Scholars@Duke publication: Engineering Orthogonal Carbon Dissimilation: A Gluconate Bypass Platform for Robust Stationary-Phase Biomanufacturing

openRxiv

Engineering Orthogonal Carbon Dissimilation: A Gluconate Bypass Platform for Robust Stationary-Phase Biomanufacturing

Publication , Preprint

Yano, U; Sarkar, P; Lynch, MD

December 25, 2025

Published version (DOI) Publisher Link

Duke Scholars

Author Michael D Lynch Biomedical Engineering

DOI

10.64898/2025.12.23.696260

Publication Date

December 25, 2025

Citation

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Yano, U., Sarkar, P., & Lynch, M. D. (2025). Engineering Orthogonal Carbon Dissimilation: A Gluconate Bypass Platform for Robust Stationary-Phase Biomanufacturing. openRxiv. https://doi.org/10.64898/2025.12.23.696260

Yano, Utsuki, Payel Sarkar, and Michael D. Lynch. “Engineering Orthogonal Carbon Dissimilation: A Gluconate Bypass Platform for Robust Stationary-Phase Biomanufacturing.” OpenRxiv, December 25, 2025. https://doi.org/10.64898/2025.12.23.696260.

Yano U, Sarkar P, Lynch MD. Engineering Orthogonal Carbon Dissimilation: A Gluconate Bypass Platform for Robust Stationary-Phase Biomanufacturing. openRxiv. 2025.

Yano, Utsuki, et al. “Engineering Orthogonal Carbon Dissimilation: A Gluconate Bypass Platform for Robust Stationary-Phase Biomanufacturing.” OpenRxiv, 25 Dec. 2025. Crossref, doi:10.64898/2025.12.23.696260.

Yano U, Sarkar P, Lynch MD. Engineering Orthogonal Carbon Dissimilation: A Gluconate Bypass Platform for Robust Stationary-Phase Biomanufacturing. openRxiv. 2025.

DOI

10.64898/2025.12.23.696260

Publication Date

December 25, 2025