Aspects of the Ecology of the Fishes of Holyrood Pond: A Coastal Lake with Occasional Access to the Sea Located in St. Mary's Bay,Newfoundland

Physical and chemical conditions and fish were studied during spring and summer in 1974 and 1975 in Holyrood Pond, Avalon Peninsula, Newfoundland. It is a landlocked body of water lying at sea level (length = 21.72 km; maximum width = 1.55 km; maximum depth = 100.0 m) which is occasionally opened to the sea. The landlocked condition is caused by prevailing southwest winds and wave action which create a beach barrier that effectively isolates the mouth from St. Mary's Bay. Under landlocked conditions, there was a continual decrease in salinity and dissolved oxygen at all depths. Temperature profiles were of a dichothermic nature; a certain amount of temporal variability was noted in lower lying water. When the barrier was opened (by bulldozer) and the pond came under tidal influence, there was a replenishment of salt water and dissolved oxygen. Temperature profiles retained the same overall shape but were more erratic, and compared with the closed barrier condition, showed greater variability with time especially in the deeper water. A small amount of commercial fishing is carried out in the pond during both open and closed barrier conditions. A total of 30 species of fish was encountered during the sampling period. Of these, Salvelinus fontinalis, Gadus morhua, Urophycis tenuis, Pseudopleuronectes americanus and Alosa pseudoharengus were studied in detail. Aspects of their biology are compared with other populations and discussed in the context of environmental conditions peculiar to Holyrood Pond.     

A maize homolog of mammalian CENPC is a constitutive component of the inner kinetochore.

Genes for three maize homologs (CenpcA, CenpcB, and CenpcC) of the conserved kinetochore assembly protein known as centromere protein C (CENPC) have been identified. The C-terminal portion of maize CENPC shares similarity with mammalian CENPC and its yeast homolog Mif2p over a 23-amino acid region known as region I. Immunolocalization experiments combined with three-dimensional light microscopy demonstrated that CENPC is a component of the kinetochore throughout interphase, mitosis, and meiosis. It is shown that sister kinetochore separation occurs in two discrete phases during meiosis. A partial separation of sister kinetochores occurs in prometaphase I, and a complete separation occurs in prometaphase II. CENPC is absent on structures known as neocentromeres that, in maize, demonstrate poleward movement but lack other important features of centromeres/kinetochores. CENPC and a previously identified centromeric DNA sequence interact closely but do not strictly colocalize on meiotic chromosomes. These and other data indicate that CENPC occupies an inner domain of the maize kinetochore.     

Evolution of antibiotic resistance genes: the DNA sequence of a kanamycin resistance gene from Staphylococcus aureus

The kanamycin resistance gene from Staphylococcus aureus has been sequenced and its structure compared with similar genes isolated from Streptomyces fradiae and from two transposons, Tn5 and Tn903, originally isolated from Klebsiella pneumoniae and Salmonella typhimurium, respectively. The genes are all homologous but, since their common ancestor, have undergone extensive divergence, with more than 43% divergence between the closest pair. The phylogeny of the genes cannot be made congruent to the phylogeny of the taxa from which they were isolated without requiring rather improbable differences in rates. One is therefore led to conclude that there have been multiple occurrences of gene transfer between these species. Thus, although they are homologous, they are neither orthologous nor paralogous. It is suggested that homologous genes of this type be called xenologous.