Pathways & interactions
PEBP-like superfamily (IPR036610)
Short name: PEBP-like_sf
- Phosphatidylethanolamine-binding, conserved site (IPR001858)
- YbhB/YbcL (IPR005247)
- Phosphatidylethanolamine-binding protein (IPR008914)
- Protein FLOWERING LOCUS T (IPR031095)
- TERMINAL FLOWER 1-like (IPR031114)
- Phosphatidylethanolamine-binding protein, eukaryotic (IPR035810)
- 54S ribosomal protein L35, mitochondrial (IPR040422)
The PEBP (PhosphatidylEthanolamine-Binding Protein) superfamily is a highly conserved group of proteins that have been identified in numerous tissues in a wide variety of organisms, including bacteria, yeast, nematodes, plants, drosophila and mammals. The various functions described for members of this family include lipid binding, neuronal development [PMID: 12492898], serine protease inhibition [PMID: 11034991], the control of the morphological switch between shoot growth and flower structures [PMID: 10764580], and the regulation of several signalling pathways such as the MAP kinase pathway [PMID: 12551925], and the NF-kappaB pathway [PMID: 11585904]. The control of the latter two pathways involves the PEBP protein RKIP, which interacts with MEK and Raf-1 to inhibit the MAP kinase pathway, and with TAK1, NIK, IKKalpha and IKKbeta to inhibit the NF-kappaB pathway. Other PEBP-like proteins that show strong structural homology to PEBP include Escherichia coli YBHB and YBCL, the Rattus norvegicus (Rat) neuropeptide HCNP, and Antirrhinum majus (Garden snapdragon) protein centroradialis (CEN).
Structures have been determined for several members of the PEBP-like family, all of which show extensive fold conservation. The structure consists of a large central beta-sheet flanked by a smaller beta-sheet on one side, and an alpha helix on the other. Sequence alignments show two conserved central regions, CR1 and CR2, that form a consensus signature for the PEBP family. These two regions form part of the ligand-binding site, which can accommodate various anionic groups. The N- and C-terminal regions are the least conserved, and may be involved in interactions with different protein partners. The N-terminal residues 2-12 form the natural cleavage peptide HCNP involved in neuronal development. The C-terminal region is deleted in plant and bacterial PEBP homologues, and may help control accessibility to the active site.