Localization of Glyoxylate Cycle Enzymes in Glyoxysomes in Euglena*

SYNOPSIS. We demonstrated previously microbodies in Euglena gracilis grown in the dark on 2-carbon substrates. We have now established in Euglena the particulate nature of enzymes known in other organisms to be localized in microbodies (glyoxysomes and leaf peroxisomes). On a linear sucrose gradient the glyoxylate cycle enzymes band together at a nigner equilibrium density (1.20 g/cm3) than mitochondrial marker enzymes (1.17 g/cm3), establishing the existence in Euglena of glyoxysomes similar to those of higher plants. Glyoxylate (hydroxypyruvate) reductase and, under certain conditions, also glycolate dehydrogenase co-band with the glyoxylate cycle enzymes, suggesting that Euglena glyoxysomes, like those of higher plants, may contain peroxisomal-type enzymes. Catalase, an enzyme characteristic of microbodies from a variety of sources, was not detected in Euglena.     

The Chloroplast Genome of Euglena mutabilis—Cluster Arrangement,Intron Analysis,and Intrageneric Trends

A comparative analysis of the chloroplast genome of Euglena mutabilis underlined a high diversity in the evolution of plastids in euglenids. Gene clusters in more derived Euglenales increased in complexity with only a few, but remarkable changes in the genus Euglena. Euglena mutabilis differed from other Euglena species in a mirror‐inverted arrangement of 12 from 15 identified clusters, making it very likely that the emergence at the base of the genus Euglena, which has been considered a long branch artifact, is truly a probable position. This was corroborated by many similarities in gene arrangement and orientation with Strombomonas and Monomorphina, rendering the genome organization of E. mutabilis in certain clusters as plesiomorphic feature. By RNA analysis exact exon–intron boundaries and the type of the 77 introns identified were mostly determined unambiguously. A detailed intron study of psbC pointed at two important issues: First, the number of introns varied even between species, and no trend from few to many introns could be observed. Second, mat1 was localized in Eutreptiales exclusively in intron 1, and mat2 was not identified. With the emergence of Euglenaceae in most species, a new intron containing mat2 inserted in front of the previous intron 1 and thereby became intron 2 with mat1.     

Conversion and Distribution of Cobalamin in Euglena gracilis z, with Special Reference to Its Location and Probable Function within Chloroplasts

Cobalamin is essentially required for growth by Euglena gracilis and shown to be converted to coenzyme forms promptly after feeding cyanocobalamin. Concentrations of coenzymes, methylcobalamin, and 5′-deoxyadenosylcobalamin, reached about 1 femtomole/10⁶ cells 2 hours after feeding cyanocobalamin to cobalamin-limited cells. Cobalamins all were bound to proteins in Euglena cells and located in subcellular fractions of chloroplasts, mitochondria, microsomes, and cytosol. Incorporated cobalamin into chloroplasts was localized in thylakoids. Methylcobalamin existed in chloroplasts, mitochondria, and cytosol, while 5′-deoxyadenosylcobalamin was in mitochondria and the cytosol, 2 h after feeding cyanocobalamin to Euglena cells. Quantitative alterations of methylcobalamin and 5′-deoxyadenosylcobalamin in chloroplasts suggest their important functions as coenzymes in this organelle. The occurrence of functional cobalamins in chloroplasts has not been reported in other photosynthetic eukaryotes.     

Analisi ultrastrutturale degli effetti della monensina in Euglena gracilis,con particolare riguardo all'apparato di Golgi

Abstract

Ultrastructural analysis of the effects of monensin in Euglena gracilis, with special reference to the Golgi apparatus. - The monovalent ionophore, monensin, is known to affect the mature (trans) half of the dictyosomes of several organisms, including Euglena gracilis. We demonstrated that the exposure to high concentrations of this compound (2.5 × 10^?5 to 10^?4M) provoked remarkable swelling also in the forming (cis) half of Euglena cisternae. Additional dilations affected the thylakoids of both mature chloroplasts and proplastids of greening cells in which the organelle development was slower than in the control group. No osmotic swelling was observed for the mitochondria. Since monnesin exchanges one proton for each monovalent cation (Na⁺ or K⁺) transported, it follows that an energy driven influx of H⁺ is necessary to accumulate sufficient osmotically active ions in a membrane compartment. Thus it is possible that H⁺-ATPases are present on both forming and mature half of Euglena dictyosomes.     

