American Chemical Society (ACS)
Genetically encoded sterol-modification of a synthetic intrinsically disordered protein leads to diverse self-assembly behavior
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, Preprint
Kim, S; Kaur, T; Shmidov, Y; Wang, M; Fan, L; Leo, A; Xiang, Y; Reker, D; Chilkoti, A
October 15, 2025
Duke Scholars
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Kim, S., Kaur, T., Shmidov, Y., Wang, M., Fan, L., Leo, A., … Chilkoti, A. (2025). Genetically encoded sterol-modification of a synthetic intrinsically disordered protein leads to diverse self-assembly behavior. American Chemical Society (ACS). https://doi.org/10.26434/chemrxiv-2025-5zcxx
Kim, Sarah, Taranpreet Kaur, Yulia Shmidov, Matthew Wang, Lixin Fan, Abigail Leo, Yan Xiang, Daniel Reker, and Ashutosh Chilkoti. “Genetically encoded sterol-modification of a synthetic intrinsically disordered protein leads to diverse self-assembly behavior.” American Chemical Society (ACS), October 15, 2025. https://doi.org/10.26434/chemrxiv-2025-5zcxx.
Kim S, Kaur T, Shmidov Y, Wang M, Fan L, Leo A, et al. Genetically encoded sterol-modification of a synthetic intrinsically disordered protein leads to diverse self-assembly behavior. American Chemical Society (ACS). 2025.
Kim, Sarah, et al. “Genetically encoded sterol-modification of a synthetic intrinsically disordered protein leads to diverse self-assembly behavior.” American Chemical Society (ACS), 15 Oct. 2025. Crossref, doi:10.26434/chemrxiv-2025-5zcxx.
Kim S, Kaur T, Shmidov Y, Wang M, Fan L, Leo A, Xiang Y, Reker D, Chilkoti A. Genetically encoded sterol-modification of a synthetic intrinsically disordered protein leads to diverse self-assembly behavior. American Chemical Society (ACS). 2025.