FLIGHT ACTIVITY AND FATTY ACID UTILIZATION IN MYTHIMNA SEPARATA (WALKER) MOTHS*

Abstract The fatty acid (FA) compositions for total lipids from fat body, hemolymph and flight muscle of the armyworm moths, Mythirnna separata, at rest and after tethered flight for 1 h were determined by GC and GC-MS. The composition in these tissues comprises myristic acid (1%-2%), palmitic acid (more than 35%1, palmitoleic acid (9%-11%), stearic acid (less than 1%), oleic acid (about 32%), linoleic acid (12%-17%) and linolenic acid (3%-6%). After flight, FA level in the fat body, compared to that at rest, shows a significant decline at about 20 μg/mg tissue.h^-1; the concentration of FAs in hemolymph rises evidently, but change of FA content in flight muscle appears to be small. From the changes of proportional composition of FAs in fat body, hemolymph and flight muscle, it is found that the FAs selectively utilized for flight in flight muscle are predominantly the palmitic acid and oleic acid.     

Lipid Metabolism of Rumen Ciliates and Bacteria: II. Uptake of Fatty Acids and Lipid Analysis of Isotrichia intestinalis and Rumen Bacteria with Further Information on Entodinium simplex

The total lipid and free fatty acid contents of Isotricha intestinalis, Entodinium simplex, and the rumen bacterial flora of the respective protozoa were determined. Warburg manometric data showed that the sodium salts of tributyrin, oleic, and acetic acids stimulated gas production in I. intestinalis, whereas tributyrin was stimulatory with E. simplex and less active with oleic and acetic acids. Rumen bacteria provided fatty acids produced lower manometric gaseous increases when compared with the protozoa. Volatile fatty acids were produced by I. intestinalis and rumen bacteria with tributyrin, but not with tripalmitin. Sodium oleate gave little volatile fatty acid response with I. intestinalis or rumen bacteria. Washed suspensions of I. intestinalis and rumen bacteria concentrated C¹⁴-labeled oleic, palmitic, stearic, and linoleic acids within the cells during short incubation periods. Autoradiographs demonstrated the conversion of C¹⁴-labeled oleic, palmitic, stearic, linoleic, and acetic acids in the rumen protozoa and bacterial cells.     

Interaction of rat liver microsomes containing saturated or unsaturated fatty acids with fatty acid binding protein: Peroxidation effect

In the studies described here rat liver microsomes containing labeled palmitic, stearic, oleic or linoleic acids were incubated with fatty acid binding protein (FABP) and the rate of removal of¹⁴C-labeled fatty acids from the membrane by the soluble protein was measured using a model system. More unsaturated than saturated fatty acids were removed from native liver microsomes incubated with similar amounts of FABP. Thein vitro peroxidation of microsomal membranes mediated by ascorbate-Fe⁺⁺, modified its fatty acid composition with a considerable decrease of the peroxidizability index. These changes in the microsomes facilitated the removal of oleic and linoeic acids by FABP, but the removal of palmitic and stearic acids was not modified. This effect is proposed to result from a perturbation of membrane structure following peroxidation with release of free fatty acids from susceptible domains.Abbreviations BSA bovine serum albumin - FABP fatty acid binding protein     

CONVERSION OF [1-14C]PALMITIC ACID TO [1-14C]HEXADECANOL BY DEVELOPING RAT BRAIN CELL-FREE PREPARATIONS

—The conversion of [l-¹⁴C]palmitic acid to [1-¹⁴C]hexadecanol has been demonstrated with a cell-free system from developing rat brain. ATP, Coenzyme A and Mg²⁺ were required for the activity. Fatty aldehyde was found to be an intermediate in this reaction. The conversion of fatty acid to fatty alcohol was mainly localized in the microsomal fraction and the formation of hexadecanol showed absolute specificity towards NADPH while fatty aldehyde was formed even in the absence of exogenous reduced pyridine nucleotides. The brain microsomes showed maximal activity with stearic acid and the activities with palmitic and oleic acids were 65% and 38% respectively of that with stearic acid. This enzymic reduction increased with age and showed a maximum in the 15-day old rat brain.     

