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[
Mol Cell,
2009]
Three recent papers (Gu et al., 2009; Claycomb et al., 2009; van Wolfswinkel et al., 2009) provide evidence that links a new class of small RNAs and Argonaute-associated complexes to centromere function and genome surveillance.
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[
International Worm Meeting,
2017]
We wish to understand the molecular mechanisms that distinguish "self" and "non-self" DNA in the germline genome of C. elegans. Nuclear RNAi refers to a set of small RNA-guided chromatin-based gene-silencing pathways (e.g., heterochromatin formation and transcriptional silencing), and plays an essential role in genome surveillance in yeast, plants, and animals. We previously identified a large set of genomic loci that are targeted by germline nuclear RNAi in C. elegans [1,2]. The triggering mechanisms at these native targets appear to be highly complex and are poorly understood. We are using two different approaches to resolve this gap. (1) We are identifying aberrant features associated with germline nuclear RNAi-targeted transcripts. To this end, we are using an unbiased RNA-seq approach to characterize both polyA and non-polyA transcripts in both wild type and mutant animals. In addition, subcellular localization of the native target transcripts are being examined using single-molecule FISH and RNA-seq combined with biochemical fractionation. (2) We are using CRISPR-mediated genome editing to test whether the silencing responses at native targets are indeed triggered by the aberrant features that are identified in (1). To date, we have found that "self" and "non-self" transcripts differ in RNA-pocessing, as well as subcellular localization. By using CRISPR, we have identified cis-regulatory elements that are required for the silencing response. Reference: 1. Ni JZ, Chen E, Gu SG. BMC Genomics. 2014. PMID: 25534009 2. Ni JZ, Kalinava N, Chen E, Huang A, Trinh T, Gu SG. Epigenetics Chromatin. 2016. PMID: 26779286
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[
Worm Breeder's Gazette,
1994]
Cytology of degenerin-induced cell death in the PVM neuron David H. Hall, Guoqiang Gu+, Lei Gong#, Monica Driscoll#, and Martin Chalfie+, * Dept. Neuroscience, Albert Einstein College of Medicine, Bronx, N.Y. 10461 + Dept. Biological Sciences, Columbia University, New York, N.Y. 10027 # Dept. Molecular Biology and Biochemistry, Rutgers University, Piscataway, N.J. 08855
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[
Neuron,
2012]
The adult mammalian central nervous system exhibits restricted regenerative potential. Chen etal. (2011) and El Bejjani and Hammarlund (2012) used Caenorhabditis elegans to uncover intrinsic factors that inhibit regeneration of axotomized mature neurons, opening avenues for potential therapeutics.
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[
J Agric Food Chem,
2013]
Obesity and insulin resistance in skeletal muscles are major features of type 2 diabetes. In the present study, we examined the potential of Sambucus nigra flower (elderflowers) extracts to stimulate glucose uptake (GU) in primary porcine myotubes and reduce fat accumulation (FAc) in Caenorhabditis elegans. Bioassay guided chromatographic fractionations of extracts and fractions resulted in the identification of naringenin and 5-O- caffeoylquinic acid exhibiting a significant increase in GU. In addition, phenolic compounds related to those found in elderflowers were also tested, and among these, kaempferol, ferulic acid, p-coumaric acid, and caffeic acid increased GU significantly. FAc was significantly reduced in C. elegans, when treated with elderflower extracts, their fractions and the metabolites naringenin, quercetin-3-O-rutinoside, quercetin-3-O-glucoside, quercetin-3-O-5-acetylglycoside, kaempferol-3-O-rutinoside, isorhamnetin-3-O-rutinoside, and isorhamnetin-3-O-glucoside and the related phenolic compounds kaempferol and ferulic acid. The study indicates that elderflower extracts contain bioactive compounds capable of modulating glucose and lipid metabolism, suitable for nutraceutical and pharmaceutical applications.
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[
Immunity,
2017]
IL-17 is a cytokine known primarily for its role in inflammation. In a recent issue of Nature, Chen etal. (2017) demonstrate that IL-17 plays a neuromodulatory role in Caenorhabditis elegans by acting directly on neurons to amplify neuronal responses to stimuli and produce changes in animal behavior.
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[
PLoS Genet,
2022]
Pre-mRNA splicing is an essential step of eukaryotic gene expression carried out by a series of dynamic macromolecular protein/RNA complexes, known collectively and individually as the spliceosome. This series of spliceosomal complexes define, assemble on, and catalyze the removal of introns. Molecular model snapshots of intermediates in the process have been created from cryo-EM data, however, many aspects of the dynamic changes that occur in the spliceosome are not fully understood. Caenorhabditis elegans follow the GU-AG rule of splicing, with almost all introns beginning with 5' GU and ending with 3' AG. These splice sites are identified early in the splicing cycle, but as the cycle progresses and "custody" of the pre-mRNA splice sites is passed from factor to factor as the catalytic site is built, the mechanism by which splice site identity is maintained or re-established through these dynamic changes is unclear. We performed a genetic screen in C. elegans for factors that are capable of changing 5' splice site choice. We report that KIN17 and PRCC are involved in splice site choice, the first functional splicing role proposed for either of these proteins. Previously identified suppressors of cryptic 5' splicing promote distal cryptic GU splice sites, however, mutations in KIN17 and PRCC instead promote usage of an unusual proximal 5' splice site which defines an intron beginning with UU, separated by 1nt from a GU donor. We performed high-throughput mRNA sequencing analysis and found that mutations in PRCC, and to a lesser extent KIN17, changed alternative 5' splice site usage at native sites genome-wide, often promoting usage of nearby non-consensus sites. Our work has uncovered both fine and coarse mechanisms by which the spliceosome maintains splice site identity during the complex assembly process.
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[
Dev Cell,
2016]
Temperature-sensing neurons in C.elegans reduce the life-shortening effects of high temperatures via steroid signaling. In this issue of Developmental Cell, Chen etal. (2016) elucidate the underlying mechanisms by which the transcription factor CREB induces the neuropeptide FLP-6 in the temperature-sensing neurons to counteract the life-shortening effects of high temperature.
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[
Cell,
2014]
Surface receptors can link binding of ligands to changes in the actin-based cell cytoskeleton. Chia etal. and Chen etal. provide evidence for direct binding between the cytoplasmic tails ofreceptorsand the WAVE complex, a regulator of the actin nucleator Arp2/3 complex, which mighthelp to explain how environmental signals are translated into changes in morphology andmotility.
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[
Mol Neurodegener,
2015]
The original version of this article [1] unfortunately contained a mistake. The author list contained a spelling error for the author Hannah V. McCue. The original article has been corrected for this error. The corrected author list is given below:Xi Chen, Hannah V. McCue, Shi Quan Wong, Sudhanva S. Kashyap, Brian C. Kraemer, Jeff W. Barclay, Robert D. Burgoyne and Alan Morgan