2N2W
Solution structure of [B26-B29 triazole cross-linked]-insulin analogue at pH 8.0
Summary for 2N2W
| Entry DOI | 10.2210/pdb2n2w/pdb |
| Related | 2N2V 2N2X |
| NMR Information | BMRB: 25614 |
| Descriptor | Insulin A chain, Insulin B chain (2 entities in total) |
| Functional Keywords | hormone |
| Biological source | Homo sapiens (human) More |
| Cellular location | Secreted: P01308 P01308 |
| Total number of polymer chains | 2 |
| Total formula weight | 5762.56 |
| Authors | |
| Primary citation | Vikova, J.,Collinsova, M.,Kletvikova, E.,Budesinsky, M.,Kaplan, V.,Zakova, L.,Veverka, V.,Hexnerova, R.,Avino, R.J.,Strakova, J.,Selicharova, I.,Vanek, V.,Wright, D.W.,Watson, C.J.,Turkenburg, J.P.,Brzozowski, A.M.,Jiracek, J. Rational steering of insulin binding specificity by intra-chain chemical crosslinking. Sci Rep, 6:19431-19431, 2016 Cited by PubMed Abstract: Insulin is a key hormone of human metabolism with major therapeutic importance for both types of diabetes. New insulin analogues with more physiological profiles and better glycemic control are needed, especially analogues that preferentially bind to the metabolic B-isoform of insulin receptor (IR-B). Here, we aimed to stabilize and modulate the receptor-compatible conformation of insulin by covalent intra-chain crosslinking within its B22-B30 segment, using the Cu(I)-catalyzed Huisgen 1,3-dipolar cycloaddition reaction of azides and alkynes. This approach resulted in 14 new, systematically crosslinked insulin analogues whose structures and functions were extensively characterized and correlated. One of the analogues, containing a B26-B29 triazole bridge, was highly active in binding to both IR isoforms, with a significant preference for IR-B. Our results demonstrate the potential of chemistry-driven modulation of insulin function, also shedding new light on the functional importance of hormone's B-chain C-terminus for its IR-B specificity. PubMed: 26792393DOI: 10.1038/srep19431 PDB entries with the same primary citation |
| Experimental method | SOLUTION NMR |
Structure validation
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