Project description:CREB regulates Reproductive Aging through Hedgehog/Patched Signaling

Project description:Transgenerational transmission of environmental information in C. elegans

Project description:Transgenerational inheritance of an acquired small RNA-based antiviral response in C.elegans

Project description:Reproductive aging: fem-1 day 3 oocyte vs fem-1 day 8 oocyte

Project description:Fast genetic mapping of complex traits in C. elegans using millions of individuals in bulk

Project description:Reproductive aging: sma-2 fem-1 day 8 oocyte vs fem-1 day 8 oocyte

Project description:The mechanistic basis for how genetic variants cause differences in phenotypic traits is often elusive. We identified a quantitative trait locus in C. elegans that affects three seemingly unrelated phenotypic traits: lifetime fecundity, adult body size, and susceptibility to the human pathogen Staphyloccus aureus. We found a QTL for all three traits arises from variation in the neuropeptide receptor gene npr-1. Moreover, we found that variation in npr-1 is also responsive for differences in 247 gene expression traits. Variation in npr-1 is known to determine whether animals disperse throughout a bacterial lawn or aggregate at the edges of the lawn. We found that the allele that leads to aggregation is associated with reduced growth and reproductive output. The altered gene expression pattern caused by this allele suggests that the aggregation behavior might cause a weak starvation state, which is known to reduce growth rate and fecundity. Importantly, we show that variation in npr-1 causes each of these phenotypic differences through behavioral avoidance of ambient oxygen concentrations. These results suggest that variation in npr-1 has broad pleiotropic effects mediated by altered exposure to bacterial food. Two-channel experiment comparing mixed stage sample to mixed stage mixed 50:50 N2,CB4856 common reference

Project description:The mechanistic basis for how genetic variants cause differences in phenotypic traits is often elusive. We identified a quantitative trait locus in C. elegans that affects three seemingly unrelated phenotypic traits: lifetime fecundity, adult body size, and susceptibility to the human pathogen Staphyloccus aureus. We found a QTL for all three traits arises from variation in the neuropeptide receptor gene npr-1. Moreover, we found that variation in npr-1 is also responsive for differences in 247 gene expression traits. Variation in npr-1 is known to determine whether animals disperse throughout a bacterial lawn or aggregate at the edges of the lawn. We found that the allele that leads to aggregation is associated with reduced growth and reproductive output. The altered gene expression pattern caused by this allele suggests that the aggregation behavior might cause a weak starvation state, which is known to reduce growth rate and fecundity. Importantly, we show that variation in npr-1 causes each of these phenotypic differences through behavioral avoidance of ambient oxygen concentrations. These results suggest that variation in npr-1 has broad pleiotropic effects mediated by altered exposure to bacterial food.

Project description:Quantify fitness and dissect pleiotropic traits to study adaptation strategy of laboratory domesticated C. elegans strain N2

Project description:A Tunable Mechanism Determines the Transgenerational Duration of Small RNA Inheritance in C.elegans