Abstract
Complex lasso proteins are a recently identified class of biological compounds that are present in considerable fraction of proteins with disulfide bridges. In this work, we look at complex lasso proteins as a generalization of well-known cysteine knots and miniproteins (lasso peptides). In particular, we show that complex lasso proteins with the same crucial topological features—cysteine knots and lasso peptides—are antimicrobial proteins, which suggests that they act as a molecular plug. Based on an analysis of the stability of the lasso piercing residue, we also introduce a method to determine which lasso motif is potentially functional. Using this method, we show that the lasso motif in antimicrobial proteins, as well in that in cytokines, is functionally relevant. We also study the evolution of lasso motifs, their conservation, and the usefulness of the lasso fingerprint, which extracts all topologically non-triviality concerning covalent loops. The work is completed by the presentation of extensive statistics on complex lasso proteins to analyze, in particular, the strange propensity for “negative” piercings. We also identify 21 previously unknown complex lasso proteins with an ester and a thioester bridge.
Highlights
Unification is a key concept in which the most important properties of a given phenomena are extracted
We have presented the results of a scrupulous analysis of all complex lasso proteins deposited in the entire RCSB PDB database
We showed that there is strong resemblance between complex lasso proteins of the L−1C type, lasso peptides, and antimicrobial cysteine knots
Summary
Unification is a key concept in which the most important properties of a given phenomena are extracted. In the 1990s, two other complex structures were discovered—cysteine knots [9,10,11,12,13] and lasso peptides (or lariat protoknots) [14,15,16,17,18,19]. Throughout this paper, we call these miniproteins. Both types have proven therapeutic significance [11,20,21], both featuring the presence of at least one covalent loop (formed by the main chain closed by an amide or disulfide bridge), which is pierced by some portion of the chain or its bridge (see Figure 1). Some cysteine knots and miniproteins fulfill a similar function
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