The endosymbiotic unit ofClimacostomum virens andChlorella sp. I. Morphological and physiological studies on the algal partner and its localization in the host cell

Summary The ciliateClimacostomum virens forms an endosymbiotic association with coccoid chlorophycean algae which can be isolated and grown as sterile mass cultures with an inorganic medium. According to both morphological and physiological properties, the algae probably belong to the genusChlorella and have some features in common with symbiotic chlorellae isolated from the ciliatesParamecium bursaria andStentor polymorphus. These and other endosymbiotic chlorellae studied so far excrete maltose or glucose, but algae fromClimacostomum virens show a different excretion pattern by releasing glucose, fructose and xylose. Possible biosynthetic pathways are discussed. Algae inClimacostomum virens are either located individually in special perialgal vacuoles where they are probably protected against attack by host lytic enzymes or to a lesser extent in food vacuoles in different states of digestion. The endosymbiotic character of theClimacostomum virens-Chlorella sp.-association is discussed.Dedicated to Prof. H. A.von Stosch on the occasion of his 75th birthday.     

Cloning and characterization of endosymbiotic algae isolated fromParamecium bursaria

Summary The green parameciumParamecium bursaria has many endosymbiotic algae in its cytoplasm. Here, we cloned and characterized endosymbiotic algae fromP. bursaria and examined in detail the interaction between the cloned algae and algae-free paramecia. Homogenates ofP. bursaria were cultured on agar plates containing various kinds of media to establish clones of the endosymbiotic algae. Many algal colonies were obtained from poorly nutritious medium (CA medium) after one month in culture. Algae were picked up from these colonies and inoculations were repeated 9 times on agar plates containing CA medium. On enriched media including bacto-peptone, glucose, proteose-peptone and/or yeast extract, however, bacteria and mold grew rapidly and no algal colonies were formed. When the cloned algae were cultured in liquid CA medium, they grew faster than on agar plates and the numbers stayed constant at 1 × 10⁷ algae/ml after 7 days in culture. They revealed high infectivity to algae-free paramecia, and an incubation period of 24 h and at least 1 × 10³ algae/paramecium were required to achieve successful infection (80–90%). The growth and infection rate did not change through 74 repeated inoculations of algae in liquid CA medium. Optical microscopic observations revealed marked morphological similarity between endosymbiotic algae and free-livingChlorella, but the latter showed no infectivity to algae-free paramecia. The cloned endosymbiotic algae presented here will provide an excellent opportunity to examine the mechanism of symbiont-host interaction.     

Lipids of the marine bacterium Flexibacter polymorphus

This paper reports on the total fatty acid composition of a marine bacterium representative of the genus Flexibacter. Flexibacter polymorphus is unusual in containing a high proportion of the polunsaturated acid C20:53 whilst the level of branched fatty acids is low. These facts suggest that the membrane flexibility necessary for its gliding motility is a function of the polyunsaturated fatty acid composition. Biosynthetic precursors to the C20:5 acid are present which are characteristic of an oxygen-dependent pathway. The fatty acid composition of the structural lipids is influenced by changes in the culture medium. Na₂S inhibits production of the C20:5 acid at levels much lower than that at which it is known to inhibit growth. The intracellular granules observable in F. polymorphus do not contain elemental sulphur, in contrast to Beggiatoa sps., but instead probably contain lipids.     

Humid acid influence on the growth and copper tolerance of chlorella sp.

The authors describe and discuss experiments carried out withChlorella sp. in which the effect of humic acid on its growth was studied. Also the coupled effect of humic acid and tolerance to cupric ions was demonstrated. Some ecological implication are discussed.     

Comparative studies on photosynthetic enzymes of the symbiotic Chlorella from Paramecium bursaria and other symbiotic and non-symbiotic Chlorella strains

The activities of ribulose 1,5-bisphosphate carboxylase and of carbonic anhydrase were studied in cell-free extracts of two symbiotic Chlorella strains isolated from Paramecium bursaria and from Spongilla sp., and of two nonsymbiotic strains of Chlorella (Chlorella fusca and Chlorella vulgaris) cultivated at varied CO₂-concentrations. The symbiotic Chlorella of Paramecium bursaria differs distinctly from the other Chlorella strains by a higher activity of ribulose 1,5-bisphosphate carboxylase, which is independent of the actual CO₂-concentration, and by a lack of carbonic anhydrase activity. These properties are discussed with respect to their ecological significance.Abbreviations CA carbonic anhydrase - Pbi Paramecium bursaria isolate - RuBP ribulose 1,5-bisphosphate Dedicated to Prof. Dr. André Pirson on the occasion of his 70th birthday     

The role of endosymbiotic algae in photoaccumulation of green Paramecium bursaria

The endosymbiotic unit of Paramecium bursaria with Chlorella sp. photoaccumulates in white, blue-green, and red light (<700 nm), whereas alga-free Paramecia never do. The intensity of photoaccumulation depends on both the light fluence rate and the size of the symbiotic algal population. Photoaccumulation can be stopped completely with 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU), an inhibitor of photosynthetic electron transport. Hence the photosynthetic pigments of the algae act as receptors of the light stimulus for photomovement and a close connection must exist between photosynthesis of the algae and ciliary beating of the Paramecium.     

