-
[
Am J Hum Genet,
1998]
Since Sydney Brenner wrote this statement in a visionary research proposal addressed to Max Perutz 35 years ago, an enormous amount of information has been gathered on the biology of the nematode Caenorhabditis elegans ("the worm"), both fulfilling his predictions and exceeding his original expectations. Researchers have identified every cell in the worm and have described all the lineages by which these cells are formed...
-
[
Semin Cell Dev Biol,
2001]
Phosphatidylinositol transfer proteins (PITPs) are lipid binding proteins that can catalyse the transfer of phosphatidylinositol (PI) from membranes enriched in PI to PI-deficient membranes. Three soluble forms of PITP of 35--38 kDa (PITP alpha, PITP beta and rdgB beta) and two larger integral proteins of 160 kDa (rdgB alpha I and II), which contain a PITP domain, are found in mammalian cells. PITPs are intimately associated with the compartmentalised synthesis of different phosphorylated inositol lipids. PI is the primary inositol lipid that is synthesised at the endoplasmic reticulum and is further phosphorylated in distinct membrane compartments by many specific lipid kinases to generate seven phosphorylated inositol lipids which are required for both signalling and for membrane traffic. PITPs play essential roles in both signalling via phospholipase C and phosphoinositide 3-kinases and in multiple aspects of membrane traffic including regulated exocytosis and vesicle biogenesis.
-
[
Genesis,
2011]
Female reproductive decline is one of the first aging phenotypes in humans, manifested in increasing rates of infertility, miscarriage, and birth defects in children of mothers over 35. Recently, Caenorhabditis elegans (C. elegans) has been developed as a model to study reproductive aging, and several studies have advanced our knowledge of reproductive aging regulation in this organism. In this review, we describe our current understanding of reproductive cessation in C. elegans, including the relationship between oocyte quality, ovulation rate, progeny number, and reproductive span. We then discuss possible mechanisms of oocyte quality control, and provide an overview of the signaling pathways currently identified to be involved in reproductive span regulation in C. elegans. Finally, we extend the relevance of C. elegans reproductive aging studies to the issue of human female reproductive decline, and we discuss ideas concerning the relationship between reproductive aging and somatic longevity.
-
[
J Bioenerg Biomembr,
2000]
The genome of Saccharomyces cerevisiae encodes 35 members of a family proteins that transport metabolites and substrates across the inner membranes of mitochondria. They include three isoforms of the ADP/ATP translocase and the phosphate and citrate carriers. At the start of our work, the functions of the remaining 30 members of the family were unknown. We are attempting to identify these 30 proteins by overexpression of the proteins in specially selected host strains of Escherichia coli that allow the carriers to accumulate at high levels in the form of inclusion bodies. The purified proteins are then reconstituted into proteoliposomes where their transport properties are studied. Thus far, we have identified the dicarboxylate, succinate-fumarate and ornithine carriers. Bacterial overexpression and functional identification, together with characterization of yeast knockout strains, has brought insight into the physiological significance of these transporters. The yeast dicarboxylate carrier sequence has been used to identify the orthologous protein in Caenorhabditis elegans and, in turn, this latter sequence has been used to establish the sequence of the human ortholog.
-
[
WormBook,
2007]
The C. elegans foregut (pharynx) has emerged as a powerful system to study organ formation during embryogenesis. Here I review recent advances regarding cell-fate specification and epithelial morphogenesis during pharynx development. Maternally-supplied gene products function prior to gastrulation to establish pluripotent blastomeres. As gastrulation gets under way, pharyngeal precursors become committed to pharyngeal fate in a process that requires PHA-4 /FoxA and the Tbox transcription factors TBX-2 , TBX-35 , TBX-37 and TBX-38 . Subsequent waves of gene expression depend on the affinity of PHA-4 for its target promoters, coupled with combinatorial strategies such as feed-forward and positive-feedback loops. During later embryogenesis, pharyngeal precursors undergo reorganization and a mesenchymal-to-epithelial transition to form the linear gut tube. Surprisingly, epithelium formation does not depend on cadherins, catenins or integrins. Rather, the kinesin ZEN-4 /MKLP1 and CYK-4 /RhoGAP are critical to establish the apical domain during epithelial polarization. Finally, I discuss similarities and differences between the nematode pharynx and the vertebrate heart.