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67-519: 54445 ENSG00000110057 ENSMUSG00000036908 Q9H1C4 Q8VCW4 NM_030930 NM_001161428 NM_019449 NP_112192 NP_001154900 NP_062322 Unc-93 homolog B1 ( C. elegans ) , also known as UNC93B1 , is a protein which in humans is encoded by the UNC93B1 gene . This gene encodes a protein with similarity to the Caenorhabditis elegans unc93 protein. The Unc93 protein

134-417: A lethargus phase occurs shortly before each moult . C. elegans has also been demonstrated to sleep after exposure to physical stress, including heat shock, UV radiation, and bacterial toxins. While the worm has no eyes, it has been found to be sensitive to light due to a third type of light-sensitive animal photoreceptor protein , LITE-1 , which is 10 to 100 times more efficient at absorbing light than

201-412: A pancreas , a liver , or even blood to deliver nutrients compared to mammals. Neutral lipids are instead stored in the intestine, epidermis, and embryos. The epidermis corresponds to the mammalian adipocytes by being the main triglyceride depot. The pharynx is a muscular food pump in the head of C.   elegans , which is triangular in cross-section. This grinds food and transports it directly to

268-415: A process that extends to the nerve ring (the "brain") for a synaptic connection with other neurons. C.   elegans has excitatory cholinergic and inhibitory GABAergic motor neurons which connect with body wall muscles to regulate movement. In addition, these neurons and other neurons such as interneurons use a variety of neurotransmitters to control behaviors. Numerous gut granules are present in

335-399: A vas deferens , and a tail specialized for mating, which incorporates spicules . Hermaphrodites have two ovaries , oviducts , and spermatheca , and a single uterus . There are 302 neurons in C.   elegans, approximately one-third of all the somatic cells in the whole body. Many neurons contain dendrites which extend from the cell to receive neurotransmitters or other signals, and

402-479: A canonical way similar to other eukaryotes, in contrast Drosophila melanogaster is noteworthy in its use of retrotransposons to maintain its telomeres, during knock-out of the catalytic subunit of the telomerase ( trt-1 ) C. elegans can gain the ability of alternative telomere lengthening (ALT). C. elegans was the first eukaryote to gain ALT functionality after knock-out of the canonical telomerase pathway. ALT

469-509: A characteristic dauer cuticle and cannot take in food. They can remain in this stage for a few months. The stage ends when conditions improve favour further growth of the larva, now moulting into the L4 stage, even though the gonad development is arrested at the L2 stage. Each stage transition is punctuated by a molt of the worm's transparent cuticle. Transitions through these stages are controlled by genes of

536-445: A diet of a variety of bacteria, but its wild ecology is largely unknown. Most laboratory strains were taken from artificial environments such as gardens and compost piles . More recently, C. elegans has been found to thrive in other kinds of organic matter, particularly rotting fruit. C. elegans can also ingest pollutants, especially tiny nanoplastics, which could enable the association with antibiotic-resistant bacteria, resulting in

603-445: A few are males. Males have specialised tails for mating that include spicules . In 1963, Sydney Brenner proposed research into C. elegans, primarily in the area of neuronal development. In 1974, he began research into the molecular and developmental biology of C. elegans , which has since been extensively used as a model organism . It was the first multicellular organism to have its whole genome sequenced , and in 2019 it

670-415: A general idea of the sex determination pathway in C. elegans , however, the evolution of how this pathway came to be is not yet well defined. The fertilized zygote undergoes rotational holoblastic cleavage . Sperm entry into the oocyte commences formation of an anterior-posterior axis. The sperm microtubule organizing center directs the movement of the sperm pronucleus to the future posterior pole of

737-430: A half. Similarly, induced degradation of an insulin/IGF-1 receptor late in life extended life expectancy of worms dramatically. Long-lived mutants of C. elegans were demonstrated to be resistant to oxidative stress and UV light . These long-lived mutants had a higher DNA repair capability than wild-type C. elegans . Knockdown of the nucleotide excision repair gene Xpa-1 increased sensitivity to UV and reduced

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804-551: A model organism, any information discovered about the way their sex determination system might have evolved could further the same evolutionary biology research in other organisms. After almost 30 years of research, scientists have begun to put together the pieces in the evolution of such a system. What they have discovered is that there is a complex pathway involved that has several layers of regulation. The closely related organism Caenorhabditis briggsae has been studied extensively and its whole genome sequence has helped put together