Utilization of lactose in non-respiring cells of the yeast Debaryomyces polymorphus

The facultative anaerobic yeast Debaryomyces polymorphus ferments glucose and galactose but does not utilize the disaccharide lactose under anaerobic conditions. The activity of the intracellulary located -galactosidase was not affected by anaerobiosis. Hence, the transport of lactose appears to be limiting for lactose utilization. The uptake of lactose (and of its metabolizable analogue, 4-nitrophenol--d-galactoptranoside) was mediated by an inducible transport system and it was strictly dependent on metabolic energy. Anaerobic conditions inhibited the transport of lactose completely as did the uncoupler carbonylcyanide-m-chlorophenyl-hydrazone, the electron transport chain inhibitors rotenone, antimycin A, potassium cyanide and the ATPase inhibitor diethylstilbestrol under aerobic conditions. Transport inhibited by antimycin A was resumed by adding ascorbate+tetramethyl-p-phenylenediamine. Glucose was taken up by a constitutive transport system, even in anaerobic cells it was still about five times faster than the uptake of lactose in respiring cells. Thus, monosaccharides can energize their uptake by glycolysis and represent, in contrast to lactose, fermentable, substrates in D. polymorphus.Abbreviations 4NPßgal 4-nitrophenol--d-galactopyranoside - TMPD tetramethyl-p-phenylenediamine Dedicated to Professor Augustin, Betz at the occassion of his 65th birthday.     

5-Aminolevulinic acid production by Chlorella sp. during heterotrophic cultivation in the dark

5-Aminolevulinic acid (ALA) was produced aerobically in the dark during growth on glucose by a newly isolated Chlorella sp. When levulinic acid (20 mM), a competitive inhibitor of ALA dehydratase, was added repeatedly to the medium, about 1.5 mM of ALA was produced extracellularly. Glutamate (30 mM) added with levulinic acid (20 mM, given repeatedly) enhanced ALA production up to 1.9 mM, indicating that ALA might be synthesized via the C-5 pathway.K. Sasaki was with the Hiroshima-Denki Institute of Technology, 6-20-1, Nakano, Akiku, Hiroshima, 739-03, Japan; and is now with the Department of Biotechnology. The University of New South Wales, Sydney, NSW, 2052, Australia; K. Watanabe, T. Tanaka and Y. Hotta are with the Cosmo Research Institute, 1134-2, Gongendo, Satte, Saitama, 340-01, Japan. S. Nagai is with the Department of Fermentation Technology, Faculty of Engineering, Hiroshima University, 4-1, Kagamiyama 1 chome, Higashi-Hiroshima, 724. Japan.     

Four novel yeasts from decaying organic matter: Blastobotrys robertii sp. nov., Candida cretensis sp. nov., Candida scorzettiae sp. nov. and Candida vadensis sp. nov

Four novel yeast species are described, two from decaying mushrooms, viz. Candida cretensis and Candida vadensis, and two from rotten wood, viz. Blastobotrys robertii and Candida scorzettiae. Accession numbers for the CBS and ARS Culture Collections, and GenBank accession numbers for the D1/D2 domains of the large subunit of ribosomal DNA are: B. robertii CBS 10106^T, NRRL Y-27775, DQ839395; C. cretensis CBS 9453^T, NRRL Y-27777, AY4998861 and DQ839393; C. scorzettiae CBS 10107^T, NRRL Y-27665, DQ839394; C. vadensis CBS 9454^T, NRRL Y-27778, AY498863 and DQ839396. The GenBank accession number for the ITS region of C. cretensis is AY498862 and that for C. vadensis is AY498864. C. cretensis was the only species of the four that displayed fermentative activity. All four type strains grew on n-hexadecane. C. scorzettiae is the only one of the new species that assimilates some phenolic compounds, viz. 3-hydroxy derivatives of benzoic, phenylacetic and cinnamic acids, but not the corresponding 4-hydroxy acids. This is indicative of an operative gentisate pathway.     

