient solution, and salinity × Pi interactions have been examined at much higher [Pi] than found in soil solutions. Short-term ³²Pi experiments were carried out to study the effect of salinity (150 m M NaCl) on phosphorus translocation in cotton plants ( Gossypium hirsutum L. cv. Acala SJ-2) grown in nutrient solutions containing 10 μ M [Pi]. The effect of additional Ca to a concentration of 10 μ M was also tested. Salinity inhibited ³²P translocation from root to shoot. This inhibition was more evident at higher [Pi] in the root medium. Increasing [Pi] 33-fold in the solution resulted in a 4.3-fold increase in [³²P] in the root under saline conditions, but only in a 1,8-fold increase in the shoot. In older shoot tissues total [P] was elevated in the salinized plants. In the young tissues, however, total P concentration was higher in control plants. Inhibition of ³²P translocation by salinity was greater from root to young leaves than to mature shoot tissues. Salinity also decreased ³²P recirculation from the cotyledons to the young leaf. Inhibition by salinity of both ³²P translocation and recirculation to young leaves was fully reversed by increasing Ca supply from 1 to 10     

NOREPINEPHRINE INCREASES THE [32P]LABELLING OF A SPECIFIC PHOSPHOLIPID FRACTION OF POST-SYNAPTIC PINEAL MEMBRANES

Abstract— Cultured pineal glands incorporated ³²P into membrane phospholipids. Treatment of cultured glands with norepinephrine, which is known to stimulate membrane- bound pineal adenyl cyclase and to increase the production and secretion of melatonin, stimulated the incorporation of ³²P into a phospholipid fraction of membranes and particulates containing phosphatidyl serine and phosphatidyl inositol. The labelling of other phospholipid fractions and the total ³²P in the gland were not changed by norepinephrine treatment. Experiments with chronically-denervated pineal glands indicated that the effect of norepinephrine on the [³²P]labelling of phospholipids occurred at a postsynaptic site. When norepinephrine-stimulated secretion of melatonin was partially inhibited by p -chlorophenylalanine (a compound which blocks the synthesis of melatonin precursors), the norepinephrine-stimulated labelling of phospholipids was still observed. Conversely, when melatonin secretion was stimulated in the absence of norepinephrine by treatment with the immediate precursor of melatonin, N -acetylserotonin, a stimulation of ³²P- labelling of phospholipids did not occur. These observations suggest that the increased [³²P]- labelling of a phospholipid fraction caused by the norepinephrine treatment is not related to the secretion of melatonin. This effect on phospholipids may be associated with the interaction of norepinephrine with a membrane-bound postsynaptic receptor. Stimulation by norepinephrine of [³²P]-incorporation into phospholipids has not been previously reported to occur in a tissue in which cholinergic fibres are absent.     

Pathway and regulation of phosphate translocation to the pods of soybean explants

We investigated the degree to which developing fruit compete directly with leaves for mineral nutrients, e.g. phosphate coming up from the roots. When soybean ( Glycine max (L.) Merrill cv. Anoka) explants cut at mid-late podfill were given a 15-min pulse of ³²Pi via the cut stem and then transferred to distilled water, 75% of the ³²P accumulated in the leaves and 21% in stem and petiole during the first hour. The amount of ³²P entering the seeds was low (1%) initially, but thereafter increased to 30% in 48 h. An accumulation of ³²P in the seed coats preceded its entry into the embryos. Disruption (with hot steam) of the phloem between the leaf and the pods after pulse labelling indicated that more than 80% of the ³²Pi pulse moved to the leaf before redistribution to the pods. Increasing "sink" size by adjusting the pod load from 1 to 2–3 did not increase the ³²P accumulated by the pods proportionally. Conversely, excision of the seeds after pulse labelling did not prevent translocation of ³²P out of the leaves. These results suggest that the rate of transport of phosphate to the pods at mid-late podfill is controlled primarily by factors in the leaves. The results are consistent with the observation that the relative size of the sink (pod load) does not regulate leaf senescence.     

