Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
cellular molecular mechanisms in C. elegans that underlie transitions between sleep and wake states. You will conduct quantitative behavioral analyses as well as neuronal activity measurements in freely
-
extensive experience in C. elegans genetics, molecular biology, and aging biology. Imaging using confocal microscopy. Certifications/Licenses Required Knowledge, Skills, and Abilities Experience in genetics
-
are seeking motivated candidate who has experience in the following aspects: Biology of C. elegans; cell culture particularly induced pluripotent stem cells and neurons; recombinant protein production
-
, computational, and microscopic techniques to analyze behavioral and neuronal changes in C. elegans using a specialized microscopy, imaging platforms and computer vision analyses. Also assist with lab organization
-
of the mechanism of action of psychostimulants. Particularly, we use C. elegans to identify novel targets of drugs such as amphetamine and cocaine. Methods used range from genetic/epigenetics and
-
to quantify the viscoelastic properties and phase transitions of MEC-2 and related protein condensates. Working closely with team members and collaborators in NMR spectroscopy, and C. elegans neurobiology
-
to our research project investigating brain dynamics and cellular molecular mechanisms in C. elegans that underlie transitions between sleep and wake states. You will conduct quantitative behavioral
-
to understanding the biology of healthy aging and screening for health-promoting interventions using the C. elegans genetics model. Oversees laboratory strain collection inputs and outputs with guidance from
-
of the nematode C. elegans. Our lab integrates genetics, live imaging, quantitative analysis, and computational approaches to uncover the molecular mechanisms regulating aging and longevity. Key Responsibilities
-
the laboratory of Professor Coleen Murphy . Professor Murphy's research is centered on understanding the molecular mechanisms of aging, using the model system C. elegans as well as mammalian tissue