Die stoffwechselphysiologischen Benziehungen Zwischen Paramecium bursaria Ehrbg. und Chlorella spec. in der Paramecium bursaria-Symbiose

Zusammenfassung Der endosymbiontische Verband von Paramecium bursaria Ehrbg. mit Chlorella spec. (grünes Paramecium) wurde physiologisch und cytologisch untersucht. Ein Vergleich der Eigenschaften der Symbiosecinheit mit denen der getrennt kultivierten Symbiosepartner ergab die folgenden Merkmale und Unterschiede: 1. Der symbiontische Verband hat bis zu einer Beleuchtungsstärke von 6000 lux eine stärkere Photosyntheseleistung als die aus ihm isolierte und in Massenkultur in einem definierten Medium kultivierte Alge. Algenfreie P. bursaria zeigen nur eine minimale Fähigkeit zur CO₂-Fixierung. 2. Der Kompensationspunkt der Photosynthese liegt beim algenhaltigen Paramecium bei ca. 4000–5000 lux, derjenige der getrennt kultivierten Alge bei ca. 200–400 lux. 3. Die Symbioseeinheit hat im Dunkeln im Vergleich mit algenfreien P. bursaria einen niedrigeren, im Vergleich mit der frei kultivierten Alge jedoch einen höheren Sauerstoffbedarf. 4. Das grüne Paramecium nimmt weniger Kohlenhydrate aus dem Medium auf als algenfreie Paramecien, hat aber eine höhere Aufnahmeleistung als die isoliert gezogenen Algen. 5. Im Symbioseverband besitzt die symbiontische Alge im Licht eine kompakte Lagerung der photosynthetischen Membranen und eine massive Stärkeablagerung. Die Vergiftung der Photosynthese durch 3-(3,4-Dichlorphenyl)-1,1-dimethylharnstoff (DCMU) oder die Kultur im Dunkeln führt in algenhaltigen Paramecien zu einer aufgelockerten Lagerung der Thylakoide und einer Verringerung der Stärkeablagerung. Die Algen-population unterliegt im symbiontischen Verband einem komplexen Regulationsmechanismus, bei dem u. a. der intracelluläre Kohlenhydratspiegel eine Rolle spielt. Die geschilderten Ergebnisse werden im Zusammenhang mit der Ökologie des grünen P. bursaria diskutiert.

---

The metabolic interactions between Paramecium bursaria Ehrbg. and Chlorella spec. in the Paramecium bursaria-symbiosisII. Symbiosis-specific properties of the physiology and the cytology of the symbiotic unit and their regulation

The endosymbiotic association of Paramecium bursaria Ehrbg. with Chlorella spec. (green Paramechim) was studied both physiologically and cytologically. Comparison of the properties of the symbiotic unit with those of the symbiotic partiners which bad been isolated from it revealed the following features and differences: 1. Up to 6000 lux the photosynthetic capacity of the symbiotic unit is higher than that of the isolated symbiotic algae grown independently in mass culture under defined conditions. Alga-free. Paramecium bursaria (colourless Paramecium) show a very low rate of CO₂-fixation. 2. The green Paramecium has a higher compensationpoint of photosynthesis (4000–5000 lux) than the isolated alga (200–400 lux). 3. Green paramecia consume less oxygen in darkness than colourless organisms but more than the isolated algae. 4. The uptake of carbohydrates from the culture medium by green paramecia is lower than the uptake by alga-free P. bursaria but higher than the one of the isolated algae. 5. Symbiotic algae within the intact symbiotic unit show tightly packed photosynthetic membranes and an intense deposition of starch. In the presence of 3-(3,4-Dichlorophenyl)-1,1-dimethylurea (DCMU) or in darkness the arrangement of thylakoids is less compact and the deposition of starch is reduced. The growth and the number of the symbiotic algae in situ is regulated by a complex mechanism to which the intracellular level of carbohydrates belongs. The results are discussed in connection with ecological aspects of the Paramecium bursaria-endosymbiosis.

     

Candida alocasiicola sp. nov., Candida hainanensis sp. nov., Candida heveicola sp. nov. and Candida musiphila sp. nov., novel anamorphic, ascomycetous yeast species isolated from plants

