Development of a defined medium for the heterotrophic cultivation of Metallosphaera sedula.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-26 DOI:10.1007/s00792-024-01348-0
Viktor Laurin Sedlmayr, Maximilian Luger, Ernst Pittenauer, Martina Marchetti-Deschmann, Laura Kronlachner, Andreas Limbeck, Philipp Raunjak, Julian Quehenberger, Oliver Spadiut
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Abstract

The heterotrophic cultivation of extremophilic archaea still heavily relies on complex media. However, complex media are associated with unknown composition, high batch-to-batch variability, potential inhibiting and interfering components, as well as regulatory challenges, hampering advancements of extremophilic archaea in genetic engineering and bioprocessing. For Metallosphaera sedula, a widely studied organism for biomining and bioremediation and a potential production host for archaeal ether lipids, efforts to find defined cultivation conditions have still been unsuccessful. This study describes the development of a novel chemically defined growth medium for M. sedula. Initial experiments with commonly used complex casein-derived media sources deciphered Casamino Acids as the most suitable foundation for further development. The imitation of the amino acid composition of Casamino Acids in basal Brock medium delivered the first chemically defined medium. We could further simplify the medium to 5 amino acids based on the respective specific substrate uptake rates. This first defined cultivation medium for M. sedula allows advanced genetic engineering and more controlled bioprocess development approaches for this highly interesting archaeon.

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为沉积金属藻的异养培养开发限定培养基。
嗜极古菌的异养培养仍然严重依赖复杂培养基。然而,复杂培养基存在成分未知、批次间差异大、潜在的抑制和干扰成分以及监管难题等问题,阻碍了嗜极古细菌在基因工程和生物加工领域的发展。Metallosphaera sedula 是一种在生物采矿和生物修复方面被广泛研究的生物,也是嗜极古细菌醚脂的潜在生产宿主。本研究介绍了一种新型化学定义的沉降藻生长培养基的开发情况。通过对常用的复杂酪蛋白衍生培养基进行初步实验,发现卡萨氨基酸是最适合进一步开发的基础。在基础 Brock 培养基中模仿 Casamino Acids 的氨基酸组成后,我们得到了第一种化学定义培养基。我们根据各自的特定底物吸收率,将培养基进一步简化为 5 种氨基酸。这种首次定义的 M. sedula 培养基允许对这种非常有趣的古生物进行先进的基因工程和更可控的生物工艺开发。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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