871-411: A single cell-death inhibitor have been identified. RNA interference (RNAi) is a relatively straightforward method of disrupting the function of specific genes. Silencing the function of a gene can sometimes allow a researcher to infer its possible function. The nematode can be soaked in, injected with, or fed with genetically transformed bacteria that express the double-stranded RNA of interest,

938-435: Is a multicellular eukaryotic organism, yet simple enough to be studied in great detail. The transparency of C. elegans facilitates the study of cellular differentiation and other developmental processes in the intact organism. The spicules in the male clearly distinguish males from females. Strains are cheap to breed and can be frozen. When subsequently thawed, they remain viable, allowing long-term storage. Maintenance

1005-466: Is also observed in about 10-15% of all clinical cancers. Thus C. elegans is a prime candidate for ALT research. Bayat et al. showed the paradoxical shortening of telomeres during trt-1 over-expression which lead to near sterility while the worms even exhibited a slight increase in lifespan, despite shortened telomeres. C. elegans is notable in animal sleep studies as the most primitive organism to display sleep-like states. In C. elegans ,

1072-438: Is at the same given position as it moves down the gonad, so is at the same stage in meiosis. In an early phase of meiosis, the oocytes become extremely resistant to radiation and this resistance depends on expression of genes rad51 and atm that have key roles in recombinational repair. Gene mre-11 also plays a crucial role in recombinational repair of DNA damage during meiosis. Furthermore, during meiosis in C. elegans

1139-508: Is attributed to the tra-1 gene. The tra-1 is a gene within the TRA-1 transcription factor sex determination pathway that is regulated post-transcriptionally and works by promoting female development. In hermaphrodites (XX), there are high levels of tra-1 activity, which produces the female reproductive system and inhibits male development. At a certain time in their life cycle, one day before adulthood, hermaphrodites can be identified through

1206-500: Is based on an X0 sex-determination system . Hermaphrodites of C. elegans have a matched pair of sex chromosomes (XX); the rare males have only one sex chromosome (X0). C. elegans are mostly hermaphroditic organisms, producing both sperms and oocytes . Males do occur in the population in a rate of approximately 1 in 200 hermaphrodites, but the two sexes are highly differentiated. Males differ from their hermaphroditic counterparts in that they are smaller and can be identified through

1273-672: Is common in the developed world and this delay is often associated with ovarian female infertility and subfertility. Ovarian aging is characterized by progressive decline of the quality and number of oocytes . This decline is likely due, in part, to reduced expression of genes that encode proteins necessary for DNA repair and meiosis . Such reduced expression can lead to increased DNA damage and errors in meiotic recombination . The testes of older men often have sperm abnormalities that can ultimately lead to male infertility . These abnormalities include accumulation of DNA damage and decreased DNA repair ability. During spermatogenesis in

1340-412: Is considered to be a specialized form of self-fertile female, as its soma is female. The hermaphroditic germline produces male gametes first, and lays eggs through its uterus after internal fertilization. Hermaphrodites produce all their sperm in the L4 stage (150 sperm cells per gonadal arm) and then produce only oocytes . The hermaphroditic gonad acts as an ovotestis with sperm cells being stored in

1407-541: Is due solely to an increase in the size of individual cells. The different Caenorhabditis species occupy various nutrient- and bacteria-rich environments. They feed on the bacteria that develop in decaying organic matter ( microbivory ). They possess chemosensory receptors which enable the detection of bacteria and bacterial-secreted metabolites (such as iron siderophores), so that they can migrate towards their bacterial prey. Soil lacks enough organic matter to support self-sustaining populations. C. elegans can survive on

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1474-426: Is easy when compared to other multicellular model organisms. A few hundred nematodes can be kept on a single agar plate and suitable growth medium. Brenner described the use of a mutant of E. coli – OP50. OP50 is a uracil -requiring organism and its deficiency in the plate prevents the overgrowth of bacteria which would obscure the worms. The use of OP50 does not demand any major laboratory safety measures, since it

1541-429: Is involved in the regulation or coordination of muscle contraction in the worm. This protein -related article is a stub . You can help Misplaced Pages by expanding it . Caenorhabditis elegans Caenorhabditis elegans ( / ˌ s iː n oʊ r æ b ˈ d aɪ t ə s ˈ ɛ l ə ɡ æ n s / ) is a free-living transparent nematode about 1 mm in length that lives in temperate soil environments. It