A gravity-induced regulation of swimming speed in Euglena gracilis

We investigated the autotrophic flagellate Euglena gracilis for gravity-induced modulation of the speed of swimming as previously documented for larger protozoan cells. Methods of video-tracking of swimming and sedimenting cells under 1 g and hypergravity up to 2 g, and computer-assisted data processing were applied. The vertical and horizontal swimming speed, and sedimentation rates of immobilized cells, were found to be linear functions of acceleration. Accounting for sedimentation in the observed upward and downward movements of Euglena, the active component of speed (propulsion) rose in proportion to acceleration. No saturation of gravikinesis was seen within the g-range tested. Gravity-dependent augmentation of speed was maximal in upward swimmers and decreased continuously over horizontal to downward swimmers. Linear extrapolations of the data to zero-g conditions suggest the absence of a threshold of gravikinesis in Euglena. Energetic considerations indicate a high sensitivity of gravitransduction near the level of Brownian molecular motion. Accepted: 22 August 1999     

Photosensory transduction in Euglena gracilis: Effect of some metabolic drugs on the photophobic response

We have investigated the effect of some metabolic drugs, 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU), 2,4-dinitrophenol (DNP), sodium azide (NaN₃), on the photobehavior of single cells of Euglena gracilis, in order to clarify the relevance of different metabolic pathways in the process of photoperception and sensory transduction in this alga. The results obtained show that the photophobic response of Euglena is not affected by the action of these drugs. This suggests that neither the photosynthetic process nor oxidative phosphorylation play a significant role in the phenomenon of photosensory transduction in Euglena.List of Abbreviations DNP 2,4-dinitrophenol - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - PSI Photosystem I - PSII Photosystem II     

Beta-Oxidation in Glyoxysomes from Euglena*

SYNOPSIS. We demonstrated previously the presence of glyoxysomes containing the glyoxylate cycle enzymes in Euglena gracilis grown in the dark on ethanol. We have now established that the glyoxysomes of Euglena grown on hexanoate also contain the following enzymes of the pathway for β-oxidation of fatty acids: hexanoyl-CoA synthetase, 3-β-hydroxyacyl-CoA dehydrogenase and thiolase. Estimations of specific activities indicate that these enzymes are over 20 times as active in glyoxysomes as they are in mitochondria, suggesting that the β-oxidation of fatty acids occurs almost entirely in Euglena glyoxysomes under these conditions. Thus, the entire portion of the gluconeogenic pathway from fatty acid to succinate is localized in the glyoxysome of Euglena.     

PHYLOGENETIC ANALYSIS OF THE GENUS EUGLENA (EUGLENOPHYCEAE) WITH PARTICULAR REFERENCE TO THE TYPE SPECIES EUGLENA VIRIDIS1

Euglena viridis (subgenus Euglena) serves as the type species for the genus Euglena. In this study, molecular phylogenetic analyses using a small subunit (SSU) and a combined SSU–partial large subunit rDNA data set for members of the genus Euglena showed that strains identified as E. viridis on the basis of morphology are distributed between two separate nonsister clades. Although all the E. viridis strains examined were morphologically indistinguishable and possessed spherical mucocysts and stellate chloroplasts with one paramylon center, there was a high degree of sequence divergence between the E. viridis strains in different clades, making this a cryptic species. Like E. viridis, all taxa from the subgenus Euglena are characterized by having one or more stellate chloroplasts with paramylon grains clustered around the center of the chloroplast. These additional taxa were divided into four clades in all the molecular analyses. Strains of Euglena stellata formed two nonsister clades whose members had a single aggregate chloroplast with paramylon center and spindle‐shaped mucocysts. A geniculata clade included species with one or two stellate chloroplasts with paramylon centers and spherical mucocysts, and the cantabrica clade had members with one stellate chloroplast with paramylon center and spherical mucocysts often arranged in spiral rows. Interspersed among these were three additional clades bearing taxa from the subgenus Calliglena that contains members with discoid plastids and pyrenoids that may or may not be capped with paramylon. These taxa formed a laciniata clade, mutabilis clade, and gracilis clade. This study demonstrates that E. viridis and E. stellata are cryptic species that can only be distinguished at the molecular level. Because E. viridis is the designated type species for the genus Euglena, we designated an epitype for E. viridis.     

