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Yi Chuan,
2017]
Caenorhabditis elegans is one of the most important model organisms in the study of biology. It is ideal for laboratory teaching due to its short life cycle and low cost. It enriches the teaching content and can motivate students' interest of learning. In this article, we have shown cased C. elegans for the observation of life cycle and mating, as well as the investigation of single nucleotide polymorphism (SNP) and RNA interfere. In addition, we also discuss the details of the experimental design, basic requirement, preparations and related information. We conclude that C. elegans can be used as the experimental materials for teaching college laboratory courses, such as genetic, cell biology, model biology and developmental biology.
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ILAR J,
2011]
Invertebrate species have been used for many years in the laboratory and teaching environment. We discuss some of the most commonly maintained invertebrates--the nematode (Caenorhabditis elegans), the California sea hare (Aplysia californica), the fruit fly (Drosophila melanogaster), terrestrial hermit crabs, the horseshoe crab (Limulus polyphemus), and cephalopods--and briefly describe general techniques for culturing them in captivity. The aim of this article is to give potential users an idea of the materials, methods, and effort required to maintain each type of organism in a laboratory or classroom setting.
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Parasitol Res,
2003]
The nematocidal activity of a broad-spectrum antiparasitic agent, nitazoxanide [( N-(5-nitrothiazol-2-gammal)salicylamide; NTZ], was evaluated in both in vitro and in vivo models using Caenorhabditis elegans, Heligmosomoides polygyrus and Trichinella spiralis. In vitro, NTZ (100 microM) exhibited a low activity against C. elegans and had no effect on embryonation and hatching of H. polygyrus eggs. At concentrations of 100 and 50 microM, the inhibition of excretion/secretion of acetylcholinesterase and acid phosphatase of adult H. polygyrus by NTZ was variable. The in vitro effects of mebendazole (5 microM), albendazole (1 microM) and levamisole (10 microM) were superior to those of NTZ. In mice, NTZ at 1 g/kg proved to be inactive against preadults of T. spiralis whereas mebendazole at 10 mg/kg reduced the worm burden by up to 83%. NTZ at 1 g/kg per day for 3 consecutive days showed a low activity against adults of H. polygyrus (21% reduction). Levamisole, at a single dose of 10 mg/kg, reduced the worm burden by up to 89.9%. The results of this study suggest that NTZ would not have met criteria of a candidate compound.
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J Vis Exp,
2016]
The use of genetic model organisms such as Caenorhabditis elegans has led to seminal discoveries in biology over the last five decades. Most of what we know about C. elegans is limited to laboratory cultivation of the nematodes that may not necessarily reflect the environments they normally inhabit in nature. Cultivation of C. elegans in a 3D habitat that is more similar to the 3D matrix that worms encounter in rotten fruits and vegetative compost in nature could reveal novel phenotypes and behaviors not observed in 2D. In addition, experiments in 3D can address how phenotypes we observe in 2D are relevant for the worm in nature. Here, a new method in which C. elegans grows and reproduces normally in three dimensions is presented. Cultivation of C. elegans in Nematode Growth Tube-3D (NGT-3D) can allow us to measure the reproductive fitness of C. elegans strains or different conditions in a 3D environment. We also present a novel method, termed Nematode Growth Bottle-3D (NGB-3D), to cultivate C. elegans in 3D for microscopic analysis. These methods allow scientists to study C. elegans biology in conditions that are more reflective of the environments they encounter in nature. These can help us to understand the overlying evolutionary relevance of the physiology and behavior of C. elegans we observe in the laboratory.
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Chemosphere,
2022]
Ecological risk assessments of chemicals are frequently based on laboratory toxicity data from a small number of model species that may be reared in labs for years or decades. These populations can undergo many processes in the lab including artificial selection, founder effect, and genetic drift, and may not adequately represent their wild counterparts, potentially undermining the goal of protecting natural populations. Here we measure variation in lethality to copper chloride among strains of an emerging model species in toxicology, Caenorhabditis elegans. We tested four wild strains from Chile, Germany, Kenya, and Madeira (Portugal) against several versions of the standard laboratory N2 strain from Bristol, UK used in molecular biology. The four wild strains were more sensitive than any of the N2 strains tested with copper. We also found that the standard N2 strain cultured in the laboratory for >1 year was less sensitive than a recently cultured N2 strain as well as a cataloged ancestral version of the N2 strain. These results suggest that toxicologists should be cognizant of performing toxicity testing with long-held animal cultures, and should perhaps use multiple strains as well as renew cultures periodically in the laboratory. This study also shows that multi-strain toxicity testing with nematodes is highly achievable and useful for understanding variation in intra- and interspecific chemical sensitivity.
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Methods Mol Biol,
2022]
This chapter provides practical guidance for scientists starting or reorganizing a C. elegans research group. This includes advice on joining the C. elegans community, on setting up the laboratory for C. elegans work, and on putting into place effective strategies for running a productive and inclusive research group. Also discussed are strategies for managing the group, standard practices in the C. elegans field, lists of resources, and several sample handouts for new research group members.
