[
1985]
Expression of the vitellogenin genes is restricted to the intestine of adult hermaphrodite C. elegans. In order to identify potential cis-acting elements involved in this developmental regualtion, we have sequenced the regions surrounding the 5' ends of five of the six members of this gene family. In addition, we have sequenced several of the promoters from the homologous genes from the related species C. briggsae. Although the various promoters are largely diverged from one another, we have discovered two potential regulatory sequences within the first 250 bp upstream of each of the genes. The first, TGTCAAT, occurs eight times as a perfect heptamer upstream of the five C. elegans genes, at least once per promoter. Allowing a 1 bp mismatch, the element is found in both orientations a total of 27 times, four to six timer per promoter. It is present preferentially at two locations: just upstream of the TATA box and, in the opposite orientation, at position -180. The second sequence, CTGATAA, is also present as a perfect heptamer in a restricted region of each promoter: near position -135. Remarkably, this sequence is also found upstream of the vitellogenin genes of vertebrates. Both sequences have been conserved in the C. briggsae promoters. We hypothesize that these two sequences are involved in the sex-, tissue-, and stage-specific expression of the vitellogenin genes.
[
2000]
Computer tracking of Caenorhabditis elegans, a free-living soil nematode, is a promising tool to assess behavioral changes upon exposure to contaminants. A short life cycle, a known genetic make-up, thoroughly studied behavior, and a completely mapped nervous system make C. elegans an attractive soil test organism with many advantages over the commonly used earthworm. Although many toxicity tests have been performed with C. elegans, the majority focused on mortality, a much less sensitive endpoint than behavior. A computer tracking system has been developed to monitor behavioral changes using C. elegans. Because conditions unrelated to specific toxicant exposures, such as changes in temperature, developmental stage, and presence of adequate food sources, can affect behavior, there is a need to standardize tracking procedures. To this end, we have developed reference charts for control movement comparing the movement of four and five day-old adult nematodes. The use of K-medium versus deionized (DI) H2O for pre-tracking rinses was also investigated. A final reference chart compared the behavioral responses of nematodes at various food densities (i.e. bacterial concentrations).