Cyclotide Amino-acid Sequences
Analysis of the suite of known cyclotides reveals many sequence homologies that are important for understanding their unique physico-chemical properties and bioactivities. Table 1 presents a selection of cyclotides.
The cyclotides fall into two main structural subfamilies. Moebius cyclotides, the less common of the two, contain a cis-proline in loop 5 that induces a local 180° backbone twist (hence likening it to a Möbius strip), whereas bracelet cyclotides do not. There is smaller variation in sequences within these subfamilies than between them. A third subfamily of cyclotides are trypsin inhibitors and are more homologous to a family of non-cyclic trypsin inhibitors from squash plants known as knottins than they are to the other cyclotides.
It is convenient to discuss sequences in terms of the backbone segments, or loops, between successive cysteine residues. The six cysteine residues are absolutely conserved throughout the cyclotide suite and presumably contribute to the preservation of the CCK motif. Although the cysteines appear essential to maintaining the overall fold, several other residues that are highly conserved in cyclotides are thought to provide additional stability.
Throughout the known cyclotides loop 1 is the most conserved. Apart from the six cysteine residues, the glutamic acid and serine/threonine residues of loop 1 are the only residues to have 100% identity across the bracelet and Möbius subfamilies. Furthermore the remaining residue of this loop exhibits only a conservative change i.e. glycine/alanine. This loop is believed to play an important role in stabilizing the cyclotide structure through hydrogen bonding with residues from loops 3 and 5.
Loops 2-6 also have highly conserved features, including the ubiquitous presence of just a single amino acid in loop 4 that is likely involved in sidechain-sidechain hydrogen bonding. Other conserved residues include a hydroxyl-containing residue in loop 3, a glycine residue in the final position of loop 3, a basic and a proline residue in the penultimate position in loop 5 of bracelet and Möbius cyclotides respectively, and an asparagine (or occasionally aspartic acid) residue at the putative cyclisation point in loop 6. It is of interest to note that not only are certain residues highly conserved, but the backbone and side chain angles are as well.
With recent screening programs suggesting that the number of cyclotide sequences may soon reach the thousands, a database, CyBase, has been developed that offers the opportunity for comparisons of sequences and activity data for cyclotides. Several other families of circular proteins are known in bacteria, plants and animals and are also included in CyBase.
Read more about this topic: Cyclotides