Ciliated protozoan occurrence and association in the pathogenesis of coral disease

The ciliated protozoan Oxytricha fallax possesses multiple highly localized clusters of basal bodies and cilia, all of which are broken down and rebuilt during prefission morphogenesis-with one major exception. The adoral zone of membranelles (AZM) of the ciliate oral apparatus contains approximately 1,500-2,000 basal bodies and cilia, and it is the only compound ciliary structure that is passed morphologically intact to one daughter cell at each cell division. By labeling all proteins in cells, and then picking the one daughter cell possessing the original labeled AZM, we could then evaluate whether or not the ciliary proteins of the AZM were diluted (i.e., either by degradation to constituent amino acids or by subunit exchange) during cell division. Autoradiographic analysis demonstrated that the label was highly conserved in the AZM (i.e., we saw no evidence of turnover), and electrophoretic data illustrate that at least one of the proteins of the AZM is tubulin. We, therefore, conclude that for at least some of the ciliary and basal body proteins of Oxytricha fallax, AZM morphological conservation is essentially equivalent to molecular conservation.

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Identification and characterization of the opiate receptor in the ciliated protozoan, Tetrahymena

Brain Research ◽

10.1016/0006-8993(88)91569-7 ◽

1988 ◽

Vol 450 (1-2) ◽

pp. 303-315 ◽

Cited By ~ 47

Author(s):

J.B. O'Neill ◽

C.B. Pert ◽

M.R. Ruff ◽

C.C. Smith ◽

W.J. Higgins ◽

...

Keyword(s):

Opiate Receptor ◽

Ciliated Protozoan ◽

Identification And Characterization

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Predator-prey Interaction between a Ciliated Protozoan Trochilioides recta and Filamentous Bacteria

Japan journal of water pollution research ◽

10.2965/jswe1978.12.239 ◽

1989 ◽

Vol 12 (4) ◽

pp. 239-245,231 ◽

Cited By ~ 1

Author(s):

Minako KOGA ◽

Takeshi SEGUCHI ◽

Tadahiro MORI ◽

Yuhei INAMORI ◽

Ryuichi SUDO

Keyword(s):

Filamentous Bacteria ◽

Ciliated Protozoan ◽

Predator Prey ◽

Prey Interaction

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Constitutive expression, not a particular primary sequence, is the important feature of the H3 replacement variant hv2 in Tetrahymena thermophila.

Molecular and Cellular Biology ◽

10.1128/mcb.17.11.6303 ◽

1997 ◽

Vol 17 (11) ◽

pp. 6303-6310 ◽

Cited By ~ 37

Author(s):

L Yu ◽

M A Gorovsky

Keyword(s):

Protein Sequence ◽

Tetrahymena Thermophila ◽

Histone H3 ◽

Constitutive Expression ◽

Histone Variants ◽

Wild Type ◽

Ciliated Protozoan ◽

Knockout Mutant ◽

Double Knockout ◽

Constitutive Synthesis

Although quantitatively minor replication-independent (replacement) histone variants have been found in a wide variety of organisms, their functions remain unknown. Like the H3.3 replacement variants of vertebrates, hv2, an H3 variant in the ciliated protozoan Tetrahymena thermophila, is synthesized and deposited in nuclei of nongrowing cells. Although hv2 is clearly an H3.3-like replacement variant by its expression, sequence analysis indicates that it evolved independently of the H3.3 variants of multicellular eukaryotes. This suggested that it is the constitutive synthesis, not the particular protein sequence, of these variants that is important in the function of H3 replacement variants. Here, we demonstrate that the gene (HHT3) encoding hv2 or either gene (HHT1 or HHT2) encoding the abundant major H3 can be completely knocked out in Tetrahymena. Surprisingly, when cells lacking hv2 are starved, a major histone H3 mRNA transcribed by the HHT2 gene, which is synthesized little, if at all, in wild-type nongrowing cells, is easily detectable. Both HHT2 and HHT3 knockout strains show no obvious defect during vegetative growth. In addition, a mutant with the double knockout of HHT1 and HHT3 is viable while the HHT2 HHT3 double-knockout mutant is not. These results argue strongly that cells require a constitutively expressed H3 gene but that the particular sequence being expressed is not critical.

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Tetrins: polypeptides that form bundled filaments in Tetrahymena

Journal of Cell Science ◽

10.1242/jcs.96.2.293 ◽

1990 ◽

Vol 96 (2) ◽

pp. 293-302

Author(s):

J.E. Honts ◽

N.E. Williams

Keyword(s):

Intermediate Filaments ◽

Tetrahymena Pyriformis ◽

Ciliated Protozoan ◽

Microtubule Associated Proteins ◽

Fine Filament ◽

Helical Content ◽

In Vitro Assembly ◽

Associated Proteins ◽

Filament Bundles

The cortex of the ciliated protozoan Tetrahymena contains a number of fibrous elements, including a network of filaments that pervades the feeding organelle of this organism. The cluster of polypeptides (79–89K; K = 10(3) Mr) in Tetrahymena pyriformis GL-C that constitute these filaments has been purified by in vitro assembly after solubilization in 1.0 M KI. Four distinct sets of these polypeptides, designated ‘tetrins’, have been shown to be distinguishable from each other by immunochemical and biochemical criteria. The smallest filaments reassembled in vitro were 3–4 nm in diameter and these fine filaments were seen to be bundled together into thicker strands of varying diameters, similar to those within the cell. The thicker filament bundles were clearly distinguishable from intermediate filaments, but fine filaments in these bundles were superficially similar to the 2–5 nm filaments described as microtubule-associated proteins in other organisms. The ultrastructure of the tetrin filaments localized within the feeding organelle reveals a substantial presence of these filaments apart from microtubules. In addition, circular dichroism measurements indicate a relatively low alpha-helical content for these filaments and suggest that the tetrins may be substantially different from other fine filament proteins such as the tektins and giardins.