Phosphorylation and Fucosylation of Myelin Protein In Vitro by Sciatic Nerve from Developing Rats

Abstract: Proteins of the paniculate fraction of sciatic nerve of rats ranging from 1 to 55 days of age were analyzed by polyacrylamide gel electrophoresis. The major myelin protein, P₀, could not be detected at 1 day of age, but by 10 days it comprised from 15 to 20% of the particulate protein, the same proportion as in adult rats. Growth of nerve continued throughout the period studied. Rat sciatic nerves were incubated with [³²P]orthophosphate or [³H]fucose. Particulate matter proteins from sciatic nerve (and in certain cases proteins of myelin purified from sciatic nerve) were separated by polyacrylamide disc gel electrophoresis and the distribution of protein and of radioactivity along the gels was determined. [³²P]Phosphate appeared to label all myelin proteins. Labeling with fucose was more specific; myelin basic proteins were not fucosylated. A developmental study showed that sciatic nerves from 2-day-old rats could incorporate radioactive fucose and [³²P]-phosphate into several proteins at the P₀ region of polyacrylamide gels. Specific radioactivity of [³H]fucose in P₀ protein was highest in preparations from 5-day-old rats and declined by 80% over the next 5 days as it was diluted by accumulating myelin. The specific radioactivity of incorporated [³²P] phosphate was high at the early age points and declined as a result of the accumulation of compact myelin. The results indicate an association of fucosylation and/or phosphorylation with some step in the formation of myelin.     

AN INVESTIGATION OF THE POSSIBLE ROLE OF PHOSPHOINOSITIDES AS REGULATORS OF ACTION POTENTIALS BY STUDYING THE EFFECT OF ELECTRICAL STIMULATION, TETRODOTOXIN AND CINCHOCAINE ON PHOSPHOINOSITIDE LABELLING BY 32P IN RABBIT VAGUS

Abstract— The effect of electrical stimulation, tetrodotoxin and cinchocaine (the latter two substances abolish action potentials) on the incorporation of [³²P]orthophosphate into the phosphoinositides of isolated rabbit vagus nerve has been studied. Electrical stimulation, or treatment with tetrodotoxin, had little significant effect on the incorporation of [³²P]orthophosphate into the phosphoinositides. Cinchocaine, however, caused a 3.5–4.4-fold increase ( P = < 0.001) in monophosphoinositide labelling. These findings are discussed in view of the possible function of the phosphoinositides in the nervous system.     

Relative feeding rates of Brevicoryne brassicae and Myzus persicae on Brussels sprout plants in relation to their susceptibility to systemic insecticides

Brevicoryne brassicae and Myzus persicae removed similar quantities of ³²P-labelled material from Brussels sprout leaves whether they fed for 24 or 48 h periods. They also removed similar quantities from untreated leaf disks as from leaf disks treated with a sub-lethal dose of menazon. When a lethal dose was used, the uptake of ³²P by B. brassicae was significantly less than by M. persicae. M. persicae excreted a greater proportion of ³²P label in the honeydew than B. brassicae and a greater proportion of the amount absorbed was lost in the progeny of this aphid than in B. brassicae.
B. brassicae was 6.2 times more susceptible than M. persicae to dimethoate acting systemically. When it was applied topically the aphids were equally susceptible.
Considerable variation in uptake of ³²P occurred between replicates and the factors that could influence this are discussed.     

