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[
Molecules,
2023]
Pheromones are chemical signals secreted by one individual that can affect the behaviors of other individuals within the same species. Ascaroside is an evolutionarily conserved family of nematode pheromones that play an integral role in the development, lifespan, propagation, and stress response of nematodes. Their general structure comprises the dideoxysugar ascarylose and fatty-acid-like side chains. Ascarosides can vary structurally and functionally according to the lengths of their side chains and how they are derivatized with different moieties. In this review, we mainly describe the chemical structures of ascarosides and their different effects on the development, mating, and aggregation of nematodes, as well as how they are synthesized and regulated. In addition, we discuss their influences on other species in various aspects. This review provides a reference for the functions and structures of ascarosides and enables their better application.
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J Cell Biochem,
2013]
microRNA (miRNA) is a family of small, non-coding RNA first discovered as an important regulator of development in Caenorhabditis elegans (C. elegans). Numerous miRNAs have been found in C. elegans, and some of them are well conserved in many organisms. Though, the biologic function of miRNAs in C. elegans was largely unknown, more and more studies support the idea that miRNA is an important molecular for C. elegans. In this review, we revisit the research progress of miRNAs in C. elegans related with development, aging, cancer, and neurodegenerative diseases and compared the function of miRNAs between C. elegans and human.
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Curr Biol,
2005]
Aurora B kinases play important roles during mitosis in eukaryotic cells; new work in Caenorhabditis elegans has identified the Tousled kinase TLK-1 as a substrate activator of the model nematode''''s Aurora B kinase AIR-2 which acts to ensure proper chromosome segregation during
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Journal of Gerontology,
1998]
Vanfleteren and colleagues present an interesting example of environmental conditions altering the kinetics of survival. Most previous studies of survival in C. elegans have used abundant bacteria as a food source. Such studies have found that the Gompertz function (exponential growth in mortality rate with age) gives a relatively good fit to survival curves, but that there is some deceleration in the rate of growth of mortality later in the life span. Yulong Yang and I have completed dozens of studies of small populations of the wild-type strain, N2, as well as strains TJ401, TJ411, TJ412,and BA713 in the presence of abundant bacteria in liquid or on agar. Survival curves were better fit by Gompertz more often than by Weibull or logistic functions (unpublished observations).
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Genetics,
2019]
The <b>T</b>arget <b>o</b>f <b>R</b>apamycin (TOR or mTOR) is a serine/threonine kinase that regulates growth, development, and behaviors by modulating protein synthesis, autophagy, and multiple other cellular processes in response to changes in nutrients and other cues. Over recent years, TOR has been studied intensively in mammalian cell culture and genetic systems because of its importance in growth, metabolism, cancer, and aging. Through its advantages for unbiased, and high-throughput, genetic and <i>in vivo</i> studies, <i>Caenorhabditis elegans</i> has made major contributions to our understanding of TOR biology. Genetic analyses in the worm have revealed unexpected aspects of TOR functions and regulation, and have the potential to further expand our understanding of how growth and metabolic regulation influence development. In the aging field, <i>C. elegans</i> has played a leading role in revealing the promise of TOR inhibition as a strategy for extending life span, and identifying mechanisms that function upstream and downstream of TOR to influence aging. Here, we review the state of the TOR field in <i>C. elegans</i>, and focus on what we have learned about its functions in development, metabolism, and aging. We discuss knowledge gaps, including the potential pitfalls in translating findings back and forth across organisms, but also describe how TOR is important for <i>C. elegans</i> biology, and how <i>C. elegans</i> work has developed paradigms of great importance for the broader TOR field.
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[
Trends in Cell Biology,
1996]
Cellular microtubules assemble and disassemble at a variety of rates and frequencies, and these properties contribute directly to the cell-cycle-associated rearrangements of the microtubule cytoskeleton and to the molecular basis of mitosis. The kinetics of assembly/disassembly are governed, in part, by the hydrolysis of GTP bound to the B-tubulin nucleotide-binding site. The B-tubulin GTP-binding site, therefore, lies at the heart of microtubule assembly-disassembly kinetics, and the elucidation of its structure is central to an understanding of the cellular behaviour of microtubules. Unfortunately, the crystallographic structure of B-tubulin is not yet available. In this review, we describe the progress being made using mutagenesis and biochemical studies to understand the structure of this unusual GTP-binding site.
