Cytochrome domain of cellobiose dehydrogenase. CDH-cyt is the cytochrome domain, at the N-terminus, of cellobiose dehydrogenase. CDH-cyt folds as a beta sandwich with the topology of the antibody Fab V(H) domain and binds iron. The haem iron is ligated by Met83 and His181 in UniProtKB:Q01738.
Heme-binding cytochrome domain of fungal cellobiose dehydrogenases. Cellobiose dehydrogenase (CellobioseDH or CDH) is an extracellular fungal oxidoreductase that degrades both lignin and cellulose. Specifically, CDHs oxidize cellobiose, cellodextrins, and lactose to corresponding lactones, utilizing a variety of electron acceptors. Class-II CDHs are monomeric hemoflavoenzymes that are comprised of a b-type cytochrome domain linked to a large flavodehydrogenase domain. The cytochrome domain of CDH and related enzymes, which this model describes, folds as a beta sandwich and complexes a heme molecule. It is found at the N-terminus of this family of enzymes, and belongs to the DOMON domain superfamily, a ligand-interacting motif found in all three kingdoms of life.
C-terminal domain of conjugative transposon protein TcpC. This family contains the C-terminal domain of conjugation protein TcpC and similar proteins. TcpC is required for efficient conjugative transfer, localizing to the cell membrane independently of other conjugation proteins, where membrane localization is important for its function, oligomerization and interaction with the conjugation proteins TcpA, TcpH, and TcpG. C-terminal domain is critical for interactions with these other conjugation proteins. TcpC has low level sequence identity to proteins encoded by the conjugative transposon Tn916, which is responsible for a large proportion of the tetracycline resistance in different pathogens.