1608-528: Is non-pathogenic and easily grown in Luria-Bertani (LB) media overnight. The developmental fate of every single somatic cell (959 in the adult hermaphrodite; 1031 in the adult male) has been mapped. These patterns of cell lineage are largely invariant between individuals, whereas in mammals, cell development is more dependent on cellular cues from the embryo. As mentioned previously, the first cell divisions of early embryogenesis in C. elegans are among

1675-540: Is the type species of its genus. The name is a blend of the Greek caeno- (recent), rhabditis (rod-like) and Latin elegans (elegant). In 1900, Maupas initially named it Rhabditides elegans. Osche placed it in the subgenus Caenorhabditis in 1952, and in 1955, Dougherty raised Caenorhabditis to the status of genus . C. elegans is an unsegmented pseudocoelomate and lacks respiratory or circulatory systems. Most of these nematodes are hermaphrodites and

1742-533: Is unclear exactly when specifically the axis is determined. However, most theories of the L-R axis development involve some kind of differences in cells derived from the AB cell. Gastrulation occurs after the embryo reaches the 24-cell stage. C. elegans are a species of protostomes , so the blastopore eventually forms the mouth. Involution into the blastopore begins with movement of the endoderm cells and subsequent formation of

1809-536: The P4 cell, established early in embryogenesis . This primordial cell divides to generate two germline precursors that do not divide further until after hatching. The resulting daughter cells of the first cell division are called the AB cell (containing PAR-6 and PAR-3) and the P1 cell (containing PAR-1 and PAR-2). A second cell division produces the ABp and ABa cells from the AB cell, and

1876-633: The SRY gene , located on the short arm of the Y chromosome and encoding the testis determining factor , usually determines male sexual differentiation. In the absence of the SRY gene from the Y chromosome, usually the female sex (ovaries instead of testes) will develop. The development of the gonads is a part of the development of the urinary and reproductive organs . The gonads are subject to many diseases, such as hypergonadism , hypogonadism , agonadism , tumors, and cancer, among others. A delay in having children

1943-525: The anterior pituitary gland . This secretion is regulated by gonadotropin-releasing hormone (GnRH) produced in the hypothalamus . The gonads develop from three sources; the mesothelium, underlying mesenchyme and the primordial germ cells. Gonads start developing as a common primordium (an organ in the earliest stage of development), in the form of genital ridges , at the sixth week, which are only later differentiated to male or female sex organs (except when they are not differentiated). The presence of

2010-496: The dauer stage ( Dauer is German for permanent). A specific dauer pheromone regulates entry into the dauer state. This pheromone is composed of similar derivatives of the 3,6-dideoxy sugar, ascarylose . Ascarosides, named after the ascarylose base, are involved in many sex-specific and social behaviors. In this way, they constitute a chemical language that C. elegans uses to modulate various phenotypes. Dauer larvae are stress-resistant; they are thin and their mouths are sealed with

2077-422: The life span of the long-lived mutants. These findings indicate that DNA repair capability underlies longevity . The capacity to repair DNA damage by the process of nucleotide excision repair declines with age. C. elegans exposed to 5mM lithium chloride (LiCl) showed lengthened life spans. When exposed to 10μM LiCl, reduced mortality was observed, but not with 1μM. C. elegans has been instrumental in

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2144-584: The EMS and P2 cells from the P1 cell. This division establishes the dorsal-ventral axis, with the ABp cell forming the dorsal side and the EMS cell marking the ventral side. Through Wnt signaling , the P2 cell instructs the EMS cell to divide along the anterior-posterior axis. Through Notch signaling , the P2 cell differentially specifies the ABp and ABa cells, which further defines the dorsal-ventral axis. The left-right axis also becomes apparent early in embryogenesis, although it

2211-401: The adaptive benefit of recombinational repair of DNA damages that arise, especially under stressful conditions. Nicotine dependence can also be studied using C. elegans because it exhibits behavioral responses to nicotine that parallel those of mammals. These responses include acute response, tolerance, withdrawal, and sensitization. As for most model organisms, scientists that work in

2278-459: The addition of a vulva near their tail. In males (XO), there are low levels of tra-1 activity, resulting in a male reproductive system. Recent research has shown that there are three other genes, fem-1, fem-2, and fem-3, that negatively regulate the TRA-1 pathway and act as the final determiner of sex in C. elegans . The sex determination system in C. elegans is a topic that has been of interest to scientists for years. Since they are used as