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Microbiol Mol Biol Rev,
2021]
SUMMARYExtensive use of chemical insecticides adversely affects both environment and human health. One of the most popular biological pest control alternatives is bioinsecticides based on <i>Bacillus thuringiensis</i> This entomopathogenic bacterium produces different protein types which are toxic to several insect, mite, and nematode species. Currently, insecticidal proteins belonging to the Cry and Vip3 groups are widely used to control insect pests both in formulated sprays and in transgenic crops. However, the benefits of <i>B. thuringiensis</i>-based products are threatened by insect resistance evolution. Numerous studies have highlighted that mutations in genes coding for surrogate receptors are responsible for conferring resistance to <i>B. thuringiensis</i> Nevertheless, other mechanisms may also contribute to the reduction of the effectiveness of <i>B. thuringiensis</i>-based products for managing insect pests and even to the acquisition of resistance. Here, we review the relevant literature reporting how invertebrates (mainly insects and <i>Caenorhabditis elegans</i>) respond to exposure to <i>B. thuringiensis</i> as either whole bacteria, spores, and/or its pesticidal proteins.
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RNA Biol,
2014]
Small RNA programmed Argonautes are sophisticated cellular effector platforms known to be involved in a diverse array of functions ranging from mRNA cleavage, translational inhibition, DNA elimination, epigenetic silencing, alternative splicing and even gene activation. First observed in human cells, small RNA-induced gene activation, also known as RNAa, involves the targeted recruitment of Argonaute proteins to specific promoter sequences followed by induction of stable epigenetic changes which promote transcription. The existence of RNAa remains contentious due to its elusive mechanism. A string of recent studies in C. elegans provides unequivocal evidence for RNAa's fundamental role in sculpting the epigenetic landscape and maintaining active transcription of endogenous genes and supports the presence of a functionally sophisticated network of small RNA-Argonaute pathways consisting of opposite yet complementary "yin and yang" regulatory elements. In this review, we summarize key findings from recent studies of endogenous RNAa in C. elegans, with an emphasis on the Argonaute protein CSR-1.
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[
1986]
Wild-type body wall muscle cells of Caenorhabditis elegans produce at a constant ratio two myosin heavy chain isoforms, A and B, that form homodimeric myosins. Electron microscopy of negatively stained complexes of isoform-specific antibodies with isolated thick filaments shows that the surface of the 9.7 =B5m long filament is differentiated with respect to myosin content: a medial 1.8 =B5m zone contains myosin A and two polar 4.4 = =B5m zones contain myosin B. Biochemical and electron microscopic studies show that at 0.45 M KC1, pH 6.35, myosin B and paramyosin are solubilized. The medial all-myosin A region with novel core structures extending in a polar manner remain. These dissociation experiments suggest a sequential model for wild-type thick filament assembly in which myosins A and B would participate in the initiation and termination of assembly, respectively. Analysis of mutant thick filaments clarifies the relationship of the myosin isoforms. CB190 (
unc-54 I) thick filaments contain myosin A only and have normal length. CB1214 (
unc-15 I) mutants produce no paramyosin, and their thick filaments are composed of a medial myosin region
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Results Probl Cell Differ,
2017]
Asymmetric cell division is a common mode of cell differentiation during the invariant lineage of the nematode, C. elegans. Beginning at the four-cell stage, and continuing throughout embryogenesis and larval development, mother cells are polarized by Wnt ligands, causing an asymmetric inheritance of key members of a Wnt/B-catenin signal transduction pathway termed the Wnt/B-catenin asymmetry pathway. The resulting daughter cells are distinct at birth with one daughter cell activating Wnt target gene expression via B-catenin activation of TCF, while the other daughter displays transcriptional repression of these target genes. Here, we seek to review the body of evidence underlying a unified model for Wnt-driven asymmetric cell division in C. elegans, identify global themes that occur during asymmetric cell division, as well as highlight tissue-specific variations. We also discuss outstanding questions that remain unanswered regarding this intriguing mode of asymmetric cell division.