EFFECTS OF DENERVATION ON THE INCORPORATION OF 32P INTO PHOSPHATIDYL INOSITOL AND OTHER PHOSPHOLIPIDS OF RAT DIAPHRAGM

Abstract— At 24 h after denervation of the rat hemidiaphragm, incorporation of ³²P into phosphatidyl inositol was depressed relative to incorporation of ³²P into phosphatidyl choline (measured 75 min after injection of the isotope intraperitoneally). The ratio of the specific radioactivity of phosphatidyl choline to the specific radioactivity of P_i was unaffected by denervation which implies that denervation had depressed incorporation of isotope into phospatidyl inositol. Denervation did not cause a measurable change in the pool size of phosphatidyl inositol relative to that of phosphatidyl choline. The effect of denervation on incorporation of ³²P into phosphatidyl inositol was not entirely a direct consequence of the cessation of ACh release at the motor end-plate since the effect was clearly manifest in strips of muscle not containing motor end-plates, but the magnitude of the denervation effect was slightly greater in the strips of denervated hemidiaphragm which contained motor end-plates.     

Influence of auxin on phosphate absorption and metabolism of phosphorylated compounds in aged potato tuber discs (Solanum tuberosum)

Ageing of potato tuber discs markedly increases the rate of phosphate uptake. This increase is partially prevented by the presence of indoleacetic acid (IAA: 50 μ M ) in the ageing medium. ³²P distribution among the various phosphorylated fractions (P₁, organic soluble phosphate, acid-insoluble phosphate) was carried out after 24 h of ageing in the presence of IAA. An equal inhibition of the labelling rates of each of the different fractions is induced by the hormone. No important effect on respiration and ATP content was observed. Moreover, IAA neither changes the total phospholipid content nor the relative distribution of ³²P between the components. These results support the hypothesis that IAA acts specifically on the development of uptake mechanisms during the ageing period.     

Phosphate transport in potato cuttings: Effect of gibberellic acid and abscisic acid

Apical cuttings of Solanum tuberosum L. cv. Sirtema were used al different stages of development to study long-distance transport of phosphate. The effects of two hormones, gibberellic acid (GA₃) and abscisic acid (ABA), on this process were also investigated. Before tuberization, phosphate (³²P) supplied to a single leaf was transported preferentially in the young and growing parts of the plant: apical bud, young leaves and roots. After tuberization, the tuber became the principal site of phosphate accumulation. GA³ treatment (10⁻⁴ M) of the tuber as well as of the leaves led to reduced transport of ³²P into the tuber. By contrast, treatment of the tuber with ABA (10⁻⁴M) did not change the ³²P distribution within the plant, while foliar spray with ABA greatly increased the transport into the tuber. The opposite effects of the two hormones on phosphate accumulation by tubers are discussed with regard to their opposite effects on the tuberization process.     

Multiple GTP-binding proteins in sea urchin sperm: Evidence for Gs and small G-proteins

Sea urchin sperm plasma membranes isolated from heads and flagella were used to examine the presence of Gs (stimulatory guanine nucleotide-binding regulatory protein) and small G-proteins. Flagellar plasma membranes incubated with [³²P]NAD and cholera toxin (CTX) displayed radiolabeling in a protein of 48 kDa, which was reactive by immunoblotting with a specific antibody against mammalian Gs. CTX-catalyzed [³²P]ADP-ribosylation in conjunction with immunoprecipitation with anti-Gs, followed by electrophoresis and autoradiography, revealed one band of 48 kDa. Head plasma membranes, in contrast, did not show substrates for ADP-ribosylation by CTX. In flagellar and head plasma membranes pertussis toxin (PTX) ADP-ribosylated the same protein described previously in membranes from whole sperm; the extent of ADP-ribosylation by PTX was higher in flagellar than in head membranes. Small G-proteins were investigated by [³²P]GTP-blotting. Both head and flagellar plasma membranes showed three radiolabeled bands of 28, 25 and 24 kDa. Unlabeled GTP and GDP, but not other nucleotides, interfered with the [α-³²P]GTP-binding in a concentration-dependent manner. A monoclonal antibody against human Ras p21 recognized a single protein of 21 kDa only in flagellar membranes. Thus, sea urchin sperm contain a membrane protein that shares characteristics with mammalian Gs and four small G-proteins, including Ras . Gs, Gi and Ras are enriched in flagellar membranes while the other small G-proteins do not display a preferential distribution along the sea urchin sperm plasma membrane. The role of these G-proteins in sea urchin sperm is presently under investigation.     