2345-413: The best understood examples of asymmetric cell divisions , and the worm is a very popular model system for studying developmental biology. Programmed cell death ( apoptosis ) eliminates many additional cells (131 in the hermaphrodite, most of which would otherwise become neurons ); this "apoptotic predictability" has contributed to the elucidation of some apoptotic genes . Cell death-promoting genes and

2412-452: The body cavity of the animal induces gene silencing in most species, only C. elegans and a few other distantly related nematodes can take up RNA from the bacteria they eat for RNAi. This ability has been mapped down to a single gene, sid-2 , which, when inserted as a transgene in other species, allows them to take up RNA for RNAi as C. elegans does. Research into meiosis has been considerably simplified since every germ cell nucleus

2479-477: The body, the animal is propelled forwards. Because of this dorsal/ventral bias in body bends, any normal living, moving individual tends to lie on either its left side or its right side when observed crossing a horizontal surface. A set of ridges on the lateral sides of the body cuticle, the alae, is believed to give the animal added traction during these bending motions. In relation to lipid metabolism, C.   elegans does not have any specialized adipose tissues,

2546-410: The connectome of the male was published using a technique distinct from that used for the hermaphrodite. The same paper used the new technique to redo the hermaphrodite connectome, finding 1,500 new synapses. It has been used as a model organism to study molecular mechanisms in metabolic diseases. Brenner also chose it as it is easy to grow in bulk populations, and convenient for genetic analysis. It

2613-937: The dissemination of nanoplastics and antibiotic-resistant bacteria by C. elegans across the soil. C. elegans can also use different species of yeast , including Cryptococcus laurentii and C. kuetzingii , as sole sources of food. Although a bacterivore , C. elegans can be killed by a number of pathogenic bacteria, including human pathogens such as Staphylococcus aureus , Pseudomonas aeruginosa , Salmonella enterica or Enterococcus faecalis . Pathogenic bacteria can also form biofilms, whose sticky exopolymer matrix could impede C. elegans motility and cloaks bacterial quorum sensing chemoattractants from predator detection. Invertebrates such as millipedes , insects , isopods , and gastropods can transport dauer larvae to various suitable locations. The larvae have also been seen to feed on their hosts when they die. Nematodes can survive desiccation , and in C. elegans ,

2680-480: The embryo, while also inciting the movement of PAR proteins , a group of cytoplasmic determination factors, to their proper respective locations. As a result of the difference in PAR protein distribution, the first cell division is highly asymmetric . C. elegans embryogenesis is among the best understood examples of asymmetric cell division. All cells of the germline arise from a single primordial germ cell , called

2747-636: The field curate a dedicated online database and WormBase is that for C. elegans . The WormBase attempts to collate all published information on C. elegans and other related nematodes. Information on C. elegans is included with data on other model organisms in the Alliance of Genome Resources. C. elegans has been a model organism for research into ageing ; for example, the inhibition of an insulin-like growth factor signaling pathway has been shown to increase adult lifespan threefold; while glucose feeding promotes oxidative stress and reduces adult lifespan by

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2814-530: The form of spermatozoa . The female gonad, the ovary , produces egg cells. Both of these gametes are haploid cells. Some hermaphroditic animals (and some humans ‍ — see Ovotesticular syndrome ) have a type of gonad called an ovotestis . It is hard to find a common origin for gonads, but gonads most likely evolved independently several times. The gonads are controlled by luteinizing hormone (LH) and follicle-stimulating hormone (FSH), produced and secreted by gonadotropes or gonadotrophins in

2881-600: The gut, followed by the P4 germline precursor, and finally the mesoderm cells, including the cells that eventually form the pharynx. Gastrulation ends when epiboly of the hypoblasts closes the blastopore. Under environmental conditions favourable for reproduction , hatched larvae develop through four larval stages - L1, L2, L3, and L4 - in just 3 days at 20 °C. When conditions are stressed, as in food insufficiency, excessive population density or high temperature, C. elegans can enter an alternative third larval stage, L2d, called

2948-414: The hermaphrodite, this system comprises 302 neurons the pattern of which has been comprehensively mapped, in what is known as a connectome , and shown to be a small-world network . Research has explored the neural and molecular mechanisms that control several behaviors of C. elegans , including chemotaxis , thermotaxis , mechanotransduction , learning , memory , and mating behaviour. In 2019

