Group of proteins that share a common evolutionary origin, reflected by similarity in their sequence.
1Conclusion: HyPRPs represent a dynamically evolving protein family apparently unique to seed plants.
2The Rho small G protein family members regulate various actin cytoskeleton-dependent cell functions.
3Members of the reticulon protein family are predominantly distributed within the endoplasmic reticulum.
4In addition, the evolutionary relationships between members of the Cpn60 protein family are determined.
5We suggest that MTG pioneers a novel protein family involved in ECM-dependent synaptic differentiation.
6This protein family is implicated, through different mechanisms, in both benign and malignant neoplasias.
7Interestingly, many of these biologically active salivary proteins belong to the lipocalin protein family.
8MutLγ thus represents a new paradigm for the function of the eukaryotic MutL protein family.
9We now describe a quantitative proteomics approach to identify novel targets of this protein family.
10Finally, our studies reveal evidence for cross-talk between dysferlin and its protein family member myoferlin.
11Mutations in genes encoding other members of this protein family also result in impaired SAS regulation.
12The features of this protein family include a cysteine-rich motif present in the erythrocyte receptor-binding domain.
13Members of the TRIM protein family have been shown to inhibit a range of viral infections.
14We describe a previously unrecognized protein family from Aedes and Anopheles mosquitoes, here named SGS proteins.
15Our results highlight the diversity within the nudix protein family in terms of substrate recognition and catalysis.
16The present study shows that the HED-2 gene is a member of the LIM domain protein family.
Translations for protein family