NUCLEAR CHROMATIN PROTEINS FROM RABBIT CEREBRUM, CEREBELLUM AND LIVER: SYNTHESIS AND PHOSPHORYLATION

Abstract— In order to investigate synthesis and phosphorylation of the various fractions of nuclear proteins. [³H]leucine and [³²P] phosphate incorporation were studied with tissue slices in vitro. Cerebral cortex and cerebellum were used to delineate the similarity and dissimilarity within CNS, and liver was taken to compare the extraneural organ. There were significant differences in [³H]leucine incorporation into nuclear proteins among those tissue sources examined, while [³²P]phosphate incorporation showed very similar results among them. Although the acidic chromatin protein demonstrated high activity in each tissue source for both synthesis and phosphorylation, 0.14M-NaCl soluble protein showed the activity as high as or even higher than the acidic chromatin protein. Both [³H]leucine incorporation and [³²P]phosphate incorporation were relatively low in histone. When the acidic chromatin protein was further fractionated with SDS-acrylamide gel electrophoresis, significant difference was found between CNS tissue and liver for synthesis and phosphorylation. However, considerable difference was also observed even between cerebral cortex and cerebellum. The present investigation demonstrated complicity and diversity of nuclear chromatin proteins in different organs, not only for their protein constituents but also for their synthesis and phosphorylation.     

Receptor-mediated increases in phosphatidylinositol turnover in neuron-like cell lines

Abstract: Muscarinic receptors found in the N IE-115 mouse neuroblastoma cell line were tested for their ability to mediate stimulation of phosphatidylinositol (PI) turnover. This study was facilitated by the development of a new solvent system (acetone: butanol: acetic acid: water, 5: 5: 1: 1) for the rapid and consistent separation of PI by one-dimensional thin-layer chromatography. Cholinergic stimulation caused as much as a 680% increase in the incorporation of ³²P into PI. Enhanced incorporation of ³²P into PI could be measured as early as 4 min after stimulation began. By 20 min, the rate of incorporation by stimulated cells had decreased to that of unstimulated cells, indicating desensitization. The magnitude of the response was dependent on the extent of receptor occupancy and the response elicited by a saturating dose of carbamylcholine was blocked completely by 10⁻⁷ M at-ropine, a specific muscarinic antagonist. Chronic stimulation, known to cause a loss of receptor binding sites, led to a 90% decrease in the maximum response even after a 40-min withdrawal period. Replacement of Na⁺ ions in the medium with choline or K⁺ severely impaired the ability of the cells to incorporate added ³²P into PI (90 and 50%, respectively). Removal of the putative second messenger Ca²⁺ for short periods of time by the addition of excess EGTA did not alter either basal or muscarinic-stimulated PI turnover.     

Alteration of Tubulin-Gi Protein Interaction in Rat Cerebral Cortex with Aging

Abstract: The ability of the tubulin dimer to interact with and to modulate the G_i function inhibiting adenylyl cyclase was examined in cerebral cortex membranes from 2-month-old and 24-month-old rats. The hydrolysis-resistant GTP analogue 5'-guanylylimidodiphosphate (GppNHp)-dependent inhibition of adenylyl cyclase was significantly decreased in cerebral cortex membranes from 24-month-old rats. Tubulin, prepared from rat brains by polymerization with GppNHp, caused inhibition of adenylyl cyclase (∼28%) in 2-month-old rats. Tubulin-GppNHp-dependent inhibition of adenylyl cyclase in 24-month-old rats was significantly attenuated (∼15%). In 2-month-old rats, when tubulin, polymerized with the hydrolysis-resistant photoaffinity GTP analogue [³²P] P ³(4-azidoanilido)- P ¹-5'-GTP ([³²P]AAGTP), was incubated with cerebral cortex membranes, AAGTP was transferred from tubulin to G_iα. Transfer of AAGTP from tubulin to G_iα was reduced in 24-month-old rats. Furthermore, photoaffinity labeling of [³²P]AAGTP to G_iα in cortex membranes was significantly decreased in 24-month-old rats. No differences were observed in the amounts of G_sα, G_iα, or G_β subunits and tubulin, estimated by immunoblotting, in cortex membranes from 2-month-old and 24-month-old rats. These results suggest that the ability of tubulin to interact with G_i and thereby modulate the inhibitory regulation of adenylyl cyclase is reduced in the cerebral cortex of 24-month-old rats.     

