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Pinocytosis and locomotion in amoebae (1979)

Stockem, W. ; Klein, H. -P.

Springer

Protoplasma 100 (1979), S. 33-43

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ISSN: 1615-6102

Keywords: Amoeba proteus ; Ca++-binding sites ; Cytochemical demonstration ; Induced pinocytosis ; Plasma membrane

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Different methods were used to demonstrate the existence of Ca++-binding sites (Ca++-bs) at the plasma membrane ofAmoeba proteus. In pinocytoting animals the number (indicated by the average distanced in nm) and size (average longitudinal axiss in nm) of Ca++-bs at the cytoplasmic surface of the cell membrane were significantly increased (d=162±15;n=41 ands=93±5;n=47) in comparison to controls (d=208 ±21;n=37 ands=59±8;n=45). The ratio of P: Ca obtained by X-ray microanalysis was in the range of 1.5. The differences observed in the two experimental groups of amoebae are explained by conformational changes in the molecular structure and an increased Ca++-permeability of the plasma membrane during induced pinocytosis. Microplasmodia of the acellular slime moldPhysarum polycephalum investigated for comparison were found to have no Ca++-bs at the interior cell surface.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01276299

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Biological experiments - The Viking Mars Lander. (1972)

Lederberg, J. ; Klein, H. P. ; Rich, A.

In: Other Sources

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Publication Date: 2011-08-16

Description: From the biological point of view, the Viking 1975 mission might be regarded as a test of the Oparin-Haldane hypothesis concerning the chemical evolution of living systems. Mars is a planet whose early history was probably similar to that of the earth and whose present environmental conditions may be compatible with the maintenance of living organisms. Thus, the biological experiments aboard the Viking I spacecraft are primarily concerned with the question of whether chemical evolution on Mars took place, and, if so, whether the process reached a level of complexity characteristic of replicating systems.

Keywords: BIOTECHNOLOGY

Type: Icarus; 16; Feb. 197

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Automated life-detection experiments for the Viking mission to Mars (1974)

Klein, H. P.

In: Other Sources

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Publication Date: 2011-08-16

Description: As part of the Viking mission to Mars in 1975, an automated set of instruments is being built to test for the presence of metabolizing organisms on that planet. Three separate modules are combined in this instrument so that samples of the Martian surface can be subjected to a broad array of experimental conditions so as to measure biological activity. The first, the Pyrolytic Release Module, will expose surface samples to a mixture of C-14O and C-14O2 in the presence of Martian atmosphere and a light source that simulates the Martian visible spectrum. The assay system is designed to determine the extent of assimilation of CO or CO2 into organic compounds. The Gas Exchange Module will incubate surface samples in a humidified CO2 atmosphere. At specified times, portions of the incubation atmosphere will be analyzed by gas chromatography to detect the release or uptake of CO2 and several additional gases. The Label Release Module will incubate surface samples with a dilute aqueous solution of simple radioactive organic substrates in Martian atmosphere, and the gas phase will be monitored continuously for the release of labeled CO2.

Keywords: FACILITIES, RESEARCH, AND SUPPORT

Type: Origin of Life; 5; July-Oct

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Biological instrumentation for the Viking 1975 mission to Mars. (1972)

Vishniac, W. ; Klein, H. P.

In: Other Sources

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Publication Date: 2019-07-27

Description: A brief introduction is given on why Mars is of interest from a biological point of view, along with an overview of the Viking 1975 mission. Details are given about the four biology instruments aboard the spacecraft and the experiments for which they are to be used. These are: the carbon assimilation experiment to determine whether the soil is biologically active; the label release experiment to detect metabolic activity by the release of radioactive CO2 from C-14 labelled simple organic substrates; the gas exchange experiment to detect biological activity by repeated gas chromatography analysis of soil samples; and the light scattering experiment, where increase of scattering and decrease of light transmission would indicate the growth of organisms. Examples are given of data obtained with terrestrial soils in these experiments.

Keywords: BIOTECHNOLOGY

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Biological instrumentation for the Viking 1975 mission to Mars (1971)

Vishniac, W. ; Klein, H. P.

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Publication Date: 2019-07-13

Description: Biological instrumentation and soil sampler aboard Viking lander for 1975 mission to Mars

Keywords: BIOTECHNOLOGY

Type: PLENARY MEETING; Jun 18, 1971 - Jul 02, 1971; SEATTLE, WA

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