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Trends Genet,
2001]
Four recent papers mark a major shift in functional genomic analysis for multicellular organisms. RNA-mediated interference was applied to inactivate individual genes systematically on a genomic scale. These studies subjected a third of the genes in the genome of Caenorhabditis elegans to reverse genetic analysis.
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Mol Cell,
2004]
Applying a combination of innovative approaches to understanding neuronal gene regulation in C. elegans, an article in the latest Developmental Cell (Wenick and Hobert, 2004) gives hope that reading the genome''s transcriptional regulatory code may one day be possible.
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Curr Opin Immunol,
2012]
Intestinal epithelial cells provide an essential line of defense for Caernohabditis elegans against ingested pathogens. Because nematodes consume microorganisms as their food source, there has presumably been selection pressure to evolve and maintain immune defense mechanisms within the intestinal epithelium. Here we review recent advances that further define the immune signaling network within these cells and suggest mechanisms used by the nematode to monitor for infection. In reviewing studies of pathogenesis that use this simple model system, we hope to illustrate some of the basic principles of epithelial immunity that may also be of relevance in higher order hosts.
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Ann N Y Acad Sci,
1959]
As consulting editor, I saw and now take the opportunity to amalgamate concepts scattered in the papers that follow. My hope also is to bring a certain unity to the heterogeneous studies contributed by the imaginative and resourceful workers who created the program of the conference on which this monograph is based. Axenic cultivation, the rearing of one or more individuals of a single species on a nonliving medium, dominates microbiology. Axenic cultures, usually referred to as "pure cultures", are fundamental to identification of many protists (bacteria, algae, fungi, and protozoa) and to their exploitation in research...
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Nat Rev Genet,
2007]
Since its establishment as a model organism, Caenorhabditis elegans has been an invaluable tool for biological research. An immense spectrum of questions can be addressed using this small nematode, making it one of the most versatile and exciting model organisms. Although the many tools and resources developed by the C. elegans community greatly facilitate new discoveries, they can also overwhelm newcomers to the field. This Review aims to familiarize new worm researchers with the main resources, and help them to select the tools that are best suited for their needs. We also hope that it will be helpful in identifying new research opportunities and will promote the development of additional resources.
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Methods Cell Biol,
2012]
This chapter is dedicated to the study of aging in Caenorhabditis elegans (C. elegans). The assays are divided into two sections. In the first section, we describe detailed protocols for performing life span analysis in solid and liquid medium. In the second section, we describe various assays for measuring age-related changes. Our laboratory has been involved in several fruitful collaborations with non-C. elegans researchers keen on testing a role for their favorite gene in modulating aging (Carrano et al., 2009; Dong et al., 2007; Raices et al., 2008; Wolff et al., 2006). But even with the guidance of trained worm biologists, this undertaking can be daunting. We hope that this chapter will serve as a worthy compendium for those researchers who may or may not have immediate access to laboratories studying C. elegans.
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Cell Mol Life Sci,
2000]
The cotransport of protons and peptides is now recognised as a major route by which dietary nitrogen is absorbed from the intestine, and filtered protein reabsorbed in the kidney. Recently, molecular biology has had a very substantial impact on the study of peptide transport, and here we review the molecular and functional information available within the framework of physiology. To this end we consider not only the mammalian peptide transporters and their tissue distribution and regulation but also those from other species (including Caenorhabditis elegans) which make up the proton-dependent oligopeptide transport superfamily. In addition, understanding the binding requirements for transported substrates may allow future design and targeted tissue delivery of peptide and peptidomimetic drugs. Finally, we aim to highlight some of the less well understood areas of peptide transport, in the hope that it will stimulate further research into this challenging yet exciting topic.
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Blood Cells Mol Dis,
2009]
Runt-related (RUNX) transcription factors are evolutionarily conserved regulators of cell proliferation, differentiation and stem cell maintenance. They are critical for the correct development and function of a variety of human tissues, including during haematopoiesis. RUNX genes regulate various aspects of proliferation control, stem cell maintenance, lineage commitment and regulation of differentiation; disruptions in the correct function of RUNX genes have been associated with human pathologies, most prominently cancer. Because of the high context dependency and partial redundancy of vertebrate RUNX genes, invertebrate model systems have been studied in the hope of finding an ancestral function. Here we review the progress of these studies in three invertebrate systems, the fruit fly Drosophila melanogaster, the sea urchin Strongylocentrotus purpuratus and the nematode Caenorhabditis elegans. All essential aspects of RUNX function in vertebrates have counterparts in invertebrates, confirming the usefulness of these studies in simpler organisms. The fact that not all RUNX functions are conserved in all systems, though, underscores the importance of choosing the right model to ask specific questions.
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Parasite Immunol,
2012]
Filarial infections remain a major public health and socio-economic problem across the tropics, despite considerable effort to reduce disease burden or regionally eliminate the infection with mass drug administration programmes. The sustainability of these programmes is now open to question owing to a range of issues, not least of which is emerging evidence for drug resistance. Vaccination, if developed appropriately, remains the most cost-effective means of long-term disease control. The rationale for the feasibility of vaccination against filarial parasites including onchocerciasis (river blindness, Onchocerca volvulus) and lymphatic filariasis (Wuchereria bancrofti or Brugia malayi) is founded on evidence from both humans and animal models for the development of protective immunity. Nonetheless, enormous challenges need to be faced in terms of overcoming parasite-induced suppression without inducing pathology as well as the need to both recognize and tackle evolutionary and ecological obstacles to successful vaccine development. Nonetheless, new technological advances in addition to systems biology approaches offer hope that optimal immune responses can be induced that will prevent infection, disease and/or transmission.
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Drugs,
1991]
Ivermectin, a derivative of avermectin B, is an orally effective microfilaricidal agent. It is the current drug of choice for treating patients infected with the nematode Onchocerca volvulus, which is a major cause of blindness in inhabitants of some tropical areas. Ivermectin is administered orally as a single dose of 150 micrograms/kg given annually. Skin and ocular microfilarial counts are dramatically reduced after the first dose, with some evidence for a resulting decrease in transmission of infection by the blackfly vector. With the exception of rare serious reactions such as severe systemic postural hypotension, ivermectin is generally well tolerated. The drug has the clear advantages of ease of administration and better tolerability compared with diethylcarbamazine and suramin, agents previously used to treat onchocerciasis. Thus, ivermectin is suitable for inclusion in mass treatment programmes and is the best therapeutic option presently available to combat onchocerciasis. As such it provides hope for many thousands of people at risk of becoming blind, and represents a major contribution to tropical medicine.