| URL: | http://knotprot.cent.uw.edu.pl/ |
| Full name: | A database of proteins with knots and slipknots |
| Description: | The KnotProt 2.0 collects information about proteins with knots, slipknots, knotoids and cysteine knots. The knots in the database are defined in either probabilistic way (main-chain knots), or deterministically - closed loops composed of pieces of the chain, disulfide bonds and interactions via ions. The knotting complexity of proteins is presented in the form of a matrix diagram that shows users the knot type of the entire polypeptide chain and of each of its subchains. The database presents extensive information about the biological function of entangled proteins and enables users to analyze their own structures. |
| Year founded: | 2012 |
| Last update: | 2018-12-01 |
| Version: | v2.0 |
| Accessibility: |
Accessible
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| Country/Region: | Poland |
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| University/Institution: | University of Warsaw |
| Address: | Pasteura 1,02-093 Warsaw,Poland |
| City: | Warsaw |
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| Country/Region: | Poland |
| Contact name (PI/Team): | Joanna I. Sulkowska |
| Contact email (PI/Helpdesk): | jsulkowska@chem.uw.edu.pl |
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KnotProt: a database of proteins with knots and slipknots. [PMID: 25361973]
The protein topology database KnotProt, http://knotprot.cent.uw.edu.pl/, collects information about protein structures with open polypeptide chains forming knots or slipknots. The knotting complexity of the cataloged proteins is presented in the form of a matrix diagram that shows users the knot type of the entire polypeptide chain and of each of its subchains. The pattern visible in the matrix gives the knotting fingerprint of a given protein and permits users to determine, for example, the minimal length of the knotted regions (knot's core size) or the depth of a knot, i.e. how many amino acids can be removed from either end of the cataloged protein structure before converting it from a knot to a different type of knot. In addition, the database presents extensive information about the biological functions, families and fold types of proteins with non-trivial knotting. As an additional feature, the KnotProt database enables users to submit protein or polymer chains and generate their knotting fingerprints. © The Author(s) 2014. Published by Oxford University Press on behalf of Nucleic Acids Research. |
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Conservation of complex knotting and slipknotting patterns in proteins. [PMID: 22685208]
While analyzing all available protein structures for the presence of knots and slipknots, we detected a strict conservation of complex knotting patterns within and between several protein families despite their large sequence divergence. Because protein folding pathways leading to knotted native protein structures are slower and less efficient than those leading to unknotted proteins with similar size and sequence, the strict conservation of the knotting patterns indicates an important physiological role of knots and slipknots in these proteins. Although little is known about the functional role of knots, recent studies have demonstrated a protein-stabilizing ability of knots and slipknots. Some of the conserved knotting patterns occur in proteins forming transmembrane channels where the slipknot loop seems to strap together the transmembrane helices forming the channel. |