Salinity-dependence of the properties of gill (Na++K+-ATPase in rainbow trout Oncorhynchus mykiss

• 1.1. The expected higher gill (Na⁺+K⁺)-ATPase activity in rainbow trout adapted to brackish water (BW) with respect to fresh water (FW) is accompanied by some changes in the enzyme kinetics while the enzyme sensitivity to ouabain is unaffected
• 2.2. Maximal activation is attained under the optimal conditions of 4 mM ATP, 7.5 mM Mg²⁺, 50 mM Na⁺, 2.5 mM K⁺, pH 7.0 in FW, and 3 mM ATP, 10 mM Mg²⁺, 100 mM Na⁺, 10 mM K⁺, pH 7.5 in BW.
• 3.3. The change of the enzyme activation kinetics by Mg²⁺, ATP, Na⁺ and K⁺ from simple saturation in FW to cooperativity in BW and other habitat-dependent variations including the pH alkaline shift in BW are hypothetically related to an adaptive significance to the different environmental salinity.
• 4.4. Gill total lipids and phospholipids are 30% lower in BW than in FW while their ratio is constant; some differences in gill total lipid fatty acid composition between FW and BW do not significantly affect the unsaturation parameters.

     

Monitoring of Na<Superscript>+</Superscript>/K<Superscript>+</Superscript>-ATPase mRNA expression in the cinnamon clownfish, <Emphasis Type="Italic">Amphiprion melanopus</Emphasis>, exposed to an osmotic stress environment: profiles on the effects of exogenous hormone

We examined changes in the expression of Na⁺/K⁺-ATPase mRNA in the gills of the cinnamon clownfish using quantitative real-time PCR in an osmotically changing environment [seawater (35 psu; practical salinity unit, 1 psu ≈ 1‰) → brackish water (17.5 psu) and brackish water with prolactin]. The expression of Na⁺/K⁺-ATPase mRNA in gills was increased after the transfer to brackish water, and the expression was repressed by prolactin treatment. Also, activities of gill Na⁺/K⁺-ATPase and plasma cortisol levels increased after the transfer to brackish water and were repressed in brackish water with prolactin treatment. Na⁺/K⁺-ATPase-immunoreactive cells were almost consistently observed in the gill filaments, but absent from the lamella epithelia. The plasma osmolality level decreased in brackish water, but the level of this parameter increased in brackish water with prolactin treatment during salinity change. These results suggest that the Na⁺/K⁺-ATPase gene plays an important role in osmoregulation in gills, and prolactin improves the hyperosmoregulatory ability of cinnamon clownfish in a brackish water (hypoosmotic) environment.     

The effect of Cu on gill and esophagus lipid metabolism in the rainbow trout Oncorhynchus mykiss

Rainbow trout Oncorhynchus mykiss were exposed to 0, 100, 300 and 800 μgl⁻¹ ambient Cu in brackish water (BW) for 4 days at 13 °C and subsequently transferred to either clean BW, clean fresh water (FW) or clean seawater (SW) at 16 °C. After incubation with ³²P-phosphate and ¹⁴C-acetate added as precursors to the water the fish showed a degradation, depending on previous [CU], of ³²P- and ¹⁴C-labelled gill membrane phospholipids if they had been transferred to SW or remained in BW. Corresponding experiments where the fish were exposed to Cu in BW for 12 days showed a similar subsequent degradation in SW and BW of both gill and esophagus membrane phospholipids, however to a much lesser degree in gill tissue than after 4 days. Plasma Na⁺ was similarly reduced by up to 8%, depending on previous ambient Cu, but in this case only after transfer to FW and only after 4 days of exposure. Both the effect on membrane lipid metabolism and plasma Na⁺ thus showed acclimation to ambient Cu but there was apparently no direct correlation between the two different types of observed changes in membrane function.     

Effect of griseofulvin on lipid composition and membrane integrity inMicrosporum gypseum

The effect of griseofulvin on lipid constituents and membrane permeability ofMicrosporum gypseum has been investigated. Mycelia grown in medium containing griseofulvin (IC₅₀ concentration) possessed a lower content of total lipids, phospholipids and sterols. This inhibitory effect was further supported by decreased incorporation of [¹⁴C] acetate in total lipids, total phospholipids and sterols. Decrease in total phospholipids was also reflected to a varying extent in all individual phospholipids. An increase in the unsaturated to saturated fatty acid ratio was observed in mycelia grown in medium containing griseofulvin. Membrane permeability was affected by griseofulvin as shown by increased K⁺-efflux and greater leakage of intracellular [³²P] labelled components from prelabelled cells. Our results suggest that the antifungal activity of griseofulvin is partially due to its secondary effect on lipid constituents ofMicrosporum gypseum.     

