The identification of synexpression groups has had an impact on the way some scientists view evolutionary change in higher eukaryotes.

They have been found in multiple domains of life, including bacteria, viruses and higher eukaryotes, including humans.

A similar hetero-assembly is seen in the ferritins of higher eukaryotes.

In higher eukaryotes, Wee1 inactivation occurs both by phosphorylation and degradation.

Conservation of replication factors among higher eukaryotes suggests that functionally they may play similar roles.

Many of these are conserved among the higher eukaryotes.

Initiation sequences in S. pombe and higher eukaryotes are not well defined.

It is possible that S2 serves the same functions in the ribosomes from high eukaryotes.

Whitelaw has worked extensively on the control of gene expression in higher eukaryotes.

Both species share genes with higher eukaryotes that they do not share with each other.