Selective retention of n-3 and n-6 fatty acids in human milk lipids in the face of increasing proportions of medium chain-length (C10-14) fatty acids

This paper reports the results of our analysis of the impact high levels of de novo fatty acids have on the proportions of essential and non-essential fatty acids in human milk lipids. The data for seven fatty acids (linoleic, alpha-linolenic, arachidonic (AA), docosahexaenoic (DHA), palmitic, stearic and oleic) were derived from several studies conducted in Nigeria. The proportion by weight of each of these fatty acids was plotted versus the proportion of C10-14 fatty acids. As the proportion of C10-14 fatty acids increased from 15 to 65%, there was not a proportional decrease in the percentages of all seven fatty acids, but, instead, preferential incorporation of the essential fatty acids, AA and DHA into the triacylglycerol component of the milk. At the same time, the proportions of stearic and oleic acid declined by 69% and 86%, respectively. However, the proportions of linoleic acid, palmitic acid, DHA, AA and alpha-linolenic acid, in milk lipids decreased by only 44%, 40%, 39%, 28% and 2.3%, respectively. These observations indicate that as the contribution of C10-14 fatty acids increases, essential fatty acids are preferentially incorporated into milk triacylglycerols at the expense of oleic acid and stearic acid.     

Metabolic pathways for diacylglycerol biosynthesis and release in the midgut of larval Manduca sexta

The pathway for the synthesis of diacylglycerol in larval Manduca sexta midgut was studied. Fifth instar larvae were fed with [9,10–³H]–oleic acid–labeled triolein and the incorporation of the label into lipid intermediates was analyzed as a function of time. The results showed that the triacylglycerol was hydrolyzed to fatty acids and glycerol in the midgut lumen. In midgut tissue, the labeled fatty acids were rapidly incorporated into phosphatidic acid, diacylglycerol and triacylglycerol, but no significant labeling of monoacylglycerol was observed. Dual-labeling experiments were performed in order to characterize the kinetics of diacylglycerol biosynthesis in the midgut, its incorporation into hemolymph lipophorin and its clearance from hemolymph. The results were best described by a model in which the rate-limiting step in diacylglycerol biosynthesis was the uptake of fatty acid from the lumen of the midgut. Once in the cell the fatty acid was rapidly incorporated in phosphatidic acid and diacylglycerol. Diacylglycerol was converted to triacylglycerol or exported into hemolymph. The interconversion of diacylglycerol and triacylglycerol was fairly rapid, suggesting that triacylglycerol serves as a reservoir from which diacylglycerol can be produced. This mechanism permits the cell to maintain a low steady-state concentration of diacylglycerol and yet efficiently absorb fatty acids from the lumen of the midgut.     

Biochemistry of development in insects. Incorporation of fatty acids into different lipid classes.

1. To study the different metabolic behaviour of various stages of development of the insect Ceratitis capitata, the incorporation of labelled decanoic, lauric, myristic, palmitic, stearic, oleic, and linoleic acids into triacylglycerols by insect homogenates was investigated. The time-course of incorporation of labelled fatty acids was firstly studied by using oleic acid; it showed that after 10 min of incubation the levels of radioactivity incorporated into triacylglycerols and those remaining in the free fatty acids were practically unchanged. 2. All labelled fatty acids were efficiently incorporated by larval homogenates; however, most of the radioactivity remained as free fatty acids in the presence of pharate adult homogenates, palmitic, and stearic acids being the most scarcely incorporated by this stage of development of the insect. 3. Plots of triacylglycerol and free fatty acid radioactivites versus the stage of development defined a crossing-zone in coincidence with the larval-pupal apolysis. This metabolic difference between larval and pharate adult homogenates could not be explained through differences in the acyl-CoA synthetase activity of the insect; this enzyme activity was notably higher in pharate adult homogenates than in the larval homogenates whatever would be the nature of the fatty acid. 4. [14C]Triolein was scarcely hydrolyzed by both larval and pharate adult homogenates. 5. Double-label experiments were carried out by incorporating either [3H]oleic acid or [3H]-palmitic acid and [14C]glycerol 3-phosphate by larval and pharate adult homogenates at different incubation intervals. Diacylglycerols, triacylglycerols, and phosphoglycerides were isolated and the 14C/3H molar ratio calculated. Results suggest the existence of a different acyltransferase activity in the different stages of development of the insect.     