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J Nematol,
2008]
Species of the Caenorhabditis genus have been used as model systems in genetics and molecular research for more than 30 years. Despite this, basic information about their demography, in the wild and in the lab, has remained unknown until very recently. Here, we provide for the first time a closely quantified life-cycle of the gonochoristic nematode C. remanei. Using C. elegans protocols, modified for an outcrossing nematode, we estimated the basic demography for individuals of two strains (JU724 and MY12-G) which were recently isolated from the wild. We used a half-sib breeding design to estimate the phenotypic variance of traits of related (within line) and unrelated individuals (between lines) of the two strains cultured in a common environment in the lab. Comparisons between these strains showed that JU724 was characterized by significantly lower overall lifetime fecundity and by differences in age-specific fecundity relative to MY12-G, but there were no differences in their life expectancy and reproductive lifespan. We found high phenotypic variance among all traits. The variance within lines was relatively high compared to the low variation between lines. We suggest this could be the result of high gene flow in these wild-type strains. Finally, comparisons between species suggest that, despite the differences in reproductive strategies (i.e., sex ratios, lifetime fecundity), C. remanei has developmental time similar to the hermaphroditic N2 strain of C. elegans.
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Parasit Vectors,
2019]
BACKGROUND: Helminthiases are very prevalent worldwide, yet their treatment and control rely on a handful of drugs. Emodepside, a marketed broad-spectrum veterinary anthelminthic with a unique mechanism of action, undergoing development for onchocerciasis is an interesting anthelmintic drug candidate. We tested the in vitro and in vivo activity of emodepside on nematode species that serve as models for human soil-transmitted helminth infection as well as on schistosomes. METHODS: In vitro viability assays were performed over a time course of 72 hours for Trichuris muris, Necator americanus, Ancylostoma ceylanicum, Heligmosomoides polygyrus, Strongyloides ratti, Schistosoma mansoni and Schistosoma haematobium. The drug effect was determined by the survival rate for the larvae and by phenotypical scores for the adult worms. Additionally, mice infected with T. muris and hamsters harboring hookworm infection (N. americanus or A. ceylanicum) were administered orally with emodepside at doses ranging from 1.25 to 75mg/kg. Expelled worms in the feces were counted until 3days post-drug intake and worms residing in the intestines were collected and counted after dissection. RESULTS: : 30-50M). CONCLUSIONS: Emodepside is highly active against a broad range of nematode species both in vitro and in vivo. The development of emodepside for treating soil-transmitted helminth infections should be pursued.
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CBE Life Sci Educ,
2009]
RNA interference (RNAi) is a powerful method to silence gene expression in a variety of organisms and is generating interest not only as a useful tool for research scientists but also as a novel class of therapeutics in clinical trials. Here, we report that undergraduate and graduate students with a basic molecular biology background were able to demonstrate conceptual knowledge and technical skills for using RNAi as a research tool upon completion of an intensive 8-wk RNAi course with a 2-h lecture and 5-h laboratory per week. Students were instructed on design of RNAi experiments in model organisms and perform multiweek laboratory sessions based on journal articles read and discussed in class. Using Nicotiana benthamiana, Caenorhabditis elegans, and mammalian cell culture, students analyzed the extent of silencing using both qualitative assessment of phenotypic variations and quantitative measurements of RNA levels or protein levels. We evaluated the course over two semesters, each with a separate instructor. In both semesters, we show students met expected learning outcomes as demonstrated by successful laboratory experiment results, as well as positive instructor assessments of exams and lab reports. Student self-assessments revealed increased confidence in conceptual knowledge and practical skills. Our data also suggest that the course is adaptable to different instructors with varying expertise.
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Exp Parasitol,
2002]
Standard, immunocompetent, inbred strains of mice are non-permissive for infection with the human filarial nematode, Brugia malayi or the closely related Brugia pahangi. This non-permissiveness allows one to address the mechanism(s) that might be used by mammalian hosts to eliminate large, multicellular, metazoan, extracellular invertebrate pathogens. We describe here the time course of intraperitoneal Brugian infections in naive and primed +/+ mice from two commonly used, inbred laboratory strains (C57BL/6J and BALB/cByJ). We believe that this documentation of the course of infection in normal mice will serve as a reference for future studies using mice with gene-targeted immunological deficits or which have been pharmacologically or immunologically manipulated to manifest such deficits. Our data show that even though both strains of mice eliminate the parasite before the onset of patency, there are significant differences in the time course of infection and in the fractions of input larvae that can be recovered at any time after infection. In a secondary infection, the time course of elimination is accelerated. We examined the cells in the peritoneal cavity, the site of infection, by flow microfluorimetry using forward and side scatter properties and cell surface antigen expression using fluorescent antibodies. These studies reveal a complex cellular pattern, predominated by B lymphocytes, macrophages, and eosinophils. The most notable gross morphological findings at necropsy during the phase of elimination of the parasite are nodules of tissue containing larvae, which appear viable in some cases and undergoing various stages of disintegration in others. These nodules, which are histologically granulomas, are primarily composed of macrophages and eosinophils, with few if any lymphocytes. Transmission electron micrographs reveal that eosinophils can penetrate under the cuticles of the larvae and be seen in close approximation with internal structures. These granulomas may represent an important mechanism by which worms are eliminated.