R Perkins-Dameron scite author profile

R Perkins-Dameron

2Publications

12Citation Statements Received

30Citation Statements Given

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University of Arkansas for Medical Sciences

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

Bannon¹,

Perkins-Dameron²,

Allen-Nash³

1986

Mol. Cell. Biol.

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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°C (designated SerH3)-and 40°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'C-and 40°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°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.Changes in gene expression in response to temperature shifts have been extensively documented. The heat shock response represents the major model system in eucaryotes in which environmental effects on gene regulation can be assessed. The heat shock response is ubiquitous in all organisms studied to date. It is manifested by the synthesis of 12 to 15 proteins whose expression can be brought about by a variety of environmental conditions (35). During the initial stages of a heat shock response, the synthesis of normal cell proteins is repressed. Depending on the organism, reexpression of normal cell proteins either can occur while the organism is still at the heat shock temperature or must wait until lower temperatures have been restored (17,20,23,26,27,34 between 20 and 35°C the protein designated SerH is on the cell surface (28). If this same population of cells is shifted to temperatures below 20°C the protein designated SerL is expressed, whereas if the cells are raised to 36 to 40°C the protein designated SerT appears on the surface (22, 30). The appearance of these proteins are mutually exclusive; that is, when one protein is on the surface, a...

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Structure and Expression of Two Temperature-Specific Surface Proteins in the Ciliated Protozoan Tetrahymena thermophila

Bannon

Perkins-Dameron

Allen-Nash

1986

Molecular and Cellular Biology

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