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Structure and expression of two temperature-specific surface proteins in the ciliated protozoan Tetrahymena thermophila

Molecular and Cellular Biology ◽

10.1128/mcb.6.9.3240-3245.1986 ◽

1986 ◽

Vol 6 (9) ◽

pp. 3240-3245

Author(s):

G A Bannon ◽

R Perkins-Dameron ◽

A Allen-Nash

Keyword(s):

Cell Surface ◽

Specific Surface ◽

Incubation Temperature ◽

Tetrahymena Thermophila ◽

Sodium Dodecyl ◽

Surface Protein ◽

Surface Proteins ◽

Ciliated Protozoan ◽

Temperature Dependent ◽

Molecular Sizes

The presence of specific proteins (known as immobilization antigens) on the surface of the ciliated protozoan Tetrahymena thermophila is under environmental regulation. There are five different classes (serotypes) of surface proteins which appear on the cell surface when T. thermophila is cultured under different conditions of temperature or incubation medium; three of these are temperature dependent. The appearance of these proteins on the cell surface is mutually exclusive. We used polyclonal antibodies raised against 30 degrees C (designated SerH3)- and 40 degrees C (designated SerT)-specific surface antigens to study their structure and expression. We showed that these surface proteins contain at least one disulfide bridge. On sodium dodecyl sulfate-denaturing polyacrylamide gels, the nonreduced 30 degrees C- and 40 degrees C-specific surface proteins migrated with molecular sizes of 69 and 36 kilodaltons, respectively. The reduced forms of the proteins migrated with molecular sizes of 58 and 30 kilodaltons, respectively. The synthesis of the surface proteins responded rapidly and with a time course similar to that of the incubation temperature. The synthesis of each surface protein was greatly reduced within 1 h and undetectable by 2 h after a shift to the temperature at which the protein is not expressed. Surface protein synthesis resumed by the end of 1 h after a shift to the temperature at which the protein is expressed. The temperature-dependent induction of these surface proteins appears to be dependent on the synthesis of new mRNA, as indicated by a sensitivity to actinomycin D. Surface protein syntheses were mutually exclusive except at a transition temperature. At 35 degrees C both surface proteins were synthesized by a cell population. These data support the potential of this system as a model for the study of the effects of environmental factors on the genetic regulation of cell surface proteins.

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Swimming of the Trophont Zooid of Vorticella Convallaria

10.1115/fedsm2021-63265 ◽

2021 ◽

Author(s):

Dilziba Kizghin ◽

Sangjin Ryu ◽

Younggil Park ◽

Sunghwan Jung

Keyword(s):

Mean Square Displacement ◽

Swimming Velocity ◽

Mean Square ◽

Ciliated Protozoan ◽

Swimming Motility ◽

Swimming Motion ◽

Swimming Pattern ◽

Freshwater Habitats ◽

Gap Height ◽

Swimming Trajectories

Abstract Vorticella convallaria is a ciliated protozoan found in freshwater habitats. In the sessile or stalked trophont form, V. convallaria is shaped somewhat like a balloon as it has a body or zooid (the head of the balloon) that is about 40 μm large with cilia around its oral part, and a stalk (the string of a balloon) anchoring the zooid to a solid surface. When a trophont zooid of V. convallaria detached from the stalk, the zooid swims around in water by creating water flow using its oral cilia. In contrast to the stalk contraction of V. convallaria that has been well studied, the swimming motility of V. convallaria is little known. In this study, we measured the swimming trajectories of the stalkless trophont zooid of V. convallaria using video microscopy and Hele-Shaw cells with a gap height of 25 μm, traced the swimming zooid using image processing, and analyzed the swimming motion in terms of swimming velocity and mean square displacement. The stalkless trophont zooid of V . convallaria was found to swim in circular patterns with intermittent ballistic motions in the confinement, and the average swimming speed ranged from 20 μm/s to 110 μm/s. Since the swimming pattern of V. convallaria appeared to be affected by the level of confinement, we will continue characterizing the ciliate’s swimming in the Hele-Shaw cell with different gap heights. Our study is expected to reveal the swimming motility of V. convallaria and to advance general understanding of swimming of microorganisms.

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Correction: Adding insult to injury: Ship groundings are associated with coral disease in a pristine reef

PLoS ONE ◽

10.1371/journal.pone.0207078 ◽

2018 ◽

Vol 13 (11) ◽

pp. e0207078 ◽

Cited By ~ 1

Author(s):

L. J. Raymundo ◽

W. Y. Licuanan ◽

A. M. Kerr

Keyword(s):

Coral Disease

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