3015-405: The heterochronic pathway, an evolutionarily conserved set of regulatory factors. Many heterochronic genes code for microRNAs , which repress the expression of heterochronic transcription factors and other heterochronic miRNAs. miRNAs were originally discovered in C. elegans. Important developmental events controlled by heterochronic genes include the division and eventual syncitial fusion of

3082-437: The hypodermic seam cells, and their subsequent secretion of the alae in young adults. It is believed that the heterochronic pathway represents an evolutionarily conserved predecessor to circadian clocks . Some nematodes have a fixed, genetically determined number of cells, a phenomenon known as eutely . The adult C. elegans hermaphrodite has 959 somatic cells and the male has 1033 cells, although it has been suggested that

3149-585: The identification of the functions of genes implicated in Alzheimer's disease , such as presenilin . Moreover, extensive research on C. elegans has identified RNA-binding proteins as essential factors during germline and early embryonic development. Telomeres , the length of which have been shown to correlate with increased lifespan and delayed onset of senescence in a multitude of organisms, from C. elegans to humans, show an interesting behaviour in C. elegans. While C. elegans maintains its telomeres in

3216-454: The intestine of C.   elegans , the functions of which are still not fully known, as are many other aspects of this nematode, despite the many years that it has been studied. These gut granules are found in all of the Rhabditida orders. They are very similar to lysosomes in that they feature an acidic interior and the capacity for endocytosis , but they are considerably larger, reinforcing

3283-455: The intestine, and is seen in both young and old worms, whether subjected to lethal injury or peacefully dying of old age. Many theories have been posited on the functions of the gut granules, with earlier ones being eliminated by later findings. They are thought to store zinc as one of their functions. Recent chemical analysis has identified the blue fluorescent material they contain as a glycosylated form of anthranilic acid (AA). The need for

3350-399: The intestine. A set of "valve cells" connects the pharynx to the intestine, but how this valve operates is not understood. After digestion, the contents of the intestine are released via the rectum, as is the case with all other nematodes. No direct connection exists between the pharynx and the excretory canal, which functions in the release of liquid urine. Males have a single-lobed gonad,

3417-507: The intestines of C. elegans . Arthrobotrys oligospora is the model organism for interactions between fungi and nematodes. It is the most common and widespread nematode capturing fungus. In 1963, Sydney Brenner proposed using C. elegans as a model organism for the investigation primarily of neural development in animals. It is one of the simplest organisms with a nervous system . The neurons do not fire action potentials , and do not express any voltage-gated sodium channels . In

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3484-488: The large amounts of AA the many gut granules contain is questioned. One possibility is that the AA is antibacterial and used in defense against invading pathogens. Another possibility is that the granules provide photoprotection; the bursts of AA fluorescence entail the conversion of damaging UV light to relatively harmless visible light. This is seen as a possible link to the melanin –containing melanosomes . The hermaphroditic worm

3551-593: The mechanism for this capability has been demonstrated to be late embryogenesis abundant proteins . C. elegans , as other nematodes, can be eaten by predator nematodes and other omnivores, including some insects. The Orsay virus is a virus that affects C. elegans , as well as the Caenorhabditis elegans Cer1 virus and the Caenorhabditis elegans Cer13 virus . Wild isolates of Caenorhabditis elegans are regularly found with infections by Microsporidia fungi. One such species, Nematocida parisii , replicates in

3618-485: The missing pieces in the evolution of C. elegans sex determination. It has been discovered that two genes have assimilated, leading to the proteins XOL-1 and MIX-1 having an effect on sex determination in C. elegans as well. Mutations in the XOL-1 pathway leads to feminization in C. elegans . The mix-1 gene is known to hypoactivate the X chromosome and regulates the morphology of the male tail in C. elegans. Looking at

3685-419: The muscles to move the animal's body only as dorsal bending or ventral bending, but not left or right, except for the head, where the four muscle quadrants are wired independently from one another. When a wave of dorsal/ventral muscle contractions proceeds from the back to the front of the animal, the animal is propelled backwards. When a wave of contractions is initiated at the front and proceeds posteriorly along

3752-505: The nematode as a whole, the male and hermaphrodite sex likely evolved from parallel evolution. Parallel evolution is defined as similar traits evolving from an ancestor in similar conditions; simply put, the two species evolve in similar ways over time. An example of this would be marsupial and placental mammals. Scientists have also hypothesized that hermaphrodite asexual reproduction, or "selfing", could have evolved convergently by studying species similar to C. elegans Other studies on

