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) that have evolved to function in this fascinating, unique environment, that may be a rich source of new targets for antibacterial intervention. Exploiting recent developments in biochemical/biophysical assays
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View All Vacancies Are you an ambitious researcher looking for your next challenge? Do you have an established background in Machine Learning or Biophysics? Do you want to further your career in one
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will join the mechanobiology and biophysics laboratory which investigates the molecular mechanisms underlying positioning of chromosomes and mitotic spindles in dividing cells: https://profiles.ucl.ac.uk
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Biophysical group at the Department of Physics and Astronomy of UCL. You will join Maxim Molodtsov’s laboratory that investigates molecular mechanisms underlying organization of chromosomes and genomes during
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to understand how root tips sense and respond to compacted soil environment. The high-level objective of the research is to discover key signals, sensing mechanisms and root cell biophysical responses
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respond to compacted soil environment. The high-level objective of the research is to discover key signals, sensing mechanisms and root cell biophysical responses in compacted soil. We seek highly motivated
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the area of neuroscience, biophysics, biomedical engineering or other relevant scientific discipline. Experience in in-vivo two-photon imaging microscopy, optogenetics, stereotaxic surgeries, animal
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of chromatin replication using single-molecule imaging, biochemical and biophysical approaches. The project aims to uncover how specific epigenetic marks and histone variants affect nucleosome dynamics during
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mechanisms of chromatin replication using single-molecule imaging, biochemical and biophysical approaches. The project aims to uncover how specific epigenetic marks and histone variants affect nucleosome
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. The successful applicant will use a combination of genetic perturbations, biophysical approaches and several high resolution imaging techniques to identify molecular regulators of BM growth during the development