PHYLOGENY AND SYSTEMATICS OF EUGLENA (EUGLENACEAE) SPECIES WITH AXIAL,STELLATE CHLOROPLASTS BASED ON MORPHOLOGICAL AND MOLECULAR DATA—NEW TAXA,EMENDED DIAGNOSES,AND EPITYPIFICATIONS1

Morphological and molecular studies, as well as original literature reexamination, necessitate establishment of five Euglena species with a single axial, stellate chloroplast [Euglena viridis (O. F. Müller) Ehrenberg 1830 , Euglena pseudoviridis  Chadefaud 1937 , Euglena stellata  Mainx 1926 , Euglena pseudostellata sp. nov., and Euglena cantabrica  Pringsheim 1956 ], three species with two chloroplasts (Euglena geniculata Dujardin ex Schmitz 1884 , Euglena chadefaudii  Bourrelly 1951 , and Euglena pseudochadefaudii sp. nov.), and one species with three chloroplasts (Euglena tristella  Chu 1946 ). The primary morphological features, allowing distinction of the considered species are the presence and the shape of mucocysts, as well as the number of chloroplasts. Spherical mucocysts occur in E. cantabrica and E. geniculata, while spindle‐shaped mucocysts are present in E. stellata, E. pseudostellata, E. chadefaudii, E. pseudochadefaudii, and E. tristella. No mucocysts are observed in E. viridis and E. pseudoviridis. Two new species (E. pseudochadefaudii sp. nov. and E. pseudostellata sp. nov.) differ from the respective species, E. chadefaudii and E. stellata, only at the molecular level. Molecular signatures and characteristic sequences are designated for nine distinguished species. Emended diagnoses for all and delimitation of epitypes for seven species (except E. viridis and E. tristella) are proposed.     

Genotype-Dependent Effect of Exogenous Nitric Oxide on Cd-induced Changes in Antioxidative Metabolism, Ultrastructure, and Photosynthetic Performance in Barley Seedlings (Hordeum vulgare)

A greenhouse hydroponic experiment was performed using Cd-sensitive (cv. Dong 17) and Cd-tolerant (Weisuobuzhi) barley seedlings to evaluate how different genotypes responded to cadmium (Cd) toxicity in the presence of sodium nitroprusside (SNP), a nitric oxide (NO) donor. Results showed that 5 μM Cd increased the accumulation of O₂^•−, H₂O₂, and malondialdehyde (MDA) but reduced plant height, chlorophyll content, net photosynthetic rate (P _n), and biomass, with a much more severe response in the Cd-sensitive genotype. Antioxidant enzyme activities increased significantly under Cd stress in the roots of the tolerant genotype, whereas in leaves of the sensitive genotype, superoxide dismutase (SOD) and ascorbate peroxide (APX), especially cytosol ascorbate peroxidase (cAPX), decreased after 5–15 days Cd exposure. Moreover, Cd induces NO synthesis by stimulating nitrate reductase and nitric oxide synthetase-like enzymes in roots/leaves. A Cd-induced NO transient increase in roots of the Cd-tolerant genotype might partly contribute to its Cd tolerance. Exogenous NO dramatically alleviated Cd toxicity, markedly diminished Cd-induced reactive oxygen species (ROS) and MDA accumulation, ameliorated Cd-induced damage to leaf/root ultrastructure, and increased chlorophyll content and P _n. External NO counteracted the pattern of alterations in certain antioxidant enzymes induced by Cd; for example, it significantly elevated the depressed SOD, APX, and catalase (CAT) activities in the Cd-sensitive genotype after 10- and 15-day treatments. Furthermore, NO significantly increased stromal APX and Mn-SOD activities in both genotypes and upregulated Cd-induced decrease in cAPX activity and gene expression of root/leaf cAPX and leaf CAT1 in the Cd-sensitive genotype. These data suggest that under Cd stress, NO, as a potent antioxidant, protects barley seedlings against oxidative damage by directly and indirectly scavenging ROS and helps to maintain stability and integrity of the subcellular structure.     

