[HTML][HTML] Protein diffusion in mammalian cell cytoplasm
T Kühn, TO Ihalainen, J Hyväluoma, N Dross… - PloS one, 2011 - journals.plos.org
We introduce a new method for mesoscopic modeling of protein diffusion in an entire cell.
This method is based on the construction of a three-dimensional digital model cell from …
This method is based on the construction of a three-dimensional digital model cell from …
[HTML][HTML] Mapping eGFP oligomer mobility in living cell nuclei
N Dross, C Spriet, M Zwerger, G Müller, W Waldeck… - PloS one, 2009 - journals.plos.org
Movement of particles in cell nuclei can be affected by viscosity, directed flows, active
transport, or the presence of obstacles such as the chromatin network. Here we investigate …
transport, or the presence of obstacles such as the chromatin network. Here we investigate …
[HTML][HTML] Habenula circuit development: past, present, and future
CA Beretta, N Dross, JA Guiterrez-Triana… - Frontiers in …, 2012 - frontiersin.org
The habenular neural circuit is attracting increasing attention from researchers in fields as
diverse as neuroscience, medicine, behavior, development, and evolution. Recent studies …
diverse as neuroscience, medicine, behavior, development, and evolution. Recent studies …
[HTML][HTML] The ventral habenulae of zebrafish develop in prosomere 2 dependent on Tcf7l2 function
CA Beretta, N Dross, P Bankhead, M Carl - Neural development, 2013 - Springer
Background The conserved habenular neural circuit relays cognitive information from the
forebrain into the ventral mid- and hindbrain. In zebrafish, the bilaterally formed habenulae in …
forebrain into the ventral mid- and hindbrain. In zebrafish, the bilaterally formed habenulae in …
[HTML][HTML] Parvovirus induced alterations in nuclear architecture and dynamics
…, EA Niskanen, J Jylhävä, O Paloheimo, N Dross… - PloS one, 2009 - journals.plos.org
The nucleus of interphase eukaryotic cell is a highly compartmentalized structure containing
the three-dimensional network of chromatin and numerous proteinaceous subcompartments…
the three-dimensional network of chromatin and numerous proteinaceous subcompartments…
Neural stem cells induce the formation of their physical niche during organogenesis
…, EM Ambrosio, JS Stolper, CQ Lischik, N Dross… - Elife, 2017 - elifesciences.org
10.7554/eLife.29173.001 Most organs rely on stem cells to maintain homeostasis during
post-embryonic life. Typically, stem cells of independent lineages work coordinately within …
post-embryonic life. Typically, stem cells of independent lineages work coordinately within …
A PRDX1‐p38α heterodimer amplifies MET‐driven invasion of IDH‐wildtype and IDH‐mutant gliomas
…, T Hielscher, B Fischer, N Dross… - … journal of cancer, 2018 - Wiley Online Library
The Peroxiredoxin 1 (PRDX1) gene maps to chromosome arm 1p and is hemizygously
deleted and epigenetically silenced in isocitrate dehydrogenase 1 or 2 (IDH)‐mutant and 1p/19q‐…
deleted and epigenetically silenced in isocitrate dehydrogenase 1 or 2 (IDH)‐mutant and 1p/19q‐…
Sequential organogenesis sets two parallel sensory lines in medaka
A Seleit, I Krämer, E Ambrosio, N Dross… - …, 2017 - journals.biologists.com
Animal organs are typically formed during embryogenesis by following one specific developmental
programme. Here, we report that neuromast organs are generated by two distinct and …
programme. Here, we report that neuromast organs are generated by two distinct and …
[HTML][HTML] Collagen organization does not influence T-cell distribution in stroma of human pancreatic cancer
…, W Gross, F Bergmann, T Hackert, CA Beretta, N Dross… - Cancers, 2021 - mdpi.com
Simple Summary The excessive desmoplasia is the hallmark of human pancreatic cancer
that influences the local T-cell-based immune response. In the present work, the stromal …
that influences the local T-cell-based immune response. In the present work, the stromal …
[PDF][PDF] Early commissural diencephalic neurons control habenular axon extension and targeting
CA Beretta, N Dross, L Guglielmi, P Bankhead… - Current Biology, 2017 - cell.com
Most neuronal populations form on both the left and right sides of the brain. Their efferent
axons appear to grow synchronously along similar pathways on each side, although the …
axons appear to grow synchronously along similar pathways on each side, although the …