Types of Irrigation Water and Soil Amendment Affect the Growth and Flowering of <i>Petunia x alkinsiana</i> ‘Bravo Pinc’

Water insufficiency is the hampering feature of crop sustainability, especially in arid and semi-arid regions. So, the effectual usage of all water resources especially underground brackish water represents the core priority in Saudi Arabia. The present study aimed to recognize the influence of different types of water irrigation (tap water as a control, salinized well water, and magnetized salinized well water) with or without soil amendments (soil without any amendment as a control, peat-moss, ferrous sulfate, and peat-moss plus ferrous sulfate) on petunia plant growth and flowering as well as ion content. Irrigating Petunia plants with saline well water adversely affected growth and flowering as compared to tap water and magnetized saline well water. Additionally, plants irrigated with magnetized water showed a significant enhancement in all the studied vegetative and flowering growth parameters as compared to those irrigated with salinized well water. Furthermore, mineral contents and survival of Petunia plants irrigated with magnetized well water were higher than those irrigated with tap water. Irrigation with magnetized well water significantly reduced levels of Na⁺ and Cl⁻ ions in leaves of Petunia plants indicating the role of magnetization in alleviating harmful effects of salinity. In conclusion, we recommend the utilization of magnetized saline well water for irrigating Petunia plants either alone or in combination with soil amendments (peat moss plus ferrous sulfate).     

Age dependent alterations in phospholipid composition of a saprophytic and a pathogenic strain of Nocardia

Nocardia polychromogenes (saprophytic) and Nocardia asteroides (pathogenic) showed characteristic patterns in changes of cellular lipids during growth. Total lipids and total phospholipids decreased with the age of the culture in the saprophytic strain, whereas in the pathogenic strain total lipids increased throughout the culture period and the total phospholipids decreased in the late stationary phase. The decrease in total phospholipids in saprophytic strain was reflected in the individual phosphatides. In the pathogenic strain, the phosphatidylinositomannoside content doubled in early stationary phase. Differences were observed in fatty acid composition of phosphatides at various stages of growth, but the ratio of saturated to unsaturated fatty acids remained unaltered.     

Activity of Na<Superscript>+</Superscript>/K<Superscript>+</Superscript>-ATPase and the content of phospholipids in the blue mussel <Emphasis Type="Italic">Mytilus edulis</Emphasis> L. during environmental temperature changes

Changes in the activity of Na⁺/K⁺-ATPase and content of membrane lipids (phospholipids) in the gills and hepatopancreas of the blue mussel Mytilus edulis L. have been studied during a sharp temperature increase under aquarian managed conditions. The most pronounced changes were recorded in mollusk gills. A correlation of changes in the activity of membrane-bound Na⁺/K⁺-ATPase and phospholipid content (mainly phosphatidylserine, phosphatidylinositol, phosphatidylethanolamine, and lysophosphatidylcholine) was revealed; this correlation evidences their mutual involvement in compensation for the temperature effect to help mussels adapt to sharp temperature changes.     

Effect of shading on yield,fiber quality and physiological characteristics of cotton subtending leaves on different fruiting positions

Little is known regarding to impact of simulated shading conditions on cotton yield and fiber quality at different fruiting positions. In this 2-year study, our field experiments investigated the effects of shading percentage on the cotton yield, fiber properties, photosynthesis, and carbohydrate concentrations in boll’s subtending leaves during various growing stages at different fruiting positions (FP). Net photosynthetic rate and effective quantum yield of PSII photochemistry decreased in response to shading on both FP1 and FP3 of the 7^th sympodial branches, respectively. Shading also reduced sucrose and starch contents of leaves at each fruiting position. Shading decreased the number and mass of cotton bolls, the fiber strength and micronaire, while the fiber length increased at both fruiting positions. Our results suggested that shading resulted in the reduction of the cotton yield and fiber quality, which are mainly associated with the changes in boll number and alteration of photosynthesis and carbohydrate concentrations during the boll development.     