Lipid Metabolism of Rumen Ciliates and Bacteria: I. Uptake of Fatty Acids by Isotricha prostoma and Entodinium simplex

Washed suspensions of the ruminal ciliates, Isotricha prostoma and Entodinium simplex, concentrated C¹⁴-labeled oleic, palmitic, stearic, and linoleic acids within the cells during short incubation periods. Radioautographs demonstrated that oleic acid-1-C¹⁴ was hydrogenated to stearic acid by I. prostoma, and Warburg manometric data showed that the sodium salts of oleic, valeric, caproic, and acetic acids, and methyl myristate, methyl laurate, and the triglyceride tributyrin stimulated fermentation of I. prostoma. The total lipid and free fatty acid contents of I. prostoma were determined.     

In vitro synthesis of mycolic acids by the fluffy layer fraction of Bacterionema matruchotii

Biosynthetic activity for mycolic acid occurred in the fluffy layer fraction but not in the 5000g supernatant of Bacterionema matruchotii. With [1-¹⁴C]palmitic acid as precursor for the in vitro system, the predominant product was identified as C_32:0 mycolic acid by radio-gas-liquid chromatographie (radio-GLC) and gas chromatographic/mass spectroscopic analyses; if [1-¹⁴C]stearic acid was used, two major radioactive peaks appeared on GLC: one corresponding to the peak of (C_34:0 + C_34:1) mycolic acids and the other to (C_36:0 + C_36:1) mycolic acids. By pyrolysis/radio-GLC analysis, C_32:0 mycolic acid synthesized by [1-¹⁴C]palmitic acid was pyrolyzed at 300 °C to form palmitaldehyde (the mero moiety) and methyl palmitate (the branch moiety). The pH optimum for the incorporation of [1-¹⁴C]palmitate into bacterionema mycolic acids was 6.4 and the reaction required a divalent cation. The in vitro system utilized myristic, palmitic, stearic and oleic acids (probably via their activated forms) well as precursors, among which myristic and palmitic acids were more effective than the rest. Avidin showed no effect on the biosynthesis of mycolic acid from ¹⁴C-palmitate whereas cerulenin, a specific inhibitor of β-ketoacyl synthetase in de novo fatty acid synthesis, inhibited the reaction at a relatively higher concentration. Thin-layer chromatographic analysis of lipids extracted from the reacting mixture without alkaline hydrolysis showed that both exogenous [1-¹⁴] fatty acid and synthesized mycolic acids were bound to an unknown compound by an alkali-labile linkage and this association seemed to occur prior to the condensation of two molecules of fatty acid.     

Effect of fatty acids on the synthesis and secretion of apolipoprotein B by rat hepatocytes

The modulation of apolipoprotein B synthesis and secretion by fatty acids in rat hepatocytes was studied. Maximum apolipoprotein B production was obtained in the case of oleic acid followed by linoleic, stearic and palmitic/linolenic acid when compared to control which was not supplemented with any fatty acids. Oleic acid was found to exert a concentration dependent increase in the secretion of [³H] apolipoprotein B into the medium while that associated with the cell layer was not affected. Pulse chase experiments in the presence of oleic acid showed that it caused an increase in the secretion of apolipoprotein B into the medium.¹⁴C-acetate incorporation into cholesterol and cholesteryl ester associated with the cell layer and secreted very low density lipoproteins also showed an increase in the presence of oleic acid indicating an increase in cholesterogenesis. The effect of oleic acid on [³H] apolipoprotein B and very low density lipoproteins secretion appeared to be mediated through cholesterol as (i) ketoconazole, an inhibitor of cholesterol synthesis caused significant reduction in the stimulatory effect of oleic acid on apolipoprotein secretion and (ii) mevinolin, another inhibitor of cholesterol synthesis also reversed the stimulatory effect of oleic acid on apolipoprotein B secretion. These results indicated that oleic acid may influence apolipoprotein B synthesis and secretion in hepatocytes probably by affecting cholesterol/cholesteryl ester formation which may be a critical component in the secretion of apolipoprotein B as lipoproteins     

Fatty Acid synthesis in endosperm of young castor bean seedlings

Enzyme assays on organelles isolated from the endosperm of germinating castor bean (Ricinus communis) by sucrose density gradient centrifugation showed that fatty acid synthesis from [¹⁴C]malonyl-CoA was localized exclusively in the plastids. The optimum pH was 7.7 and the products was mainly free palmitic and oleic acids. Both NADH and NADPH were required as reductants for maximum activity. Acetyl-CoA, and acyl-carrier protein from Escherichia coli increased the rate of fatty acid synthesis, while low O₂ levels suppressed synthesis. In the absence of NADPH or at low O₂ concentration, stearic acid became a major product at the expense of oleic acid. Fatty acid synthesis activity was highest during the first 3 days of germination, preceding the maximum development of mitochondria and glyoxysomes. It is proposed that the plastids are the source of fatty acids incorporated into the membranes of developing organelles.     