METHODS FOR THE STUDY OF BLOWFLY POPULATIONS

1. A simple method of radioactive labelling of L. sericata larvae is described.
2. More uniform count levels are obtained in individuals which have fed entirely on radioactive foods than in those which first feed on non-active food.
3. The radioactive count rates of the larvae are correlated with larval live weight and the counting rates of resulting imagines correlated both with corresponding larval counting rates and with imaginal live weight.
4. The loss of ³²P in the larvae due to causes other than decay of the isotope is traced from the prepupal stage to 3 weeks after emergence. The first and major loss occurs at emergence, when about 10% of the original ³¹P is shed as empty puparium and meconium. Adults lose about 1.5% per day.
5. The distribution of ³²P in the adult body of L. sericata labelled in the larval stage has been determined. The abdominal tissues have a lower activity than the rest of the body.     

Effects of Calcium, Strontium, and Barium Ions on Phosphorylation of Hippocampal Proteins In Vitro

Abstract: Calcium ion alone or in the presence of added calmodulin stimulated in vitro transfer of ³²P from [γ³²P]ATP into several proteins of mitochondrial and synaptosomal particulate fractions from rat brain. Strontium ion was capable of substituting for calcium ion in this stimulation, but barium ion lacked this capacity. These results bring into question the hypothesis that calciumdependent protein phosphorylation of synaptic proteins is intrinsic to neurotransmitter release during neurotransmission, but they do not rule out that possibility.     

INSECTICIDAL-ACTION STUDIES WITH BISDIMETHYL-AMINO FLUOROPHOSPHINE OXIDE CONTAINING 32PHOSPHORUS

The absorption of the systemic insecticide bisdimethylamino fluorophosphine oxide containing ³²P by plants has been studied, and where possible comparisons have been made with bisdimethylaminophosphonous anhydride.
The radio-oxide is absorbed by the roots of a broad-bean plant from culture solutions. The level of radioactivity in the plant increases as the solution is absorbed and is higher in the washed roots than in the rest of the plant. The radioactivity of the remaining culture solution decreases as more of it is taken up by the plants showing that the roots selectively absorb the oxide from solution. In this latter respect it differs from the anhydride which is selectively rejected at similar rates of transpiration. The material is absorbed more slowly by plants growing in soil than in sand.
An appreciable part of the oxide absorbed by the roots is given off as vapour by the leaves. The transpired material can be collected and shown to be radioactive and systemically insecticidal. Aphids feeding on treated plants contain radioactive material.
The oxide is less lipoid soluble than the anhydride and does not penetrate as readily into the leaves of the broad bean. Since it is also lost by vaporization from the plants only small amounts are translocated following leaf applications to beans, cabbages and hops.     

Participation of Tubulin in the Stimulatory Regulation of Adenylyl Cyclase in Rat Cerebral Cortex Membranes

Abstract: This study examined effects of tubulin on the activation of adenylyl cyclase in rat cerebral cortex membranes. Tubulin, prepared from rat brain by polymerization with the hydrolysis-resistant GTP analogue 5'-guanylylimidodiphosphate (GppNHp) caused significant activation of the enzyme by ∼156% under conditions in which stimulation rather than inhibition of the enzyme was favored. Tubulin-GppNHp activated isoproterenol-sensitive adenylyl cyclase, potentiated forskolin-stimulated activity of the enzyme, and reduced agonist binding affinity for β-adrenergic receptors. When tubulin, polymerized with the hydrolysis-resistant photoaffinity GTP analogue [³²P] P ³(4-azidoanilido)- P ¹-5'-GTP ([³²P]AAGTP), was incubated with cerebral cortex membranes, AAGTP was transferred from tubulin to G_sα as well as G_iα. These results suggest that, in rat cerebral cortex membranes, the tubulin dimer participates in the stimulatory regulation of adenylyl cyclase by transferring guanine nucleotide to G_sα, as well as affecting the G_i-mediated inhibitory pathway.     