Sulfatide and Na<Superscript>+</Superscript>-K<Superscript>+</Superscript>-ATPase: A Salinity-sensitive Relationship in the Gill Basolateral Membrane of Rainbow Trout

We investigated the effect of salinity on the relationship between Na⁺-K⁺-ATPase and sulfogalactosyl ceramide (SGC) in the basolateral membrane of rainbow trout (Oncorhynchus mykiss) gill epithelium. SGC has been implicated as a cofactor in Na⁺-K⁺-ATPase activity, especially in Na⁺-K⁺-ATPase rich tissues. However, whole-tissue studies have questioned this role in the fish gill. We re-examined SGC cofactor function from a gill basolateral membrane perspective. Nine SGC fatty acid species were quantified by tandem mass spectrometry (MS/MS) and related to Na⁺-K⁺-ATPase activity in trout acclimated to freshwater or brackish water (20 ppt). While Na⁺-K⁺-ATPase activity increased, the total concentration and relative proportion of SGC isoforms remained constant between salinities. However, we noted a negative correlation between SGC concentration and Na⁺-K⁺-ATPase activity in fish exposed to brackish water, whereas no correlation existed in fish acclimated to freshwater. Differential Na⁺-K⁺-ATPase/SGC sensitivity is discussed in relation to enzyme isoform switching, the SGC cofactor site model and saltwater adaptation.This revised version was published online in June 2005 with a corrected cover date.     

Mechanism of lipid activation of Na,K, Mg-activated adenosine triphosphatase and K,Mg-activated phosphatase of bovine cerebral cortex

Summary Na⁺, K⁺, Mg⁺⁺-activated adenosine triphosphatase and K⁺, Mg⁺⁺-activatedp-nitrophenyl phosphatase prepared from a membrane fraction of bovine cerebral cortex were studied with regard to the manner of their activation by phospholipids, using phosphatidyl serine, lysolecithin, monodecyl and didecyl phosphates. The kinetic and chromatographic studies suggested the following. (1) When the enzyme proteins bind the phospholipids in a proper ratio, they attain the optimum activation. (2) The binding causes a simple conversion of the enzymes from an inactive form to a fully activated form. (3) The lipids in both micellar form and molecular dispersion activate the enzymes. (4) Of the proteins contained in the enzyme preparation, only a group of proteins possessing the ATPase and the phosphatase activities bind phospholipids, and the amount of the bound lipids is limited.     

Studies on (Na + K)-activated ATPase XLIX. Content and role of cholesterol and other neutral lipids in highly purified rabbit kidney enzyme preparation

(1) The neutral lipids and the free and bound fatty acids of a highly purified (Na⁺ + K⁺)-ATPase preparation from rabbit kidney outer medulla have been analysed. (2) On a dry weight basis, the total lipid content is nearly the same as the total protein content, and consists for 66% of phospholipids and for 34% of neutral lipids and free fatty acids. In the latter category cholesterol is the main component (71%). (3) On a molar basis the enzyme preparation contains 382 mol phospholipids, 67 mol free fatty acids, 9, 16 and 12 mol mono-, di- and triacylglycerols, 249 and 19 mol free and esterified cholesterol per mol enzyme. (4) The fatty acid composition of each lipid and of the free fatty acid fraction, present in the enzyme preparation, is reported. (5) All cholesterol and part of the phospholipids can be removed by hexane extraction, leaving 66% of the (Na⁺ + K⁺)-ATPase activity. Oxidation of all cholesterol to cholest-4-en-3-one by cholesterol oxidase leaves 85% of the (Na⁺ + K⁺)-ATPase activity. These results indicate that cholesterol is not essential for (Na⁺ + K⁺)-ATPase activity.     

Are Membrane Lipids Involved in Osmoregulation? Studies in vivo on the European eel, Anguilla anguilla, After Reduced Ambient Salinity

Eel gill lipids were labelled in vivo with (³²P) phosphate and (¹⁴C) acetate as precursors added to the water in the incubation tank. We compared the transfer of fish from brackish water (BW) to fresh water (FW) and also the transfer from sea water (SW) to FW, with the corresponding transfer from FW to demineralised FW (soft fresh water, SFW). Results show a common (³²P) phosphatidylethanolamine (PE) dominated phospholipid incorporation pattern at steady state, whatever environmental salinity the eels are adapted to, be it SW, BW, FW or finally after about a week in SFW. A deviation from any established steady state, by lowering the environmental salinity, leads to a temporary loss of the (³²P) PE dominated pattern and this applies equally, whether fish are transferred from a hyper/iso- to a hypo-osmotic medium, or remain in a hypo-osmotic medium. After about 1 week in the transfer media, the original (³²P) PE dominated phospholipid pattern is restored. The concomitant incorporation of (¹⁴C) acetate into eel gill phospholipids is not affected by the induced environmental changes. It shows a (¹⁴C) phosphatidylcholine dominated incorporation pattern throughout.     

