K. A. Souza scite author profile

To test whether gravity is required for normal amphibian development, Xenopus laevis females were induced to ovulate aboard the orbiting Space Shuttle. Eggs were fertilized in vitro, and although early embryonic stages showed some abnormalities, the embryos were able to regulate and produce nearly normal larvae. These results demonstrate that a vertebrate can ovulate in the virtual absence of gravity and that the eggs can develop to a free-living stage.Is gravity required for normal embryonic development? Upon fertilization, most amphibian eggs rotate inside the fertilization membrane so that the animal-vegetal axis is aligned with gravity. This "rotation of fertilization" (1) is not a requirement for normal development, since eggs prevented from rotating can develop normally (2). Nevertheless, the direction of the rotation of fertilization normally has a role in determining the polarity of the embryonic axis (1), and eggs inclined with respect to gravity form the dorsal structures on the side of the egg uppermost in the gravitational field (3, 4). Thus, for over a century scientists have questioned whether gravity was required for amphibian embryogenesis (5, 6). Recent spaceflight experiments have successfully fertilized eggs of Xenopus laevis and reared the embryos to the gastrula stage. The morphology of the gastrulae was somewhat abnormal (7). We report here that ovulation and subsequent development to a free-living stage can occur at microgravity (<10-3 X g). We also examined larval swimming behavior to determine whether abnormal behaviors of Xenopus tadpoles previously observed during and following space flight (8) would occur with larvae that began their lives in the virtual absence of gravity.MATERIALS AND METHODS Preflight Procedures. X laevis frogs were obtained from J.

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The relationship between environmental temperature, cell growth and the fluidity and physical state of the membrane lipids in Bacillus stearothermophilus

McElhaney

Souza

1976

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Alterations in normal fatty acid composition in a temperature-sensitive mutant of a thermophilic bacillus

1974

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K. A. Souza

Amphibian development in the virtual absence of gravity.

The relationship between environmental temperature, cell growth and the fluidity and physical state of the membrane lipids in Bacillus stearothermophilus

Alterations in normal fatty acid composition in a temperature-sensitive mutant of a thermophilic bacillus

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