Oviposition deterrents from the egg masses of the adzuki bean borer, Ostrinia scapulalis and Asian corn borer, O. furnacalis

Bioassays using gravid females of the adzuki bean borer, Ostrinia scapulalis (Walker), and the Asian corn borer, O. furnacalis (Guenée) (Lepidoptera: Crambidae), showed that the presence of an egg mass of a conspecific deters oviposition. Volatile chemicals emanating from the egg mass were responsible for the deterrence, and these deterrents could be extracted from the egg mass with hexane. When fractionated using a Sep‐Pak® Plus NH₂ cartridge, the deterrents were eluted with a 98 : 2 mixture of diethyl ether and acetic acid (polar lipid fraction). The polar lipid fraction contained free fatty acids with 14–20 carbons, and palmitic acid, palmitoleic acid, and oleic acid were predominant. A blend of all identified fatty acids, a blend of six major fatty acids (palmitic, palmitoleic, stearic, oleic, linoleic, and linolenic acids), a blend of the two Z‐9‐alkenoic acids (palmitoleic and oleic acids), palmitoleic acid alone, and oleic acid alone showed deterrence against O. scapulalis which was comparable to that provoked by the full egg extract. The dose‐dependency of the deterrent effects of palmitoleic acid and oleic acid was verified in O. scapulalis. The binary blend of palmitoleic acid and oleic acid was also confirmed to deter oviposition in O. furnacalis.     

Fatty acid biosynthesis in the integument tissue of Triatoma infestans

1. The biosynthesis of lipids and their distribution in several tissues were investigated by injection of 1-14C acetate in females and 5th instar nymphs of the hematophagous hemiptera T. infestans. 2. Biosynthesis of palmitic, palmitoleic, stearic, oleic and very long chain fatty acids up to 26 carbons and hydrocarbons, was shown. They were found in haemolymph, fat body, integument, epicuticle and oocytes with special distribution. 3. Epicuticular hydrocarbon labelling was shown to precede that of haemolymph hydrocarbons. 4. Radioactivity incorporation into each lipid class depends on the developmental stage and the time after injection. 5. "In vitro" incubation of integument tissue with 1-14C acetate demonstrated the biosynthesis of palmitic and stearic acids, a low desaturation to oleic and palmitoleic and an elongation to acids of up to 34 carbons. Hydrocarbons were also synthesized. 6. Haemolymph in the incubation medium has a positive effect on the release of newly-synthesized fatty acid and unsaponifiable material from the integument.     

Composition and synthesis of fatty acids in atherosclerotic aortas of the pigeon

The composition, synthesis, and esterification of fatty acids were studied in aortas of White Carneau and Show Racer pigeons after perfusion of the aortas with a medium containing acetate-1-(14)C. For both breeds of pigeons the principal change in aortic fatty acids, in response to an atherogenic diet, was a marked increase in the percentage of oleic acid in the cholesteryl ester fraction. In atherosclerotic aortas incorporation of acetate-1-(14)C into the phospholipid and glyceride fractions increased 2-fold, while a much greater increase (up to 10-fold) was seen in incorporation into cholesteryl esters. In those birds receiving the atherogenic diet, palmitic acid accounted for approximately 50% of the fatty acid radioactivity, compared with approximately 25% from control aortas. Calculation of fatty acid synthesis showed the major newly synthesized fatty acids to be stearic acid in the phospholipid fraction; stearic, palmitic, and oleic acids in the glycerides; and oleic acid in the cholesteryl esters. The pattern of fatty acid synthesis was closely similar to the actual fatty acid composition of the aorta. In atherosclerotic aortas an increased synthesis of all fatty acids was seen, but the greatest increase was seen in the synthesis of oleic acid and its esterification to cholesterol.     

