Continuous Valorization of Carbon Dioxide into the Fine Chemical Ectoine by Hydrogenovibrio marinus: A New Strategy for Pharmaceutical Production

四氢嘧啶 生物反应器 生物量(生态学) 生物过程 生物强化 二氧化碳 环境科学 工业微生物学 生产力 制浆造纸工业 生化工程 化学 食品科学 渗透调节剂 微生物 细菌 生物 发酵 化学工程 生态学 生物化学 工程类 经济 有机化学 氨基酸 宏观经济学 遗传学 脯氨酸
作者
Elisa Huang-Lin,Raquel Lebrero,Sara Cantera
出处
期刊:Environmental Science & Technology [American Chemical Society]
标识
DOI:10.1021/acs.est.4c12259
摘要

Current challenges in biopharmaceutical manufacturing, such as ectoine production, include high operational costs and limited availability. Transitioning to processes that valorize renewable carbon sources like CO2 into ectoine can make production more sustainable and accessible to the economy and society. However, cell platforms that produce ectoine with CO2 still require bioprocess optimization and resilient microorganisms able to continuously maintain high ectoine yields and CO2 removals. A comprehensive screening of cultivation and operational strategies was conducted in six stirred-tank gas bioreactors using the strain Hydrogenovibrio marinus, a halophilic, fast-growing, hydrogenotrophic bacterium with low nutrient requirements. Gas residence times of 120 min at gas ratios of 10:40:50 CO2:H2:air (% v/v) and dilution rates of 0.25 d-1 boosted ectoine production and biomass growth during long-term operation. Under these conditions, ectoine productivity reached 5.0 ± 0.3 g m-3 d-1, with maximum specific ectoine contents of 134.0 ± 6.3 mgEct gbiomass-1, achieving yields similar to heterotrophic strains. This study demonstrates for the first time the feasibility of integrating ectoine production with continuous CO2 abatement using H2 as a clean and hazard-free energy source, which marks a significant advancement in sustainable ectoine manufacturing and CO2 circularity.
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