Caenorhabditis elegans, model nematode
Download this page in pdf format (new!)
- Taxonomy
- Brief facts
- Developmental stages
- Appendix 1: phenotypes analyzed in C. elegans
- Appendix 2: C. elegans body length mutants
- References
Taxonomy
cellular organisms - Eukaryota - Fungi/Metazoa group - Metazoa - Eumetazoa - Bilateria - Pseudocoelomata - Nematoda - Chromadorea - Rhabditida - Rhabditoidea - Rhabditidae - Peloderinae - Caenorhabditis - Caenorhabditis elegans
Back to top
Brief facts
- Caenorhabditis elegans is a free-living nematode, about 1 mm in length. In the wild this species live in soil feeding on bacteria that develop on decaying vegetal matter.
- Similar to other nematodes, C. elegans has an unsegmented, cylindrical body shape that is tapered at the ends. Body of typical nematode consists of an outer tube and an inner tube separated from each other by the pseudocoelomic space. The outer tube (body wall) consists of cuticle, hypodermis, excretory system, neurons and muscles, and the inner tube contains the pharynx, intestine and, in the adult, gonad.
- Caenorhabditis elegans is used extensively as a model organism since 1974 and it became first organism which genome was completely sequenced.
- Predominant sex form of the species is hermaphrodite. Pure male worms constitute about 0.05% of the total population.
Developmental stages (life cycle)
Life Cycle StagesThe nematode's life cycle, from a single-cell egg to an adult, takes about 2 1/2 days at 25°C, and 6 days at 15°C. The total life-span of a worm under the best growth conditions is about 12 to 18 days at 20°C.
- egg
- unfertilized egg
- fertilized egg egg is laid after being fertilized inside the mother and takes about 15 hours to develop; the worms are self- and cross- fertile; pattern of embryonic development is invariable from worm to worm; every one of the 556 cells that make up the newly-hatched larva develops from a rigid pattern of mitotic division leading back to the zygote
- hatching
- larval
MeSH
each larval stage looks similar to the adult, only smaller
- L1 larva
- molting
- L2 larva
- molting
- L3 larva
- molting
- L4 larva hermaphrodites produce sperm during the L4 stage
- 4th molting
- Dauer larva a developmentally arrested dispersal stage that may be formed under conditions of starvation or overcrowding
- adult
Appendix 1: phenotypes analyzed in C. elegans
Kwok TC, Hui K, Kostelecki W, Ricker N, Selman G, Feng ZP, Roy PJ. A genetic screen for dihydropyridine (DHP)-resistant worms reveals new residues required for DHP-blockage of mammalian calcium channels. PLoS Biol. 2008 Nov 18;6(11):e278.
Comparisons of the phenotypes analyzed in C. elegans. (A) An N2 adult showing wild-type length and number of embryos (arrow). (B) An egl-19(tr89) adult is approximately wild-type in length and contains fewer embryos (arrow). (C) A him-5(e1490) adult male showing wild-type tail morphology with the spicules in the normal retracted position (arrowhead). (D) An egl-19(tr89) adult male often has spicules that are constantly protracted (arrowhead). All pictures are of animals raised on 0.33% DMSO as L4s. Scale bars, 50 µm.
Back to top
Appendix 2: C. elegans body length mutants
Mörck C, Pilon M. C. elegans feeding defective mutants have shorter body lengths and increased autophagy. BMC Dev Biol. 2006 Aug 3;6:39.
Photographs of N2, dbl-1, pha-2 and dbl-1;pha-2 representative animals. Note that while the pha-2 and dbl-1 animals are of approximately the same length, the pha-2 is comparatively thinner. Note also that the double mutant is remarkably short and with a body width similar to that of the pha-2 single mutant. All worms were developmentally age-matched to 48 hours post L4 stage.
Back to top
References
Websites
Back to top
Please link to this page using the code in the text area. In return, we will link to your page. Please contact us by email below. Please note, however, that from this page, we can only link to sites about similar organisms. Other organisms can be found at www.MetaPathogen.com, www.MetaMicrobe.com, and www.GeoChemBio.com.
