It is likely that one of the first experiments to be undertaken would be the matching of the nucleus with a genetically compatible cytoplasm ... rather than in the proteins they encode.

Revealing the circuits driving protein gradients. Key cellular processes, such as cell differentiation, rely on protein gradients, i.e. the uneven distribution of proteins within ...

releasing the cargo to the cytoplasm. Different receptors recognize different classes of proteins, tRNAs or U snRNPs. Although much less is known about mRNA export, a fundamentally different ...

This study provides important insights into the regulation of a retained intron in the mRNA coding for OGT, a process known to be regulated by the O-GlcNAc cycling system, and highlights the ...

My laboratory studies the regulatory and structural roles of mRNAs in the cytoplasm. Specifically, we investigate how 3′UTRs regulate protein functions in a manner that is independent of protein ...

Marcks and Marcks-like 1 proteins are required for normal neurite formation and proliferation of neuro-glial progenitors during development and regeneration of the Xenopus spinal cord implicating ...

Now, scientists have discovered that human cells are home to their own hidden superheroes, secretly helping us to fight off a ...

In between all these compartments is the cytoplasm. All throughout the cell's many locations are proteins. They are responsible for all sorts of actions – building and breaking molecules ...

Cytoplasm Where enzymes and other proteins are made. Location of reactions in anaerobic respiration. Nucleus Contains DNA which carries the genetic code for making enzymes and other proteins used ...

Water storage and maintenance of turgor within the cell Plant cell Ribosomes Small complexes found in cytoplasm Location where ? are connected together to produce proteins All cell types Plasmids?