Linchpins empower promiscuous electrophiles to enable site-selective modification of histidine and aspartic acid in proteins

Dattatraya Gautam Rawale; Kalyani Thakur; Pranav Sreekumar; Sajeev T. K.; Ramesh A.; Srinivasa Rao Adusumalli; Ram Kumar Mishra; Vishal Rai

Journal ArticleOPEN ACCESS

Linchpins empower promiscuous electrophiles to enable site-selective modification of histidine and aspartic acid in proteins

Chemical Science (2021) 12(19) 6732-6736

DOI: 10.1039/d1sc00335f

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Abstract

The conservation of chemoselectivity becomes invalid for multiple electrophilic warheads during protein bioconjugation. Consequently, it leads to unpredictable heterogeneous labeling of proteins. Here, we report that a linchpin can create a unique chemical space to enable site-selectivity for histidine and aspartic acid modifications overcoming the pre-requisite of chemoselectivity. This journal is

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Rawale, D. G., Thakur, K., Sreekumar, P., T. K., S., A., R., Adusumalli, S. R., … Rai, V. (2021). Linchpins empower promiscuous electrophiles to enable site-selective modification of histidine and aspartic acid in proteins. Chemical Science, 12(19), 6732–6736. https://doi.org/10.1039/d1sc00335f

Linchpins empower promiscuous electrophiles to enable site-selective modification of histidine and aspartic acid in proteins

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