Hydromineral regulation in the saline water corixid Trichocorixa reticulata (Hemiptera: Corixidae)

The aquatic corixid Trichocorixa reticulata (Guerin-Meneville) inhabits coastal marshes, brackish water ponds and salt ponds of high salinity, suggesting the presence of well developed mechanisms for hydromineral regulation.Groups of corixids acclimated in salinities ranging from fresh water to just above 300% sea water (100‰) were analyzed for total body water content, haemolymph ionic and osmotic levels, and haemolymph free amino acids.Results indicate an excellent ability to maintain haemolymph Na⁺, Cl^?, Mg²⁺ and K⁺ hyperosmotic to the medium at low salinities and hyposmotic at high salinities. Calcium appears to conform closely to changes in external medium, becoming hyposmotic at very high salinities (80‰).Total haemolymph osmotic pressure was well regulated, the freezing point depression varying from 0.75°C in distilled water to 1.15°C in salinities of 100‰. Total body water was maintained at approx. 75% of the total animal wet weight at all salinities tested.Free amino acids were maintained between 40–60 mM in all tests and did not appear to change with salinity.     

Arachidonic acid release from K+-evoked depolarization of brain synaptosomes

Rat brain synaptosomes prelabeled with [¹⁴C]arachidonate in their phospholipids were superfused with well oxygenated Krebs-Ringer-bicarbonate solution containing 0.2% BSA and subsequently depolarized by elevating the K⁺ concentration in the superfusion medium from 5 to 55 mM. The efflux of labeled arachidonate at steady state was 0.19% (n = 12) of total radioactivity per min. In the presence of 2.5 mM Ca²⁺, high K⁺ (55 mM) in the medium elicited an increase in arachidonate efflux which amounted to 121.4% (n = 6) of control. Both Ca²⁺ and BSA were required for the stimulated efflux of arachidonate during K⁺-depolarization. Under the same condition, K⁺-stimulation also evoked the release of [³H]norepinephrine which was preloaded into the synaptosomes prior to superfusion. EGTA abolished the stimulated release of both arachidonate and norepinephrine during K⁺-depolarization. These results, together with the loss of labeled arachidonic acid from phospholipids (Majewska and Sun, 1982), indicate that deacylation of membrane lipids is involved in synaptic functions.     

Variation in polar-group content in lipids of cowpea (Vigna unguiculata) Cell cultures as a mechanism of haloadaptation

Callus and cell suspension cultures of cowpea (Vigna unguiculata) were induced with 2,4-dichlorophenoxyacetic acid and grown at different NaCl concentrations. The cell biomass yield and its total lipid content decreased with increasing salinity. However, while the hexose content in lipids was higher, the amount of lipid phosphorus was significantly lower in both agar and cell suspension cultures. Ion-transport rates with artificial membranes prepared with different lipid fractions showed that lipids from cells grown in a saline medium were less permeable to Na⁺ and to Cl^- than those grown in a non-saline medium. Also the permeability of membranes prepared with glycolipids was lower than those prepared with phospholipids and whole lipids. Apparently, the increase of hexose/phosphorus ratio in membrane lipids is induced in response to the halo-adaptation process.     

Effect of Mechanical Stress on Cotton Growth and Development

Agricultural crops experience diverse mechanical stimuli, which may affect their growth and development. This study was conducted to investigate the effects of mechanical stresses caused by hanging labels from the flower petioles (HLFP) on plant shape and cotton yields in four cotton varieties: CCRI 41, DP 99B, CCRC 21, and BAI 1. HLFP significantly reduced plant height by between 7.8% and 36.5% in all four lines and also significantly reduced the number of fruiting positions per plant in the CCRI 41, DP 99B and CCRC 21 lines. However, the number of fruiting positions in BAI 1 was unaffected. HLFP also significantly reduced the boll weight for all four cultivars and the seed cotton yields for CCRI 41, DP 99B and BAI 1. Conversely, it significantly increased the seed cotton yield for CCRC 21 by 11.2%. HLFP treatment did not significantly affect the boll count in the fruiting branches of the 1^st and 2^nd layers in any variety, but did significantly reduce those on the 3^rd and 4^th fruiting branch layers for CCRI 41 and DP 99B. Similar trends were observed for the number of bolls per FP. In general, HLFP reduced plant height and boll weight. However, the lines responded differently to HLFP treatment in terms of their total numbers of fruiting positions, boll numbers, seed cotton yields, etc. Our results also suggested that HFLP responses might be delayed for some agronomy traits of some cotton genotypes, and that hanging labels from early-opening flowers might influence the properties related with those that opened later on.     

