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Anim Cells Syst (Seoul),
2020]
In the last decade, microfluidic methods have proven to be powerful tools for <i>Caenorhabditis elegans</i> research, offering advanced manipulation of worms and precise control of experimental conditions. The advantages of microfluidic chips include their capability of immobilization, automated sorting, and longitudinal measurement, and more. In this review, we focus on control components that are widely used in the design of microfluidic devices, and discuss their functions and working principles that enable advanced manipulation on a chip. Understanding these components will ease the onboarding of researchers inexperienced with microfluidics and help them bring the power of microfluidics to new applications.
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Int J Biochem Cell Biol,
2003]
Kallmann's syndrome (KS) is a genetic condition characterised by hypogonadotrophic hypogonadism (HH) and anosmia; although these are the defining features of the condition, additional neurological and non-neurological sequel may also occur depending on the specific mode of inheritance. KS affects about 1 in 8000 males and 1 in 40,000 females, with most presentations being of the 'sporadic' type. Of the inherited forms, hitherto, only the gene responsible for the X-linked form (X-KS), namely KAL-1, has been identified and the encoded protein, anosmin-1, consists primarily of a whey acidic protein (WAP) and fibronectin-like type III (FnIII) domains which appear to mediate distinctly different protein functions. The WAP/FnIII combination is conserved in anosmins across species and recent studies in rodents and in Caenorhabditis elegans demonstrate that anosmin functions in both axonal targeting and branching. Screening for loci that modify these phenotypes in C. elegans has identified heparan-6-O-sulpbotransferase as a key interactor mediating anosmin-1 function. Furthermore, over-expression and loss of function of the C elegans Kal-1 gene disrupt epidermal morphogenesis, resulting in ventral enclosure and male tail formation defects. These findings provide novel insights into the molecular pathogenesis of X-KS.
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Neuron,
2002]
Three new studies into the function of human anosmin-1 and related proteins in C. elegans and rodents show that these influence axon branching and axon targeting. The rodent anosmin appears to work at two stages of development, initially promoting axon outgrowth from the olfactory bulb and then stimulating branching from axons into the olfactory cortex. CeKal-1 further influences morphogenesis, and, as the human and nematode anosmins are functionally conserved, these studies provide insights into the pathogenesis of Kallmann syndrome (KS).
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Bioessays,
2008]
Predicting the phenotype of an organism from its genotype is a central question in genetics. Most importantly, we would like to find out if the perturbation of a single gene may be the cause of a disease. However, our current ability to predict the phenotypic effects of perturbations of individual genes is limited. Network models of genes are one tool for tackling this problem. In a recent study, (Lee et al.) it has been shown that network models covering the majority of genes of an organism can be used for accurately predicting phenotypic effects of gene perturbations in multicellular organisms. BioEssays 30:707-710, 2008. (c) 2008 Wiley Periodicals, Inc.
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[
1980]
A number of review articles on the nematode cuticle have been published in the last decade. The most recent of these are those of Bird and Lee and Atkinson. These authors, while emphasizing the complexity and variability of nematode cuticles, support the use of a simplified nomenclature of cuticle structure which divides the cuticle into three regions or zones-namely, cortical, median, and basal. It is obvious that many exceptions to this fundamental pattern occur, and I shall mention some of these below. However, I think that they are adaptations to survival in changing environments, particularly where parasitism is involved. In particular, I propose to consider the structure and functions of the surface or epicuticle of the cortical zone, for it is here that reactions similar to those occurring at cell surfaces and in cell membranes are thought to occur in a wide range of "helminth" organisms. At the moment, particularly for the Nematoda, these ideas require more experimental evidence to establish them as facts. However, the use of sensitive techniques currently employed by membrane physicists and chemists to isolate, label, analyze, measure, and observe interactions taking place in cell membranes have in many instances yet to be used on the nematode cuticle. There is no doubt that the free-living bacterial-feeding nematodes such as those belonging to the genus Caenorhabditis, and in particular C. elegans, are the experimental models of choice for this purpose.
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Crit Rev Biochem Mol Biol,
2012]
The CCAAT box promoter element and NF-Y, the transcription factor (TF) that binds to it, were among the first cis-elements and trans-acting factors identified; their interplay is required for transcriptional activation of a sizeable number of eukaryotic genes. NF-Y consists of three evolutionarily conserved subunits: a dimer of NF-YB and NF-YC which closely resembles a histone, and the "innovative" NF-YA. In this review, we will provide an update on the functional and biological features that make NF-Y a fundamental link between chromatin and transcription. The last 25 years have witnessed a spectacular increase in our knowledge of how genes are regulated: from the identification of cis-acting sequences in promoters and enhancers, and the biochemical characterization of the corresponding TFs, to the merging of chromatin studies with the investigation of enzymatic machines that regulate epigenetic states. Originally identified and studied in yeast and mammals, NF-Y - also termed CBF and CP1 - is composed of three subunits, NF-YA, NF-YB and NF-YC. The complex recognizes the CCAAT pentanucleotide and specific flanking nucleotides with high specificity (Dorn et al., 1997; Hatamochi et al., 1988; Hooft van Huijsduijnen et al, 1987; Kim & Sheffery, 1990). A compelling set of bioinformatics studies clarified that the NF-Y preferred binding site is one of the most frequent promoter elements (Suzuki et al., 2001, 2004; Elkon et al., 2003; Marino-Ramirez et al., 2004; FitzGerald et al., 2004; Linhart et al., 2005; Zhu et al., 2005; Lee et al., 2007; Abnizova et al., 2007; Grskovic et al., 2007; Halperin et al., 2009; Hakkinen et al., 2011). The same consensus, as determined by mutagenesis and SELEX studies (Bi et al., 1997), was also retrieved in ChIP-on-chip analysis (Testa et al., 2005; Ceribelli et al., 2006; Ceribelli et al., 2008; Reed et al., 2008). Additional structural features of the CCAAT box - position, orientation, presence of multiple Transcriptional Start Sites - were previously reviewed (Dolfini et al., 2009) and will not be considered in detail here.