A Wake-Up Call for the Efficient Use of the Bacterial Resting Cell Process, with Focus on Low Solubility Products
Micro-organisms are often subjected to stressful conditions. Owing to their capacity to adapt, they try to rapidly cope with the unfavorable conditions by lowering their growth rate, changing their morphology, and developing altered metabolite production and other stress-related metabolism. The stre...
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Published in | Current microbiology Vol. 77; no. 8; pp. 1349 - 1362 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
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Springer US
01.08.2020
Springer Nature B.V |
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Abstract | Micro-organisms are often subjected to stressful conditions. Owing to their capacity to adapt, they try to rapidly cope with the unfavorable conditions by lowering their growth rate, changing their morphology, and developing altered metabolite production and other stress-related metabolism. The stress-related metabolism of the cells which interrupted their growth is often referred to as resting metabolism and can be exploit for specific and high rate production of secondary metabolites. Although the bacterial resting cell process has been described decades ago, we find it worthwhile to bring the process under renewed attention and refer to this type of processes as non-growing metabolically active (NGMA) cell processes. Despite their use may sound counterproductive, NGMA cells can be of interest to increase substrate conversion rates or enable conversion of certain substrates, not accessible to growing cells due to their bacteriostatic nature or requirement of resistance to a multitude of different stress mechanisms. Biomass reuse is an interesting feature to improve the economics of NGMA cell processes. Yet, for lipophilic compounds or compounds with low solubility, biomass separation can be delicate. This review draws the attention on existing examples of NGMA cell processes, summarizing some developmental tools and highlighting drawbacks and opportunities, to answer the research question if NGMA cells can have a distinct added value in industry. Particular elaboration is made on a novel and more broadly applicable strategy to enable biomass reuse for conversions of compounds with low solubility. |
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AbstractList | Micro-organisms are often subjected to stressful conditions. Owing to their capacity to adapt, they try to rapidly cope with the unfavorable conditions by lowering their growth rate, changing their morphology, and developing altered metabolite production and other stress-related metabolism. The stress-related metabolism of the cells which interrupted their growth is often referred to as resting metabolism and can be exploit for specific and high rate production of secondary metabolites. Although the bacterial resting cell process has been described decades ago, we find it worthwhile to bring the process under renewed attention and refer to this type of processes as non-growing metabolically active (NGMA) cell processes. Despite their use may sound counterproductive, NGMA cells can be of interest to increase substrate conversion rates or enable conversion of certain substrates, not accessible to growing cells due to their bacteriostatic nature or requirement of resistance to a multitude of different stress mechanisms. Biomass reuse is an interesting feature to improve the economics of NGMA cell processes. Yet, for lipophilic compounds or compounds with low solubility, biomass separation can be delicate. This review draws the attention on existing examples of NGMA cell processes, summarizing some developmental tools and highlighting drawbacks and opportunities, to answer the research question if NGMA cells can have a distinct added value in industry. Particular elaboration is made on a novel and more broadly applicable strategy to enable biomass reuse for conversions of compounds with low solubility. |
Author | Moens, Esther Verstraete, Willy Possemiers, Sam Bolca, Selin |
Author_xml | – sequence: 1 givenname: Esther surname: Moens fullname: Moens, Esther organization: ProDigest BVBA – sequence: 2 givenname: Selin surname: Bolca fullname: Bolca, Selin organization: ProDigest BVBA – sequence: 3 givenname: Sam surname: Possemiers fullname: Possemiers, Sam organization: ProDigest BVBA – sequence: 4 givenname: Willy surname: Verstraete fullname: Verstraete, Willy email: Willy.Verstraete@avecom.be organization: AVECOM |
BackLink | https://www.ncbi.nlm.nih.gov/pubmed/32270205$$D View this record in MEDLINE/PubMed |
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CitedBy_id | crossref_primary_10_1007_s12010_020_03448_x crossref_primary_10_1016_j_jenvman_2022_116626 |
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SubjectTerms | Bacteria - chemistry Bacteria - growth & development Bacteria - metabolism Bacterial Physiological Phenomena Biomass Biomedical and Life Sciences Biotechnology Conversion Growth rate Industrial Microbiology Life Sciences Lipophilic Metabolic Networks and Pathways Metabolism Metabolites Microbiology Morphology Review Article Secondary metabolites Solubility Substrates |
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Title | A Wake-Up Call for the Efficient Use of the Bacterial Resting Cell Process, with Focus on Low Solubility Products |
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