«
How cytoplasm «feels» to a cell's components: In study that may guide drug design, researchers find organelles encounter varying levels of resistance.»
Not exact matches
Once the cells were trapped, researchers observed
how they underwent lysis: their cell walls and membrane ruptured, the
cytoplasm leaked, and the cell disintegrated.
Poroelasticity originates from
how fast
cytoplasm can diffuse water out of a region.
In particular, these characteristics determine
how easily it can push against a
cytoplasm's surrounding water and move through its ever - changing web of cytoskeletal protein structures.
Viscoelasticity, in the context of
cytoplasm, is
how fast its cytoskeleton, or web of proteins, changes configuration.
When asked
how he could tell, he replied, «Just by looking at the quality of the
cytoplasm in the unfertilized eggs.
Ever wonder
how biologists use RNA sequencing from
cytoplasm to decode a cell's stress response?
How is the pericentriolar matrix (PCM), an amorphous, micrometer - scale structure, assembled from thousands of nanometer - scale proteins in the
cytoplasm?
He is particularly interested in
how the structure of the nucleus is related to the synthesis and processing of RNA — specifically, what changes occur in the chromosomes and other nuclear components when RNA is synthesized, processed, and transported to the
cytoplasm.
Photosynthesis happens in the «palisade» cells in the leaf: Palisade cells Close up on a palisade cell: Cell wall Cell membrane Nucleus Large vacuole
Cytoplasm Chloroplasts (containing chlorophyll)
How do Plant Roots Work?