Ubiquitin Bacterial is a ubiquitin-like protein that is homologus to Prokaryotic ubiquitin-like protein. UBact was recently described by the group of Professor Aaron Ciechanover at the Technion, Israel. Ubiquitin was named for its ubiquitous presence among eukaryotes, while UBact is very limited in occurrence among the vast number of bacterial species. The terms 'Ubiquitin Bacterial' and 'Prokaryotic ubiquitin-like protein' suggest a molecular similarity between ubiquitin and UBact/Pup which is largely absent. While ubiquitin assumes a highly stable three-dimensional structure in solution, Pup has been shown to belong to the group of intrinsically disordered proteins. The establishment of the term UBact is controversial, since to date there is no experimental evidence presented to justify the distinction of UBact from Pup. The term UBact was denoted because several bacterial species from the phylum Nitrospirae contain both the Pup-proteasome system and a novel ORF-proteasome system that needed to be addressed and therefore was denoted UBact. The conjugation-proteasome components neighboring the UBact and Pup loci in these Nitrospirae bacteria show weak similarity and are probably not entirely redundant. Figure 2 illustrates the differences between the UBact and Pup loci in the representative Nitrospirae bacterium Leptospirillum ferrodiazotrophum. Further analyses of the UBact locus in Leptospirillum ferrodiazotrophum revealed its existence and extreme conservation across several gram-negative bacterial phyla, as illustrated in figure 3. In spite of the large difference in sequence, UBact is homologous to Pup and shares several characteristics with it: same genomic location within a cluster of genes homologous to Mpa -> Dop -> Pup/UBact -> PrcB -> PrcA -> PafA, C-terminal sequence that ends exclusively with glutamine or glutamate across bacterial species, short size and, high sequence conservation across tremendous evolutionary distance. The differences between UBact and Pup are their taxonomic distribution and amino acidsequences. While Pup is predominantly found in the gram-positive phylum Actinobacteria, UBact was identified only in gram-negative bacteria from the following five phyla: Nitrospirae, Verrucomicrobia, Armatimonadetes, Nitrospinae, and Planctomycetes. UBact was also identified in the genomes of several candidatus bacteria, and specifically from the candidate divisions Acetothermia, Handelsmanbacteria, Fraserbacteria, Terrybacteria, Poribacteria, Parcubacteria and Yanofskybacteria. With regard to the amino acid sequence, in difference from Pup and Ubiquitin, UBact does not contain a di-glycine motif at its C-terminus. Rather, it usually ends with the sequence RG. It took almost ten years since the discovery of Pup in 2008, to identify UBact. This is probably due to the difference between Pup and UBact amino acids sequences, and because very few bacteria from the five phyla where UBact is found have been sequenced. Bacteria from the phyla where UBact is found interact with humans, and are found in the human gut microbiota. In marine systems, the most frequently encountered nitrogen-oxidizing bacteria are related to the UBact encoding Nitrospina gracilis From the knowledge accumulated about the Pup-proteasome system and its importance in bacterial durability and disease causing ability, the homologous UBact-proteasome system is expected to have similar impact on the gram-negative bacteria where it is found. In addition to humans, animals such livestock and fish that eat from the ground or swim in water are expected to be constantly exposed to UBact containing bacteria in the soil and water respectively. From evolutionary perspective, the finding of the UBact-proteasome system in gram-negative bacteria suggests that either the Pup/UBact-proteasome systems evolved in bacteria prior to the split into gram positive and negativeclades over 3000 million years ago or, that these systems were acquired by different bacterial lineages through horizontal gene transfer from a third, yet unknown, organism. In support of the second possibility, two UBact loci were found in the genome of an uncultured anaerobic methanotrophic Archaeon. More possibilities exist. Update: UBact is also found in the gram-negative bacterial phylum Gemmatimonadetes and in the candidate phylum Latescibacteria.