In vivo andin vitro methylation of lysine residues ofEuglena gracilis histone H1

We have earlier identified and purified two protein-lysine N-methyltransferases (Protein methylase III) fromEuglena gracilis [J. Biol. Chem.,260, 7114 (1985)]. The enzymes were highly specific toward histone H1 (lysine-rich), and the enzymatic products were identified as -N-mono-, di- and trimethyllysines. These earlier studies, however, were carried out with rat liver histone H1 as thein vitro substrate. Presently, histone H1 has been purified fromEuglena gracilis through Bio-Rex 70 and Bio-Gel P-100 column chromatography. TheEuglena histone H1 showed a single band on SDS-polyacrylamide gel electrophoresis and behaved like other histone H1 of higher animals, whereas it had a much higherR _f value than the other histones H1 in acid/urea gel electrophoresis. When theEuglena histone H1 was [methyl-³H]-labeledin vitro by a homologous enzyme (one of the twoEuglena protein methylase III) and analyzed on two-dimensional gel electrophoresis, three distinctive subtypes of histone H1 were shown to be radiolabeled, whereas five subtypes of rat liver histone H1 were found to be labeled. Finally, by the combined use of a strong cation exchange and reversed-phase Resolve C₁₈ columns on HPLC, we demonstrated thatEuglena histone H1 contains approximately 9 mol% of -N-methyllysines (1.40, 1.66, and 5.62 mol% for -N-mono-, di- and trimethyllysines, respectively). This is the first demonstration of the natural occurrence of -N-methyllysines in histone H1.     

The effect of rapamycin on biodiesel-producing protist Euglena gracilis

Rapamycin induces autophagy with lipid remodeling in yeast and mammalian cells. To investigate the lipid biosynthesis of Euglena gracilis, rapamycin was supplemented in comparison with two model algae, Chlamydomonas reinhardtii and Cyanidioschyzon merolae. In Euglena, rapamycin induced the reduction of chlorophylls and the accumulation of neutral lipids without deterring its cell proliferation. Its lipidomic profile revealed that the fatty acid composition did not alter by supplementing rapamycin. In Chlamydomonas, however, rapamycin induced serious growth inhibition as reported elsewhere. With a lower concentration of rapamycin, the alga accumulated neutral lipids without reducing chlorophylls. In Cyanidioschyzon, rapamycin did not increase neutral lipids but reduced its chlorophyll content. We also tested fatty acid elongase inhibitors such as pyroxasulfone or flufenacet in Euglena with no significant change in its neutral lipid contents. In summary, controlled supplementation of rapamycin can increase the yield of neutral lipids while the scheme is not always applicable for other algal species.     

The presequence of the precursor to the nucleus-encoded 30 kDa protein of photosystem II in Euglena gracilis Z includes two hydrophobic domains

A cDNA clone for the extrinsic 30 kDa protein (OEC30) of photosystem II in Euglena gracilis Z was isolated and characterized. The open reading frame of the cDNA encoded a polypeptide of 338 amino acids, which consisted of a long presequence of 93 amino acids and a mature polypeptide of 245 amino acids. Two hydrophobic domains were identified in the presequence, in contrast to the presence of a single hydrophobic domain in the presequence of the corresponding proteins from higher plants. At the N- and C-terminal regions, respectively, of the presequence, a signal-peptide-like sequence and a thylakoid-transfer domain were identified. The presence of a long and unique presequence in the precursor to OEC30 is probably related to the complexity of the intracellular processes required for the synthesis and/or transport of the protein in Euglena.Abbreviations ER endoplasmic reticulum - cDNA complementary DNA - SSU small subunit; Rubisco, ribulose 1,5-bisphosphate carboxylase/oxygenase - Rubico, ribulose 1,5 bisphosphate carboxylase/oxygenase - LHC II light-harvesting chlorophyll protein of photosystem II - PS II photosystem II - OEC30 the extrinsic 30 kDa protein of photosystem II in Euglena - PCR polymerase chain reaction - SDS sodium dodecyl sulfate - TE a solution containing 10 mM Tris-HCl and 1 mM EDTA pH 8.0 - SSPE a solution containing 0.15 M NaCl, 10 mM NaH₂PO₄ and 1 mM EDTA pH 7.4 - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - PVDF poly(vinylidene difluoride)     

