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J Neurophysiol,
2007]
The work of Clark et al. in this issue of J. Neurophysiology extends the analysis of thermotaxis in C. elegans by providing a detailed analysis of the adaptation of thermotactic behavior. Previous work indicates that thermotaxis in C. elegans involves a biased random walk in which changes in temperature alter the duration of the runs that an animal makes between turns. Interestingly, the authors find that although behavioral responses to increases and decreases in temperature have opposite effects on run length, the two responses are of similar magnitude and adapt with similar kinetics. These properties are predicted to allow the system act as a band-pass filter that would be less sensitive to temperature fluctuations occurring on a time-scale significantly faster or slower than the time needed for an average run. This analysis of C. elegans thermotaxis raises potential parallels to bacterial chemotaxis, with the kinetics of adaptation playing an important role in determining the ability of the organism to sense a stimulus gradient. This raises the possibility that diverse organisms may exploit similar system properties to solve similar problems, such as the problem of responding robustly to subtle gradations in an external stimulus.
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J Cell Biol,
2022]
During cytokinesis, microtubules become compacted into a dense midbody prior to abscission. Using genetic perturbations and imaging of C. elegans zygotes, Hirsch et al. (2022. J. Cell Biol.https://doi.org/10.1083/jcb.202011085) uncover an unexpected source of microtubules that can populate the midbody when central spindle microtubules are missing.
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Curr Opin Genet Dev,
1996]
This issue of Current Opinion in Genetics and Development examines mechanisms by which pattern is established during the development of a broad range of organisms and in a wide variety of tissues. Perhaps the most important message to emerge is that, on the whole, developmental mechanisms have been extraordinarily well conserved during evolution. Each embryo appears to have at its disposal a fundamental 'toolkit' of regulators and regulatory pathways with which to construct an organism. Most chapters in this issue discuss the tools; the last chapter, by contrast, addresses the evolutionary question of how different embryos give rise to distinct organisms with essentially the same 'tool-kit' of molecules during development.
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Expert Rev Vaccines,
2015]
Onchocerciasis or river blindness is a neglected parasitic disease causing severe dermatitis and visual impairment, predominantly in Africa. Historically, onchocerciasis control targeted vector breeding sites, but the current strategy relies on mass administration of a single drug, ivermectin. As programmatic goals shift from reducing public health impact to active elimination, sole reliance on ivermectin is threatened by contraindications in areas coendemic for loiasis, an inability to break transmission in some foci, and the emergence of drug resistance. Here, we argue that prophylactic and therapeutic vaccines would accelerate elimination efforts and safeguard the enormous strides made in onchocerciasis control. These vaccines could be based on one or more of three lead candidates identified by a newly formed transatlantic partnership, The Onchocerciasis Vaccine for Africa Initiative.
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FEBS J,
2023]
Developmental programs are tightly regulated networks of molecular and cellular signaling pathways that orchestrate the formation and organization of tissues and organs during organismal development. However, these programs can be disrupted or activated in an untimely manner, or in the wrong tissues, and this can lead to a host of diseases. This aberrant re-activation can occur due to a multitude of factors, including genetic mutations, environmental influences, or epigenetic modifications. Consequently, cells may undergo abnormal growth, differentiation, or migration, leading to structural abnormalities or functional impairments at the tissue or organismal level. This Subject Collection of The FEBS Journal on Developmental Pathways in Disease highlights 11 reviews and three research articles that cover a broad array of topics focused on the role of signaling pathways critical for normal development that are deregulated in human disease.
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Genetics,
2015]
A little over 50 years ago, Sydney Brenner had the foresight to develop the nematode (round worm) Caenorhabditis elegans as a genetic model for understanding questions of developmental biology and neurobiology. Over time, research on C. elegans has expanded to explore a wealth of diverse areas in modern biology including studies of the basic functions and interactions of eukaryotic cells, host-parasite interactions, and evolution. C. elegans has also become an important organism in which to study processes that go awry in human diseases. This primer introduces the organism and the many features that make it an outstanding experimental system, including its small size, rapid life cycle, transparency, and well-annotated genome. We survey the basic anatomical features, common technical approaches, and important discoveries in C. elegans research. Key to studying C. elegans has been the ability to address biological problems genetically, using both forward and reverse genetics, both at the level of the entire organism and at the level of the single, identified cell. These possibilities make C. elegans useful not only in research laboratories, but also in the classroom where it can be used to excite students who actually can see what is happening inside live cells and tissues.
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Cell,
2009]
The serine/threonine kinase Akt is a focal point in signaling pathways that control cell tumorigenesis and insulin resistance. In this issue, Padmanabhan et al. (2009) identify a phosphatase regulatory subunit PPTR-1 that regulates the insulin/insulin-like growth factor 1 pathway by counteracting Akt activity in worms and mammalian cells.
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Nat Methods,
2007]
Phenotyping is rapidly becoming the limiting step in genetic studies of model organisms. Increasing throughput is a technological challenge that calls for engineers.
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Elife,
2023]
A molecular pathway involving compounds found in processed foods and biogenic amines increases food intake and aging in the roundworm <i>C. elegans</i>.
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Physiol Genomics,
2003]
Life developed in a stressful environment. Stressors at the cellular level include heat, hypoxia, oxidative or reductive substances, mechanical or osmotic pressure, and toxic compounds like heavy metals. Various molecular pathways, more or less specific for the different stressors, developed during evolution to combat the molecular consequences of cell stress. Thermal stress induces the induction of a highly conserved protein family, the heat shock proteins (HSP).