Total chemical synthesis of murine ISG15 and an activity-based probe with physiological binding properties

Bo Tao Xin; Jin Gan; Daniel J. Fernandez; Klaus Peter Knobeloch; Paul P. Geurink; Huib Ovaa

Journal ArticleOPEN ACCESS

Total chemical synthesis of murine ISG15 and an activity-based probe with physiological binding properties

Organic and Biomolecular Chemistry (2019) 17(48) 10148-10152

DOI: 10.1039/c9ob02127b

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Abstract

The linear synthesis of the N-terminal domain of mISG15 has been developed which enables the synthesis of full-length mISG15 and the activity-based probe Rho-mISG15-PA via native chemical ligation. Pilot experiments showed that the synthetic proteins were properly folded and recognized by endogenous enzymes. Our synthesis strategy allows the generation of other mISG15-based probes and reagents that can accelerate the research in this field.

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Xin, B. T., Gan, J., Fernandez, D. J., Knobeloch, K. P., Geurink, P. P., & Ovaa, H. (2019). Total chemical synthesis of murine ISG15 and an activity-based probe with physiological binding properties. Organic and Biomolecular Chemistry, 17(48), 10148–10152. https://doi.org/10.1039/c9ob02127b

Total chemical synthesis of murine ISG15 and an activity-based probe with physiological binding properties

Abstract

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