Zur Kenntnis einiger Arten vonEuglena

Zusammenfassung Beim Studium einer größeren Zahl ökologisch verschiedener Arten vonEuglena in Reinkultur ergab sich folgendes: morphologisch, brauchten die früheren Angaben nur ergänzt zu werden, wobei die reversible Modifizierbarkeit noch besser gegen die erbliche Variabilität abgegrenzt wurde.Die einzige, bisher eingehend physiologisch untersuchte ArtEuglena gracilis ist ein durch weite Anpassungsfähigkeit in der Ernährung ausgezeichneter extremer Fall. Doch machen auch Stämme vonEuglena deses undEuglena viridis guten Gebrauch von organischen Nährstoffen, währendEuglena acus undEuglena sanguinea ganz phototroph sind.Euglena pisciformis ist gleichfalls phototroph, gedeiht aber auch in verschmutztem Wasser, was beiEuglena sanguinea nur in geringem Maße der Fall ist.FürEuglena deses var.Mesnili wurden in der Literatur verbreitete Mißverständnisse und Fehlschlüsse berichtigt.Allen Arten gemeinsam ist der Bedarf an Vitamin B₁₂ und die Bevorzugung von Ammonstickstoff, während die Verwertung von Nitrat nur selten vorkommt.Wachstum im Dunkeln ist nur bei wenigen Arten erzielt worden. Sie ist mit dem Unterbleiben der Chlorophyllbildung verbunden.Die Ergebnisse entsprechen im großen und ganzen den Bedingungen an den Standorten der Arten.

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Summary By studying a number of ecologically differing species ofEuglena in axenic cultures the following results were obtained:With respect to morphology my earlier statements only needed supplementing. Reversible modificability gained a clearer separation from hereditary variability.The only species hitherto thoroughly investigated as to its physiology wasEuglena gracilis. It proved to be an extreme case of nutritional adaptability being able to live photoautotrophically as well as to utilize various organic nutrients and even to grow almost as luxuriantly in the dark as in the light.Strains ofEuglena deses andEuglena viridis may also make good use of organic nutrients, though not producing without photosynthesis populations as dense as those ofEuglena gracilis. Euglena acus andEuglena sanguinea are quite predominantly phototrophic, and so isEuglena pisciformis which, however, penetrates into polluted water, a faculty not so well developed inEuglena sanguinea. Euglena deses var.Mesnili had been the object of widespread misunderstanding and wrong conclusions which were corrected in detail.All species have in common a requirement of vitamin B₁₂ and the preference of Ammon-N, while utilization of Nitrate is a rare instance.Growth in the dark has been achieved only in a few species. It is always combined with the lack of chlorophyll formation.On the whole the results are conform to the conditions at the respective habitats.

     

Natural vitamin E enrichment of Artemia salina fed freshwater and marine microalgae

Three species of microalga, the freshwater Euglena gracilis and the marine Dunaliella salina and Tetraselmis suecica, were compared in terms of vitamin E enrichment and survival and growth of the brine shrimp Artemia salina. The tocopherol content was investigated using HPLC for the post-larval and pre-adult stages of Artemia fed the microalgae and the results compared to the initial content of unfed newly hatched nauplii. There was a markedly higher content of tocopherols (about two-fold) in Artemia fed Euglena. Since this microalga contains other antioxidants such as -carotene, vitamin C and glutathione, bioactive molecules such as PUFA, and the immunostimulant polysaccharide -glucan, it represents a valuable alternative for enriching the diets of Artemia and increase its nutritional value as a food item.     

Salzwasser-Eugleninen

Zusammenfassung Es wird dargelegt, daß das Vorkommen von Eugleninen in Brackwasser keine seltene Erscheinung ist. Die Arten der Gattung Eutreptia sind alle an mehr oder weniger salzhaltiges Wasser gebunden. Von Euglena leben Varietäten bekannter Arten in Brackwasser, die meisten aber in Süßwasser.Eine Art von Eutreptia (E. pertyi) und fünf Varietäten von Euglena viridis, Euglena proxima und Euglena deses werden als neu beschrieben.Die beiden untersuchten Arten von Eutreptia haben einen Paramylonherd, von dem, wie bei Euglena viridis, Chloroplastenbänder ausstrahlen, welche aber leicht in kleinere Elemente zerfallen. Otto Renner zum 70. Geburtstag gewidmet.     

