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All eukaryotes rely on multi-protein assemblies, called kinetochores, to direct the segregation of their chromosomes in mitosis. The list of known kinetochore components has been growing rapidly in the post-genomic era: in animal cells, there are presently more than 80 proteins that show either exclusive or partial localization at kinetochores during mitosis. The future challenge is to elucidate how...
Protein interactions are essential components of signal transduction in cells. With the progress in genome-wide yeast two hybrid screens and proteomics analyses, many protein interaction networks have been generated. These analyses have identified hundreds and thousands of interactions in cells and organisms, creating a challenge for further validation under physiological conditions. The bimolecular...
Gene knockouts and knock-ins have emerged as powerful tools to study gene function in model organisms. The construction of such engineered alleles requires that homologous recombination between a transgenic fragment carrying the modifications desired in the genome and the locus to engineer occurs at high frequencies. Homologous recombination frequency is significantly increased in the vicinity of...
Protein misfolding and aggregation are key pathological features observed in numerous neurodegenerative diseases, including the misfolding of α-synuclein (α-syn) in Parkinson’s disease (PD) and β-amyloid in Alzheimer’s disease. While this phenomenon is widely observed, the etiology and progression of these diseases is not fully understood. Furthermore, there is a lack of therapeutic treatments directed...
The nematode Caenorhabditis elegans uses striated muscle in its body wall for locomotion. The myofilament lattice is organized such that all the thin filament attachment structures (dense bodies, analogous to Z-disks) and thick filament organizing centers (M-lines) are attached to the muscle cell membrane. Thus, the force of muscle contraction is transmitted through these structures and allows locomotion...
Myogenesis has proven to be a powerful paradigm for understanding cell fate specification and differentiation in many model organisms. This includes the nematode Caenorhabditis elegans for which the genetic, cellular, and molecular tools have allowed an in-depth understanding of muscle development. One tool not yet available in C. elegans is a robust, pure and prolific cell culture system to study...
DNA nanostructures are rationally designed, synthetic, nanoscale assemblies obtained from one or more DNA sequences by their self-assembly. Due to the molecularly programmable as well as modular nature of DNA, such designer DNA architectures have great potential for in cellulo and in vivo applications. However, demonstrations of functionality in living systems necessitates a method to assess the in...
Ratiometric fluorescent reporters have recently emerged a new technique to non-invasively measure aspects of cell physiology such as redox status, calcium levels, energy production, and NADH levels. These reporters consist of either a single or pair of fluorophores along with specific modifications, such as the addition of a protein domain which binds to a metabolite of interest, thereby producing...
Caenorhabditis elegans is a useful model organism for combining multiple imaging, genetic, and biochemical methodologies to gain more insight into the biological function of specific proteins. Combining both biochemical and genetic analyses can lead to a better understanding of how a given protein may function within the context of a network of other proteins or specific pathway. Here, we describe...
There are many challenges to live Caenorhabditis elegans imaging including the high motility of the animals and sustaining their viability for extended periods of time. Commonly used anesthetics to immobilize the C. elegans for imaging purpose prevents feeding of the animals and can cause cellular physiologic changes. Here we present three adapted or novel methodologies to image live C. elegans over...
The development in early 2013 of CRISPR/Cas9-based genome engineering promises to dramatically advance our ability to alter the genomes of model systems at will. A single, easily produced targeting RNA guides the Cas9 endonuclease to a specific DNA sequence where it creates a double strand break. Imprecise repair of the break can yield mutations, while homologous recombination with a repair template...
Single/low-copy transgene integration is essential for avoiding overexpression, ectopic expression and gene silencing in the germline. Here, we present an overview of a method that uses ultraviolet and trimethylpsoralen (UV/TMP) to generate single/low-copy gene integrations in Caenorhabditis elegans. Single/low-copy transgenes from extrachromosomal arrays are integrated into the genome using positive...
Toxicity arising from protein misfolding and aggregation (proteotoxicity) is tightly mechanistically linked to the emergence of late-onset neurodegenerative disorders such as Alzheimer’s and Parkinson’s diseases. Why these maladies manifest in late stages of life and what mechanisms protect the young organism from disease are key enigmas. The nematode Caenorhabditis elegans offers key advantages that...
The nematode Caenorhabditis elegans has been a powerful model system for biomedical research in the past decades, however, the efficient genetic tools are still demanding for gene knockout, knock-in or conditional gene mutations. Transcription activator-like effector nucleases (TALENs) that comprise a sequence-specific DNA-binding domain fused to a FokI nuclease domain facilitate the targeted genome...
Gene expression profiling provides a tool to analyze the internal states of cells or organisms, and their responses to perturbations. While global measurements of mRNA levels have thus been widely used for many years, it is only through the recent development of the ribosome profiling technique that an analogous examination of global mRNA translation programs has become possible. Ribosome profiling...
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