Batch growth of Saccharomycopsis lipolytica on animal fats

Summary Solid animal fats aggregated when first added to aqueous media and strong agitation was necessary to accomplish and maintain their dispersion. The growth rate of Saccharomycopsis lipolytica accelerated as fat dispersion proceeded until similar rates of exponential growth were attained with either lard, mutton tallow or beef tallow as sole carbon source. The major fatty acids in all substances were oleic, palmitic, and stearic. A major proportion of both saturated acids were consumed during the yeast's growth on animal fats, but the growth rates were greatly reduced after exhaustion of the preferentially consumed unsaturated acid. At this time, substantial amounts of saturated acids, present both as free fatty acid and in glycerides, remained. The amounts of these residual acids were markedly affected by the distribution of acyl groups within the original triglycerides. With individual fatty acids as the sole carbon source, the yeast grew at comparable rates on palmitic and oleic acids but did not grow on stearic acid.     

Changes in fatty acid composition of phospholipids and triacylglycerols after cold-acclimation of an aestivating insect prepupa

Prepupae of the Mediterranean arctiid moth Cymbalophora pudica spend hot spring and summer months in a summer diapause (aestivation). Although their cold-hardiness (survival after 1-day exposure to subzero temperatures) is relatively low, it may be moderately enhanced by prior cold acclimation at decreasing above-zero temperatures. In this study, fatty acids of phospholipids and triacylglycerols were analysed in five different tissues (body wall, midgut, fat body, silk glands and brain) dissected from both cold-acclimated and control aestivating prepupae. The five most abundant fatty acids (oleic, palmitic, stearic, linoleic and α-linolenic), found generally in both lipidic fractions and all five tissues, represent a typical fatty complement of Lepidoptera. The fatty acid profiles of individual tissues differed from each other and the response to cold acclimation was also tissue-specific. Moderate but significant increases in the proportion of unsaturated fatty acids after cold acclimation were observed in triacylglycerols of the body wall, fat body and silk glands. Additionally, significant rearrangements of fatty acid profiles were found in triacylglycerols of midgut and brain, without changing the unsaturation/saturation ratio. The adaptational value of enhanced fluidity of fat body triacylglycerols caused by their increased unsaturation remains unclear, because the lipidic energy depots are not utilized during aestivation of this insect. Minimal capacity to alter the membrane-bound fatty acids was found in all tissues except midgut, where the unsaturation/saturation ratio of phospholipids slightly increased after cold acclimation. A low ability to alter the composition of membrane lipids in response to low temperature, correlates well with the low capacity of C. pudica prepupae to enhance their cold-hardiness during cold-acclimation. This may be regarded as indirect support for the membrane lipid restructuring in insect cold adaptation. Accepted: 11 May 1998     

Changes in the lipid and fatty acid composition of hemolymph and ovaries during the reproductive cycle of Labidura riparia

Lipid metabolism was investigated during the reproductive cycle of Labidura riparia (Pallas). The lipid classes and their constitutive fatty acids present in hemolymph and ovaries were measured using thin‐layer chromatography and gas‐liquid chromatography. In the hemolymph, total lipids increase steadily from the previtellogenic period to vitellogenic arrest. These lipids are predominantly diacylglycerols and phospholipids. In the ovaries, total lipids increase during vitellogenesis then decrease during the vitellogenesis arrest period. The major lipids are triacylglycerols, followed by phospholipids. In both hemolymph and ovaries, all lipid classes contained variable proportions of seven main fatty acids: the saturated fatty acids myristic acid (14:0), palmetic acid (16:0), and stearic acid (18:0); the monounsaturated fatty acids palmitoleic acid (16:1) and oleic acid (18:1); and the polyunsaturated fatty acids linoleic acid (18:2) and linolenic acid (18:3). Unsaturated fatty acids predominate throughout the reproductive cycle. The percentage compositions of total and triacylglycerol fatty acids do not change markedly during the reproductive cycle in hemolymph nor in ovaries, with 18:2, 18:1 and 16:0 fatty acids being the major components. However, for diacylglycerols and phospholipids, the proportions of fatty acids vary systematically. For phospholipids during the vitellogenesis period, 18:2 increases considerably whereas other fatty acids decrease; for diacylglycerols, these fatty acids vary in the reverse way.     

