7LL7
[2]Catenane From MccJ25 Variant G12C G21C
Summary for 7LL7
Entry DOI | 10.2210/pdb7ll7/pdb |
NMR Information | BMRB: 30852 |
Descriptor | GLY-GLY-ALA-GLY-HIS-VAL-PRO-GLU-TYR-PHE, VAL-CYS-ILE-GLY-THR-PRO-ILE-SER-PHE-TYR-CYS (2 entities in total) |
Functional Keywords | mechanically interlocked molecule, lasso peptide, catenane, de novo protein |
Biological source | Escherichia coli More |
Total number of polymer chains | 2 |
Total formula weight | 2236.55 |
Authors | Link, A.J.,Schroeder, H.V. (deposition date: 2021-02-03, release date: 2021-08-04, Last modification date: 2024-11-13) |
Primary citation | Schroder, H.V.,Zhang, Y.,Link, A.J. Dynamic covalent self-assembly of mechanically interlocked molecules solely made from peptides. Nat.Chem., 13:850-857, 2021 Cited by PubMed Abstract: Mechanically interlocked molecules (MIMs), such as rotaxanes and catenanes, have captured the attention of chemists both from a synthetic perspective and because of their role as simple prototypes of molecular machines. Although examples exist in nature, most synthetic MIMs are made from artificial building blocks and assembled in organic solvents. The synthesis of MIMs from natural biomolecules remains highly challenging. Here, we report on a synthesis strategy for interlocked molecules solely made from peptides, that is, mechanically interlocked peptides (MIPs). Fully peptidic, cysteine-decorated building blocks were self-assembled in water to generate disulfide-bonded dynamic combinatorial libraries consisting of multiple different rotaxanes, catenanes and daisy chains as well as more exotic structures. Detailed NMR spectroscopy and mass spectrometry characterization of a [2]catenane comprising two peptide macrocycles revealed that this structure has rich conformational dynamics reminiscent of protein folding. Thus, MIPs can serve as a bridge between fully synthetic MIMs and those found in nature. PubMed: 34426684DOI: 10.1038/s41557-021-00770-7 PDB entries with the same primary citation |
Experimental method | SOLUTION NMR |
Structure validation
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