In a taxonomic study on the ascomycetous yeasts isolated from plant materials collected in tropical forests in Yunnan and Hainan Provinces, southern China, four strains isolated from tree sap (YJ2E(T)) and flowers (YF9E(T), YWZH3C(T) and YYF2A(T)) were revealed to represent four undescribed yeast species. Molecular phylogenetic analysis based on the large subunit (26S) rRNA gene D1/D2 domain sequences showed that strain YJ2E(T) was located in a clade together with Candida haemulonii and C. pseudohaemulonii. Strain YF9E(T) was most closely related to C. azyma and strain YWZH3C(T) to C. sorbophila and C. spandovensis. Strain YYF2A(T) was clustered in a clade containing small-spored Metschnikowia species and related anamorphic Candida species. The new strains differed from their closely related described species by more than 10% mismatches in the D1/D2 domain. No sexual states were observed for the four strains on various sporulation media. The new species are therefore assigned to the genus Candida and described as Candida alocasiicola sp. nov. (type strain, YF9E(T) = AS 2.3484(T) = CBS 10702(T)), Candida hainanensis sp. nov. (type strain, YYF2A(T) = AS 2.3478(T) = CBS 10696(T)), Candida heveicola sp. nov. (type strain, YJ2E(T) = AS 2.3483(T) = CBS 10701(T)) and Candida musiphila sp. nov. (type strain, YWZH3C(T) = AS 2.3479(T) = CBS 10697(T)).     

The determination of physiological race of Fusarium oxysporum f. sp. lycopersici of tomato in Zhejiang, China

A group of differential tomato lines was used to identify the races of Fusarium oxysporum f. sp. lycopersici in Zhejiang, China. Marmande verte carries no resistant genes and Marporum carries gene I-1. Both lines Motelle and Mogeor have Gene I-1 and I-2. Tomato seedlings of eighteen days after sowing were inoculated with an isolate of Fusarium oxysporum f. sp. lycopersici, No. 98-2 and kept in a growth chamber. The seedlings were evaluated at fourteen days after inoculation. Results showed that Marmande verte and Marporum were severely infected by the pathogen and established as susceptible. Motelle and Mogeor were not infected and established as resistant. These results indicated that the isolate No. 98-2 represented the race 2 of Fusarium oxysporum f. sp. lycopersici and gene I-2 is necessary for obtaining resistance to this pathogen in the Zhejiang region.     

Die stoffwechselphysiologischen Beziehungen zwischen Paramecium bursaria Ehrbg. und Chlorella spec. in der Paramecium bursaria-Symbiose

Zusammenfassung Infektionsexperimente algenfreier Paramecium bursaria mit aus diesen isolierten und unter Stickstoffmangel-Bedingungen vorkultivierten Algen deuten darauf hin, daß die Versorgung der endosymbiontischen Algen mit stickstoffhaltigen Verbindungen durch ihren Wirt in einem zu gutem Wachstum und Vermehrung der Alge ausreichendem Maße möglich ist. Die Bedeutung dieser stoffwechselphysiologischen Beziehung für die Symbiosepartner wird diskutiert.Die Vergiftung der Photosynthese der endosymbiontischen Chlorella durch 3-(3,4-Dichlorphenyl)-1,1-dimethylharnstoff (DCMU) führt in grünen Paramecium bursaria durch Beeinflussung des Kohlenstoff-Stoffwechsels zu einer Entkoppelung des symbiontischen steady state-Systems und damit zur Auflösung der Symbiose. Eine ausreichende heterotrophe Ernährung der Alge durch das Paramecium ist in der Symbiose offenbar nicht möglich.Die Anwendung von 3-(3,4-Dichlorphenyl)-1,1-dimethylharnstoff (DCMU) kann als neue Methode zur Züchtung algenfreier Paramecium bursaria dienen.

---

The metabolic interactions between Paramecium bursaria Ehrbg. and Chlorella spec. in the Paramecium bursaria-symbiosisI. The nitrogen and the carbon metabolism

Symbiotic Chlorellae have been isolated from Paramecium bursaria Ehrbg. and cultivated under conditions of nitrogen deficiency. Reinfection of Chlorella-free Paramecium bursaria with these nitrogen-deficient algae resulted in a complete regeneration and multiplication of the algae within the host cells. The endosymbiotic algal cells of the Paramecium bursaria-symbiosis can be supplied by their host with nitrogen.The inhibition of photosynthesis by 3-(3,4-Dichlorophenyl)-1,1-dimethylurea (DCMU) leads in green Paramecium bursaria to a breakdown of the symbiotic steady state-system resulting in a loss of algal cells. Obviously the endosymbiotic algae cannot be fed heterotrophically by their host to such an extent that a stable symbiosis is maintained.The application of 3-(3,4-Dichlorophenyl)-1,1-dimethylurea (DCMU) can be used as a new method for culturing Chlorella-free Paramecium bursaria.