Action of Lipases of Staphylococcus aureus on Milk Fat

The activity of the lipase(s) of two strains of coagulase-positive Staphylococcus aureus was determined in milk fat incubated at 15, 22, and 30 C for 8 days. Total fat hydrolysis was measured by acid degree values (ADV). Neutral lipids were separated into component groups on a Florisil column. Free fatty acids were determined by temperature-programmed gas-liquid chromatography. The ADV were 25 to 50% greater at 22 than at 15 C and 4 to 7 times greater at 30 than at 22 C. The lipases liberated as much as 0.48 g of fatty acids per gram of fat during 8 days at 30 C. The enzyme showed a predilection for the palmitic acid-glycerol bond. Addition of fatty acids C₁₄ to C₁₈ inclusive to inoculated sterile skim milk caused inhibition of S. aureus as follows: (i) complete at 0.05 and 0.10% concentration of C₁₀ and (ii) partial at 0.05 and complete at 0.10% concentration of C₈. The samples showing inhibition were negative for peptonization, coagulase, and change in pH. Addition of oleic and stearic acid to sterile skim milk inoculated with S. aureus resulted in an increase in nonprotein nitrogen, and the C₄ to C₁₂ acids caused a decrease in protease activity.     

Absorption of dietary triacylglycerol by lipolysis and lipid resynthesis in the mesenteron of larvalAeshna cyanea (insecta,odonata)

Summary Voluntary uptake of triolein, margarine, and lipid-rich natural food (Tubifex) by fasting dragonfly larvae (Aeshna cyanea) led to heavy accumulations of lipid absorption droplets in the enterocytes within 2 days, while subsequent lipid clearance of the midgut epithelium took several weeks depending on the ingested lipid load. No endocytotic lipid uptake was observed after application of a molecular-dispersed fat dye. The smallest lipid droplets first appeared in the subapical groundplasm of the enterocytes and showed a reversible increase in size on their way towards the base. Lipid droplets were also observed at appropriate intervals after oral administration of oleic acid, after feeding margarine in the cold, and after injection of triolein into the isolated midgut.Comparative biochemical analysis after triolein feeding evidenced release of lipase and hydrolytic liberation of FA from TG in the midgut lumen, as well as time-dependent accumulations of TG in the midgut epithelium and of DG in the hemolymph.Oral injection of [¹⁴C] oleic acid was followed by its rapid absorption into the midgut epithelium, where it was utilized for the synthesis of MG and esterification to DG and TG. Discharge of radioactive lipid into the hemolymph occurred in the form of FA and DG, while the rectal fat body showed approximately equal labeling of the FA, DG, and TG fractions.Abbreviations AG acylglycerol - DG diacylglycerol - ER endoplasmic reticulum - FA fatty acid - MG monoacylglycerol - TG triacylglycerol Dedicated to Prof. Dr. Dr. R.Lehmensick, Bonn, in honor of his 85^th birthday.     

Direct evidence for the involvement of epoxide intermediates in the biosynthesis of the C18 family of cutin acids

Cutin, the structural component of plant cuticle, is a polymer of C₁₆ and C₁₈ hydroxy fatty acids. Previous results have suggested that oleic acid undergoes ω-hydroxylation, epoxidation of the double bond, and, finally, hydration of the epoxide to give rise to the three major components of the C₁₈ family of cutin acids. 18-Hydroxy [18-³H]oleic acid and 18-hydroxy-9,10-epoxy[18-³H]stfaric acid have been synthesized and, with these synthetic substrates, the conversion of 18-hydroxyoleic acid to 18-hydroxy-9,10-epoxystearic acid and the hydrolysis of 18-hydroxy-9,10-epoxystearic acid to 9,10,18-trihydroxystearic acid were directly demonstrated in apple fruit skin and in the leaves of apple and Senecio odoris. Trichloropropene oxide, an inhibitor of microsomal epoxide hydrases of animals, specifically inhibited the conversion of [1-¹⁴C]oleic acid into 18-hydroxy-9,10-epoxystearic acid and 9,10,18-trihydroxystearic acid, while it had no effect on the conversion of [1-¹⁴C]palmitic acid into hydroxylated palmitic acid, a process which does not involve epoxy acid intermediates. Therefore, it appears that this inhibitor affects epoxidation and or epoxide hydration steps involved in cutin biosynthesis.