[
Parasitol Today,
1996]
Spliced leader trans-splicing is a form of RNA processing originally described and studied in parasitic kinetoplastida. This mechanism of gene expression also occurs in parasitic and free-living metazoa. In this review, Dick Davis describes current knowledge of the distribution, substrates, specificity and functional significance of trans-splicing in metazoa.
[
Exp Gerontol,
2006]
In Caenorhabditis elegans, the insulin/IGF-1 signaling pathway controls many biological processes such as life span, fat storage, dauer diapause, reproduction and stress response . This pathway is comprised of many genes including the insulin/IGF-1 receptor (DAF-2) that signals through a conserved PI 3-kinase/AKT pathway and ultimately down-regulates DAF-16, a forkhead transcription factor (FOXO). DAF-16 also receives input from several other pathways that regulate life span such as the germline and the JNK pathway [Hsin, H., Kenyon, C., 1999. Signals from the reproductive system regulate the lifespan of C. elegans. Nature 399, 362-366; Oh, S.W., Mukhopadhyay, A., Svrzikapa, N., Jiang, F., Davis, R.J., Tissenbaum, H.A., 2005. JNK regulates lifespan in Caenorhabditis elegans by modulating nuclear translocation of forkhead transcription factor/DAF-16. Proc. Natl. Acad. Sci. USA 102, 4494-4499]. Therefore, DAF-16 integrates signals from multiple pathways and regulates its downstream target genes to control diverse processes. Here, we discuss the signals to and from DAF-16, with a focus on life span regulation.
[
Mech Ageing Dev,
2002]
In 1967, as we became interested in the biology of aging, we were faced with the following basic biological paradox: organisms are endowed with the capacity to detect and repair damage encountered at the molecular and cellular levels and yet functional capacity declines with time. In accordance with Strehler's suggestion (Time, Cells, and Aging, 2nd ed., Academic Press, New York, 1962), we adopted the basic premise that the underlying mechanisms of aging are common to all multi-cellular organisms. A search for a suitable experimental organism that fulfills the basic criteria for an appropriate model for aging research (Exp. Gerontol. 5 (1970) 7; Mech. Ageing Dev. 117 (2000) 21) led us to the selection of nematodes as a model for our initial series of experiments. Nematodes have thus been used in aging research for three decades. This review critically examines the major merits and shortcomings of this model organism for aging research and argues for greater appreciation of the need to understand the biology of the nematode life cycle not only as it is maintained in the laboratory, but also as it evolved and lives in nature.