Reconstitution of acetylcholine receptor from Torpedo californica with highly purified phospholipids: Effect of α-tocopherol,phylloquinone, and other terpenoid quinones

Acetylcholine receptor from $\text{Torpedo californica}$ can be incorporated by the cholate dialysis procedure into liposomes prepared with crude soybean phospholipids (asolectin). Vesicles reconstituted with asolectin depleted of neutral lipids or with a mixture of pure phospholipids, are less active in catalyzing carbamylcholine-sensitive Na⁺ flux. Inclusion of α-tocopherol or certain quinones such as coenzyme Q₁₀ or vitamin K₁ during reconstitution yields vesicles with carbamylcholine-sensitive Na⁺ flux which, under optimal conditions, was considerably higher than that observed with vesicles reconstituted with crude phospholipid mixtures.     

Alteration in growth and some relevant metabolic processes of broad bean plants during extreme temperatures exposure

The effect of heat-shock (42 °C) or chilling-shock (5 °C) on growth and some relevant metabolic changes of broad bean (Vicia faba L.) were studied. Both heat and chilling-stress induced a reduction in growth rate, membrane stability and content of photosynthetic pigments (chlorophyll a, b and carotenoids). K⁺ efflux and UV absorbance increased at increasing or decreasing temperature. Considerable variations in the content of cell-wall components (pectin, cellulose, hemicellulose and lignin), cell-wall associated proteins, soluble sugars, starch, total lipids, glycolipids, phospholipids and sterols were induced by extreme temperure.     

Effect of potassium on growth and nitrate reductase during water stress and recovery in maize

Abstract The effect of potassium (0,50, 100 and 200 mg/pot) was studied on growth characteristics and nitrate reductase activity in maize (Zea mays) seedlings during water stress and subsequent recovery. In irrigated plants K⁺ increased the rate of leaf area expansion, leading to increased leaf area per plant. Increased leaf area was associated with decreased chlorophyll content. Water stress (–15 bars) enhanced the stomatal resistance of leaves which was further accentuated by K⁺ application. Nitrate reductase activity rose in irrigated plants 24 h after K⁺ application. Subsequently, as water stress developed, K⁺ helped to maintain higher NR activity for the first two days. However, K⁺ had no effect on half life of NR in light or darkness. During recovery from stress K⁺ aided to maintain the higher leaf expansion rate, the chlorophyll content and the stomatal resistance. The results above are discussed in relation to the ability of K⁺ to maintain better growth under water stress.     

Kaolin and Jasmonic acid improved cotton productivity under water stress conditions

Drought is one of the most emerging threat that causes a severe reduction in cotton plant growth and development. Being cotton is a major cash crop has great threat to prevailing drought events in Pakistan. A field experiment was conducted in Kharif season 2018 at Research Area of MNS-University of Agriculture, Multan, Pakistan to assess the role of foliar applied kaolin and jasmonic acid on vegetative growth, gas exchange and reproductive traits of cotton under normal irrigated and artificial water deficit conditions. The experiment was laid -out in a factorial randomized complete block design with split – split plot arrangement. Main plots were allocated for irrigation levels, sub-plots for two -cotton genotypes viz. NIAB − 878 and SLH − 19 while sub – sub plots for treatments of kaolin and Jasmonic acid. Water deficit stress was created by skipping irrigation at flowering for 21 days. Foliar sprays of Kaolin (5%, w/v) and Jasmonic acid (100 μM) were applied alone or in combination at 60 days after planntinon both to normal irrigated and water-stresse skip irrigation while irrigation water alone was sprayed in control plots. Both cotton genotypes responded variably to normal irrigated and skip conditions. Skipping irrigation for up to 21 days at flowering caused a significant decrease in leaf relative water content, SPAD values, net photosynthetic rate and seed cotton yield in both the genotypes. Seed cotton yield showed an overall decline of 24.7% in skip over Normal irrigated crop. The genotype NIAB − 878 produced maximum seed cotton yield of 3.304 Mg ha⁻¹ in normal that dropped to 2.579 Mg ha⁻¹ in skip, thus showing an average decline of 21.9 %. Similarly, SLH − 19 produced 2.537 Mg ha⁻¹ seed cotton under normal that dropped to 1.822 Mg ha⁻¹ in skip, showing an average decline of 28.2%. The Application of Kaolin and JA Jasmonic acid, either applied individually or in combination, improved vegetative and reproductive development of both cotton varieties in normal and skip regimes. However, combined kaolin and Jasmonic Acid application proved to be more beneficial in terms of seed cotton production and other parameters studied.