Add to ORKGCurrently, there are significant gaps in understanding of the regulatory mechanisms involved in nociceptor sensitivity. Dysregulated nociceptor sensitivity is the likely pathogenesis in many types of chronic pain, a disease that ails over 100 million people in the United States alone. To improve current chronic pain therapies, it is essential to define the regulatory mechanisms responsible for nociception. The goal of this study was to characterize how genes classically involved in RNA processing and translation regulate nociceptor sensitivity. The model organism Drosophila melanogaster was used for this study because of their quantifiable response to noxious stimuli and the powerful tools available for genetic manipulations. My results sug...
Nociception refers to the process of encoding and processing noxious stimuli, which allow animals to...
Significance: Functional plasticity of the nociceptive circuit is a remarkable feature and is of cli...
Here, we describe a targeted reverse genetic screen for thermal nociception genes in Drosophila larv...
Chronic pain affects over 100 million adults in the United States and costs the US over $500 billion...
The goal of this study was to identify genes involved in regulating the function of class IV multide...
Nociception refers to the detection of noxious mechanical, chemical, or thermal stimuli by specializ...
Some cases of chronic pain arise from inappropriate sensitization as a result of changes in gene exp...
Abnormal pain affects ~50 million adults nationwide. With many of the current treatment options for ...
Millions of Americans suffer from chronic pain each year, and pain symptoms are the leading cause of...
Chronic pain is a major public health concern that affects about 100 million Americans, generates $6...
Drosophila melanogaster is a powerful model organism to study nociception. The compact and easily ma...
Nociception is the process by which sensory neurons in the periphery detect noxious stimuli and caus...
Drosophila melanogaster larvae detect noxious thermal and mechanical stimuli in their environment us...
Drosophila melanogaster larvae detect noxious thermal and mechanical stimuli in their environment us...
SummaryHere, we describe a targeted reverse genetic screen for thermal nociception genes in Drosophi...
Nociception refers to the process of encoding and processing noxious stimuli, which allow animals to...
Significance: Functional plasticity of the nociceptive circuit is a remarkable feature and is of cli...
Here, we describe a targeted reverse genetic screen for thermal nociception genes in Drosophila larv...
Chronic pain affects over 100 million adults in the United States and costs the US over $500 billion...
The goal of this study was to identify genes involved in regulating the function of class IV multide...
Nociception refers to the detection of noxious mechanical, chemical, or thermal stimuli by specializ...
Some cases of chronic pain arise from inappropriate sensitization as a result of changes in gene exp...
Abnormal pain affects ~50 million adults nationwide. With many of the current treatment options for ...
Millions of Americans suffer from chronic pain each year, and pain symptoms are the leading cause of...
Chronic pain is a major public health concern that affects about 100 million Americans, generates $6...
Drosophila melanogaster is a powerful model organism to study nociception. The compact and easily ma...
Nociception is the process by which sensory neurons in the periphery detect noxious stimuli and caus...
Drosophila melanogaster larvae detect noxious thermal and mechanical stimuli in their environment us...
Drosophila melanogaster larvae detect noxious thermal and mechanical stimuli in their environment us...
SummaryHere, we describe a targeted reverse genetic screen for thermal nociception genes in Drosophi...
Nociception refers to the process of encoding and processing noxious stimuli, which allow animals to...
Significance: Functional plasticity of the nociceptive circuit is a remarkable feature and is of cli...
Here, we describe a targeted reverse genetic screen for thermal nociception genes in Drosophila larv...