Seiya Ishizawa

College of Sciences

Works (4)

Updated: April 5th, 2024 14:55

2024 article

Hexafluoroisopropanol as a Bioconjugation Medium of Ultrafast, Tryptophan-Selective Catalysis

Nuruzzaman, M., Colella, B. M., Uzoewulu, C. P., Meo, A. E., Gross, E. J., Ishizawa, S., … Ohata, J. (2024, February 29). JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, Vol. 2.

By: M. Nuruzzaman n, B. Colella n, C. Uzoewulu n, A. Meo n, E. Gross n, S. Ishizawa n, S. Sana*, H. Zhang* ...

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Sources: Web Of Science, NC State University Libraries
Added: March 18, 2024

2022 article

Phosphine-mediated three-component bioconjugation of amino- and azidosaccharides in ionic liquids

Hall, Y. D., Uzoewulu, C. P., Nizam, Z. M., Ishizawa, S., El-Shaffey, H. M., & Ohata, J. (2022, August 19). CHEMICAL COMMUNICATIONS, Vol. 8.

By: Y. Hall n, C. Uzoewulu n, Z. Nizam n, S. Ishizawa n, H. El-Shaffey n & J. Ohata n

MeSH headings : Carbohydrates; Ionic Liquids / chemistry; Phosphines
TL;DR: This report has developed a bioconjugation strategy for labeling of carbohydrate derivatives through a phosphine-mediated three-component coupling reaction in an ionic liquid medium. (via Semantic Scholar)
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Sources: Web Of Science, ORCID, NC State University Libraries
Added: September 2, 2022

2022 article

Site-specific DNA functionalization through the tetrazene-forming reaction in ionic liquids

Ishizawa, S., Tumurkhuu, M., Gross, E. J., & Ohata, J. (2022, January 20). CHEMICAL SCIENCE, Vol. 1.

By: S. Ishizawa n, M. Tumurkhuu n, E. Gross n & J. Ohata n

TL;DR: The non-traditional medium-promoted labeling strategy described here provides an alternative design paradigm for future development of chemical tools for applications involving DNA functionalization. (via Semantic Scholar)
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Sources: Web Of Science, ORCID, NC State University Libraries
Added: January 26, 2022

2022 article

Site-specific DNA functionalization through the tetrazene-forming reaction in ionic liquids (vol 13, pg 1780, 2022)

Ishizawa, S., Tumurkhuu, M., Gross, E. J., & Ohata, J. (2022, June 7). CHEMICAL SCIENCE, Vol. 13, pp. 6749–6751.

By: S. Ishizawa n, M. Tumurkhuu n, E. Gross n & J. Ohata n

TL;DR: The non-traditional medium-promoted labeling strategy described here provides an alternative design paradigm for future development of chemical tools for applications involving DNA functionalization. (via Semantic Scholar)
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Sources: Web Of Science, NC State University Libraries
Added: June 13, 2022

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