69 structures-"https:"-"https:"-"https:"-"https:"-"https:"-"UCL" positions at University of Oslo
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
understanding the dynamical and structural effects of various peptides on both simplified and complex membrane systems. The project will entail a combination of computational and experimental work, both directly
-
research. A demonstrated knowledge of, and experience, working with qualitative methods. Personal skills Applicants must be able to work independently and in a structured manner. Applicants should possess
-
. Experience in the construction or application of empirical or semi-empirical models of time-variable stellar irradiation. Familiarity with the high-energy environments of young stars and their impact on
-
for latent variable models (e.g., two-step approaches or approximate maximum likelihood estimation), or (d) meta-analytic models to address complex data structures (e.g., spatial models or second-order meta
-
on peptide-membrane interactions, and in particular, towards characterizing and understanding the dynamical and structural effects of various peptides on both simplified and complex membrane systems
-
embryonic development, leveraging our state-of-the-art epigenetic and epitranscriptomic methodologies (Nature, 2016; Nature Genetics, 2020; Nature Structural & Molecular Biology, 2023; Nature Biotechnology
-
equitable and inclusive. This PhD position has an education and society-oriented focus. The PhD Fellow will work with large-scale register and cohort data to investigate how social structures interact with
-
thinking Able to work independently and collaboratively Structured and able to manage complex projects Strong in analytical thinking and problem solving Communicative and able to work across disciplines
-
data sets (e.g. HST, TESS) for studies of stellar activity and exoplanet atmospheres. Experience in the construction or application of empirical or semi-empirical models of time-variable stellar
-
learning methods for generating complex structures for generation of virus capsids and therapeutic proteins for gene therapy. The project will involve both physics-based forward modeling of protein