STUDIES ON THE FEEDING OF MYZUS PERSICAE (SULZ.) ON RADIOACTIVE PLANTS

Adult apterae of Myzus persicae (Sulz.), were fed, after a period of fasting, on leaves containing radioactive phosphorus. The weight of sap imbibed by the aphids after varying feeding times was estimated by relating their radioactivity, at the end of each feeding period, to the activity per unit fresh weight of the leaf lamina on which they fed. The calculations were made on the assumption that ³²P is uniformly distributed in the leaf tissues.
The mean rates of uptake so estimated were about 10 μg. of sap for the first hour of feeding; 40 μg/hr. between 1 and 4 hr. feeding, and 17 μg./hr. between 6 and 24 hr. feeding. The decrease in apparent rate of uptake with the longer feeding times is attributed to loss of ³²P in nymphs born during the feeding period.
When aphids were fed on seedlings raised in water culture solution containing ³²P no activity was detected after 5 min. feeding and an insignificant fraction after 15 min., but when the isotope was introduced by immersing the leaves for several days in the culture solution, aphids fed for 5 and 15 min. became appreciably active.
The increase in rate of uptake after 1 hr. of feeding indicates that aphids do not start to feed normally until they reach the phloem, but the activity after short feeding times suggests that previously starved aphids feed to some extent on other tissues, possibly only on the epidermis.     

EFFECTS OF ACETYLCHOLINE ON THE INCORPORATION OF [32P]ORTHOPHOSPHATE IN VITRO INTO THE PHOSPHOLIPIDS OF NERVE-ENDING PARTICLES FROM GUINEA PIG BRAIN

Abstract— Guinea pig brain nerve-ending particles (synaptosomes) were incubated with [³²P]orthophosphate in a medium with or without 10⁻⁴M-acetylcholine and 10⁻⁴ M-eserine. Phospholipids were then extracted and separated by chromatography. About 60 per cent of the ³²P was found in phosphatidic acid and about 20 per cent in triphosphoinositide. Acetylcholine significantly increased the specific radioactivity of phosphatidic acid but had no effect on that of phosphatidylinositol or the nucleotide fraction. Labelling of the other phospholipids, including diphosphoinositide and triphosphoinositide, was not altered significantly by acetylcholine. Labelling of the nucleotide fraction and the polyphosphoinositides reached a peak at 40 min, that of phosphatidic acid at 80 min, while that of phosphatidylinositol was still rising at 160 min.     

Histones and the first cell cycle in maize germination

The timing of the onset of cell division during seed germination in maize and the role of histones for this process have been studied. Embryonic axes of maize seeds ( Zea mays L. hybrid H-30) were incubated in a sterile nutrient medium for different periods of time. For some experiments putrescine was also added. Mesocotyl, root tip and scutellar node were dissected at specific periods after incubation and the mitotic indices were determined in these tissues. Embryonic axes were incubated in the same medium either with [¹⁴C]-lysine or [³²P]-phosphate. The incorporation of either ¹⁴C or ³²P into histones was followed, both in postribosomal supernatant and in nuclei. It was found that during germination, there is specific timing for meristematic cells entering into cell division. Among the tissues tested, the mesocotyl meristem was the first to initiate this process. De novo synthesis of histones was detected as early as after 6 h of imbibition and the rate increased up to 12 h. Putrescine stimulated cell division and phosphorylation of the histones. The implications of these findings are discussed.