Cytological Characterization of a Giant Strain of Euglena gracilis Obtained from Dark-starved Cultures

Euglena gracilis green cells were dark-starved for four months. After this period almost the entire population died, while a few giant, viable cells appeared in the culture. The giantism was maintained after repeated subcultures in growth medium in light or dark conditions. However, the phenomenon was not permanent, and the morphological characteristics of the wild-type Euglena were gradually restored. In giant cells nuclei enlarged greatly, DNA content increased and the Golgi apparatus greatly proliferated. Chloroplasts and mitochondria increased in number and size and often presented structural modifications when compared with normal Euglena. Importantly, in the giant cells that were maintained in darkness in resting or growth conditions chloroplasts persisted as structured organelles which appeared red-fluorescent under UV illumination. Whether giantism is a phenotypic or a genotypic change is still debated. In our case, the evolution of this phenomenon, chiefly the enhanced DNA content, suggests that teratism is a multiploid mutation with the possibility of a return to the normoploid condition. Constitutive chloroplasts are present in most algae, except for a few species, among which is Euglena gracilis. The persistence of differentiated plastids in darkness in giant Euglena is considered to be a return to an ancestral condition and may, therefore, be phylogenetically important.     

Effects of Photosynthetic Intermediates on the Activation State of Ribulose 1,5-Bisphosphate Carboxylase/Oxygenase from Euglena gracilis Z

The half-saturating concentration of ribulose 1,5-bisphosphate carboxylase/oxygenase (RuBisCO) from Euglena gracilis Z for CO₂ in its activation by CO₂ in the presence of a saturating concentration of MgCl₂ (KJ was measured by analyzing the partial reversible inactivation of the fully activated enzyme in the medium with dilute CO₂. The K_d of the Euglena enzyme was 12.5 μm. The K,_d values were 6.3/im for the enzyme from soybean, 10.8 fiM from maize, 23.3 jiM from Scenedesmus obliquus, and 20.8 μm from Anabaena 7120. The activated state of Euglena RuBisCO was stabilized by 6-phosphogluconate, fructose 1,6-bisphosphate, and 3-phosphoglycerate in the medium containing low concentrations of CO₂. Both fructose 6-phosphate and ATP stimulated inactivation in the medium. NADPH not only stabilized the activated state of the enzyme, but also enhanced the enzyme activity over the full activity measured in the absence of NADPH. NADP⁺ did not nullify the effects of NADPH on the activation at all. The physiological significance of the effects of these photosynthetic metabolites on the activated state of Euglena RuBisCO is discussed.     

Pigments associated with the flagellum ofEuglena gracilis

The pigments associated with the flagellum of the phytoflagellateEuglena gracllis were characterized by HPLC. The pigment pattern of the wild-type strain was compared with a set of white mutants which did not display phototaxis and photoaccumulation in response to blue light. Flagella of the wild type contained FMN and FAD. Two mutants which lacked the stigma but retained a small paraxonemal body (PAB) contained less flavins. The whiteEuglena mutant FB, which retained a residual stigma and also a PAB, and the white phytoflagellateAstasia longa, a close relative ofEuglena, had normal amounts of flagellar flavins. Cells and flagella ofEuglena wild type contained an unldentified pterin-like pigment, called Pt₁₆, which was substantially reduced inAstasia and theEuglena mutants. A third pigment, designated P₅₂₈ with major absorption at 528 nm and fluorescence emission at 550 nm was present mainly in flagella. The association of the three pigment types with flagella and their respective alterations in the white strains indicates their possible role in photoreception. Dedicated to Pill-Soon Song on the occasion of his 60th birthday.     

Heteroxanthin in Euglena gracilis

Summary 1. From a large scale preparation of Euglena gracilis, strain Z, besides the acetylenic pigments diatoxanthin and diadinoxanthin and the allene neoxanthin, an additional acetylenic xanthophyll has been isolated. 2. Mass and IR spectra and chemical reactions showed typical patterns of heteroxanthin from Vaucheria. 3. The pigment was transformed into diadinochrome-isomers with acidified acetone. 4. A partial synthesis of heteroxanthin from diadinoxanthin by LiAlH₄-reduction is described, confirming the structure proposed by Strain. 5. The identity of heteroxanthin with the trollein—like pigment described for Euglena is discussed.