基于呼吸的吸附剂-生物过程相容性研究。

Johannes Pastoors, Chris Baltin, Jens Bettmer, Alexander Deitert, Tobias Götzen, Carina Michel, Jeff Deischter, Isabel Schroll, Andreas Biselli, Regina Palkovits, Marcus Rose, Andreas Jupke, Jochen Büchs
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引用次数: 2

摘要

背景:下游工艺的效率在从传统石化工艺到可持续生物技术生产路线的转变中起着至关重要的作用。低能量需求和高选择性发酵产物分离的一个有前途的候选是目标产物在疏水吸附剂上的吸附。然而,只有有限的知识存在的相互作用,这些吸附剂和生物过程。吸附表面释放的抑制成分可能会对生物过程造成损害。另一种可能性是必需营养素的共吸附,特别是在原位施用时,使这些营养素无法被施用的微生物获得。结果:设计了一种研究吸附剂-生物过程相容性的试验方案,并应用于多种吸附剂。研究了缓蚀剂的释放和营养物的吸附。使用RAMOS设备记录的呼吸数据来评估吸附剂对三种不同微生物系统中最多六种不同吸附剂培养的影响。虽然在我们的研究中没有发现抑制剂释放,但观察到不同必需营养素的吸附。结论:吸附法在生物工艺产品回收中的应用总体上是可行的,但对每种应用中营养物的吸附需要单独评估。考虑到营养物的吸附作用,只有在微生物生长足够后才应用吸附产物分离。此外,需要增加共吸附营养物质的浓度来补偿营养物质的损失。提出的方案使研究吸附剂-生物过程的相容性具有高通量和有限的努力。
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Respiration-based investigation of adsorbent-bioprocess compatibility.

Background: The efficiency of downstream processes plays a crucial role in the transition from conventional petrochemical processes to sustainable biotechnological production routes. One promising candidate for product separation from fermentations with low energy demand and high selectivity is the adsorption of the target product on hydrophobic adsorbents. However, only limited knowledge exists about the interaction of these adsorbents and the bioprocess. The bioprocess could possibly be harmed by the release of inhibitory components from the adsorbent surface. Another possibility is co-adsorption of essential nutrients, especially in an in situ application, making these nutrients unavailable to the applied microorganism.

Results: A test protocol investigating adsorbent-bioprocess compatibility was designed and applied on a variety of adsorbents. Inhibitor release and nutrient adsorption was studied in an isolated manner. Respiratory data recorded by a RAMOS device was used to assess the influence of the adsorbents on the cultivation in three different microbial systems for up to six different adsorbents per system. While no inhibitor release was detected in our investigations, adsorption of different essential nutrients was observed.

Conclusion: The application of adsorption for product recovery from the bioprocess was proven to be generally possible, but nutrient adsorption has to be assessed for each application individually. To account for nutrient adsorption, adsorptive product separation should only be applied after sufficient microbial growth. Moreover, concentrations of co-adsorbed nutrients need to be increased to compensate nutrient loss. The presented protocol enables an investigation of adsorbent-bioprocess compatibility with high-throughput and limited effort.

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