A Dynamic ESCRT for Splitting Membranes

Beata Edyta Mierzwa

Sunday, August 06, 2017

Beata Science Art

  1. Growing Brain Cancer in Petri Dishes
    30 Jul, 2018
    Growing Brain Cancer in Petri Dishes
    Brain tumors are aggressive and deadly cancers, yet it has been difficult to study them in the laboratory. A new Nature Methods paper reports a ground-breaking method to grow tumors inside brain organoids, which are tiny organ-like structures derived from human stem cells that resemble the architecture of the brain. These tumors develop after introducing clinically-relevant mutations using genome-editing, and mimic the onset of brain cancer within the human brain - allowing researchers to learn
  2. An Epigenetic Jungle
    23 Jul, 2018
    An Epigenetic Jungle
    A gibbon is swinging across a river within an epigenetic landscape, which regulates compaction and expression of our DNA. The arid desert illustrates loosely packed DNA containing actively expressed genes, whereas the tropical forest represents densely packed chromatin. The gibbon genome is similar to ours, but many regions were heavily rearranged during evolution. Still, even the rearranged genes keep their original epigenetic landscapes because the shuffling has occurred at boundaries between
  3. A Knitted Network of DNA
    24 Aug, 2017
    A Knitted Network of DNA
    During division, cells disassemble their nucleus and release many independent chromosomes - but how are all those chromosomes enclosed in a single nucleus after mitosis? The protein BAF cross-bridges DNA strands, allowing the cell to 'knit' a network of DNA around the chromosome ensemble and guide the nuclear membrane along the surface. This drawing illustrates BAF as beads that link the DNA strands into a network. Congratulations to the Gerlich lab on this fantastic Cell paper!
  4. Nature Methods Cover - An Arrow Poison for CRISPR
    31 May, 2017
    Nature Methods Cover - An Arrow Poison for CRISPR
    My new artwork on the current Nature Methods cover - what a great honor! Ouabain, a molecule traditionally used as an arrow poison in Africa, is used as a new selection method for CRISPR. Congratulations to the Doyon lab for a fantastic paper!
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