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samples, iv) conducting bioinformatic analyses on RNA-Seq datasets, v) analyzing metabolites with mass spectrometers (LC-QTOF, SPME-GC-MS), and vi) disseminating results and knowledge generated
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. The ideal candidate holds a PhD in computer science, bioinformatics, biomedical engineering, electrical engineering or similar The UBC Department of Orthopaedics has an international reputation for excellence
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in computer science, bioinformatics, biomedical engineering, electrical engineering or similar The UBC Department of Orthopaedics has an international reputation for excellence in teaching, research
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microscopy. The ideal candidate will be highly creative, hardworking, and a team player. They will also have the ability to manage multiple projects and students in pursuit of team goals. Representative
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bioengineering, immunology, molecular biology and bioinformatics. The Kizhakkedathu lab (https://cbr.ubc.ca/our-people/investigators/jayachandran-kizhakkedathu/ ) develops novel polymers and biomaterials as
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bioengineering, immunology, molecular biology and bioinformatics. The Kizhakkedathu lab (https://cbr.ubc.ca/our-people/investigators/jayachandran-kizhakkedathu/ ) develops novel polymers and biomaterials as
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, triaging and discharging children with serious infections, and other co-morbidities. The exciting next stage of this program will be to expand to multiple countries in East and West Africa, with rigorous
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infrastructures include multiple imaging scanners, including a long axial field-of-view (LAFOV) PET/CT scanner, and aims to push the limits of modern technology. Moreover, the close connection with the clinical
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trainees and researchers to freely explore creative ideas in supportive environments. The clinical infrastructures include multiple imaging scanners, including a long axial field-of-view (LAFOV) PET/CT
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supportive environments. The clinical infrastructures include multiple imaging scanners, including a long axial field-of-view (LAFOV) PET/CT scanner, and aims to push the limits of modern technology. Moreover