Sort by
Refine Your Search
-
mouse models. · Perform mouse metabolic phenotyping and data analyses (e.g. glucose and lipid metabolism, glucose-stimulated insulin secretion, energy expenditure, and histology) · Apply
-
, amplicon sequencing, and metabolomics Analyze and interpret multi-omics datasets (e.g., sequencing, gene expression, metabolite profiles) Integrate data to understand microbial interactions and functional
-
testing and data analysis with opportunities to work in a multidisciplinary team and contribute to publications and funded research projects. Primary responsibilities: a. Perform catalyst characterization
-
community-engaged research. Required License/Registration/Certification N/A Physical Requirements repetitive motion typical of desk work (sitting/bending/typing/twisting); prolonged exposure to computer
-
and cellular biology, microbial pathogenesis, host–microbiota–pathogen interactions, microbial genetics, or related disciplines. Candidates with experience in bioinformatics and omics data analysis
-
ordering supplies, excellent record-keeping, safety compliance including correct chemical maintenance and disposal practices, analysis and presentation of data, archiving data in forms useful to other
-
development and practice advancement. For more information on this Fellowship, please visit https://pharmacy.uky.edu/ippafellow Please upload your resume, cover letter and transcript (unofficial copy is
-
for future research/career - A current curriculum vitae - Transcripts - Contact information for three references. Website http://gluck.ca.uky.edu/ The University of Kentucky is an equal opportunity university
-
that apply: ☒Sitting at computer work station for long periods of time ☒Standing for long periods of time ☒Risk of back injury from moving/lifting, equipment, or materials ☐Repetitive motion ☒Lifting/Carrying
-
learning methods and omics data to nominate candidate drivers of islet responses, identify potential conditional dependencies between them, and validate them using wet-lab experiments in mice and human