3819-400: The number of their intestinal cells can increase by one to three in response to gut microbes experienced by mothers. Much of the literature describes the cell number in males as 1031, but the discovery of a pair of left and right MCM neurons increased the number by two in 2015. The number of cells does not change after cell division ceases at the end of the larval period, and subsequent growth

3886-400: The other two types of photopigments ( opsins and cryptochromes ) found in the animal kingdom. Gonad A gonad , sex gland , or reproductive gland is a mixed gland and sex organ that produces the gametes and sex hormones of an organism. Female reproductive cells are egg cells , and male reproductive cells are sperm . The male gonad, the testicle , produces sperm in

3953-413: The same area of the gonad as the oocytes until the first oocyte pushes the sperm into the spermatheca (a chamber wherein the oocytes become fertilized by the sperm). The male can inseminate the hermaphrodite, which will preferentially use male sperm (both types of sperm are stored in the spermatheca). The sperm of C. elegans is amoeboid, lacking flagella and acrosomes . When self-inseminated,

4020-419: The same organ systems as larger animals. About one in a thousand individuals is male and the rest are hermaphrodites. The basic anatomy of C.   elegans includes a mouth, pharynx , intestine , gonad , and collagenous cuticle. Like all nematodes, they have neither a circulatory nor a respiratory system. The four bands of muscles that run the length of the body are connected to a neural system that allows

4087-433: The sequence of which complements the sequence of the gene that the researcher wishes to disable. RNAi has emerged as a powerful tool in the study of functional genomics. C. elegans has been used to analyse gene functions and claim the promise of future findings in the systematic genetic interactions. Environmental RNAi uptake is much worse in other species of worms in the genus Caenorhabditis . Although injecting RNA into

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4154-487: The sex determination evolution suggest that genes involving sperm evolve at the faster rate than female genes. However, sperm genes on the X chromosome have reduced evolution rates. Sperm genes have short coding sequences, high codon bias, and disproportionate representation among orphan genes . These characteristics of sperm genes may be the reason for their high rates of evolution and may also suggest how sperm genes evolved out of hermaphrodite worms. Overall, scientists have

4221-571: The shape of their tail. C.elegans reproduce through a process called androdioecy . This means that they can reproduce in two ways: either through self-fertilization in hermaphrodites or through hermaphrodites breeding with males. Males are produced through non-disjunction of the X chromosomes during meiosis. The worms that reproduce through self-fertilization are at risk for high linkage disequilibrium , which leads to lower genetic diversity in populations and an increase in accumulation of deleterious alleles. In C. elegans , somatic sex determination

4288-533: The tumor suppressor BRCA1 /BRC-1 and the structural maintenance of chromosomes SMC5 / SMC6 protein complex interact to promote high fidelity repair of DNA double-strand breaks . A study of the frequency of outcrossing in natural populations showed that selfing is the predominant mode of reproduction in C. elegans , but that infrequent outcrossing events occur at a rate around 1%. Meioses that result in selfing are unlikely to contribute significantly to beneficial genetic variability, but these meioses may provide

4355-413: The view of their being storage organelles. A particular feature of the granules is that when they are observed under ultraviolet light , they react by emitting an intense blue fluorescence . Another phenomenon seen is termed 'death fluorescence'. As the worms die, a dramatic burst of blue fluorescence is emitted. This death fluorescence typically takes place in an anterior to posterior wave that moves along

4422-409: The wild-type worm lays about 300 eggs. When inseminated by a male, the number of progeny can exceed 1,000. Hermaphrodites do not typically mate with other hermaphrodites. At 20 °C, the laboratory strain of C. elegans (N2) has an average lifespan around 2–3 weeks and a generation time of 3 to 4 days. C. elegans has five pairs of autosomes and one pair of sex chromosomes . Sex in C. elegans

4489-417: Was the first organism to have its connectome (neuronal "wiring diagram") completed. Four Nobel prizes have been won (as of 2024) for work done on C. elegans. C.   elegans is unsegmented , vermiform , and bilaterally symmetrical . It has a cuticle (a strong outer covering, as an exoskeleton ), four main epidermal cords, and a fluid-filled pseudocoelom (body cavity). It also has some of

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