Survival of Cloudman Mouse Melanoma Cells After Irradiation by Solar Wavelengths of Light

A number of variants of Cloudman S91 mouse melanoma cells that differ with respect to the amount of pigment produced are available for study. In this report, we compare the photobiological responses of S91/amel, which contains about 1 pg of melanin per cell, with S91/I3, which contains about 3 pg/cell. Earlier studies had shown that UVC induced more oxidative damage (in the form of thymine glycols) in cell line S91/I3 than in S91/amel and that cell line S91/amel was more resistant to killing by UVC than S91/I3. The present study finds that S91/amel cells are also relatively resistant to killing by near monochromatic UVB from a Philips TLO1 fluorescent lamp and by near monochromatic UVA from a Philips HPW125 lamp. However when the cells are irradiated with a Westinghouse FS20 polychromatic lamp, the S91/I3 cells are more resistant than the S91/amel cells. These findings cannot be explained on the basis of pigment induction because in S91/I3 this is about the same after UVB and FS20, although the maximum is reached earlier after UVB. Nor can our findings be explained on the basis of pyrimidine dimer formation, which is comparable in the two cell lines regardless of the type of irradiation. These results suggest that, with a pigment such as melanin, which absorbs light across the visible and ultraviolet ranges of the spectrum, cellular responses to monochromatic light do not necessarily predict responses to polychromatic mixtures.     

The Effects of Salinity upon Cellular Volume of the Marine Red Alga Porphyra purpurea (Roth) C.Ag.

Changes in cell volume of the marine red alga Porphyra purpureahave been investigated using photomicroscopic and radioisotopictechniques. There is an inverse relationship between cell volumeand external salt content. The alga responds to changes in thewater potential of its bathing medium by rapid swelling in hyposalinemedia and shrinkage in hypersaline conditions. Cells P. purpureabehave as osmometers in concentrated sea-waters, obeying theBoyle-Van't Hoff law. A non-osmotic volume, 20–25% ofthe total cell volume in sea-water, can be predicted from thelinear plot of volume versus reciprocal pressure in concentratedsea-water media. In dilute sea-waters the presence of non-rigidcell walls serves to limit any increases in cell volume. Theprimary response to dilution stress is thus an increase in turgor.Cell volume is not returned to its original value followingprolonged immersion in either hyposaline or hypersaline media,showing that the alga does not ‘osmoregulate’ sensustricto.     

The Mexican Axolotl, Ambystoma mexicanum: Its Biology and Developmental Genetics, and Its Autonomous Cell-lethal Genes

SYNOPSIS. The Mexican axolotl, a neotonous salamander, has foundwidespread use as an experimental animal for studies in embryologyand physiology. The convenience with which the axolotl can bemaintained as a laboratory animal and the high quality of theeggs it produces contribute to its popularity in laboratoryresearch. A large array of mutant genes has been recognizedin the axolotl. These genes affect one or another process duringdevelopment of the organism, and have provided a basis for carryingout research in developmental genetics. Approximately threedozen mutant genes in the axolotl are known. These genes havebeen grouped into 5 different categories which reflect, forthe most part, the developmental stage at which the mutant phenotypecan first be recognized. One group of mutant genes, the autonomous cell-lethals, is discussedin detail. These genes share the common feature that homozygousembryos cannot be rescued by parabiosis with normal embryos.In addition, grafts of mutant tissue (e.g., gill or limb primorida)do not survive on normal hosts. These genes probably are responsiblefor metabolic or regulatory defects which affect all cells andtissues in the organism. The mutant phenotypes and potentialusefulness of these genes are discussed in detail.     

A Comparative Study of the Effects of Egg Rotation (Gravity Orientation) and UV Irradiation on Anuran vs. Urodele Amphibian Eggs

The response of various anuran and urodele eggs to a brief rotation prior to first cleavage were observed. In all instances, the dorsal lip formed on the side of the egg which opposed gravity during the rotation. The ability of egg rotation to prevent the series of developmental abnormalities associated with UV irradiation of the uncleaved egg was also examined. Anuran and urodele eggs responded to those manipulations in a similar fashion. These results should facilitate future studies on the mechanisms involved in the establishment of the dorsal/ventral polarity of the amphibian egg.     

Biogeography of the Late Triassic wallowaconchid megalodontoid bivalves

Discoveries of Late Triassic alatoform bivalves (family Wallowaconchidae) in Alaska and in south Asia and Arabia reveal a broad distribution for these tropical bivalves, overturning the concept of these bivalves being endemics of offshore island arc terranes in eastern Panthalassa. They occupied an area extending from central Tethys to the eastern Pacific margin of Panthalassa. The Tethyan wallowaconchids occur in nearshore environments on the north margin of Gondwana, indicating an environmental tolerance for continental shelf settings in addition to their primary occurrence on isolated oceanic islands. The new sites reveal a taxonomic diversity among wallowaconchids. Wallowaconchids present in India are conspecific with Wallowaconcha raylenea, the type species of Wallowaconcha, whereas wallowaconchids in Arabia are an undescribed taxon and wallowaconchids in south-central Alaska are small in size and a different undescribed taxon. All known wallowaconchids are of Norian age and they appear to be a wide-ranging component of Late Triassic tropical biotas.