Prebiotic activity of paramylon isolated from heterotrophically grown Euglena gracilis

Tanmay Bhattad; Akshaykumar Koradiya; Gunjan Prakash

doi:10.1016/j.heliyon.2021.e07884

Organization of the Pellicle and the Muciferous Glands in Euglena Gracilis

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100067510 ◽

1970 ◽

Vol 28 ◽

pp. 104-105

Author(s):

Hilton H. Mollenhauer ◽

W. Evans

Keyword(s):

Plasma Membrane ◽

Euglena Gracilis ◽

Complex Forms ◽

Secondary Periodicity

The pellicular structure of Euglena gracilis consists of a series of relatively rigid strips (Fig. 1) composed of ridges and grooves which are helically oriented along the cell and which fuse together into a common junction at either end of the cell. The strips are predominantly protein and consist in part of a series of fibers about 50 Å in diameter spaced about 85 Å apart and with a secondary periodicity of about 450 Å. Microtubules are also present below each strip (Fig. 1) and are often considered as part of the pellicular complex. In addition, there may be another fibrous component near the base of the pellicle which has not yet been very well defined.The pellicular complex lies underneath the plasma membrane and entirely within the cell (Fig. 1). Each strip of the complex forms an overlapping junction with the adjacent strip along one side of each groove (Fig. 1), in such a way that a certain amount of sideways movement is possible between one strip and the next.

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Immunocytochemical studies on the behavior of RuBisCO and LHCP II during the cell cycle of synchronized Euglena gracilis

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100160868 ◽

1990 ◽

Vol 48 (3) ◽

pp. 662-663

Author(s):

Tetsuaki Osafune ◽

Shuji Sumida ◽

Tomoko Ehara ◽

Eiji Hase ◽

Jerome A. Schiff

Keyword(s):

Cell Cycle ◽

Immunoelectron Microscopy ◽

Growth Phase ◽

Euglena Gracilis ◽

Dark Period ◽

Light Period ◽

Carboxylase Activity ◽

Immunocytochemical Studies ◽

Lhcp Ii

Changes in the morphology of pyrenoid and the distribution of RuBisCO in the chloroplast of Euglena gracilis were followed by immunoelectron microscopy during the cell cycle in a light (14 h)- dark (10 h) synchronized culture under photoautotrophic conditions. The imrnunoreactive proteins wereconcentrated in the pyrenoid, and less densely distributed in the stroma during the light period (growth phase, Fig. 1-2), but the pyrenoid disappeared during the dark period (division phase), and RuBisCO was dispersed throughout the stroma. Toward the end of the division phase, the pyrenoid began to form in the center of the stroma, and RuBisCO is again concentrated in that pyrenoid region. From a comparison of photosynthetic CO2-fixation with the total carboxylase activity of RuBisCO extracted from Euglena cells in the growth phase, it is suggested that the carboxylase in the pyrenoid functions in CO2-fixation in photosynthesis.

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Three-dimensional distribution of ribulose-1, 5-bisphosphate carboxylase/oxygemase during the early development of proplastids in dark-grown Euglena cells transferred to an inorganic medium

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100162090 ◽

1990 ◽

Vol 48 (3) ◽

pp. 906-907

Author(s):

Tomoko Ehara ◽

Shuji Sumida ◽

Tetsuaki Osafune ◽

Eiji Hase

Keyword(s):

Cell Suspension ◽

Euglena Gracilis ◽

Carbon Materials ◽

Three Dimensional ◽

Peripheral Region ◽

Plastid Development ◽

Bisphosphate Carboxylase ◽

Inorganic Medium ◽

Ribulose 1 ◽

Dimensional Distribution

As shown previously, Euglena cells grown in Hutner’s medium in the dark without agitation accumulate wax as well as paramylum, and contain proplastids showing no internal structure except for a single prothylakoid existing close to the envelope. When the cells are transferred to an inorganic medium containing ammonium salt and the cell suspension is aerated in the dark, the wax was oxidatively metabolized, providing carbon materials and energy 23 for some dark processes of plastid development. Under these conditions, pyrenoid-like structures (called “pro-pyrenoids”) are formed at the sites adjacent to the prolamel larbodies (PLB) localized in the peripheral region of the proplastid. The single prothylakoid becomes paired with a newly formed prothylakoid, and a part of the paired prothylakoids is extended, with foldings, in to the “propyrenoid”. In this study, we observed a concentration of RuBisCO in the “propyrenoid” of Euglena gracilis strain Z using immunoelectron microscopy.

