Molecular and Biochemical Approaches to Study the Evolution of NF-κB Signaling in Basal Metazoans.

Extensive genomic and transcriptomic sequencing over the past decade has revealed NF-κB signaling pathway homologs in organisms basal to insects, for example, in members of the phyla Cnidaria (e.g., sea anemones, corals, hydra, jellyfish) and Porifera (sponges), and in several single-celled protists (e.g., Capsaspora owczarzaki, some choanoflagellates). Therefore, methods are required to study the function of NF-κB and its pathway members in early branching organisms, many of which do not have histories as model organisms. Here, we describe a combination of cellular, molecular, and biochemical techniques that have been used for studying NF-κB, and related pathway proteins, in some of these basal organisms. These methods are useful for studying the evolution of NF-κB signaling, and may be adaptable to the study of NF-κB in other non-model organisms.