     

Classification of novel soil streptomycetes as Streptomyces aureus sp. nov., Streptomyces laceyi sp. nov. and Streptomyces sanglieri sp. nov

The taxonomic positions of soil isolates known as Streptomyces groups A, B and C were clarified. Comparative 16S rDNA sequence studies indicated that representatives of all three taxa formed distinct phyletic lines within the Streptomyces tree though the group A strains were shown to be related to Streptomyces griseus and associated validly described species. The taxonomic integrity of all three groups was highlighted by DNA:DNA relatedness and ribotype data though the group A strains encompassed a higher degree of genetic variation than the group B and C strains. In light of these and earlier phenotypic data it is proposed that Streptomyces groups A, B and C be given species status as Streptomyces sanglieri sp. nov., Streptomyces aureus sp. nov. and Streptomyces laceyi sp. nov., respectively. This revised version was published online in June 2006 with corrections to the Cover Date.     

Parasites ofEctomyelois ceratoniae with biological studies onApanteles sp.Group ultor in Iraq

Apanteles sp.group ultor [Hym.: Braconidae] is the dominant and most widely distributed parasite ofEctomyelois ceratoniae (Zeller). The parasitization percent was increased from 10 % during April to 35 % at the end of the pomegranate fruiting season at October. Female parasite preferred to infest the host larvae at the age of, 2–3 days than 7 day old. The average number of host larvae parasitized by single female parasite was 58 under the rearing conditions of 27±2 °C., 55±10% RH and photoperiod of 16 h light per day. Parasites other thanA. spgroup ultor were:Bracon hebetor Say.,Ascogaster sp., andPhanerotoma sp. [Braconidae];Nemeritis canescens Grav. [Ichneumonidae];Brachymeria sp., andB. aegyptiaca Masi [Chalcididae]; and the secondary parasitePerilampus tristis Mayr [Perilampidae].     

Glucose excretion by the symbiotic Chlorella of Spongilla fluviatilis

Chlorella sorokiniana strain 211-40c, a symbiotic Chlorella isolated from a freshwater sponge, excreted between 3% and 5% of assimilated ¹⁴CO₂ as glucose in the light, with a pH optimum around 5. This percentage increased when the illuminance was lowered (to 15% at 20 lx). Release of [¹⁴C]glucose continued in the dark and could be inhibited by the uncoupler carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP). Net efflux of glucose occurred even at a concentration ratio of extracellular/intracellular glucose of 4. This, together with the sensitivity to FCCP, is taken as evidence for active transport. Exogenous [¹⁴C]glucose was taken up by the cells under conditions of net glucose efflux, showing uptake and excretion to take place simultaneously.Abbreviations FCCP carbonyl cyanide p-trifluoromethoxyphenylhydrazone - p.c. packed cells     

Evidence of de novo synthesis of maltose excreted by the endosymbiotic Chlorella from Paramecium bursaria

The endosymbiotic Chlorella sp. from Paramecium bursaria excretes maltose both in the light and in the dark. Experiments on photosynthetic ¹⁴CO₂ fixation and ¹⁴CO₂ pulse-chase experiments show that maltose is synthesized in the light directly from compounds of the Calvin cycle, whereas in the dark it results from starch degradation.     

Symbiotic Chlorella sp. of the ciliate Paramecium bursaria do not prevent acidification and lysosomal fusion of host digestive vacuoles during infection

Summary. Each symbiotic Chlorella sp. of the ciliate Paramecium bursaria is enclosed in a perialgal vacuole derived from the host digestive vacuole, and thereby the alga is protected from digestion by lysosomal fusion. Algae-free cells can be reinfected with algae isolated from algae-bearing cells by ingestion into digestive vacuoles. To examine the timing of acidification and lysosomal fusion of the digestive vacuoles and of algal escape from the digestive vacuole, algae-free cells were mixed with isolated algae or yeast cells stained with pH indicator dyes at 25 ± 1 °C for 1.5 min, washed, chased, and fixed at various time points. Acidification of the vacuoles and digestion of Chlorella sp. began at 0.5 and 2 min after mixing, respectively. All single green Chlorella sp. that had been present in the host cytoplasm before 0.5 h after mixing were digested by 0.5 h. At 1 h after mixing, however, single green algae reappeared in the host cytoplasm, arising from those digestive vacuoles containing both nondigested and partially digested algae, and the percentage of such cells increased to about 40% at 3 h. At 48 h, the single green algae began to multiply by cell division, indicating that these algae had succeeded in establishing endosymbiosis. In contrast to previously published studies, our data show that an alga can successfully escape from the host’s digestive vacuole after acidosomal and lysosomal fusion with the vacuole has occurred, in order to produce endosymbiosis. Correspondence and reprints: Biological Institute, Faculty of Science, Yamaguchi University, Yoshida 1677-1, Yamaguchi 753-8512, Japan.