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Effect of K2Cr2O7 on the photosynthetic activity and mobility of Euglena gracilis Klebs cells

International Journal on Algae ◽

10.1615/interjalgae.v9.i3.30 ◽

2007 ◽

Vol 9 (3) ◽

pp. 222-235

Author(s):

I. P. Novikova ◽

T. V. Parshikova ◽

V. V. Vlasenko ◽

I. B. Zubenko

Keyword(s):

Euglena Gracilis ◽

Photosynthetic Activity

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Isolierung von PS II-Partikeln mit in vivo Eigenschaften aus Euglena gracilis, Stamm Z / Isolation of PS II-Particels with in vivo Characteristics from Euglena gracilis, Stamm Z

Zeitschrift für Naturforschung C ◽

10.1515/znc-1982-3-418 ◽

1982 ◽

Vol 37 (3-4) ◽

pp. 256-259 ◽

Cited By ~ 5

Author(s):

F. Schuler ◽

P. Brandt ◽

W. Wießner

Keyword(s):

Euglena Gracilis ◽

Fluorescence Emission ◽

Improved Method ◽

Ps Ii ◽

Ps I ◽

Emission And Absorption Spectra ◽

Chlorophyll Protein ◽

Ps Ii Activity ◽

Photosystem Ii Particles

Abstract An improved method for isolation of (photosystem II)-particles from Euglena gracilis, strain Z was established. PS II-particles isolated by ultrasonic treatment and following differential centrifugation show fluorescence emission and absorption spectra identical with in vivo properties of Euglena gracilis. These PS II-particles have only PS II-activity and contain CP a, the typical chlorophyll-protein-complex of PS II. No contamination of PS I-components are detectable.

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Degradation of pyrimidines in Euglena gracilis II. Inhibition of degradation by structural analogues and their own degradation

Plant Science Letters ◽

10.1016/0304-4211(77)90095-5 ◽

1977 ◽

Vol 9 (2) ◽

pp. 171-178 ◽

Cited By ~ 12

Author(s):

C. Wasternack ◽

H. Reinbothe

Keyword(s):

Euglena Gracilis ◽

Structural Analogues

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Phosphorylation Sites, Cytochrome Complement, and Alternate Pathways of Coupled Electron Transport in Euglena gracilis Mitochondria

Journal of Biological Chemistry ◽

10.1016/s0021-9258(18)63421-0 ◽

1970 ◽

Vol 245 (1) ◽

pp. 50-57 ◽

Cited By ~ 1

Author(s):

T.K. Sharpless ◽

R.A. Butow

Keyword(s):

Electron Transport ◽

Euglena Gracilis ◽

Phosphorylation Sites

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Isolation and Characterization of Euglena gracilis-Associated Bacteria, Enterobacter sp. CA3 and Emticicia sp. CN5, Capable of Promoting the Growth and Paramylon Production of E. gracilis under Mixotrophic Cultivation

Microorganisms ◽

10.3390/microorganisms9071496 ◽

2021 ◽

Vol 9 (7) ◽

pp. 1496

Author(s):

Rubiyatno ◽

Kazuhiro Mori ◽

Daisuke Inoue ◽

Sunah Kim ◽

Jaecheul Yu ◽

...

Keyword(s):

Euglena Gracilis ◽

Functional Foods ◽

Mixotrophic Culture ◽

Associated Bacteria ◽

Isolation And Characterization ◽

Growth Promoting ◽

Value Functional ◽

Mixotrophic Conditions ◽

Microalgae Growth

Euglena gracilis produces paramylon, which is a feedstock for high-value functional foods and nutritional supplements. The enhancement of paramylon productivity is a critical challenge. Microalgae growth-promoting bacteria (MGPB) can improve microalgal productivity; however, the MGPB for E. gracilis remain unclear. This study isolated bacteria capable of enhancing E. gracilis growth and paramylon production under mixotrophic conditions. Enterobacter sp. CA3 and Emticicia sp. CN5 were isolated from E. gracilis grown with sewage-effluent bacteria under mixotrophic conditions at pH 4.5 or 7.5, respectively. In a 7-day E. gracilis mixotrophic culture with glucose, CA3 increased E. gracilis biomass and paramylon production 1.8-fold and 3.5-fold, respectively (at pH 4.5), or 1.9-fold and 3.5-fold, respectively (at pH 7.5). CN5 increased E. gracilis biomass and paramylon production 2.0-fold and 4.1-fold, respectively (at pH 7.5). However, the strains did not show such effects on E. gracilis under autotrophic conditions without glucose. The results suggest that CA3 and CN5 promoted both E. gracilis growth and paramylon production under mixotrophic conditions with glucose at pH 4.5 and 7.5 (CA3) or pH 7.5 (CN5). This study also provides an isolation method for E. gracilis MGPB that enables the construction of an effective E. gracilis–MGPB-association system for increasing the paramylon yield of E. gracilis.

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